FI20205731A1 - Method, system and element for removing moisture and impurities from a base - Google Patents

Abstract

Elements (5) for removing moisture and / or impurities from a plinth (1) of a building, said element (5) comprising a pipe system of an air circulation system, in which at least a part of the pipe system of the air circulation system comprises a at both ends and at least on one side at least partially open housing structure (2) in the air circulation system's supply system for supply air and exhaust air. The element (5) also comprises at least one thermal insulation (8) in which the casing structure (2) is arranged to be formed by means of at least one thermal insulation (8) and / or on the sides of the casing structure (2) is arranged to be mounted (24) at least one thermal insulation (8) and a surface layer (6), which is arranged to be attached to at least one thermal insulation (8) and a protective cover (9), which is arranged to prevent moisture from outside the element (5) from entering the element (5) constructions. The element (5) is arranged to be attached to the surface of the base (1) so that the at least partially open side of the supply structures (2) intended for supply and exhaust air and at least one thermal insulation (8) are arranged to be permanently and airtight attached to the base (1). surface.

Description

BACKGROUND OF THE INVENTION The invention relates to a method, system and element for removing moisture and / or contaminants from a plinth.

Various building defects in building plinths cause moisture and mold problems in buildings. Particularly problematic is a foundation structure called a false plinth or concealed plinth, in which the lower part of the outer wall and the floor surface are located at or even below ground level. In this case, moisture from the outdoor and indoor air as well as the soil enters the wall structure, causing the structures to get wet, wood parts to rot and indoor air problems to form. Fake plinths have been widely used as a plinth structure for kindergartens, schools and detached and terraced houses.

A common method of repairing a false plinth is “shoeing”, in which the wooden and dampened lower parts of the wall structure are removed and replaced with a new structure. The repair will be done from inside the house, where the downstream will be removed and the vertical frame will be cut off from the bottom. The work proceeds in stages frame by frame. Either metal frame shoe shoes or various ready-made solutions for false plinth repair can be used for the repair.

The problem with the above solution is that the repair is done internally, which makes the repair slow and expensive. The wall surfaces to be repaired will have to be dismantled and re-coated, and it will not be possible to live in the apartment during the repair. Although ready-made solutions for false plinth repair make the job easier, they are expensive. However, the above-mentioned methods of repairing the plinth do not actively remove moisture and impurities, and no easy and inexpensive method for monitoring the condition of the plinth after repair N has been developed.

N 5 Brief description of the invention 5 The object of the invention is to develop a method, a system and an element = so that the above-mentioned problems can be solved. The object of the invention is achieved by a method, a system and an element which are characterized by what is stated in the independent claims. Some embodiments of the invention are the subject of dependent claims.

The invention comprises a method for removing moisture and / or contaminants from a building plinth by means of a system. The system comprises

a circulating system piping, wherein at least a portion of the air circulation system piping comprises a housing structure of the at least partially open circulating air system piping at both ends and at least one side.

In the method, at least one hole is drilled in the plinth at the mounting location of the housing structure and the at least partially open side of the housing structure is permanently and hermetically attached to the plinth surface so that the perforated mounting location in the plinth remains at least partially open.

The housing structure is adapted to be formed by means of at least one thermal insulation and / or a thermal insulation is applied to the sides of the housing structure and a surface layer is attached to the thermal insulation.

The protective cover prevents moisture from entering the system.

When the plinth is moist, dry air is circulated in the air circulation system piping, allowing the moisture and possible contaminants bound to the plinth to pass into the air circulating in the air circulation system piping through at least a partially open side of the plinth and the housing structure.

When the plinth is dry, in the ventilation duct - the recirculated dry air is vacuumed in relation to the air inside the building, allowing any contaminants in the plinth to be transferred to the recirculated air in the air circulation system piping.

The advantage of the method, system and element according to the invention is that the wetted plinth can be repaired cheaply, quickly and without disturbing the occupants.

The renovation will be carried out from outside the building via a plinth, so that all the premises in the building will be in use during the renovation.

Repair is also advantageous because expensive turnkey solutions developed for false plinth repair are not required.

In addition, in the solution according to the invention, thermal insulation is added to the outside of the plinth, which heats the plinth structure.

The warming of the structure, on the other hand, moves the dew point out of the plinth structure, reducing the accumulation of moisture in the plinth and wall structures themselves.

AN In the solution according to the invention, warm and dry air is recycled. holes in the air circulation system and the holes drilled in the plinth actively conduct moisture and contaminants out of the plinth, which enhances and accelerates the drying of the plinth.

