SE534320C2 - Method and cooling device for the construction of buildings of ice and snow - Google Patents

Abstract

This invention relates to a method for building buildings A in ice A1 and snow A2 comprising placing foundation parts 1a-1d comprising ice on a substrate 2 in a shape corresponding to the external shape and inner division of the building, placing building elements 3a-3d comprising snow on the foundation parts 1a-1d for the completion of the building A and placement of at least one cooling device 4 over the finished building A. The invention also relates to a cooling device 4 for use in carrying out the method for building buildings A in ice A1 and snow A2 which comprises entrance transport device 9 enabling transport of a coolant 10. (See Fig. 1.) W: \ 0ther_CasedocumentslPatent \ P409- \ P40904439SE00 \ P40904439SE00 091116 to PRV.doc

Description

20 25 30 35 534 320 2 corresponding to the building's external shape and internal division, room division. The method also comprises placing building elements 3a-3d, including snow, on the foundation parts 1a-1d for completion of the building A. When the building A is finished, at least one cooling device 4 is placed over the finished building A.

The foundation parts 1a-1d of ice have a high density and keep the cold well, which also means that they keep their shape well. Foundation foundations 1a-1d form the lower part of the building's walls, both outer walls and inner walls.

The building elements 3a-3d of snow are slightly lighter and therefore easier to build on the height with.

The building elements of snow constitute the upper parts of the building's walls and also the building's roof.

The cooling device 4 which is laid over the building A is relatively thin and surface-spread so that it covers most of the building A and cools from above, which is advantageous because cold air sinks, which means that the building A is kept cold and thus retains its shape and appearance.

Manufacture of the foundation parts If there is no finished foundation, the placement of the foundation parts 1a-1d is preceded by the manufacture of the foundation parts 1a-1d. Finished foundations refer to snow and / or ice formations that already exist at the site where the building is to be built, for example formations formed by weather and wind, and which are ready to be used as foundations.

The manufacture of the foundation parts 1a-1d comprises releasing and forming ice blocks B from naturis where the ice blocks B will constitute the foundation parts 1a-1d. the ice blocks B may need form adjustments before they can be used as foundation parts 1a-1c. the ice blocks B, the foundation parts 1a-1d are straight parts if straight walls are to be built and are more or less curved if the walls are to bend in some direction or maybe even form a round or oval room. If a tight construction is desired, the blocks B, the foundation parts 1a-1d, are formed so that they conform to each other in shape and together form a tight foundation. the ice blocks B are sawn out of naturis, ice on a lake or river. The side of the ice that is upwards when the ice is on the lake, the side that you can walk on, is usually a little covered with snow and a little more porous than the rest of the ice block. This page is called casting page 1.1. This casting side 1.1, this snow- and ice-crust-covered side, is advantageously left on the ice blocks to be used for the actual construction. 10 15 20 25 30 35 534 320 Storage of the foundation parts The manufacture of the foundation parts 1a-1d is followed by cooled storage of the foundation parts 1a-1d in a storage space 5 before construction begins. The storage can be long or short in time. Storage of foundation parts makes it possible to use the ice blocks, and manufacture the foundation parts, when there is nature and then build buildings even if it is not particularly cold outside. Foundation parts, ice blocks, can be picked up in the winter and actually stored over the summer so that construction can begin before the ice has settled. The manufacture of foundation parts 1a-1d can also take place after storage of ice block B.

Moving the foundation parts Once the foundation parts 1a-1d have been manufactured, when the ice blocks B have been picked up and possibly shaped, they can also be moved to other parts than within the immediate area where the ice is found.

The manufacture of the foundation parts 1a-1d is followed without problems by cooled movement in a suitable means of transport 6, transport vehicle, of the foundation parts 1a-1d to the desired construction site. This also makes it possible to build buildings A of ice and snow in places other than where it is currently winter.

Placement of the foundation parts before construction begins, it is possible to cool the substrate 2, before placing the foundation parts 1a-1d on the substrate 2, by using the cooling device 4.

The cooling device 4 is laid out on, over, the substrate 2, usually ground, and is allowed to lie there and cool for as long as necessary depending on the temperature, both on the ground and in the air, and the effect on the cooling device 4.

