SE1200498A1 - Construction elements for buildings - Google Patents

Abstract

Construction element (1) intended for use in buildings and the like comprising at least one insulating core (2) which on at least one side (3) is provided with at least one material layer (4) and on an opposite side (5) is provided with at least a second material layer (6). Unique in that the insulating core (2) comprises at least one first core element (7) comprising a first plurality of grooves (12), with a first plurality of intermediate flanges (13), which extend in depth from a first main side (8) towards its other main page (9). In the preferred embodiment, the core element (7) also comprises a second plurality of grooves (14), with intermediate second plurality of flanges (15), which extend in depth from the second main side (9) towards the first main side (8).

Description

water leakage, or substantially immediately, detects if a water leak or the like is present in a building structure (building element). There is also a need for a device and a method for detecting at an early stage whether mold is present in a construction element.

A further problem with building materials that consist wholly or partly of wood, such as boards, planks, beams and the like, is the fact that their shape and thickness do not allow them to be completely impregnated against, for example, damage from fire, insects, rot, moisture and the like. The shape and thickness of most wood materials do not allow complete saturation of the material. Only the outermost part of the wood material receives sufficient protection by the impregnating agent. The inner part of the wood part receives little or no impregnation, leaving the material unprotected. Unnecessary costs can arise as a result of the inadequate impregnation of the inner parts of the wooden parts. Particularly problematic is the limited protection that current impregnation against fire in toxic wood elements provides. There is also a clear need for a design that can reduce or alleviate the problems of inadequate impregnation.

Prior art A variant of a log-like construction element, which comprises an insulating core, is already known via the international patent application WO9530807. Said log-like construction element comprises an insulating core consisting of an insulating material. The insulating material is provided on its one side with at least one material layer and its second opposite side (to the first side) is provided with at least one second material layer. The construction fulfills its intended purposes but has the shortcoming that the insulating core is made of petroleum-based raw materials, ie is made of non-renewable raw materials. Furthermore, the insulating core does not include elongate channels in accordance with the present construction, so the construction cannot be used in a manner similar to the present construction. Objects of the present invention The main object of the construction according to the present invention is to create a substantially improved building element. Another object of the present invention is to create, in an alternative embodiment, a log-like building element which shrinks to a substantially lesser extent than a log. A further object of the present invention is to create a building element which has a substantially improved sound-absorbing ability than considerable logs. A further object of the present invention is to create in a alternative embodiment a building element in the form of a board which can be used in floors. A further object of the present invention is to create a building element which enables a total, or substantially total, impregnation of all wood material in at least one insulating core or at least in at least one of the core elements in at least one insulating core.

Detailed Description of the Invention In the following, the invention will be described in more detail with reference to the accompanying schematic drawings which, by way of example, show the presently preferred embodiments of the invention.

Figure 1 shows a first embodiment of the present construction element.

Figure 2 shows a first embodiment of the insulating core element.

Figure 3 shows a second preferred embodiment of the insulating core element.

Figure 4 shows a third embodiment of the insulating core element.

Figures 5A-5C show a second alternative embodiment of the present invention.

Figures 6A-6B show a second embodiment of the present construction element. With reference to the figures, a building element 1 is shown in accordance with the present invention. The building element 1 comprises at least one insulating core 2. The insulating layer (core) 2 is provided on one side (outside) 3 with at least one first layer of material 4. The insulating core 2 is provided on the opposite side (inside) 5 with at least a second material layer 6. It is further conceivable that the building element 1 comprises fl other than one material layer on each side of the core. Preferably, the joining of the material layer 4 and the core 2 and the material layer 6 and the core 2, respectively, takes place by gluing or another joining method suitable for the purpose.

The unique thing about the present construction element 1 is that the insulating core 2 comprises at least one elongate core element 7 and preferably your core elements 7.

Preferably, the core element 7 is made of wood material, or a material which mainly comprises wood. In alternative embodiments it is conceivable that the core element 7 is made of another material suitable for the purpose, such as for instance a composite material.

