FI77296B - HUSKONSTRUKTION. - Google Patents

Description

77296 1 Structure of houses Huskonstruktion 5 The invention relates to the structure of one-, one-and-a-half and two-storey houses, in which profiled thermally insulated formwork is used as a self-supporting frame for both walls and roofs or subfloors, and that grooves

10

The object of the invention is to provide a new structure of houses for use in construction, the components of which act as a load-bearing frame, installation ducts for HVAC installations and static electricity transmitters and accumulators, and which method can be used to simplify construction, combine frame parts to serve HVAC purposes, room area, make houses more suitable for the environment, as well as reduce room air pollution.

Profiled shaped sheets, especially 20 corrugated sheets made of steel sheet, have been used in Finland for more than ten years. Profiled form plates are commonly used e.g. as water coverings, surface cladding of walls, load-bearing structures in the upper soles, etc. In addition, profiled form plates are used e.g. when forming with polyurethane insulation: sandwich structures used in industrial buildings as wall and roof structures, in which case they are mounted on a separate load-bearing frame. In small and terraced houses, small industrial halls, agricultural production buildings, etc., the span dimensions also allow the use of formwork panels as load-bearing structures to replace a wooden, brick or concrete frame, but formwork sheets have hardly been used for this purpose.

30

In the construction of one- and one-and-a-half-storey houses, there is a common solution where the cross-section of the mezzanine and the roof is triangular. But if you want a single-story house with a mezzanine and roof formation; ·. this space to take up residential use or in a one and a half storey house 35 more upstairs living space is desired, the increase must be made by extending the walls. Then the cross section of the top is a pentagon.

2 77296 1 There can be many reasons for building a higher upstairs. There may be mainly houses of the same type in the environment, in which case the new building will give the same look to fit in place. The eaves height may have been precisely determined already in the town plan, so a half-high upstairs is almost the only 5 option. In a narrow construction site, a half-height may also be the best option to get the building right sensibly used. A full two layers is often too high and clumsy in appearance.

The main problem with the construction of a half-high upstairs is that the pentagon 10 is not a structurally stable shape, but when the roof is pressed from above, the walls tend to fall to the sides. This problem has been solved in many ways in practical construction. A typical solution in Ostrobothnian houses is that cork logs and roof beams parallel to it are used for the roof chairs, in which case the weight of the water roof only flexes the roof-15 beams, but does not tend to topple the walls. Another option is to build a more robust cucumber log under the brush and place the smaller beams transversely on it and the side walls. In addition, rafters have been used, although they involve sacrificing some of the upstairs parts. Since:: the cross-section of the upstairs is a pentagon, in all the roof rafters 20 said pentagon has to be stiffened by forming triangles, iol -.:. the aim is to prevent the side walls from falling outwards or to stiffen the roof ridge using triangles. In the former case, the floor area is lost, and in the latter case, the room height is lost.

It is an object of the present invention to obviate the above-mentioned problems by obtaining a functional structure from said pentagon, without the need for separate beams, parallel to or transverse to the cucumber, thus ensuring that the side walls remain in place without losing floor space or room height.

The invention is mainly characterized in that the cucumber log or cucumber; the ductwork on the log payroll acts as the main supply and / or combustion air duct, where the ventilation side ducts in said grooves are connected and that the corner joint of the wall and the roof is made rigid by bending the formwork plate and / or a separate insert.

The structural solution of a single-layer frame can be a

II

3 77296 ^ mini hinge, where at the junction of the wall and the roof there is a bending rigid joint, the ridge angle and the lower ends of the wall are articulated and the lower ends of the walls are connected by a drawbar, i.e. the lower base acts as a drawbar. In building construction, this principle has been applied to main girder structures on which supplementary components are mounted, in which case the conventional use of a triple hinge is deviated from in that structures understood as complementary components form a triple hinge, leaving the main girders completely out. The junction of the wall and roof of a single-storey house can also be articulated if the cork log is 10 load-bearing.

The frame solution of a one-and-a-half-story house may also be similar to the three-joint hoop described above, but this is complemented by a midsole that further stiffens the structure. The functional solution of the one and a half and two-storey house 15 can also be one where the junction of the wall and the roof is articulated if the cork log is load-bearing. Articulation is also possible when the lower ends of the walls are connected with a uniform compression rod (lower base) while the intermediate base acts as a pull rod and the walls are resistant to bending, whereby e.g. the cork log does not need to be considered as a load-bearing structure 20 and under the brush, the main ducts of the supply and exhaust air, which look like a cork log from the room, can be placed in the highest place of the room. These channels can then be hung from the brush. In the construction method according to the invention, the cork log has the function of acting as the main supply and / or outlet air duct, whereby it is formed, for example, from two overlapping pipes, the material thickness of which allows the cucumber log to

The following describes the structural alternatives used in the above-described frame solutions according to the invention as wall and ceiling structures as well as subfloor and intermediate floor structures.

