Patent Application
20240125110
The disclosure relates to a prefabricated cabin for being transported to an installation site, such as in particular a prefabricated log cabin. The disclosure also relates to a method for building a cabin as well as to a support a leg of a cabin. The cabin is suitable for accommodating people.
Such prefabricated cabins are known, where the cabin comprises a cabin box that can be transported as a unit, e.g., from a factory, to the installation site.
Conventionally, the prefabrication of a cabin has involved constructing a cabin box on top of an assembly base such as the factory floor. In case of a log cabin, constructing of the cabin box has involved piling of logs so that they form log walls of the cabin box surrounding an interior thereof. The piling has involved piling the logs on top of thin wood blocks giving support for the logs from below during the piling.
Transportation of a prefabricated cabin to the installation site can be carried out by placing the prefabricated cabin in a transport container for example. The prefabricated cabin is then lifted, moved and lowered to stand in its intended installation location on a foundation, which typically comprises foundation blocks provided beforehand in the installation location. The foundation blocks (e.g., lightweight aggregate concrete blocks) are typically at the area of corners of the cabin and used to raise the cabin a distance above ground so that a ventilation space is left below the cabin and between the foundation blocks. Permanent installation of the cabin requires careful isolation of the cabin box from damp rising from the ground via capillaries of the foundation.
A drawback of the aforementioned prior solutions has been that during assembling at the factory and later during transport of the cabin, it has been complicated to support and handle the cabin firmly while ensuring that the structure thereof is not harmed at any stage. In case of particularly a log cabin, a drawback has been that the supporting in different stages from initial steps of the assembling to the final installation has required different ways to ensure firm support of the cabin parts.
Another drawback of the aforementioned prior solutions has been that it has been challenging to ensure that the quality of the final supporting solution at the construction site is optimal in terms of rigidity, correctness of support points, damp proofing and ventilation.
An object of the disclosure is to introduce an improved support solution for a prefabricated cabin and a method for building a cabin. An object is particularly to introduce a solution by which one or more of the above-mentioned problems of prior art and/or drawbacks discussed or implied elsewhere in the description can be alleviated. An object is to introduce a solution, which provides a support from early steps of fabrication of the prefabricated cabin to final installation thereof. An object is to introduce a solution, which is well suitable for log cabins in particular.
It is introduced, inter alia, illustrative embodiments which give a robust and reliable support for elements of a cabin box during fabrication and/or transportation and/or final installation.
It is brought forward a new prefabricated cabin for being transported to an installation site, in particular a prefabricated log cabin, the prefabricated cabin comprising a cabin box comprising walls surrounding an interior of the cabin box; and support legs below corners of the cabin box configured for supporting the cabin box on top of them.
The support legs are fixed to the cabin box, each leg being in particular unattached to a supporting base, the prefabricated cabin being liftable and lowerable as one unit to stand on its support legs in a desired place, e.g., during transportation and/or installation, such as on a supporting base of a transport platform or of a transport container or of the installation site.
One or more of the legs, preferably each of said support legs, comprises
With this kind of solution one or more of the above-mentioned objects can be facilitated.
Preferable further details of the prefabricated cabin are described in the following, which further details can be combined with the prefabricated cabin individually or in any combination.
In a preferred embodiment, each said wall comprises horizontal, i.e., horizontally oriented logs piled on top of each other.
In a preferred embodiment, each said leg is arranged to carry part of the weight of the cabin box.
In a preferred embodiment, each said support leg is below a corner of two adjacent walls of the cabin box.
In a preferred embodiment, the first horizontal metal plates of the leg are fixed to adjacent walls which are at an angle, preferably right angle, relative to each other.
In a preferred embodiment, the first horizontal metal plate of the leg is fixed to a log end of a first horizontal log of the cabin box and to a log end of a second horizontal log of the cabin box, which logs are at a right angle relative to each other.
In a preferred embodiment, a first log end of a first log rests on a first upper support face portion of the first horizontal metal plate and a second log end of a second log rests on a second upper support face portion of the first horizontal metal plate.
