DE202007005298U1 - Door, metal construction profile for a frame or a frame for a door or a window - Google Patents

Abstract

Door, metal construction profile (1) for one Frame or a frame for a door or a window comprising an outer side (2) and an inner one Page (4) and at least one, these two connecting leaf pages (3), characterized in that in the sheet side (3) in the X direction extending grooves (31) are arranged so that the grooves (31) in border the Z-direction and follow each other in the X-direction, so that the middle (311) of the length the groove (31) at a projection (32) between the adjacent Grooves is located.

Description

The Invention relates to a door, a metal construction profile for a frame or a frame for a Door or a window comprising an outer side and an inner side as well as at least one leaf side containing these connects them together. The invention particularly relates to a reduction of the heat transfer coefficient in manufactured from such a construction profile doors and Windows.

Doors and windows are typically used in places where there is a temperature difference between the outer and inner sides. In the case of an external door or exterior window of a building, specific standards for thermal insulation required by the construction apply. According to current government regulations (C3 Finnish Building Code Collection, Thermal Insulation of Buildings, 2003 Regulations, Ministry of Environment Decree on Thermal Insulation of Buildings, 30.10.2002), the heat transfer coefficient for doors and windows must be in a heated or specially heated room adjacent to outside air or accordingly 1.4 W / m ² K amount. Furthermore, it is stated in this building code collection that the thermal insulation requirements on windows and doors affect the entire structural part, including the frame and frame constructions. Other features required in this set of building codes for doors and windows are in one point in terms of strength: "... the materials must be such that they can withstand the stresses and strains associated with use without significant damage." Government building regulations are also in place in other countries, especially in cold areas such as the other Nordic countries.

It are certain special solutions required to have a heat transfer coefficient according to the regulations of the authorities at doors and to achieve window constructions made of metal, since those are used The materials themselves have a very high thermal conductivity exhibit. This high thermal conductivity causes such a high heat transfer coefficient in the design that these are not without special measures the above-mentioned authority regulations Fulfills. In the context of the present invention, the following construction directions are used Applied: The X direction corresponds to the longitudinal direction of the construction profile, with z. B. the direction of the door frame is meant. The Y direction corresponds to the width direction of the construction. The plane XY is thus substantially the same as that of the design profile, like the direction of the door or of the window. The Z direction indicates the thickness or depth direction of the construction profile. In particular, the present invention the thermal engineering Properties of the components, corresponds to the Z-direction usually also the direction of the temperature gradient for a mounted Construction. Material thickness referred to in this context Thickness of the wall of the construction profile.

Under the currently used design profiles is z. B., in which the construction profile of two separate profile pieces formed becomes. Between these two profile pieces is by means of spacers an insulating space formed in which a suitable construction part with lower thermal conductivity or with insulating ability, like a plastic profile, one made from a fiberboard Strip or the like, has been arranged. The spacers are typically designed as steel bar pieces cut to the appropriate length have been and are welded to the respective profile piece. Using the length of the intermediate piece can set the required thickness (in the Z direction) in the insulation space become. Such a construction is very laborious in In production, it requires many different operations and a considerable amount of different and separate structural parts, the first manufactured and then for the purpose of assembly or Montageschweißung must be mounted in place.

In the publication EP 1 179 112 B1 A construction profile for interrupting the thermal conductivity between the interior and exterior of the building is described. The arrangement according to this publication has various membrane bags, which are arranged in vacuum and arranged at suitable locations between the profile pieces.

In the publication WO 2005/028797 A1, a profile element is described on one side of which various constructions and shapes are arranged which prevent heat conduction and reduce it. The basic idea of this publication is a welded construction with a top and bottom part of the profile and a separate side or leaf part (corresponding to the part in the Z-direction) welded to them. This separate side or leaf part thus has different shapes to interrupt the thermal bridge. As particularly advantageous embodiments, the publication indicates openings formed in the side of the profile, which openings may be shaped to be X- or V-shaped, the angle at the inclined portion being in relation to the longitudinal direction of the profile between 5 ° -170 °, 5-135 ° and, especially advantageous, between 20 ° -90 °.

Of the The purpose of the invention is to provide a construction, a frame or frame profile, which is especially manufacture-friendly is and therefore compared to the prior art advantageous manufacturing costs offers and looks for an application in constructions suitable for outside air adjoin. In practice, this means that the construction complies with the above authority regulations. The The invention is further intended to provide a construction consisting of several various metals without special arrangements for each raw material produced in the profile can be. An object of the invention is to provide an assembly to provide, with the help of the heat conduction through the construction profile is low.