The roof structure is formed by a profiled form plate, most preferably a high-profile sheet plate made of steel sheet, which is insulated, the insulation being located inside or outside the form plate when viewed from the room. The surface of the insulation and / or the form plate may have a cladding plate or the like and said assembly may form a sandwich structure. The wall structure 4 77296 1 is similar, in which case the same structure can be used as the roof and wall structure. The sub-base is formed by an insulated, profiled form plate, which acts either as such as a load-bearing structure of the sub-base, or the sub-base is formed by a composite structure, or the form plate is part of the sandwich-5 structure. The midsole is similar to the bottom, but the insulation can be omitted. What all parts of the frame have in common is that they can absorb traction, compression, shear and torsion simultaneously and as much as is necessary for the operation of the structure.

10 When the profile of the form plate is high and wide enough and the form plate is on the warm side, the formed groove spaces can be used for HVAC installations in many ways. Sewer pipes, ventilation branch pipes, electrical boxes, protective pipes for electrical and water installations, etc. can be installed in the grooves, leaving them invisible behind the cladding plate 15 to be attached to the surface of the form plate. The air ducts between the groove compartments and the cladding panel can be used as such, e.g. ventilation purposes. By placing the supply air ducts in the grooves of the form plate, e.g. the additional advantage that the ends of the pipe can be placed behind an electric heating coil, for example, whereby the fresh air heats up and the system also functions like air heating. The suction of the discharge ducts, on the other hand, can be placed exactly where the need for discharge exists.

As the groove spaces of the form plate run from the bottom up and the groove spaces of the walls and ceiling are easy to point to, the most natural location for the main exhaust and supply air ducts is just below the brush, from which branching can take place on either side of the house. The location of the exchange channel at the brush also leads to other advantages. In this case, it is easy to utilize e.g. the heat of the sun by sucking in the supply air from under the brush cover of the water cover. This can act as a collection route for fresh air except summer. When the sheet of sheet metal or the like of the southern part of 30 is combined with a brush sheet, the whole sheet acts as an air-polluted solar panel.

The corner connection of the wall and the roof was described above, which is advantageous to be rigid, especially in single-storey houses. One way to implement such a corner joint economically is to bend the form plate at a desired angle with a machine. Such a bending machine for corrugated sheets is used e.g. In Finland, where the corner becomes a flat plate with stiffness

II

5 77296 1 nen. The rigid corner joint can also be realized with a special connector that is attached either mechanically or by welding to the form plates.

The use of form plates as the frame structure of one- and one-and-a-half and two-storey houses 5 achieves other advantages in addition to the above. When the ceiling and wall structure can be similar, the range of elements can be significantly reduced compared to the solutions currently in use. The form plate acts as a load-bearing frame and at the same time forms a dense layer, whereby when located inside the room space 10 it acts as a moisture and air barrier.

Due to these factors, e.g. the fact that building a house is accelerating and becoming cheaper. When the formwork plate of the roof, walls and subfloor is mechanically or by gluing or by the gluing effect of an insulating material, the insulation 15 and the coating are connected to it, in one installation a frame is provided which facilitates construction e.g. in winter.

The insulation used is mainly foam insulation. In order to improve the fire resistance, mineral fiber insulation or other fire-resistant insulation can also be used as the insulation of the molded plate, or the insulation can be assembled from two layers, the fire-resistant insulation may be a thin mineral fiber insulation or the like which easily conforms to the molded plate. in the form of a bearing plate. When the foam insulation is rigid, grouting is readily available, whereby the connection of the two elements is made tight and at the same time the insulation acts as a stiffener for the form plate, as a fastening clamp for the fire-resistant insulation and as a wind protection plate.

The use of two layers of insulation also has the advantage that the foam insulation heated in the fire compartment 30, especially when the polystyrene insulation melts, drips, whereby the mineral fiber insulation acts like absorbent paper.

In connection with its manufacture, the rigid foam insulation can be made with 35 holes, in which, for example, "tatin" -like fasteners made of plastic are placed, with a sheet metal screw ready inside the shaft.