In a preferred embodiment, said first log and second horizontal log are at an angle, preferably at a right angle relative to each other.
In a preferred embodiment, said first and second horizontal logs are in particular logs of adjacent walls which are at right angle relative to each other.
In a preferred embodiment, the leg comprises a first lateral support and positioning member for a first log end to be fixed on the horizontal metal plate, and a second lateral support and positioning member for a second log end to be fixed on the horizontal metal plate, which lateral support members protrude upwards from the first horizontal metal plate.
In a preferred embodiment, the lateral support and positioning members are two vertical plates, which are at a right angle relative to each other.
In a preferred embodiment, the first lateral support and positioning member is fixed to the first log end and the second lateral support and positioning member is fixed to the second log end, in particular the lateral support and positioning members being in an inner corner formed between the first log end and second log end.
In a preferred embodiment, the cabin box comprises a floor and a roof.
In a preferred embodiment, the floor is preferably placed to rest on an upper support face portion of the first horizontal metal plate.
In a preferred embodiment, the cabin is a sauna cabin, preferably comprising a heater inside the interior.
In a preferred embodiment, the one or more metal pillars are welded to said first and second horizontal metal plates.
In a preferred embodiment, there are two of said metal pillars between said first and second horizontal metal plates connecting these fixedly to each other.
In a preferred embodiment, the two metal pillars are vertical, i.e., vertically oriented, metal plates.
In a preferred embodiment, the two metal pillars are spaced apart, an opening extending horizontally through the leg between the two metal pillars. This provides that a lifting or binding member, such as a cargo strap can be guided through the opening. This facilitates easy binding and/or lifting of the cabin during transport thereof. This also facilitates rigidity of the leg. Preferably, the opening is at least 10 cm wide in horizontal direction, and at least 5 cm high.
In a preferred embodiment, the first and second horizontal plates and the metal pillars define the borders of the opening.
In a preferred embodiment, the vertical projections of the two metal pillars are within the vertical projections of the adjacent walls, in particular such that the vertical projection of one of the two metal pillars is within the vertical projection of a first log end, and the vertical projection of the other within the vertical projection of a second log end.
In a preferred embodiment, the two metal pillars are vertical plates at an angle, preferably at a right angle relative to each other.
In a preferred embodiment, the vertical distance between the first and second horizontal plates is at least 5 cm, preferably 5-20 cm.
In the preferred embodiment, the floor rests on an upper support face portion of the first horizontal metal plate, which is horizontally displaced from the aforementioned upper support face portions of the first horizontal metal plate on which the first log end and the second log end rest.
In the preferred embodiment, the third upper support face portion is on the opposite side of the first and second lateral support and positioning members than the first and second support face portion.
In the preferred embodiment, the one or more metal pillars of a leg are for transmitting loads between the first and second horizontal metal plates. Preferably, there are no other structures than the one or more metal pillars connecting the first and second horizontal metal plates fixedly to each other.
In a preferred embodiment, when the cabin is placed to stand on a base supported by the legs, each leg is arranged to carry part of the weight of the cabin box, the vertical reaction forces from the base being transmitted via the second horizontal metal plate of a support leg to the one or more metal pillars of the support leg and via the one or more metal pillars to the first horizontal metal plate and via the first horizontal metal plate to the cabin box such as preferably to the log ends thereof.
In a preferred embodiment, the first horizontal metal plate of the leg comprises fixing holes for fixing the leg to the cabin box. In particular, the first horizontal metal plate of the leg comprises a first fixing hole through which a first fixing member extends vertically fixing the first log end against the first upper support face portion and a second fixing hole through which a second fixing member extends vertically fixing the second log end against the second upper support face portion. The first fixing hole extends through the first upper support face portion and the second fixing hole extends through the second upper support face portion.
In a preferred embodiment, the second horizontal metal plate of the leg comprises a fixing hole through which a fixing member, such as an anchor bolt, can be placed to extend for thereby fixing the leg to a base.