If moisture builds up in the building during repair after it has been repaired, it can be easily detected and removed without causing any damage to health.

The vacuum associated with the system can be used to remove S moisture and contaminants such as harmful volatile organic compounds (VOCs), unpleasant odors, and radon.

With the method and system according to the invention, it is also possible to determine the condition information of the plinth from the air circulated in the piping of the air circulation system.

The condition information measured by the system can be used to detect and repair potential moisture damage before it causes more extensive damage to the building and health hazards to people staying or living in the building.

With the help of sensors placed in the piping, plinth and / or wall structures of the air circulation system, the location of moisture damage in the building can be quickly located and limited to a certain area.

The system allows the plinth to be dried while providing real-time monitoring information on drying.

In addition, a system that determines the condition information of the plinth is a good tool for monitoring the moisture in the plinth structures throughout the life cycle of the building.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described in more detail in connection with preferred embodiments, with reference to the accompanying drawings, in which: Figure 1 shows a cross-section of a false plinth structure to be repaired; Figure 2 shows a cross-section of a repaired false plinth structure using a system for removing moisture and / or contaminants from the plinth; and Figure 3 shows a method for removing moisture and / or contaminants from a structure.

DETAILED DESCRIPTION OF THE INVENTION Figure 1 shows a cross-section of a false plinth structure Q 25 to be repaired, in which moisture has damaged the internal structures of the outer wall.

The wall structure 11 comprises a wall surface cladding 15, which may be of board, brick or some other suitable material.

In addition, the wall structure has a wool space 16 and a lower part 5 10 of the wall, such as a lower bond wood and an inner wall coating.

The dashed arrows 13 in Fig. 1 = show how moisture travels in the structures and dampens the underside of the wall and the wool space 16 in the lower part of the wall 10. Moisture O through structures N and from the surface 18 as a result of surface water and air leaks.

The flow of moisture is illustrated by dashed arrows 13.

Moisture in the area of the lower part of the wall 10 and in the wool space 16 causes the growth of contaminants and various microbes in the interior from leaks in the floor boundary 12, causing indoor air problems. In Figure 1, the flow of contaminants from the lower part 10 of the wall structure 11 to the room air is illustrated by a solid arrow 14.

Figure 2 shows a cross-section of a system for removing moisture and / or contaminants from the plinth 1. Moisture damage to the structure shown in Figure 1 can be repaired by the system shown in Figure 2. The system may comprise an air circulation system piping, at least one thermal insulation 8, a surface layer 6 and a protective cover 9, in which system at least a part of the air circulation system piping may comprise a housing structure of the air circulation system piping at both ends and at least one side.

2. Although air is circulated in the piping of the air circulation system in the embodiments described below, another gaseous medium suitable for the application may also be used in place of the air. In the system, at least a part of the air circulation system piping may comprise a housing structure 2 of at least partially open air circulation system piping at both ends and at least on one side. , the purpose of which is to allow the housing to be fastened to the structure airtight, for example by means of screws and / or sealing compound. Other shapes and fastening methods of the housing structure 2 can also be used. According to one embodiment, the housing structure 2 can be made of sheet metal or plastic. According to another embodiment, the housing structure 2 can be adapted to be formed by means of at least one thermal insulator 8. In this case, a housing structure 2 can be formed in the thermal insulation 8, which is attached to the surface of the plinth 1 in an airtight manner. The housing structure 2 can be shaped, for example, by cutting an opening of suitable size for the insulation or a piping open on one side to allow air to circulate. According to one embodiment, different sizes of insulators can be attached. to the surface of the plinth 1 and / or to each other so as to provide a housing structure 2. 7 In the system, at least one hole 3 can be drilled in the housing structure 2 that the perforated mounting point in the plinth 1 remains at least partially open on the open side of the housing structure 1. It can be seen from Figure 2 that air circulates in the housing structure N on the surface of the plinth 1. One housing structure 2 can be used for supply air and the other for N 35 supply air. According to one embodiment, the supply air can be blown into the lower housing structure 2 and the outlet air exits through the upper housing structure 2. There are preferably several holes 3 to be drilled and they can be drilled into the plinth 1 at suitable intervals to enhance the flow of moisture. It can be seen from Figure 2 that the hole 3 is drilled in the plinth 1 at both the top and bottom of the housing structure 2 and the broken arrows 13 and the solid arrow 14 show how moisture and impurities are transferred from the structure to the holes 3, so that moisture and / or impurities do not cannot accumulate in the lower part 10 of the wall structure 11. The surface of the plinth 1 can also be roughened with respect to which the open side of the housing structure is mounted, because the surface of the plinth 1 may have paint or some other coating material that prevents moisture from escaping. Roughening can be used to enhance the transfer of moisture from the plinth 1 to the housing structure.