The placement of the foundation parts 1a-1d includes placement of foundation parts to obtain walls, placement of different foundation parts in different ways to obtain different walls, walls with for instance different height, width and length. The foundation parts ta -lc are laid or laid out in rows. The placement of the foundation parts 1a and 1b comprises the placement of low foundation parts 1a in the same plane so corresponding to the wall sections desired. that low foundations, walls, in the building are obtained. The low foundation parts 1a are laid out one after the other. The placement of the foundation parts 1a and 1b also includes the placement of high foundation parts 1b in the same plane so that high foundations, walls, in the building are obtained. The high foundation parts 1b are placed more on a vertical edge and can be said to be exhibited.

The foundation parts 1a and 1b, both the low and the high ones, are placed one after the other in rows and the rows are placed parallel to each other so that passages are formed. The placement of the foundation members 1c comprises placing the foundation members 1c in a row across two inline rows with foundation members 1a or 1b to create a foundation for a wall arranged across one of the passages C or D.

The foundation parts 1d are placed in a circle or oval so that the foundation parts 1d together surround, delimit, a more or less circular or oval area, space. A foundation part 3d constitutes a segment of a circular formation and has a shape corresponding to this.

The foundation parts 1a-1d are placed in such a way that the casting side 1.1 of each part is turned upwards. The casting side 1.1 was the snow and ice crust side which is a little more porous and turning it upwards means that the foundation during construction on its upper side is provided with a material that acts as a putty between the foundation 1a-1d, the wall, and the building elements 3a-3d which are placed on a suitable foundation.

Manufacture of the building elements If there are no finished building elements 3a-3d, the placement of the building elements 3a-3d is preceded by the manufacture of the building elements 3a-3d. The manufacture of the building elements 3a-3d involves the formation of snow A2 into building elements 3a-3d by using devices 7 intended for this purpose.

Artificial snow is used to advantage. Artificial snow is wetter than natural snow and gives better results in the manufacture of building elements as the snow ions, the ice crystals, adhere better to each other.

The building elements 3a-3d also have a higher density. The building elements 3a-3d become more stable and stable and easier to handle as they do not tend to release pieces. Artificial snow is conveniently obtained with the help of a snow cannon, not shown in the ur gurema.

The manufacture of the building elements includes the manufacture of various types of building elements; whole arches 3a, half arches 3b, whole wall elements 3c and igloo elements 3d. An entire arch 3a comprises two abutment parts 3a1, parts or portions which abut against their respective foundations 1b. a high foundation 1b. on each side of aisle C, and the arch part 3a2 itself which connects the two abutment parts 3a1 to each other and which arches between the two abutment parts 3a1 over the aisle C and offers a roof.

A half arch arch 3b comprises an abutment part 3b1 which also abuts against a foundation 1a, a low foundation 1a, and only a half arch part 3b2 which terminates with an arch top part 3b2a which during construction will abut against another opposite half arch part arch part 3b2a to join form an entire arch. The opposite half of the arch part 3b2 also comprises an abutment part 3b1 which abuts against a foundation 1a, a low foundation 1a, on the other side of the passage D to be covered by the arch. This arch also forms a roof over a hallway.

The entire wall elements 3c have an upper edge 3c1 which corresponds in shape to the shape of an arched arch, to the lower substantially semicircular shape of an entire arched arch or to the common lower substantially semicircular shape of two arched arches arranged opposite each other.

An igloo element 3d resembles a half arch 3b. An igloo element 3d comprises an abutment part 3d1 which abuts against a foundation part, an igloo foundation part, 1c and an arch part 3d2 which terminates with an arch top part 3d3. An igloo element 3d together with other igloo elements shall form a dome with the arch parts 3d2, the arch top parts 3d3, directed and supporting each other at the dome's central and highest point E. An igloo element abutment part 3d1 forms a segment of a circular formation and has a shape corresponding thereto, and against the shape of the foundation parts 1d.

Storage of the building elements The manufacture of the building elements 3a-3d can, just like the manufacture of foundation parts 1a-1c, be followed by storage of the building elements in a installation space 5 for a certain time before the construction begins. Storage of building elements 3a-3d can improve the quality of the building elements.

They can have time to stabilize their shape and thus become sturdy and easier to handle.

The shelf life can be extended if they have had time to freeze together properly. The storage also makes it possible to extend the construction period, in the same way as the storage of the foundation parts.

Movement of the building elements Just as with the foundation parts 1a-1d, it is the case with the building elements 3a-3d that once they are manufactured, they can also be moved to other parts of the area, the country or the world.