Distinctive Feature of a construction profile according to the invention for a Window or a door is that in the sheet side, a groove arranged in the X direction is such that the grooves are adjacent in the Z direction and in the X direction follow each other so that the middle of the groove length at one Projection located between the adjacent grooves. As a result, cuts the normal of the groove in the middle of the length of the groove the line of the adjacent X-shaped grooves in a projection between two on each other following grooves.

Distinctive Feature of an embodiment the invention is that an adjacent groove in at least two, preferably three or more rows in the Z-direction of the profile is present. Further is an embodiment characterized in that the width of the groove in the Z-direction is smaller is equal to or equal to like the material thickness of the profile. In connection with the present The invention is meant by groove a narrow opening, which is substantially the same thickness over her Length in the Z-direction and extending from any openings with another Shape differentiates. In this way, the heat conduction can be effectively reduce in a metal design profile. The conducted heat compared to the corresponding distance in the Z direction, in the X direction over one considerable distance in a labyrinth flow around, formed by the grooves which are arranged as a thermal break. From In terms of production, this embodiment is particularly advantageous. and you can easily and easily get a construction which is thermally efficient and still low production costs having.

It follows a detailed Description of the invention with reference to the accompanying drawings.

1 shows a construction profile, in the leaf side grooves are arranged according to the invention;

2 Fig. 12 illustrates a page of sheets according to a preferred embodiment of the invention;

3 represents a preferred embodiment of the invention, wherein the construction profile according to the invention is a door, and

4 illustrates a design profile according to a known technique.

In 1 is a typical design profile 1 for a frame or frame for a door or window. On the leaf side 3 this design profile 1 is by using grooves 31 a thermal break or labyrinth is arranged, which is from the inner side 4 along the construction profile to the outer side 2 conducted heat significantly delayed and reduced. Of course, heat can be conducted in both directions depending on the temperature prevailing on the various sides of the structure. According to the second law of thermodynamics, heat always flows from the warmer to the colder side. In such constructions, heat conduction is the most significant heat transfer shape, other heat transfer shapes are not particularly meaningful under normal conditions surrounding the subject of the invention. In 1 are grooves 31 in the construction profile 1 arranged in three rows in the Z direction. The length of the grooves 31 in the X-direction is chosen so that the strength of the construction is not weakened too much and the heat conduction distance is nevertheless as long as possible.

The pattern that the grooves 31 in an arrangement according to a preferred embodiment of the invention in 2 form is z. As follows: the length of the groove 31 in the X direction is 90 mm; the middle 311 the length of the groove is thus 45 mm from the two ends of the groove; the width of the groove 31 in the Z direction is 1 mm; the distance between the grooves, ie the projection 32 in the X direction is 5 mm; they are three rows of grooves 31 arranged in the Z direction; the distance between the grooves, ie the width of the passage 33 , is 8.5 mm. The material thickness of the construction profile 1 in the example examined, it is 1.5 mm, and the material is conventional structural steel. With this pattern, a heat transfer coefficient of 2.8 W / m ² K is achieved for the construction profile, if both the frame of the door and the frame of the door from the same construction profile 1 consist. If, at the same time, a construction is chosen for the center area of the door, the heat transfer coefficient of which is the conventio has a value of 0.56 W / m ² K, resulting in a heat transfer coefficient of 1.35 W / m ² K for the entire door construction, which thus meets the current requirements of the authorities.

In 3 a preferred embodiment of the invention is shown, wherein the door 1 in itself a construction profile and z. B. is formed of a metal sheet of bent steel. The door has an outer side 2 , Leaf pages 3 and an inner side 4 on. The interior of the door is with insulation 54 such as glass wool, mineral wool or the like filled. On the leaf side 3 the door is a thermal break using the grooves 31 arranged the heat conduction between the outer side 2 and the inner side 4 to reduce. An optional (not shown) construction is that of a construction profile according to the invention, a frame or a frame for a door is made to which the surface plates of the outer and inner sides are attached. Also in this alternative, the door can be filled with insulation, according to the description in the description 2 mentioned construction whose heat characteristics are defined.