The housing structure 2 can be adapted to be formed by means of at least one thermal insulation 8 and / or at least one thermal insulation 8 can be arranged to be installed on the sides of the housing structure 2. This means that all but the plinth side 1 of the housing structure 2 If the housing structure 2 is formed by means of a thermal insulator 8, no other thermal insulator 8 is necessarily required. The thermal insulator 8 can be, for example, XPS or EPS secretion. The thermal insulation 8 can also be a unitary insulation, which is shaped so that there are openings in the middle which form the housing structures 2 or in which the housing structures can be installed if necessary. It can be seen from Figure 2 that insulators 8 are installed on the shorter sides, i.e. above and below the housing structures 2, whereby the insulators and housing structures can form a technical layer 7. Then on top of the technical layer 7 to the opposite side of the open side, a new insulating layer 4 may be attached, which may comprise at least one insulator 8. Finally, a surface layer 6 may be fitted to the insulating layer 4 formed by the thermal insulation 8, which may be, for example, a coated hardboard. The surface layer 6 prevents moisture and AN contaminants from entering the insulation layer from the ground and the ground surface. All attitude-. insulators 8 heat the plinth 1 and thereby help the building 7 to remain warmer. In this case, the dew point also moves from the surface of the plinth to the insulating layer © 30 4 or to it as the surface of the plinth 1 heats up due to the insulators 8, whereby the risk of moisture condensation E on the plinth 1 or wall structures is reduced. Part of the system is located above the ground, also protecting and heating the plinth 1 above the ground and giving the plinth 1 a new and improved appearance. N The ingress of moisture into the system from above can be prevented by a protective cover N 35 9, which can be arranged above the surface, insulation and technical layer and which can be attached at one end to the plinth 1 and possibly from below to the surface or insulation layer 4. The protective cover 9 can be, for example, a protective damper or some other similar protection that prevents moisture from entering the structures inside the system from above the system.

The system can be constructed on site from start to finish as described above, or one or more drying elements 5 can be used to construct the system. According to one embodiment, the element 5 for removing moisture and / or dirt from the building plinth 1 may comprise a surface layer 6 and an insulating layer 4 adapted to be attached to the surface layer 6. In addition, the element 5 may comprise a technical layer 7 adapted to be attached to the insulating layer 4. the layer 7 may comprise an air circulation system piping, wherein at least a part of the air circulation system piping may comprise at both ends and at least one side an at least partially open air circulation system piping for the supply air and supply air of the housing structure 2. The housing structure 2 can also be adapted to be formed alternatively by means of at least one thermal insulation 8 and / or insulators 8 can be attached to the edges of the housing structures 2. According to one embodiment, the thermal insulation 8 and the thermal insulation 8 of the technical layer 7 that there are openings in the middle which form the housing structures 2 or in which the housing structures can be mounted. The ingress of moisture from the outside of the flement 5 into the structures of the element 5 can be prevented by means of a protective cover 9 which can be adapted to be attached to the surface of the plinth 1 and to the supporting insulating layer 4. The entire element 5 can be adapted to be fastened to the surface of the plinth 1 by means of a technical layer 7, so that the at least partially open side and the insulators 8 of the housing structures 2 for supply and exhaust air are permanently fastened to the plinth surface. The insulators in the technical layer 7 can be attached. applied to the surface of the plinth 1 by means of a separate strip and / or sealing compound. The element 5 7 may further comprise at least one extension of the air circulation system piping, which connects either the housing structures 2 in the different elements 5 to each other or the housing structures in the same element to allow air to circulate in the air circulation system piping. An embodiment comprises an element 5 for removing moisture and / or contaminants from the building plinth 1. The flange 5 comprises an air circulation system piping, wherein at least a part of the air circulation system piping comprises at least a partially open air circulation system piping structure at both ends and at least one side. for supply air and exhaust air. The element 5 further comprises at least one thermal insulation 8, in which element the housing structure 2 can be adapted to be formed by means of at least one thermal insulation 8 and / or which at least one thermal insulation 8 can be adapted to be attached to the edges of the housing structure 2. The element 5 also comprises a surface layer 6, which can be adapted to be attached to at least one thermal insulator 8 and a protective cover 9 to prevent moisture from outside the element 1 from entering the structures of the element 5. According to one embodiment, the protective cover 9 can be adapted to be attached to the surface of the plinth 1. The element 5 can be adapted to be fixed to the surface of the plinth 1 so that at least a partially open side of the housing structures 2 for supply and exhaust air and at least one thermal insulator 8 are permanently and airtight fixed to the surface of the plinth 1.