The manufacture of the building elements is followed without problems by cooling for fl surface in a suitable means of transport 6, transport vehicle, of also building elements 3a-3d to the desired construction site. This also makes it possible to build buildings A from ice and snow in places other than where it is currently winter or where it is appropriate to manufacture building elements from snow, from artificial snow.

Placement of the building elements Just as there are different foundation parts 1a-1d, there are also different building elements 3a-3d so the placement of building elements 3a-3d includes placement of different building elements 3a-3d.

The placement of building elements 3a and 3b includes placement of entire arches 3a on high foundations 1b, side walls, and placement of half arches 3b on low foundations 1a, side walls. Both the whole and the half arches 3a and 3b comprise abutment parts 3a1 and 3b1 which are abutted against the foundation parts 1a and 1b.

The placement of half arches 3b is made so that the highest part of a half arch, the arch top part 3b2a, meets the corresponding part of an opposite and mirrored half arch so that a whole arch is obtained. The placement is made so that the half arches are placed so that in the area where they meet an opposite and mirrored half arch, at the arch top parts 3ba2, are arranged with some displacement so that a reversal of the highest half parts of the included half arches is obtained. See Fig. 4.

The placement of building elements in the form of whole or half arches 3a or 3b entails placement of parts of, upper parts of, the walls with above all the roof of the building.

The placement of building elements also includes the placement of entire wall elements 3c on foundation 1c under selected arches. The construction of the corridors C and D which are vaulted and the placement of wall elements 3c under certain arch arches makes it possible to build up a corridor and room system. There will be passages under the entire arches 3a and passages under arches which are made up of the half arches 3b. These corridors run in parallel and one time can be used for transport and the other time can be divided into rooms. It is also possible to build rooms in both corridors with passage openings in different ways.

Placement of building elements also includes placement of igloo elements 3d, the abutment part 3d1 of the igloo elements, on foundation 1c. Several igloo elements 3d together form and form a dome with the vault parts 3d2, the vault parts 3d3 parts, directed and supporting each other at the central and highest point E of the dome.

Location of the cooling device The location of the cooling device 4 comprises spreading the cooling device 4 directly on top of the finished building. The device is cooling in that a coolant is transported through the cooling device.

Activation of the cooling device The cooling device 4 must be active at a temperature above 0 ° Celsius and must also be activated at this temperature. The cooling device can also be activated at a temperature slightly below 0 ° Celsius to ensure that the environment of the building is sufficiently cold. The indication 0 ° Celsius can thus be interpreted as a range, approximately as -5 ° Celsius to 0 ° Celsius.

Using a cooling device 4 makes it possible to keep building A even if the temperature, especially during the day, is no longer low enough. Building A can stand intact for much longer with a cooling device 4. Using a cooling device 4 can extend the life of a building A of snow and ice by fl your months. It is even possible to build a building A before the real winter has started, during the time when the daytime temperature fluctuates from day to day and is not always below 0 ° Celsius. Continuous sensing of the temperature, usually the outdoor temperature, takes place in the vicinity of the building A for the registration of a temperature above 0 ° Celsius which leads to the activation of the cooling device 4.

The cooling device can be covered by a further surface-extended structure 8 to further retain the cold but also to be able to influence the appearance of the building A. The surface-wide structure 8 may comprise some kind of cloth which can be provided with at least one image, a print or the like, on some way.

The manufacture, storage and displacement of both foundation parts 1a-1d and building elements 3a-3d can be combined in a suitable manner so that the construction is facilitated in the best way.

Device The invention also relates to a cooling device 4 for use in carrying out the method. The cooling device 4 comprises a device 9 which in turn enables the transport of a coolant 10.

The transport device 9 comprises a system, a closed system, for transporting the coolant 10.

The transport device 9 comprises a hose 11 in which the coolant 10 is transported and through which the cold is conveyed and spread over the building A. The transport device 9 of the device comprises a pump 12 or the like which transports the coolant 10.

