NL2003931C2 - METHOD FOR PLACING AN CONSTRUCTION ON AN ALREADY FITTED BUILDING, UNDER CONSTRUCTION, FORM BEACH, STAMP AND COMPOSITION INTENDED FOR USE IN THE METHOD. - Google Patents

Description

METHOD FOR PLACING AN CONSTRUCTION ON AN ALREADY FITTED BUILDING, UNDER CONSTRUCTION, FORM BEACH, STAMP AND COMPOSITION INTENDED FOR USE IN THE METHOD

The invention relates to a method for placing an extension on an already placed building comprising the following steps: a) measuring a number of predetermined measuring points on at least one outside of the building; c) installing a load-bearing foundation at the intended location of the extension; D) at least partially removing a layer of soil around the applied foundation from step c).

e) at least partially exposing the foundation of the building to the intended location of the extension; g) removing at least a part of the outer leaf from the at least one outer side of the building.

The invention further relates to an extension, front edge, adjustable leg and assembly intended for use in the method.

Due to a lack of space, existing buildings are often equipped with an extension that is used, for example, as a (side) kitchen, bedroom, etc.

According to the current state of the art, placing an extension can be placed by two methods.

In the first method, the extension is constructed in the traditional way. First, the location of the extension is measured. The soil is then excavated and a foundation is laid. After placing the foundation, part of the facade of the building will be removed at the site of the extension. The interior and exterior walls of the extension are constructed, taking into account where the door (s) and windows are to be placed. Finally, a roof is placed on the extension.

In the second method, the extension is partly prefabricated and partly traditional. First, the location of the extension is measured. The inside walls are then prefabricated in a factory. The soil is excavated and a foundation is being laid. After placing the foundation, the prefabricated inner walls are placed. The outer walls of the extension are being constructed. Finally, a roof is placed on the extension.

Both methods cause a considerable nuisance to the user of the building, since the building will be open for a long time. In many cases, the building on site 2 of the extension will have to be covered with building sail to keep the building wind and watertight.

Although the second method is more economical than the first method, both methods are labor intensive. In addition, a lot of building material must also be supplied on site. As a result, installing an extension involves a lot of costs.

The object of the invention is to provide a method for placing an extension on an already placed building, which does not have the above-mentioned disadvantages. To this end, the method according to the invention comprises the following (intermediate) steps: b) manufacturing an extension provided with insulating material and pipes for connection to an installation present in the building, such as heating, taking into account the predetermined measuring points; f) mounting adjustable legs on the exposed foundation from step e) of the building and bringing the adjustable legs to the same height with the installed foundation from step c) of the extension; h) placing the prefabricated extension on the placed foundation from step c); i) connecting the extension pipes to the installation in the building.

The method according to the invention has the advantage that the user of the building 20 is less troubled by placing the extension than with the known methods.

The time that the building is open due to the removal of the outside of the building is limited to a minimum in the inventive method according to the invention. The building is only open for the purpose of installing the extension. The construction itself takes place at a different location than the construction location. Because the pipes have already been installed in the extension for placement, no further crushing is required.

The inconvenience to the user can be further shortened by further adding additional finishing elements, such as paintwork, kitchen unit, lighting, toilet, bathroom, etc. before installation.

In addition, the method according to the invention is extremely suitable for placing add-ons at a plurality of buildings of the same type, so that only one-off step a) has to be carried out and steps b) to i) can be carried out repeatedly.

The method according to the invention also connects to the method for renovating a building as described in the applicant's non-prepublished patent application NL2002795.

In a first preferred embodiment of the method according to the invention, the method comprises the additional step: j) placing a front strand on the extension. Placing a frost beach ensures that the space under the extension is sealed off from the outside air. In this way, frost is effectively prevented from rising from underneath the extension. To this end, the extension is preferably arranged for cooperation with the vorstrand, so that the vorstrand can be placed quickly.

In a second preferred embodiment of the method according to the invention, step c) comprises the following sub-steps: c1) drilling one or more holes in the ground; c2) installing a tube in each drilled hole; c3) placing a height mark on the tube; c4) pouring concrete into the pipe up to the height mark.

The method according to the invention is further accelerated in this way, since a minimal amount of soil has to be removed and no heavy excavators have to drive over the land. This is particularly important in homes where a garden has been laid out.