In a preferred embodiment, the vertical projection of the first metal plate overlaps at least partially with the vertical projection of two adjacent walls of the cabin box. Preferably, the support leg is completely on the inner side of the perimeter of the vertical projection of the walls of the cabin box. Thereby, it does not extend horizontally over the perimeter of said vertical projection of the walls of the cabin box. Thus, the leg is well hidden below the cabin box.
It is also brought forward a new support leg, in particular a support leg of a prefabricated cabin, the support leg comprising
With this kind of solution one or more of the above-mentioned objects can be facilitated.
Preferable further details of the support leg have been described already above and will be described moreover in the following, which further details can be combined with the method individually or in any combination.
In a preferred embodiment, the first horizontal metal plate comprises a first upper support face portion for a first log end to be placed to rest on the first horizontal metal plate, and a second upper support face portion for a second log end to be placed to rest on the first horizontal metal plate.
In a preferred embodiment, the first horizontal metal plate comprises a third upper support face portion for a floor to be placed to rest on the first horizontal metal plate.
In a preferred embodiment, the leg comprises a first lateral support and positioning member for a first log end to be fixed on the horizontal metal plate, and a second lateral support and positioning member for a second log end to be fixed on the horizontal metal plate, which lateral support members protrude upwards from the first horizontal metal plate.
In a preferred embodiment, the first lateral support and positioning member is beside the first upper support face portion for a first log end, and the second lateral support and positioning member is beside the second upper support face portion for a first log end.
In a preferred embodiment, the lateral support members are two vertical plates, which are at an angle preferably at a right angle relative to each other. Preferably, the lateral support members form a corner and the first and second upper support face portions are on an outer side of a corner formed by the first and second lateral support and positioning members. Thus, the log ends can be placed on the outer side of them.
In a preferred embodiment, the third upper support face portion of the first horizontal metal plate is horizontally displaced from the aforementioned upper support face portions of the first horizontal metal plate, preferably on the opposite side of the first and second lateral support and positioning members than the support face portions. Thus, a floor can be positioned in the inner corner of the cabin box to rest on the leg when this kind of structure is desired.
In a preferred embodiment, the one or more metal pillars are welded to said first and second horizontal metal plates.
In a preferred embodiment, there are two of said metal pillars between said first and second horizontal metal plates connecting these fixedly to each other.
In a preferred embodiment, the two metal pillars are vertical metal plates.
In a preferred embodiment, the two metal pillars are spaced apart, an opening extending horizontally through the leg between the two metal pillars.
In a preferred embodiment, the two metal pillars are at an angle, preferably at a right angle relative to each other.
In a preferred embodiment, the distance between the plates is at least 5 cm, preferably 5-20 cm.
In a preferred embodiment, for fixing the leg to the cabin box, the first horizontal metal plate of the leg comprises fixing holes. In particular, the first horizontal metal plate of the leg comprises a first fixing hole through which a first fixing member can be placed to extend vertically and a second fixing hole through which a second fixing member can be placed to extend vertically. The first fixing hole preferably extends through the first upper support face portion and the second fixing hole preferably extends through the second upper support face portion. The second horizontal plate moreover preferably, although not necessarily, comprises a fixing hole through which a fixing member, such as an anchor bolt, can be placed to extend for thereby fixing the leg to a base.
In a preferred embodiment, the first horizontal metal plate comprises a first edge and a second edge which are at right angle, the corner between the first and second edges being slanted such that a third edge extends between them at an angle relative to both of them, preferably at 45 deg.
In a preferred embodiment, the first and second metal plates and the one or more metal pillars are made of metal, preferably of steel. Preferably, the support leg is preferably made of metal, preferably of steel.
In a preferred embodiment, each said support leg comprising said first and second horizontal metal plates and said one or more metal pillars is below only one corner of the cabin box. Thus, the support legs below corners of the cabin box can be separate from each other.
It is also brought forward a new method of building a cabin, comprising
With this kind of solution one or more of the above-mentioned objects can be facilitated.
Preferable further details of the method are described in the following which further details can be combined with the method individually or in any combination. Preferable further details of the prefabricated cabin and/or a support leg thereof have also been described earlier above which further details can be combined with the method individually or in any combination.