The device 4 also comprises a surface-spread sheet of material 13 on which parts of the transport device 9, the hose 11, are arranged. The sheet of material 13 may be a tarpaulin or the like. The hose 11 and the material sheet 13 are visible. The materials must be selected so that they can withstand cold temperatures so that the functions of the device are not compromised, so as not to risk material impact that is negative due to the temperature around the device becoming or having been low or even very low. The device 4 comprises a control unit 14 which activates the cooling device 4, the transport device 9, at temperatures above 0 ° Celsius. The same interval as previously discussed applies, minus 5 ° to 0 ° Celsius. The device 4, the control unit 14, comprises a temperature network 15 for continuous sensing of the temperature, most usually the outdoor temperature, in the vicinity of the building. When the temperature network 15 registers a temperature above 0 ° Celsius, a control signal is initiated for activating the cooling device 4, the transport device 9.

The device 4 can thus be used to be laid over the finished building A, but can also be used to be laid out on the substrate 2 where the building A is to be erected to cool the substrate 2 so that the foundation parts 1a-1d do not begin to melt.

Claims (9)

1. 0 15 20 25 30 35 534 320 9 Patent claims. Method for building buildings (A) of ice (A1) and snow (A2) characterized in that it comprises placing foundation parts (1a-1d) comprising ice on a substrate (2) in a form corresponding to the external shape and internal division of the building , placement of building elements (3a-3d) comprising snow on the foundation parts (1a-1d) for completion of the building (A) and placement of at least one cooling device (4) over the finished building (A). Method according to claim 1, comprising manufacturing the foundation parts (1a-1d). A method according to claim 2, wherein the manufacture of the foundation parts (1a-1d) comprises 10. 11. 12. 13. releasing and forming ice blocks (B) from naturis where the ice blocks (B) will form or be formed into the foundation parts (1a- 1d). 1 d). Method according to claim 2 or 3, comprising refrigerated storage of the foundation parts (1a-1d) before construction begins. Method according to any one of claims 2-4, comprising cooled movement of the foundation parts (1a-1d) to the desired construction site. A method according to any one of claims 1-5 comprising cooling the substrate (2) before placing the foundation parts (1a-1d) on the substrate by using the cooling device (4). Method according to any one of claims 1-6, wherein the placement of the foundation parts (1a-1d) comprises placement of different foundation parts (1a-1d) to obtain walls. Method according to any one of claims 1-7, wherein the placement of the foundation parts (1a-1d) comprises placement of the foundation parts (1a-1d) in such a way that the respective casting side (1 .1) is turned upwards. Method according to one of Claims 1 to 8, comprising the manufacture of the building elements (3a-3d). Method according to claim 9, wherein the manufacture of the building elements (3a-3d) comprises forming artificial snow into building elements (3a-3d) by using devices (7) intended for this purpose. Method according to claim 9 or 10, wherein the manufacture of the building elements (3a-3d) comprises the manufacture of different types of building elements; whole arches (3a), half arches (Sun), wall elements (3c) and / or igloo elements (3d). Method according to one of Claims 1 to 11, comprising refrigerated storage of the building elements (3a-3d) before construction begins. Method according to any one of claims 1-12, comprising cooled movement of the building elements (3a-3d) to the desired construction site. 10 15 20 534 320 10 1 A method according to any one of claims 1-13 wherein the placement of building elements (3a-3d) comprises placement of different building elements; whole arches (3a), half arches (3b), wall elements (3c) and / or igloo elements (3d). 1 A method according to any one of claims 1-14, wherein the location of the cooling device (4) comprises spreading the cooling device (4) directly on top of the finished building (A). 1 A method according to any one of claims 1-15, wherein the cooling device (4) is cooling by transporting a coolant (10) through the cooling device (4). 1 A method according to any one of claims 1-16 comprising activating the cooling device (4) at a temperature above 0 ° Celsius. 1 Cooling device (4) for use in carrying out the method for building buildings (A) of ice (A1) and snow (A2) according to claim 1, characterized in that it comprises a transport device (9) which enables the transport of a coolant (10). 1 Cooling device according to claim 18, comprising a surface-spread sheet of material (13) on which at least a part of the transport device (9) is arranged. Cooling device according to claim 19, wherein the transport device (9) comprises a hose (11) in which the coolant (10) is transported and where the hose (11) is arranged on the sheet of material (13). Cooling device according to any one of claims 18-20 comprising a control unit (14) which activates the cooling device (4) at a temperature outside the building (A) which is above 0 ° Celsiusf. Cooling device according to claim 21 comprising a temperature gauge (15) which continuously senses the temperature, registers a temperature above X ° Celsius and then initiates a control signal for activating the cooling device (4).