In a third preferred embodiment of the method according to the invention, step d) comprises the following additional step d1) placing a sewage pipe on the edge of the foundation laid from step c) and step i) comprises the following additional step: M) connecting the sewage pipe from step d1) to the existing sewage system of the building. To that end, the drain arranged in the extension is preferably equipped for cooperation with the sewer pipe. When placing the extension on the foundation, a minimal effort is then required to couple the drain to the sewer pipe. This allows the extension to be connected to the sewer system of the building quickly and effectively.

In a fourth preferred embodiment of the method according to the invention, step h) comprises the following additional steps: h1) measuring a number of predetermined further measuring points on at least one outside of the building; h2) prefabrication, taking into account the predetermined further measuring points, of a further extension provided with insulating material and pipes for connection to an installation present in the building, such as heating; H3) removing at least a part of the outer leaf from the at least one outer side of the building; h4) placing the further prefabricated extension on the placed extension; h5) connecting the pipes of the further extension to the pipes of the building.

In this way, a deepening can be realized economically. The extension and further extension are preferably arranged for cooperation, so that the further extension can be placed quickly.

4

The invention also relates to an extension intended for use in the method according to the invention.

To this end, the invention provides an extension intended for use in the method according to the invention, wherein the extension is provided with insulating material and pipes for connection to an installation present in the building, such as heating. The walls of the extension are preferably constructed from a framework of wood, steel and plastic, in which the necessary facilities are provided for ventilation, electricity and water. The framework is thereby provided with insulation. The inner and outer walls are finished with a material of your choice.

The extension according to the invention is preferably provided with a concrete floor which is provided with screw sleeves which are intended for the provision of lifting eyes. This means that the extension has a solid base and can be moved effectively through the lifting eyes through a crane. For transporting the extension to the construction site, the lifting eyes can be used as an anchoring means for anchoring the extension to a trailer.

The screw sleeves in the concrete floor of the extension according to the invention are preferably also suitable for securing the front edge to the extension. This allows the Vorstrand to be placed on the extension in an economical and effective way.

In a first preferred embodiment of the extension according to the invention, the following layers are successively arranged above the concrete floor: a. A first insulating layer of preferably polyurethane foam b. a second insulation layer of pressure-resistant, plate-shaped and insulating material.

c. a fiber cement plate

The first insulation layer is ideal for concealing any pipes.

Due to the double insulation layer, no thermal bridges or seams can arise due to the insertion of pipes. The floor is formed by a fiber cement sheet, which is preferably 20 cm thick, and is laid loose on the insulation. In this way a well-insulated and damping floor is obtained.

In a second preferred embodiment of the extension according to the invention, one or more walls are provided with an insulating layer which connects to the first and / or the second insulating layer of the concrete floor. As a result, the pipes running in the floor can overflow to the wall and, as a result, no transitions from the pipe in the floor to the wall are visible.

In a third preferred embodiment of the extension according to the invention, the extension is adapted for cooperation with a further extension. To this end, the extension is constructed to support the weight of the further extension. The upper side of the extension and the lower side of the further extension are provided with cooperating connecting elements. The extension and further extension are furnished and equipped with connections for connecting the pipes between the two extensions.

The invention also relates to a shape for use in the method according to the invention.

To that end, the invention provides a front edge intended for use in the method according to the invention, wherein the front edge is provided with one or more bushes intended for cooperation with the screw sleeves. The vorstrand is preferably prefabricated and made of concrete or a composite plate. During manufacture, one or more steel cans with a thread on the inside are preferably cast. 10 The location of the steel bushes corresponds to the location of the collapsed screw sleeves on the sides of the concrete floor. The connection of the front edge to the floor is established by turning a bolt in the screw sleeves. The bolt can also be used during transport from the Vorstrand to the construction site.

The invention also relates to an adjustable leg intended for use in the method according to the invention. The adjustable leg is thereby arranged to bring the exposed foundation wall to the same height as the laid foundation.

Finally, the invention relates to an assembly intended for use in the method according to the invention, comprising at least one extension and at least one adjustable leg. The assembly is preferably further provided with at least one front edge.

20

The invention will be further elucidated with reference to a number of figures, in which

Figure 1 shows a view of an extension according to the invention.