In a preferred embodiment, the providing a prefabricated cabin comprises
In a preferred embodiment, said placing logs on the support legs is performed such that a first log end of a first log rests on a first upper support face portion of the first horizontal metal plate and a second log end of a second log rests on a second upper support face portion of the first horizontal metal plate.
In a preferred embodiment, said placing logs on the support legs is performed such that a first log end of a first log rests beside the first support and positioning member and a second log end of a second log rests beside the second support and positioning member.
In a preferred embodiment, in said fixing the first lateral support and positioning member is fixed to the first log end the second lateral support and positioning member is fixed to the second log end.
In a preferred embodiment, in said fixing the first log end is fixed to the first upper support face portion of the first horizontal metal plate, and the second log end is fixed to the second upper support face portion of the second horizontal metal plate, in particular by fixing members extending through the first metal plate.
In a preferred embodiment, the method comprises after said placing the prefabricated cabin to stand on a supporting base of the installation site leaving the legs unfixed to the supporting base, or alternatively fixing the supporting legs of the prefabricated cabin to a supporting base of the installation site such as to concrete blocks thereof. The first option is preferred and enabled by firmness of the leg structure, and moreover preferred in many cases, in particular if there is no particular need for anchoring the cabin to its base.
In the following, the present disclosure will be described in more detail by way of example and with reference to the attached drawings, in which
Each said support leg 5 is arranged to carry part of the weight of the prefabricated cabin box 2. Each said support leg 5 comprises a first horizontal metal plate 6 placed below the cabin box 2 and supporting the cabin box 2 on top of it; and a second horizontal metal plate 7 configured for being placed against a supporting base, the second horizontal metal plate 7 being at a distance below the first horizontal metal plate 6; and one or more metal pillars 8,9 between said first and second horizontal metal plates 6,7 connecting them fixedly to each other. The one or more metal pillars 8,9 of the leg 5 are arranged to maintain the plates 6,7 at said distance from each other and to transmit loads between them.
In the preferred embodiment illustrated, each said wall 3 comprises horizontal, i.e., horizontally oriented, logs 10 piled on top of each other.
In a preferred embodiment, the vertical projection of the first metal plate 6 overlaps at least partially with the vertical projection of two adjacent walls 3 of the cabin box 2. This facilitates that loads are transmitted vertically without unnecessary torque. Preferably, the support leg 5 is completely on the inner side of the perimeter of the vertical projection of the walls 3 of the cabin box 2. Thereby, it does not extend horizontally over the perimeter of said vertical projection of the walls 3 of the cabin box 2. Thus, the leg is well hidden below the cabin box 2. This is visible in
The aforementioned support legs 5 are fixed to the cabin box below a corner of two adjacent walls of the cabin box 2, and also referred to as corner legs. Additional support legs could be provided also elsewhere than corners only, particularly in cases where the prefabricated cabin is relatively large or heavily loaded.
In the preferred embodiments, the first horizontal metal plate 6 is fixed to two adjacent walls of the cabin box 2, which adjacent walls are at an angle, in particular right angle relative to each other. The first horizontal metal plate 6 of the corner leg 5 is fixed to a first log end 10a of a first horizontal log 10 of the cabin box 2 and to a second log end 10b of a second horizontal log 10 of the cabin box 2, which logs are at a right angle relative to each other. Said first and second horizontal logs are logs 10 of adjacent walls which are at right angle relative to each other. The logs 10 and log ends 10a,10b are illustrated in
In the preferred embodiment, there are two, and preferably only two as illustrated, of said metal pillars 8,9 between said first and second horizontal metal plates 6,7 connecting these fixedly to each other. The two pillars 8,9 are vertical (i.e., vertically oriented) metal plates. The thickness of the plates 8,9 is preferably 4-20 mm, most preferably 8-15 mm. The length of the plates in horizontal direction is preferably 4-20 cm.
