EP1452657A2 - Facade with insulation block - Google Patents

Abstract

The facade, consisting of a support construction (7) with several supports for the mounting of facade elements (4) such as glass panes, has a pressure rail (2) which presses the facade element against the supports. A seal is provided between the pressure rail and facade elements, and an insulating block between the pressure rail and supports. The facade, consisting of a support construction (7) with several supports for the mounting of facade elements (4) such as glass panes, has a pressure rail (2) which presses the facade element against the supports. A seal is provided between the pressure rail and facade elements, and an insulating block between the pressure rail and supports. The insulating block (1a) and seal (1) are constructed in one piece and form a unit (110), and the unit may be manufacture from one or different materials.

Description

The invention relates to a facade, which consists of a support structure with several beams, which facade elements such as panels, glass panes and the like, where a pressure bar is provided, against the facade elements the carrier presses between the pressure bar and facade elements a seal is provided and between the pressure bar and carrier Insulation block is arranged.

The aforementioned facades are, for example, from the German utility model 299 18 219 already known to the applicant. The aforementioned Facades are used especially for low-energy houses used. It is particularly important to do this as far as possible effectively avoid any thermal bridge to get the highest possible To achieve thermal insulation. This is especially the edge area of the facade parts of great importance, because in the edge area the high thermal insulation of the facade parts naturally no longer exists and here, of course, slightly thermal bridges can arise. To improve thermal insulation is in this utility model proposed the insulation of two To form insulating bodies.

In addition to the highest possible thermal insulation, it is also an advantage if the facades are easy to assemble.

The object of the invention is to create a facade, as described at the beginning, to realize the simplest possible is to be assembled.

To achieve this object, the invention is based on one Facade, as described at the beginning, and suggests poetry and to form the insulation block in one piece. They therefore form one Unit. The number of individual components of the facade is thereby reduced. The assembly is made easier because fewer components need to be assembled during assembly. Is too the time saving is not insignificant, since fewer components from Fitter are to be taken in hand in order to fix and close them fix.

Due to the one-piece design of the seal and insulation block do not need a variety of when assembling the facade individual components fixed against each other or for example be aligned and fixed with respect to the pressure bar. It preparatory work is no longer necessary in the Kind of connecting the seals to the insulation block first are and then this combined component is installed in it. This not only facilitates the assembly of the invention Facade, even the preparatory work is done by significantly reduced this proposal according to the invention. Also the Tightness of the facade is improved as the seals can no longer slip during assembly, which is the case with State-of-the-art solutions frequently occurred.

But also the manufacture of the individual components for the invention Facade is simplified. Usually will the seal or the insulation block in an extrusion process manufactured. Individual tools are required for this. The effort for the tools is reduced by the invention Proposal also, since the unit of insulation block and seal for example, can be produced in one tool.

According to a preferred embodiment of the invention the unit consisting of insulation block and seal made of one material manufactured. A foamed one is particularly suitable for this Material made of polyethylene or a rigid foam such as polyurethane. Closed-pore foams in particular have the advantage that they have good thermal insulation properties, so that on the facade good thermal insulation is created in a building.

For the manufacture of the insulation block and sealing unit itself EPDM plastic (ethylene / propylene (diem) copolymer) or Foam rubber has proven to be particularly cheap. He can in different hardnesses are produced, with one Compromise of medium hardness both satisfactory thermal insulation sealing properties can also be achieved. The unit out Insulation block and seal can be made of one material in one Operation.

According to a further variant of the invention, there are insulation blocks and gasket made of different materials, manufactured individually and then assembled or in one operation manufactured and assembled. Both parts can for example glued together after their manufacture become. If it is a thermoplastic, it is also possible to fuse both parts together or it Means are provided to use these parts elsewhere - e.g. by locking - to connect with each other.

As already mentioned, EPDM plastic is suitable for both Embodiments of the invention excellent because of this plastic can be manufactured in different hardnesses and thus a softer one Version for the insulation block and a harder version for the seal can be used.

In order to achieve good thermal insulation properties of the insulation block, becomes EPDM plastic with a hardness of approx. 30 to 40 Shore used. This plastic is in this hardness too known as "foam rubber". For the material for the seal is chosen to have a hardness of 60 to 70 Shore.

These two parts of the unit are, for example, in one Extrusion process manufactured individually. advantageously, they are designed like strips and their required length is achieved by cutting from an endless strand or it are only in the specific length of the extrusion machine manufactured. Then the insulation block and Sealing strip connected together.

Especially when using EPDM plastic different A coextrusion process is also suitable for hardness, that is, the individual strands are made during their manufacture immediately connected. The work step It is no longer necessary to connect the two parts together. In this way, the manufacturing costs can be significantly reduced become.

According to the invention, two actually contradict each other Parts summarized. For good thermal insulation properties is therefore relatively soft material with poor thermal conductivity is an advantage, which is actually not absolutely suitable for the formation of a seal. The invention but includes both solution in which an insulation block and Sealing strip produced individually and afterwards in be connected in a suitable manner, for example by appropriate thermal process or with the support of Adhesives, which is also within the meaning of the invention unitary connection leads, or else the unit is in a coextrusion step, where then areas with lower and areas with higher hardness at the same time, with Materials of different densities, hardness or others physical properties produced and interconnected become.

According to an embodiment of the invention, the seals are molded on the side of the insulation block, which makes the unit Insulation block and seal forms a T-shaped cross section. The Insulation block then extends between the facade elements, while the seals on the ends of the facade elements rest and from the pressure bar against the facade elements be pressed. Thus, the interior is protected from the weather protected. This way the gap between the Facade elements completely filled.

In a further preferred embodiment of the invention provided that the insulation block at least partially on the end face of the facade element. As a result, the whole unit some leadership between the two neighboring facade elements arranged to each other and improved with it also the sealing.