Figure 2 shows a view of a building in which step A and step C according to the invention have been carried out;

Figure 3 shows a view of a building in which steps D, E, F according to the invention have been carried out;

Figure 4 shows a view of a building in which step G according to the invention has been carried out and step H according to the invention has been carried out; Figure 5 shows a view of a building in which step J according to the invention is carried out;

Figure 6 shows a view of a building in which the method according to the invention has been carried out;

Figure 7 shows a view of a building in which steps H1, H2, H3 according to the invention have been carried out;

Figure 8 shows a view of a building in which step H4 according to the invention has been carried out;

Figure 9 shows a side view of the foundation of a building together with a placed extension according to the invention, in which the method according to the extension is carried out.

Figure 1 shows a view of an extension 3 according to the invention. The base of the extension 3 consists of a (prefab) concrete floor 14, in which screw sleeves 6 are arranged on either side of the floor 14. A recess 10 is provided in the concrete floor 14 for a sewer passage. The walls 13 are made of a framework of wood, steel and plastic, between which the required insulation is provided. Pipes are also installed in the walls. The outside of wall 13 is finished with a material 10 of your choice. The top of floor 14 is insulated with a first insulation layer 15 of preferably 30 mm polyurethane foam and above it a second insulation layer 8, which is preferably at least 80 mm thick. Pipes 7 can be incorporated in both said insulating layers. This double insulation layer prevents thermal bridges and seams that can arise from the insertion of pipes 7. Above the second insulation layer 8 is a fiber cement plate 9, which is preferably 20 mm thick. The plate 9 lies loosely on layer 8. In this way a well-insulating and damping floor is obtained. The conduits 7 can overflow into the wall 13 via the insulating layer 15 in floor 14. The roof 11 is preferably assembled from wooden beams 12 with an insulated roof plate.

Figure 2 shows a view of a building 1, in which step A and step C according to the invention have been carried out. In step A, a number of predetermined measuring points are measured on at least one outside of the building. In this example, building 1 is a terraced house with a floor on the ground floor, which serves as a living area, a first floor, which serves as a sleeping area, and an attic. Subsequently, step B is carried out, wherein an extension is preferably manufactured at a location other than the building location, wherein the measuring points measured in step A are decisive for the manufacture of the (prefabricated) extension. In step C, which can be carried out in parallel with step B, the foundation 2 is laid for the extension. Preferably, foundation piles (2a, b, c, d) are used. When placing foundation piles, less soil is moved than with a traditional foundation, whereby a foundation wall is built up around the entire circumference of the extension.

Figure 3 shows a view of a building 1, in which steps D, E, F according to the invention have been carried out. After the foundation 2 has been laid, a layer of soil around the applied foundation 2 is removed, so that the foundation piles (2a, b, c, d) protrude above the ground and a space will be created after placing the extension on the foundation between the land and the extension. Subsequently, the foundation of the building 1 at the location of the intended location of the extension is partially exposed. This is necessary to place the adjustable legs (not shown) on the foundation of the building 1 and to bring it to the same height as the installed foundation 2 of the extension.

Figure 4 shows a view of a building in which step G according to the invention is carried out and step H according to the invention is carried out. In step G a part of the facade of the dwelling 1 has been removed, which corresponds to the size of the extension 3. In step H, the extension 3 is then placed on the foundation 2 with the aid of a crane (not shown). After the extension 3 has been placed, the lines from the extension 3 are connected to the installation present in the building 1 (step I).

Figure 5 shows a view of a building 1, in which step J according to the invention is carried out. In step J, the front edge 4 is attached to the underside of the extension 3. Use is made here of the screw sleeves provided in the extension, which correspond to holes in the front edge 4.

Figure 6 shows a view of a building 1, in which the method according to the invention is carried out. The land surrounding extension 3 has been restored, leaving Vorstrand 4 out of sight.

Figure 7 shows a view of a building 1, in which steps H1, H2, H3 according to the invention have been carried out. The building 1 and the already placed extension 3 are thereby made ready for placing a further extension 5. In step H1, the location where the further extension 5 will be measured is measured. The further extension 5 is then fabricated in step H2. After step H2 has been carried out, at least part of the outer sheet is removed from the at least one outer side of the building 1 in step H3. In step H4, the further extension 5 is placed on the extension 3 that has already been placed. In the final step, the pipes of the further extension 5 are connected to the installation present in the building 1.