In this way, the elements can also be delivered to the construction site in such a way that the specified 77296 ^ length profiled form plates, the required amount of insulation and the fasteners are delivered separately to the construction site, in which case the builder attaches the insulation to the form plates. In this case, the insulated end product is considerably cheaper for the builder than if the insulation work 5 is done in the factory. Mechanical fastening is e.g. the advantage that the material of the form plate can have a sloping surface. The adhesive does not usually work when joining the insulation to the zinc surface board, but the board should be at least primed.

10 When using wood or board cladding on the outside of the house, it is advantageous to fasten the percussion strips of the cladding to the form plate with long, drilled-wool sheet metal screws.

One advantage of using a metal plate such as a steel sheet as the material of the form plate is that static electricity is easily transferred and stored in the plate, whereby by rubbing the wall surface, the entire front shell can be electrified, allowing even small room air dust particles to adhere to the surfaces. This is important e.g. when thinking of people suffering from allergy symptoms, radon problem, etc. The retention of static electricity in the metal plate of the body 20 can be ensured by installing an electrically insulating layer between the foundation and the body. In this frame solution, it is possible to separate the lower base and the lower end of the wall from the foundation, because the weight of the lower base prevents the house from "rising into the air", so that the function of keeping the lower end of the walls stationary can be abandoned.

25 - - The high humidity content prevailing in the room has caused e.g.

In Sweden, the problem of mold in structures in detached houses, which, according to press reports, affects more than half a million Swedes. There are many syllables, but one of the most significant is the building materials, which serve as a breeding ground for molds. It is well known that rot fungi also cause significant repair costs every year. In general, the excess humidity in the room space is due to the moisture stored in the structures during construction, the effect of room temperature on the structures, the condensed moisture on the structures and the moisture from the soil.

The structure according to the invention eliminates the above-mentioned

II

7 77296 ^ effects of sources. Since the frame material is primarily a form plate made of metal and the insulation is cellular plastic insulation, moisture during construction cannot be adversely stored in said materials.

Since said materials do not easily get wet and since the unbreakable body 5 acts as a moisture and air barrier, the humidity conditions of the rooms cannot affect the humidity situation of the structures. Said materials cannot serve as growing media for mold and rot fungi or the like. Moisture problems caused by the soil can be eliminated with the lower floor structure described in the invention, which forms a crawl space under the floor of the house and the bottom structure of the lower 10 itself is dense, whereby e.g. radioactive radon gas released from the soil cannot penetrate into the room. Ts. the structure according to the invention also contributes to efforts to build healthy housing in these respects.

15 When the ventilation unit is connected directly or via pipes to a log, the exhaust air from the ventilation unit can be directed out through the creep space, whereby the creep space is mechanically ventilated and the heat remaining in the exhaust air reduces the temperature difference between the creep space and the room temperature. will be improved.

In the following, the invention will be described in detail with reference to some application examples of the invention shown in the figures of the accompanying drawings, to which the invention is not intended to be narrowly limited.

Fig. 1 shows a pedal sectional view of an application example of the invention, where the house is single-storey and shows the base, walls and roof, foundation, cork log air ducts 30 with side branches, with surface cladding, roof ridge joint, wall-to-roof joint and wall and bottom insulation of the joint and the structure of the eaves is not shown.

Fig. 2 shows a pedal sectional view of an embodiment of the invention, in which the house is one and a half storey and the floor, mezzanine, walls and ceiling and partition wall, foundation, cucumber air ducts with side branches are shown, whereby the surface cladding and the connection between the roof and the connection between the wall and the lower floor is not particularly clear and the structure of the eaves is not shown.

Fig. 3 shows a solution for the upper part of the wall and the eaves of the roof as a connecting piece 7, which simultaneously acts in said connecting task, as a load-bearing beam at windows and doors and as a mounting base for windows and doors, whereby windows and doors can be fastened to it.

10

Figure 4 shows an alternative solution for the upper end of the wall and the eaves of the roof as a connecting piece 7 ', which is simpler in construction than the alternative in Figure 3.

Figure 5 shows an alternative solution for the upper end of the wall and the roof connection piece 7 ', which can be used in houses with a flat roof and at the ends of the house.

Figure 6 shows a solution for a wall and intermediate base connection piece 20 7 ".

Figure 7 shows a solution of rigid joints 7 'and 8', which are used as joints for the upper end of the wall and the eaves of the roof, as well as joints for the roof ridge when it is desired to make the corner 25 resistant to bending.

Figure 8 shows a solution for connecting the lower base and the lower end of the wall 9.

Figure 9 shows an alternative solution for the lower base and the lower end of the wall as a connecting piece 9.

Fig. 10 shows a patchwork view of the wall structures of the house about 150 mm above the plinth, in which case the insulation of the corners and the outer and inner cladding are not shown.