The core element 7 preferably has a substantially square cross-section, such as for instance a rectangular or a square cross-section. The core element 5 comprises a first main side 8, a second main side 9. The core element further comprises a third side 10 with an opposite fourth side 11.

The core element preferably has an elongate shape. The core element 7 further comprises at least one elongate channel (groove) 12 which extends along all or parts of the length of the elongate core element 7.

In the first preferred embodiment of the core element 7, the core element comprises a first number of grooves 12 in the first main side 8 of the core element with a first set of grooves 13 between the grooves 12. The booms 13 are given at least one thickness. The grooves 12 are given an extension in depth from the first main side 8 of the core element (piece of wood) towards its second main side 9 and which is given a depth which preferably amounts to more than half of the distance between the first main side 8 and the second main side 9 and less than the distance between the first main page 8 and the second main page 9.

In a second embodiment of the present invention, the first main side 8 of the core element 7 comprises a first set of grooves 12 with intermediate ridges 13. The flanges 13 are given at least one thickness. The grooves 12 extend in depth from the first main side 8 of the core element 7 towards its second main side 9 which preferably amounts to less than half of the distance between the first main side 8 and the second main side 9. In the second embodiment the second main side 9 comprises a second fl number of grooves 14 with a second set of ns grooves 15. The flanges 15 are given at least one thickness. The grooves 14 are extended in depth from the second main side 9 of the core element 7 towards the first main side 8 of the piece of wood. The depth of the second fl number 14 is preferably equal to the depth of said first fl number of grooves 12.

Figure 4 shows a conceivable further variant of core element 7 whose third side 10 is provided with at least one longitudinal groove 16. It is further conceivable that the fourth side 11 is provided with at least one longitudinal groove 17.

The number of grooves 12, 13, 16 and 17 as well as the dimensions of the core element 7 can be varied to a large extent within the scope of the present invention. The width and thickness of the grooves and grooves, respectively, are dimensioned according to the requirements for the bearing capacity of the structure with your parameters.

Preferably, the core 2 is built up of a number of core elements 7 which are joined together one by one (as shown in the figures). Through the joining fl äns fl äns, elongated channels are formed in the construction element. The joining of core elements to core elements takes place by gluing or with another joining method suitable for the purpose. Figure 1 shows an example of an embodiment of the present invention in which it comprises at least one first insulating core 2 and at least one second insulating core 18. The first insulating core 2 and the second insulating core 18 are preferably separated by at least one material layer 19. The first insulating core 2 and the second insulating core 18 in the exemplary embodiment comprise a first core element 7, a second core element 20, a third core element 21, a fourth core element 22, a fifth core element 23, a sixth core element 24. The construction may comprise core elements than those shown in fi gurema.

A second outer layer of material and a second inner layer of material are also exemplified in the figures.

Additional bearings may be present in alternative embodiments.

In the first embodiment of the present invention, the structural member 1 is substantially elongate. Preferably, the construction element 1 according to the first embodiment is intended to be used as a log or the like.

Figures 5A-5C exemplify the use of the structural member 1, in the embodiment similar to a log. The diagrams show how a first elongate structural element can be connected and form a knot 26 with a second structural element. In order to enable interconnection of your structural elements, they are provided at its ends, or in the vicinity of the ends, with at least one recess 27 with which a cohesive knot between at least a first structural element and a second structural element can be created. In the exemplary embodiment, the elongate structural member at the first end, or proximity of the first end, is provided with a first recess 27, a second recess 28, a third recess 29 and a fourth recess 30. In the exemplary embodiment, the elongate structural member is the second end, or end proximity, provided with a first recess 27, a second recess 28, a third recess 29 and a fourth recess 30. With the construction a knot 26 can be created between at least a first elongate construction element and a second elongate construction element as included in a first wall and a second wall, respectively. Unique with the present knot is that it is not based on height (ie in the vertical direction).