The two metal pillars 8,9 are spaced apart, an opening extending horizontally through the leg 5 between the two metal pillars 8,9. This provides that a lifting or binding member, such as a cargo strap can be guided through the opening. This facilitates easy binding and/or lifting of the prefabricated cabin during transport thereof. This also facilitates rigidity of the leg. Preferably, the opening is at least 10 cm wide in horizontal direction, and at least 5 cm high (preferably equal to the distance between the plates 6,7) since hereby said advantages are considerable.
The two metal pillars 8,9 being metal plates 8,9 and spaced apart facilitates that the structure 6,7,8,9 as seen from side becomes cellular and extremely high rigidity can be achieved for the leg 5 with relatively small amount of metal material. The structure is in the preferred embodiment overall such that the metal plates 6,7,8,9 define the borders of the opening 13.
Preferably, the distance between the plates 6,7 is at least 5 cm, preferably 5-20 cm. These ranges facilitate considerably the aim to raise the prefabricated cabin a distance above ground so that a ventilation space is left below the prefabricated cabin without making the leg 5 unstable.
Said metal plates 8,9 are preferably at an angle relative to each other, preferably at 70-110 deg, most preferably at a right angle relative to each other. The angle provides that a relatively long (in horizontal direction) pillar plate 8,9 can be used and it can be simply positioned below the walls of the parallel to the walls.
The one or more metal pillars 8,9 are preferably welded to said first and second horizontal metal plates.
The vertical projections of the two metal pillars 8,9 are within the vertical projections of the adjacent walls, as illustrated in
As visible in
In the preferred embodiment, the first lateral support and positioning member 11 is beside the first upper support face portion 6a for a first log end 10a and the second lateral support and positioning member 12 is beside the second upper support face portion 6b for a second log end 10b. In the prefabricated cabin 1, the first log end 10a of a first log 10 rests beside the first support and positioning member 11, in particular on the first upper support face portion 6a and a second log end 10b of a second log 10 rests beside the second support and positioning member 12 in particular on the second upper support face portion 6b.
The lateral support members are two vertical metal plates, which are at an angle relative to each other, most preferably at an angle 70-110 deg relative to each other, most preferably at a right angle relative to each other. The angle preferably is the same as the angle between the adjacent walls below the corner of which the leg 5 is positioned and/or the same as the angle between the first log end 10a and the second log end 10b.
The lateral support and positioning members 11,12 are placed against and fixed to the first log end 10a and second log end 10b, in particular in an inner corner formed between the first log end 10a and second log end 10b. This is illustrated in
The cabin box 2 preferably also comprises a roof 14 as visible in
The cabin box 2 preferably comprises one or more openings 16, such as window openings and/or door openings. The cabin box 2 preferably comprises a window mounted in a window opening and/or a door mounted in a door opening.
The prefabricated cabin 1 is preferably a prefabricated sauna cabin, preferably comprising in the interior 4 a heater and/or sauna benches. The heater could also be installed later in the interior 4, for example after transport and installation of the prefabricated cabin 1. The prefabricated cabin 1 could alternatively be some other kind of prefabricated cabin 1. It could be for instance a prefabricated storage cabin or a small prefabricated cottage cabin.
The leg 5 comprises a third upper support face portion 6c of the first horizontal metal plate 6, which is horizontally displaced from the aforementioned upper support face portions 6a,6b of the first horizontal metal plate 6 on which the first log end 10a and the second log end 10b rest. In particular, in the preferred embodiment visible in
The prefabricated cabin 1 can be placed to stand on a base, such as a base illustrated in
For fixing the prefabricated cabin 1 to the cabin box 2, the first horizontal metal plate 6 of the leg 5 comprises fixing holes 17,18 (shown in
For fixing the prefabricated cabin 1 to stand immovably on a base, such as a base 20 illustrated in
The support leg 5 of a prefabricated cabin 1, as such, according to an embodiment, comprises a first horizontal metal plate 6 configured for supporting the cabin box 2 on top of it and a second horizontal metal plate 7 configured for being placed against a supporting base, the second horizontal metal plate 7 being at a distance below the first horizontal metal plate 6; and one or more metal pillars 8,9 between said first and second horizontal metal plates 6,7 connecting them fixedly to each other. Several preferred details of the support leg 5 have already been described above, where the support leg has been described together with the cabin box 2. In the following the structure of the support leg 5, as such, is further described.