Figure 8 shows a view of a building 1, in which step H4 according to the invention has been carried out. The further extension 5 is thereby placed on extension 3.

Figure 9 shows a side view of the foundation of a building 1 together with a placed extension according to the invention, in which the method according to the extension is carried out. A leveling leg has been placed on foundation pile 2A, with which the height can be adjusted for floor 14. The floor 14 does not rest against foundation 17 of building 1. The space 30 between floor 14 and foundation 17 is filled with a first insulation layer 18 and a second insulation layer 19, wherein the first insulation layer 18 extends further downwards.

For the sake of completeness, it is noted that the method according to the invention can also be used for other types of buildings. The invention is therefore, of course, not limited to the described and shown preferred embodiment, but extends to any embodiment that falls within the scope of the scope of protection, as defined in the claims and viewed in the light of the foregoing description and accompanying drawings.

Claims (15)

Method for placing an extension on an already placed building, comprising the following steps: a) measuring a number of predetermined measuring points on at least one outside of the building; c) installing a load-bearing foundation at the intended location of the extension; d) at least partially removing a layer of soil around the applied foundation from step c). E) at least partially exposing the foundation of the building to the intended location of the extension; g) removing at least a part of the outer leaf from the at least one outer side of the building; wherein the method comprises the following further (intermediate) steps: b) prefabrication, taking into account the predetermined measuring points, of an extension provided with insulating material and pipes for connection to an installation present in the building, such as heating; f) arranging adjustable legs on the exposed foundation from step e) of the building and bringing the adjustable legs to the same height with the installed foundation from step c) of the extension; h) placing the prefabricated extension on the placed foundation from step c); i) connecting the extension pipes to the installation in the building. 25 Method according to claim 1, wherein the method comprises the further step of: j) placing a front strand on the extension. 3. Method as claimed in claim 1, wherein step c) comprises the following sub-steps: c1) drilling one or more holes in the ground; c2) installing a tube in each drilled hole; c3) placing a height mark on the tube; c4) pouring concrete into the pipe up to the height mark. 35 Method according to claim 1 or 2, wherein step d) comprises the following additional step: d1) placing a sewage pipe on the edge of the foundation laid from step c) 5 and step i) comprises the following additional step: i1) connecting the sewage pipe from step d 1) to the existing sewage system of the building. 5. Method as claimed in claim 1, 2, 3 or 4, wherein step h) comprises the following additional steps: h1) measuring a number of predetermined further measuring points on at least one outside of the building; h2) prefabrication of a further extension provided with insulating material and pipes for connection to an installation present in the building, such as heating, taking into account the predetermined further measuring points; h3) removing at least a part of the outer leaf from the at least one outer side of the building; h4) placing the further prefabricated extension on the placed extension; 20 h5) connecting the pipes of the further extension to the pipes of the building. 6. Extension intended for use with the method according to any one of the preceding claims, wherein the extension is provided with insulation material and pipes for connection to an installation present in the building, such as heating. 7. Attachment as claimed in claim 5, wherein the attachment is provided with a concrete floor which is provided with screw sleeves which are intended for the provision of lifting eyes. Attachment as claimed in claim 6, wherein the screw sleeves are also intended for fixing the front edge to the attachment. 9. A construction as claimed in claim 7 or 8, wherein the following layers are successively arranged above the concrete floor: a. A first insulating layer of preferably polyurethane foam b. a second insulation layer of pressure-resistant, plate-shaped and insulating material. 5 c. a fiber cement plate 10. Attachment as claimed in claim 9, wherein one or more walls are provided with an insulating layer, which connects to the first and / or the second insulating layer of the concrete floor. An extension as claimed in claims 6 to 10, wherein the extension is adapted for further cooperation with another extension. 12. Vorstrand intended for use in the method according to claims 1 to 5, wherein the vorstrand is provided with one or more bushes, which are intended for cooperation with screw sleeves. 13. Leveling leg intended for use in the method according to claims 1 to 5. 14. Assembly intended for use in the method according to claims 1 to 5, comprising at least one extension according to claims 6 to 11 and at least two or more adjustable legs according to claim 13. 15. Assembly as claimed in claim 14, further provided with at least one front edge as claimed in claim 12. 25