When the plinth 1 is moist, dry air can be adapted to be recirculated in the piping of the air circulation system, whereby the moisture and possible impurities bound to the plinth 1 can pass through the air circulation system in the air circulation system. Generally, dry air at room temperature can be used as the recirculated air in the piping of the air circulation system. By dry air is meant air having a relative humidity RH of preferably <20%, more preferably <10%, and most preferably RH of 0%. The temperature of the recirculated air is preferably 21 ° C or below. The lower the air temperature, the less water vapor it contains. Preferably, the humidity of the air recirculated in the air circulation system piping is lower than the humidity of the plinth 1, whereby due to the partial pressure difference in the air circulation system piping the moisture bound to the plinth o 1 to air with a partial pressure of higher water vapor. 7 According to one embodiment, when the plinth 1 is moist, the air circulated in the piping of the air circulation system can also be adapted to be heated E and / or to be depressurized. The open housing structure - 2 of the air circulation system piping and the holes 3 drilled in the plinth 1 allow direct contact of the plinth material 1 around the recirculated air, whereby the moisture N in it can be transferred to the recirculated air through the holes 3 or the surface of the roughened plinth 1. According to another embodiment, the

the system may further comprise a fan unit which blows air into the piping of the air circulation system. The fan unit can also be adapted to heat and / or dry the air circulating in the air circulation system piping by means of a drying and / or heating system. According to one embodiment, the air drying and / or heating system may be located in the piping of the air circulation system before or after the fan unit. According to one embodiment, any moisture and / or contaminants bound to the recirculated air in the air circulation system piping can be adapted to be removed by drying the recirculated air and / or removing at least a portion of the recirculated air from the air circulation system piping and replacing it with new air. The fan unit can adjust the amount of airflow: for example, the amount of air to be removed and added.

According to one embodiment, the system may further comprise a heating system adapted to heat the plinth 1 and to enhance the moisture transfer from the plinth 1 to the housing structure 2. The heating system may be adapted to be installed outside the air circulation system piping in the plinth 1 inside the plinth 1. By means of the heating system, moisture and / or contaminants can be transferred to the open side of the housing structure 1. The heating system may comprise an electric resistance wire or some other system suitable for heating.

When the plinth 1 is dry, the dry air recirculated in the piping of the air circulation system can be adapted to be vacuumed relative to the air inside the building, whereby any contaminants in the plinth 1 can be transferred to the air recirculated in the air circulation system piping. The air recirculated in the piping of the air circulation system can be vacuumed in relation to the air inside the building, thus preventing any gas flows from the lower floor into the room by changing the direction of the air flow towards the drilled holes 3.. Vacuuming increases the transfer of moisture and / or contaminants to the recirculated air in the air circulation system piping. If you want to remove © 30 contaminants and leaking air from the structures, the vacuum can be low. A large vacuum E can be used to dehumidify the structure. Vacuuming can be done, for example - with the help of an engine shutter. S According to one embodiment, any moisture and / or impurities N 35 bound to the recirculated air in the air circulation system piping N can be removed by drying the recirculated air and / or removing at least a portion of the recirculated air from the air recirculation system and replacing it with new air.

Air can be removed outside and replacement air can be taken from outside or even from the house’s exhaust air system. The system can also be connected to a sensor that measures the moisture content of the outdoor air, and if the outdoor air humidity is lower than the indoor air humidity, the recirculated air in the air circulation system piping is led directly out and the replacement air is taken from the outside. Especially in winter, the frosty air is dry. If radon enters the buildings from the ground, the system can be used as a radon vacuum cleaner.