The construction elements can also be provided with at least one protruding segment (not shown in figures) which can be used, for example, when knotting or when joining fl your construction elements on top of each other in the vertical direction. In alternative embodiments, the number of recesses may be fl or less or be of another shape suitable for the purpose.

In order to facilitate the interconnection of a first structural element with at least a second structural element, the first material layer 4 and the second material layer 6 are offset relative to the core 2. When used as a log, the displacement is in the vertical direction and for board material (for floorboards, for example). in the horizontal direction.

Through the grooves in the core elements and the intermediate flanges in the core elements, the core elements will dry significantly faster than what a considerable log dries.

Preferably, the core elements are dried before the core (consisting of a number of core elements) is assembled (glued together). Depending on the fact that the respective core element has dried before the joining, the core will have substantially shrunk completely before it is joined. When using structural elements, in the form of logs, the problems caused by the shrinkage of ordinary logs will thereby be substantially eliminated.

Figure 6A and Figure 6B show an alternative embodiment intended for use, for example, in a floor slab. The size and thickness of the disc-formed structural member can vary widely within the scope of the present patent application. For example, the present structural member may be disc-shaped. At the construction element in a floor floor, this is intended to be placed so that the core 2 is provided on its upper side with at least a first material layer 4 and on its underside is provided with at least a second material layer 6.

The grooves 12 and 14, respectively, are preferably located transversely to the material layer 4 and the material layer 6. Figure 6B shows that the construction element may comprise at least one second core 18 with at least one second intermediate material layer.

The unique thing about the present invention is that the building element comprises elongated channels. The elongated ducts have had the unexpected technical effect that a fl fate of air can be passed through the ducts. For example, at least one kan marriage can affect an air fl destiny to fl desert through the channels. Through the construction, the ducts can be used to cool and heat the wall.

For example, relatively colder outdoor air at night can be used to cool the wall through the relatively colder air from the outside rapids into the elongated channels of the wall (groove 12 and groove 14, respectively). The grooves in your construction elements are intended to be able to be connected to each other. Through the procedure, the wall temperature can be lowered at night. By making the wall cooler during the night, the wall will cool the room during parts of the day. It is further conceivable that the opposite effect is sought, ie that the wall is heated during the day so that it emits heat during the night. This is made possible by the fact that the building element contains elongate channels through which a relativt relatively relatively colder or relatively warmer air can flow. The flow is created by at least one fl whose exhaust air fl fate is channeled to the grooves 12 and the grooves 14, respectively. The exhaust air of the fan can be taken from the outdoor air. The exhaust air can also be tempered with an AC system or similar temperature regulating device.

Furthermore, a dehumidifier, according to the prior art, can be connected to dehumidify the air which is introduced into the grooves 12 and the grooves 14.

In alternative embodiments, it is conceivable that the channels can be used to monitor the moisture content of a wall, floor floor or the like. The moisture can, for example, originate from leakage in a water pipe or the like. The monitoring can take place by affecting an air skap created by, for example, at least one kt genus to genom through the channels. At least one sensor is inserted in a place suitable for the purpose according to the length of the channel. The sensor preferably consists of a moisture sensor which senses the moisture content and changes in the moisture content in the air. When using at least two sensors, changes in the moisture content of the air that is destructive in the grooves can take place. The moisture content of the air in the vicinity of the structural element is sensed and compared with the moisture content of the exhaust air from the grooves 12 and 14 in the structural members. If the moisture content exceeds a predetermined level, an alarm is issued.

The sensors can transmit information wirelessly or non-wirelessly to a monitoring system for moisture, mold or the like. The monitoring system is based on prior art, or future technology that will be available to a person skilled in the art, so this monitoring system is not described in more detail in this patent application. If the grooves 12 and 14 are interconnected between your structural elements (closed elongate channels extending from one structural element to at least a second structural element and preferably to a number of structural elements), the shielding of moisture content, mold and the like on a number of structural elements can take place.

Also applies in combination with the previously mentioned cooling and heating of the introduced air.