The width of the groove 31 has no particular significance for the thermal conductivity, since the thermal conductivity of air differs significantly from the thermal conductivity of steel or another metal such as aluminum. The manufacturing cost of the design profile 1 However, they are quite strong on the width of the groove 31 influenced, since all material acceptance requires the use of work and energy. Therefore, only a necessary minimum amount of material is taken from a construction profile according to the invention, wherein the width of the groove 31 in the Z-direction is less than or equal to the material thickness of the applied construction profile. Typical thicknesses of the construction profile 1 are z. B. 50, 60, 70, 80 and 100 mm. As a result, the area of the grooves is 31 very small compared to the remaining area of the page. It follows that the amount of losses incurred in the production is decidedly lower than, for example, compared to the solution according to 8a and 8b in the publication WO 2005/028797 A1.

On the other hand affects the length of the groove 31 the thermal conductivity quite a lot. The longer the groove 31 is, the smaller the number of the heat-conducting protrusions 32 , In terms of the strength of the construction is the largest possible number and width of the projections 32 advantageous, a uniform construction of the leaf side 3 without grooves 31 , of course, would be the strongest. Investigations relating to the invention have shown that at a ratio of the length of the groove 31 to the length of the projection 32 in the X-direction greater than 9: 1, the heat transfer coefficient setpoint of the design is achieved without undermining the strength of the structure too much.

Around the heat transfer coefficient the entire construction as possible low, the design profile is preferably with an insulating material filled, as insulating wool, insulating foam or the like. Air is too a relatively good insulating material, unless the air is the possibility has too much inflow in too many places, with the design profile in certain cases can also be designed without separate insulation.

The grooves 31 are preferably made using a plasma cutting process. This allows automation of the manufacture of the design profile, and the purchase price of the plasma cutting equipment is extremely advantageous. The plasma cutting process can also be carried out manually, so that it can be well adapted to a work process that meets the needs. Laser and water cutting equipment is also very suitable for this purpose, but its purchase price is decidedly higher than that for plasma cutting equipment. Flame cutting is also a notable manufacturing process, but the groove width achieved thereby 31 is unnecessarily large for multiple uses.

The arrangement according to the invention is also suitable for construction profiles, which are made of materials other than steel. This may be z. As aluminum, aluminum alloys or other materials that are suitable for the construction sector, such as brass. If a material with lower strength than steel is used, there is cause, the material thickness of the construction profile and the design of the grooves 31 and projections 32 to be defined separately for each application.

The construction profile according to a known technique disclosed in 4 is represented, is formed by two separate profile pieces. Between these two profile pieces 51 is by means of intermediate pieces 53 an insulating space has been formed, in which a suitable structural part with low thermal conductivity or insulating ability, insulation 54 how a plastic profile, a strip made of a fiberboard or the like, has been arranged. The intermediate pieces 53 are typically designed as pieces that have been cut to length by a steel rod and welded to the respective profile piece. Using the length of the intermediate piece 53 the required thickness (in the Z-direction) can be set in the insulation space. Such a construction is very laborious to manufacture, it requires many different operations and a significant amount of different structural parts that must first be manufactured and then assembled on site for assembly or assembly welding.

Claims (5)

Door, metal construction profile ( 1 ) for a frame or a frame for a door or a window, comprising an outer side ( 2 ) and an inner side ( 4 ) and at least one, these two connecting leaf pages ( 3 ), characterized in that in the leaf side ( 3 ) extending in the X direction grooves ( 31 ) are arranged so that the grooves ( 31 ) adjoin one another in the Z direction and follow one another in the X direction, so that the center ( 311 ) the length of the groove ( 31 ) with a lead ( 32 ) is located between the adjacent grooves. Construction profile ( 1 ) according to claim 1, characterized in that adjoining grooves ( 31 ) are present in the Z-direction of the profile in at least two, preferably three or more rows. Construction profile ( 1 ) according to claim 1, characterized in that the width of the groove ( 31 ) in the Z-direction is less than or equal to the material thickness of the profile. Construction profile ( 1 ) according to claim 1, characterized in that the ratio of the length of a groove ( 31 ) to the width of the projection ( 32 ) between the grooves ( 31 ) in the X direction is greater than 9: 1. Construction profile ( 1 ) according to claims 1 and 2, characterized in that the ratio of the width of the passages ( 33 ) between the grooves ( 31 ) in the Z direction to the width of the projection ( 32 ) Is 2: 1 to 1: 2.