The dry and warm air circulated in the piping of the air circulation system dries the plinth 1 and, if necessary, also heats the structure, allowing the moisture and / or organic compounds in the plinth 1 to pass through the open side of the housing structure 2 through the perforated or porous plinth. The condition of the plinth 1 can be monitored in real time by placing sensors measuring the condition of the plinth 1, for example air inside a fan unit blowing inside the air circulation system piping, making them easy to replace and calibrate during operation. The sensors can also be placed in the air flow at different points in the piping of the air circulation system. The condition information of the structure can be determined on the basis of at least one measured output and input value. At least one of the following is measured in the measurement of the output and input value: temperature, relative humidity of the air, absolute humidity of the air, air pressure, air flow, amount of radon and at least one volatile organic compound (VOC) content. For example, when measuring without the input value of absolute humidity over a longer period of time, a change in the drying of the plinth 1 can be inferred. According to one embodiment, the system may further comprise a monitoring and control system and at least two sensors for determining the condition information of the plinth 1 from the air circulating in the piping of the air circulation system. In the system, at least one sensor can be adapted to measure at least one output value and at least one sensor from the air leaving the air circulation system. can be adapted to measure at least one inlet value from the air 7 entering the air circulation system piping. The monitoring and control system can then be adapted to determine the condition information of the structure on the basis of at least one output and input value E and to adjust the operation of the system on the basis of said condition information. In one embodiment, the monitoring and control system may comprise a counter, a memory for storing output and input values, data acquisition software, and N processor for generating condition information. Output and input values can also be sent N 35 from the monitoring and control system to a server that can determine the conditions.

information and send it to the monitoring and control system. All measurement and adjustment data can also be stored in the memory of a server or other device for later viewing. According to one embodiment, the sensor can be adapted to measure at least one of the following: humidity, temperature, barometric pressure, relative and absolute humidity, air flow and chemical compounds (VOC).

According to one embodiment, the system may comprise at least three sensors, said at least three sensors being adapted to measure the air pressure at least inside the building, in the structure and / or in the outside air. Based on the results obtained, the monitoring and control system can be adapted to adjust the operation of the system on the basis of said barometric pressure measurements.

In the following, the method for removing moisture and / or contaminants from the plinth 1 by means of the system will be illustrated with reference to Fig. 3. The system shown in Figs. The system and method can be used for the repair of false plinths, but also for other plinth or wall repairs or suitable applications.

A method for removing moisture and / or contaminants from a building plinth 1 by means of a system comprising an air circulation system piping, a thermal insulation 8, a surface layer 6 and a protective cover 9. In said system at least a portion of the air circulation system In the method, at least one hole 3 is drilled in the plinth 1 of the housing structure 2 and the at least partially open side of the housing structure 2 is permanently and hermetically fixed to the surface of the plinth 1 so that the perforated mounting point in the plinth 1 remains in the housing structure 2. at least partially inside the open side of the AN. The housing structure 2 can be formed of at least one thermal. by means of the insulator 8 and / or to the sides of the housing structure 2 at least one thermal insulation 8 is attached 24 and a surface layer 6 is attached to the at least one thermal insulation 8. The protective cover 9 prevents moisture from entering the system and can be attached to the E 28 plinth. when wet, 30 dry air is circulated in the piping of the air circulation system, whereby the moisture bound to the plinth 1 and any impurities can pass through the plinth 1 and at least one hole 1 and the at least partially open side of the housing structure 2 through the air circulation system pipes N 35 - recycled air. When the plinth 1 is dry, the dry air recirculated in the air circulation system piping is vacuumed 32 with respect to the air inside the building, whereby any contaminants in the plinth 1 can be transferred to the air recirculated in the air circulation system piping. It will be apparent to those skilled in the art that as technology advances, the basic idea of the invention may be practiced in many different ways. Thus, the invention and its embodiments are not limited to the examples described above, but may vary within the scope of the claims. o

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Claims (10)