The first horizontal metal plate 6 comprises a first upper support face portion 6a for a first log end 10a to be placed to rest on the first horizontal metal plate 6 and a second upper support face portion 6b for a second log end 10a to be placed to rest on the first horizontal metal plate 6.
The first horizontal metal plate 6 comprises a third upper support face portion 6c for a floor 15 to be placed to rest on the first horizontal metal plate 6. As mentioned, this is not necessary since the floor could be also otherwise mounted or provided.
In the preferred embodiment, the leg 5 comprises a first lateral support and positioning member 11 for a first log end 10a to be fixed on the horizontal metal plate 6, and a second lateral support and positioning member 12 for a second log end 10b to be fixed on the horizontal metal plate 6, which lateral support members 11,12 protrude upwards from the first horizontal metal plate 6. The lateral support and positioning members are not necessary, but advantageous for achieving a leg structure that is overall extremely efficient in terms of rigidity and functions provided. The lateral support and positioning members can be integral to each other and connected at their ends to each other as illustrated, but this is not necessary.
In the preferred embodiment, the first lateral support and positioning member 11 is beside the first upper support face portion 6a for a first log end 10a and the second lateral support and positioning member 12 is beside the second upper support face portion 6b for a first log end 10b.
In the preferred embodiment, the lateral support members 11,12 are two vertical plates, which are at an angle, preferably at a right angle relative to each other as illustrated. The lateral support members 11,12 form a corner and the first and second upper support face portions 6a,6b are on an outer side of a corner formed by the first and second lateral support and positioning members 11,12. Thus, the log ends 10a,10b can be placed on the outer side of them and said members 11,12 need not be visible to the outside.
The third upper support face portion 6c of the first horizontal metal plate 6 is horizontally displaced from the aforementioned upper support face portions 6a,6b of the first horizontal metal plate 6, preferably on the opposite side of the first and second lateral support and positioning members 11,12 than the first and second support face portion 6a,6b. Thus, a floor 15 can be positioned in the inner corner of adjacent walls of the cabin box 2 to rest on the leg 5 when this kind of structure is desired.
As mentioned, the one or more metal pillars are preferably welded to said first and second horizontal metal plates. Preferably, there are two of said metal pillars 8,9 between said first and second horizontal metal plates 6,7 connecting these fixedly to each other. The two support leg members 8,9 are preferably vertical metal plates, as illustrated. Preferably, the two metal pillars 8,9 are spaced apart, an opening extending horizontally through the leg 5 between the two metal pillars 8,9. The two metal plates 8,9 are preferably at an angle, preferably at a right angle relative to each other. The distance between the plates 6,7 is preferably at least 5 cm, preferably 5-20 cm.
For fixing the leg 5 to the cabin box 2, the first horizontal metal plate 6 of the leg 5 comprises fixing holes 17,18. In particular, the first horizontal metal plate 6 of the leg 5 comprises a first fixing hole 17 through which a first fixing member can be placed to extend vertically and a second fixing hole 18 through which a second fixing member can be placed to extend vertically. The first fixing hole 17 extends through the first upper support face portion 6a and the second fixing hole 18 extends through the second upper support face portion 6b. The leg 5 comprises a fixing hole 19 through which a fixing member, such as an anchor bolt, can be placed to extend for thereby fixing the leg 5 to a supporting base 20, of the installation site, such as to concrete blocks 21 thereof.
As for the shape of the first horizontal metal plate 6, preferably it comprises a first edge and a second edge which are at right angle, and the corner between the first and second edges is preferably slanted, such that a third edge extends between them at an angle relative to both of them, preferably 45 deg.