An unexpected technical effect has arisen during the impregnation of the insulating core 2. It has been found that the present construction enables a complete saturation and thereby total impregnation (100%), or substantially total impregnation, of the wood material in the insulating core 2. In alternative embodiments of the invention, this is impregnated with at least one type of impregnating agent which, for example, resists fire, protects against rot, protects against mold and / or insect damage with your types of damage. In the embodiments, a complete and total impregnation of all wood material takes place in at least one insulating core 2, or at least in at least one core element 7 included in the core 2. This is made possible by the unique construction of the present invention. A complete and total impregnation (100%), or substantially total impregnation, of all wood materials in the insulating core 2, or at least in at least one core element 7 included in the core 2, can be achieved with current known impregnation techniques, therefore these impregnation techniques are not described in more detail in this patent application. Although certain preferred embodiments have been described in detail, variations and modifications within the scope of the invention may become apparent to those skilled in the art to which the invention pertains, and all of these are considered to fall within the scope of the appended claims. It is conceivable that the present invention consists of a method for using the present building element. It is further conceivable that at least one of the third side and the fourth side is provided with at least one material layer.

Advantages of the Invention The present invention has a number of advantages. The most obvious is that building elements are obtained, similar to a log, which shrinks less than existing logs. Another advantage of the present invention is that a structural element which substantially eliminates cold bridges is obtained. An even further advantage of the present invention is that a sound-insulating construction element is obtained. A further advantage of the present invention is that it enables cost-effective cooling and heating of walls. A further advantage is obtained by the unexpected technical effect that a complete and total (100%) impregnation, or substantially total impregnation, of the invention can be achieved which is a great advantage which minimizes or eliminates the risks and damages of building structures against fire, insects, mold, rot and other similar adverse effects.

Claims (1)

A construction element (1) intended for use in buildings and the like comprising at least one insulating core (2) which on at least one side (3) is provided with at least one material layer (4) and on an opposite side is provided with at least one second layer of material (6), the insulating core (2) of which comprises at least a first core element (7) comprising a first fl number of grooves (12), with a first fl number of intermediate fl grooves (13), which extend in depth from a first main side (8) towards its second main side (9) and that the core element (7) comprises a second fl number of grooves (14), with intermediate second number fl grooves (15), which extend in depth from the second main side (9) towards the second main side (8) characterized by at least one core element (7) in at least one insulating core (2) is impregnated with at least one type of impregnating agent. Construction element (1) according to claim 1, characterized in that at least one insulating core (2) is impregnated with at least one type of impregnating agent. Construction element (1) according to claim 1 or 2, characterized in that the impregnating agent delays fire. Construction element (1) according to at least one of Claims 1 to 3, characterized in that the impregnating agent protects against rot, mold, insect infestation and the like. Construction element (1) according to at least one of the preceding claims, characterized in that the core element has a third side and a fourth side of which the third side (10, 11) or the fourth side (11) comprises at least one groove (16, 17). . Construction element (1) according to claim 5, characterized in that the third side of the core element comprises at least one groove (16) and that the fourth side (11) of the core element comprises at least one groove (17). Construction element (1) according to at least one of the preceding claims, characterized in that the core element is made of wood. Construction element (1) according to one of the preceding claims, characterized in that the depth of the first set of grooves (12) amounts to less than half the distance between the first main side (8) and the second the main side (9) and that the depth of the second set of grooves (14) amounts to less than half the distance between the second main side and the first main side. Construction element (1) according to one of the preceding claims, characterized in that the depth of the first set of grooves (12) amounts to at least half of the distance between the first main side (8) and the second main side (9). Construction element (1) according to one of the preceding claims, characterized in that the construction element (1) is elongate and intended to be used in a corresponding manner as a log. Construction element (1) according to one of the preceding claims, characterized in that the construction element is plate-shaped and intended for use as a floor joist. Construction element (1) according to one of the preceding claims, characterized in that the construction element comprises at least one moisture-shielding sensor.