Claims A system for removing moisture and / or contaminants from a building plinth (1), the system comprising an air circulation system piping, a thermal insulation (8), a surface layer (6) and a protective cover (9), the system comprising at least a sub-air circulation system - at least one hole (3) for drilling (20) in the plinth (1) of the housing of the housing structure (2) at least partially on one side of the piping housing structure (2) of the at least partially open air circulation system; the at least partially open side of the housing structure (2) is arranged to be fixed (22) permanently and airtight to the surface of the plinth (1) so that the perforated mounting point in the plinth (1) remains inside the housing structure (2) at least partially open; the housing structure (2) is adapted to be formed by means of at least one thermal insulation (8) and / or at least one thermal insulation (8) is arranged to be mounted (24) on the sides of the housing structure (2); a surface layer (6) is arranged to be attached (26) to the at least one thermal insulator (8); the protective cover (9) is adapted to prevent moisture from entering the system; when the plinth (1) is moist, dry air is arranged to be recycled (30) in the piping of the air circulation system, so that the moisture and possible impurities bound to the plinth (1) can pass through the plinth (1) and at least one hole (3) and the housing structure (2) at least partially through the open side to the air recirculated in the air circulation system piping; and when the plinth (1) is dry, the dry air circulating in the air circulation system piping is adapted to be vacuumed (32) relative to the air in the building, whereby any contaminants in the plinth (1) can be transferred to the air circulation in the air circulation system piping. K The system according to claim 1, wherein when the plinth (1) is moist, the air circulated in the piping of the air circulation system is adapted to be heated and / or depressurized. E The system according to claim 1 or 2, further comprising a fan unit adapted to heat and / or dry the air circulating in the piping of the air circulation system. OF A system according to any one of the preceding claims, further comprising a heating system adapted to be installed outside the piping of the air circulation system in the plinth (1). A system according to any one of the preceding claims, wherein any moisture and / or contaminants bound to the recirculated air in the air circulation system piping are adapted to be removed by drying the recirculated air and / or removing at least a portion of the recirculated air from the recirculation system piping and replacing it. A system according to any one of the preceding claims, further comprising a monitoring and control system and at least two sensors for determining condition information of the plinth (1) from the air circulating in the air circulation system piping, wherein at least one sensor is adapted to measure at least one output from the air circulation system piping; at least one sensor is adapted to measure at least one inlet value of the air coming from the air circulation system piping; and the monitoring and control system is adapted to determine the condition information of the structure based on the at least one output and input value and to adjust the operation of the system based on said condition information. The system of claim 6, wherein the sensors are adapted to measure barometric pressure at least indoors, in the structure and / or outdoors, and the monitoring and control system is adapted to adjust the operation of the system based on said barometric pressure measurements. A method for removing moisture and / or contaminants from a building plinth (1) by means of a system comprising an air circulation system piping, a thermal insulation (8), a surface layer (6) and a protective cover (9), wherein at least a portion of the air circulation system piping comprises - a housing (2) for the piping housing structure (2) of the at least partially open air circulation system from the pet ends and at least one side, in which method (20) is always drilled in the plinth (1) at the installation point of the housing housing structure (2). one hole (3); 7 the at least partially open side of the housing structure (2) is fixed (22) permanently and hermetically to the surface of the plinth (1) so that the perforated mounting point in the base (1) remains inside the at least partially open side of the housing structure (2); - the housing structure (2) is formed by at least one thermal insulation (8) S and / or at least one thermal insulation N (8) is installed (24) on the sides of the housing structure (2) and a surface layer (6) is attached (26) to the at least one thermal insulation (8); The N 35 protective cover (9) prevents moisture from entering the system; when the plinth (1) is moist, dry air is circulated (30) in the piping of the air circulation system, whereby the moisture bound to the plinth (1) and any impurities can pass at least partially through the plinth (1) and at least one hole (3) through the open side to the air recirculated in the air circulation system - piping; and when the plinth (1) is dry, the dry air recirculated in the air circulation system piping is vacuumed (32) relative to the indoor air of the building, whereby any contaminants in the plinth (1) can be transferred to the air circulation in the air circulation system piping. A method according to claim 8, wherein the building has a floor (17) and a wall structure (11) above the plinth, comprising thermal insulation (8), wherein the damaged part of the wall structure (11) and possibly at least partially wetted thermal insulation (8) is removed and replaced with wall structure and thermal insulation (8); and sealing the boundary point (12) of the wall structure (11) and the floor (17). An element (5) for removing moisture and / or contaminants from a building plinth (1), the element (5) comprising an air circulation system piping, wherein at least a portion of the air circulation system piping comprises at least a partially open air circulation system piping at both ends and at least one side 2) supply air and departure air; at least one thermal insulation (8), wherein the housing structure (2) is adapted to be formed by the at least one thermal insulation (8) and / or at least one thermal insulation (8) is arranged to be mounted (24) on the sides of the housing structure (2); o a surface layer (6) adapted to be attached to at least one O thermal insulator (8); and N a protective cover (9) adapted to prevent moisture from outside the element (5) from entering the structures of the element (5); © 30 each element (5) is adapted to be fixed to the surface E of the plinth (1) so that the at least partially open side and at least one thermal insulator (8) of the housing structures (2) for supply and exhaust air are arranged to be fixed permanently and 3 airtight to the plinth (1). ) to the surface. 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