Figure 11 shows a pedal slide view of the end of the house at the ridge,

II

9 77296, in which case one of the placement options of the ventilation unit can also be seen in the picture.

Fig. 1 shows a foundation 1, a base plate 2, a roof plate 4, a wall plate 5, a roof-to-wall joint 6 bent from a plate, a wall and roof slat 7, a roof plate connector 8, a wall and bottom plate plate connection 9, a supply air duct 10, exhaust air main duct 11, supply air side duct 12, exhaust air side duct 13, foam insulation 14, mineral fiber insulation 15 and 10, electrical insulation 16 separating the foundation and the frame.

Figure 2 shows a foundation 1, a base plate form plate 2, a midsole plate plate 3, roof form plates 4, wall form plates 5, a roof-to-wall joint 6 bent from a form plate, a wall top slat 7 'acting as a beam of windows and doors, a roof plate connection piece 8 ', wall and bottom base plate connectors 9, supply air main duct 10, exhaust air main duct 11, supply air side duct 12, exhaust air duct 13, foam insulation 14, mineral fiber insulation 15, foundation and frame separating electrical insulation 16 and partition wall 17.

20

Figure 3 shows a lattice piece 7 'with a wall-mounted part 18, a ceiling-mounted part 21, a roof slope indicating part 22, a perforation 20 and a welding 23. The sides 19 and 19' of the wall-mounted part 18 can be of the same or different lengths. 25

Figure 4 shows a lattice piece 7 'with a wall-mounted part 18', a ceiling-mounted part 21 ', a roof slope indicating part 22, a perforation 20 and a welding 23.

Figure 5 shows a slatted body 7 'with a wall-mounted part 18 "which at the same time acts as a ceiling-mounted part 21" and a perforation 20.

Fig. 6 shows a lattice piece 7 "with a part 18 '" to be fixed to the midsole and a part 21' "to be fixed to the wall and a perforation 20 and a welding 23.

35

Fig. 7 shows a lattice piece 7 and 8 'with a part 1 ° 77296 ^ 18 "", reinforcements 24 and 25, welding 23 and perforation 20 to be attached to the wall and to the eaves of the roof (or to the roof ridge on each part of the roof).

Fig. 8 shows a connecting piece 9 with a wall-mounted part 26 and a bottom-mounted part 27, a perforation 20 and a welding 23.

5

Fig. 9 shows a piece 9 with a wall-mounted part 26, a bottom-fixed part 28 and a perforation 20, whereby the part can be made of the same blank by bending.

Figure 10 shows the wall form plates 5, the foam insulation 14 and the lower end and lower base connecting piece 9 of the wall.

Fig. 11 shows a supply air duct 10 and an exhaust air duct 11, a roof mold plate 4, a connecting piece 8, a roof foam insulation 14, a wall mold plate 5, a wall foam insulation 14, an air space 29 under the ridge damper, a warm supply air 30, a warm exhaust air 31 32, cold supply air 33, cold exhaust 34 which can be blown into e.g. the temperature of the heated air, the dampers 43, the condensate drain connection 44 and the ventilation unit as a whole 45.

25 30 35

II

Claims (8)

1. Design for single-, one- and half- and two-dwelling houses, using profiled heat-insulated mold boards as self-supporting ♦ construction for the blde walls and ceiling or also the bottom and intermediate bottom, and the storage spaces that open onto the space side of the moldings serves as ducts for the HVAC assemblies, characterized in that the duct system located at the shaft or at the location of the shaft serves as the main duct for the entrance and / or exit air, the side ducts for the ventilation being located in said locking compartments join together and that the corner joint between the wall and the ceiling is made rigid by bending the molding plate and / or with a separate joint piece. - | 5 2. A construction according to claim L, characterized in that the supporting structure also functions as a moisture and air barrier. 1 Patent Claim 12 77296 Construction according to claim 1 or 2, characterized in that the insulation of the molding sheets is of cellular plastic. 20 4. A construction according to any of claims 1-3, characterized in that there is a refractory mineral fiber insulation between the mold plate and the cellular plastic insulation. 25 5- Construction according to any of claims 1-4, characterized in that the mineral fiber insulation functions as "suction paper" for the cellular plastic insulation in fire situations. 6. A construction according to any one of claims 1-5, characterized in that in the single-storey house the lower bottom functions as a drawbar. 7. A construction according to any of claims 1-5, characterized in that in one and a half and two-housing houses, the lower bottom functions as a press stitch and the middle bottom as a drawbar. 35 8. A construction according to any one of claims 1-7, characterized in that the insulation is mechanically fixed to the mold board. Il