In an embodiment of a method of building a cabin, the method comprises providing a prefabricated cabin 1 as described anywhere above and illustrated in
After said placing the prefabricated cabin 1 to stand on a supporting base 20 of the installation site, the method preferably comprises leaving the support legs 5 unfixed to the supporting base 20. This is enabled by firmness of the leg structure, and moreover preferred in many cases, in particular if there is no particular need for anchoring the cabin 1 to its base. Leaving the support legs 5 unfixed is advantageous since in the structure of the prefabricated cabin 1 presented, the legs 5 are below the cabin box 2 supporting the cabin box 2 on top of it. Performing fixing, such as component positioning and accurate drillings, after the prefabricated cabin 1 stands on the supporting base 20 would consume additional time, e.g., due to the limited space.
Alternatively, the method can comprise after said placing the prefabricated cabin 1 to stand on a supporting base 20 of the installation site fixing the legs of the prefabricated cabin 1 to a supporting base 20 of the installation site, such as to concrete blocks 21 thereof. The fixing can be performed for example by anchor bolts 22 extending through fixing holes 19 of the legs 5. However, as mentioned this fixing is not necessary. Due to optionality of the fixing, the anchor bolt 22 is illustrated in broken line in
The aforementioned step of providing a prefabricated cabin 1 preferably comprises providing logs 10; and placing support legs 5 on a base of a factory, such as a floor of a factory; and placing logs on the support legs 5, such that they rest on first horizontal metal plates 6 of the support legs 5; and fixing logs 10 on the support legs 5; and piling further logs on the logs fixed to the support legs 5.
Preferably, said placing logs 10 on the support legs 5 is performed such that a first log end 10a of a first log 10 rests on a first upper support face portion 6a of the first horizontal metal plate 6 and a second log end 10b of a second log 10 rests on a second upper support face portion 6b of the first horizontal metal plate 6. Thus, the log ends 10a,10b are as illustrated in
Said placing logs 10 on the support legs 5 is performed particularly preferably such that a first log end 10a of a first log 10 rests beside the first support and positioning member 11 and a second log end 10b of a second log 10 rests beside the second support and positioning member 12.
Preferably, in said fixing the first lateral support and positioning member 11 is fixed to the first log end 10a and the second lateral support and positioning member 12 is fixed to the second log end 10a.
Preferably, in said fixing the first log end 10a is fixed to the first upper support face portion 6a of the first horizontal metal plate 6, and the second log end 10b is fixed to the second upper support face portion 6b of the second horizontal metal plate 6, in particular by fixing members extending through the first metal plate 6. This fixing could be alternatively or additionally be implemented by fixing members extending through the members 11,12.
Generally, in said fixing logs 10 on the support legs 5, preferably one or more layers of horizontally oriented logs 10 can be fixed. More than one layers can be fixed, e.g., by long vertical screws for example as illustrated in
The method may comprise at some point when desired, a step of binding the prefabricated cabin 1 immovably to its place, by a binding member such as a cargo strap, guided through an opening 13 extending horizontally through a leg 5 of the prefabricated cabin 1 between two metal pillars 8,9 of the leg 5. Thus, the leg structure can facilitate securing of the prefabricated to be immovable, e.g., during its transportation from the factory to the installation site. The method can particularly comprise the step of binding for instance between said placing the prefabricated cabin 1 to stand on its support legs 5 on top of a supporting base 31 of a transport platform or of a transport container 30 and said moving the transport platform or the transport container 30.
Generally preferably (although not necessarily), the prefabricated cabin is in particular a prefabricated log cabin, since in this context the leg structure is highly advantageous, for example due to facilitating fabrication of the prefabricated cabin at a factory, such as placing and piling of logs thereon, as well as due to facilitating supporting on support bases and movability of the cabin parts in different stages from initial steps of the fabrication to the final installation.
It is to be understood that the above description and the accompanying Figures are only intended to teach the best way known to the inventors to make and use the subject matter of the disclosure. It will be apparent to a person skilled in the art that the inventive concept can be implemented in various ways. The above-described embodiments of the disclosure may thus be modified or varied, without departing from the disclosure, as appreciated by those skilled in the art in light of the above teachings. It is therefore to be understood that the disclosure and its embodiments are not limited to the examples described above but may vary within the scope of the claims.
| Number | Date | Country | Kind |
|---|---|---|---|
| 22201120.7 | Oct 2022 | EP | regional |