To create air chambers that further the insulation properties increase, it is provided that between the facade elements and Insulation block a room remains. The one remaining in this room Air circulates as little as possible or not at all and thus forms an air cushion.

The cross section of the insulation block can be uniform be trained so that he in the upper and lower area has the same distance to the facade elements. The Seals connect like wings to the insulation block.

According to an advantageous embodiment, the Insulating block. Its cross section then has a T-shape. With the the extended section the insulation block leans against the End faces of the facade elements and thus prevents that move the facade elements against each other during assembly. The seals close here on the extended side Section of the insulation block.

According to a further embodiment according to the invention, the Insulation block on its side facing the pressure bar Area on which is higher hardness than the areas of the rest Has insulation blocks. This area connects the two seals arranged on the side of the insulation block. This area advantageously has the same Hardness like the seals themselves. But it can also be hard have that between that of the insulation block and that of the seals lies, or - the area is even harder than that Seals formed themselves.

The area of higher hardness serves to stabilize the entire unit, the arrangement is on the outside, outside the actual insulation.

To further increase the thermal insulation properties of the insulation block, is provided recesses in the body of the insulation block train. These recesses form air chambers in which the air as in the space between the insulation block and Facade elements not circulated and therefore for isolation contributes. These recesses are preferably in the area of the insulation block provided, which is between the facade elements extends. The deviations can be channel-like or tube-like be formed, the strand being produced by the extrusion process is formed as a hollow profile.

The cutouts can also be made according to a further invention Variant must be completely included in the material. This can possibly be caused by increased pore formation in the Foaming of the EPDM plastic can be achieved.

The cross-section of the recesses is advantageously approximately 1 cm ² , although larger and smaller cross-sections are also possible.

Additional air chambers between the outside of the facade and the Buildings are achieved in that the space between the insulation block and facade elements is divided. The smaller this room or this air chamber, the lower the Air circulation and the higher the insulation property.

To reduce this space, are on the side of the insulation block Lips formed so that this space is divided into individual chambers becomes. These lips are advantageously elastic trained so that they when inserting the insulation block bend between the facade elements and on the end faces of the facade elements. They also seal the facade against weather influences, if the outer seal should be defective or between the outside of the facade and condensation on the inside.

The unit consisting of insulation block and seal is made by means of a Pressure bar attached to the supporting structure of a facade, with the facade elements between the seal of the unit and an inner seal between the facade element and Support structure is arranged to be pinched. to Attachment of the pressure bar to the supporting structure is a Fastening profile provided, which is used to hold screws, Rivets and the like, serves.

To the pressure bar and insulation block and sealing unit against each other to fix, are in the pressure bar for example Provided grooves in which the unit can be inserted is. The unit consisting of an insulation block and seal has locking projections which engage in these grooves. In this way is a pre-assembly of pressure bar and insulation block and sealing unit possible, which considerably simplifies assembly on site. It is possible in the sense of the invention that the Seal is integrally connected to the insulating body and by the pressure bar, as described, is held.

The object of the invention is also achieved by an arrangement solved, in which the pressure bar and the insulation block and sealing unit are integrally formed with each other. Here too the number of individual elements and one component is reduced given two functions.

Incidentally, it is an aspect of the invention by a clever and intelligent coupling of the functions of the different To save components in a new component to make the assembly easier, but also the effort to reduce overall for creating the facade because fewer individual profiles or parts are required.

In a further development according to the invention, it is proposed that that insulation block, seal and also pressure bar in one piece are trained. By a skilful, possibly further Optimizing the areas where a seal would otherwise Insulating body or a pressure bar are arranged, a such heterogeneous component can be further improved, wherein again the number of components is reduced.

It is advantageous, for example, this component, which is produced as profile goods, for example in one To produce extrusion or coextrusion processes, which makes it possible to have areas with higher and areas with lower hardness to realize, for example on one Component for the seal the hardness is increased at the edges to achieve sufficient stability and at the same time a softer area between the facade elements (with higher air inclusion) of the insulation block.

Fig. 1 bis Fig. 6:

jeweils in einem Schnitt durch ein Detail der erfindungsgemäßen Fassade.

Further variants according to the invention are shown in the drawing. Show it:

1 to 6:

each in a section through a detail of the facade according to the invention.

In Fig. 1 is a first variant of the invention Shown design.

The facade has a support structure 7, for example are arranged in a post and transom construction. This Support structure 7 supports the actual facade, that is, the facade elements 4. These are for example as Insulating glass panes or as panels and so on, can be formed.

To the facade elements 4 on the support structure 7 fasten, a fastening profile 6 is provided. The Fastening profile 6 is, for example, T-shaped, the middle web of which forms a screw channel to a Include fasteners for attaching the pressure bar 2. The middle web, which forms the screw channel, extends between two adjacent facade elements 4.

Between the facade element 4 and the support structure 7, the is often arranged on the inside of the building is one Inner seal 5 is provided, which hat-like over the mounting profile 6 is pluggable.

The screw channel of the fastening profile 6 has interior Grooves to ensure a secure hold for the Fasteners, for example a bolt or one Fixing screw to offer. To the inner seal 5 too fix, the inner seal has one in the upper part of the Screw channel engaging strip. For attaching the Facade element 4 serves the pressure bar 2. The pressure bar 2 is by a fastener, not shown, for Example a fastening screw or firing pin and such further, pressed against the facade element 4, whereby the Facade element 4 pressed against the support structure 7 and so is held. The fastener or the fastening screw is not shown.

A cover strip 3, which can be designed as desired, hides the pressure bar 2.

Between the pressure bar 2 and the facade element 4 is the External seal 1 provided.

Between the pressure bar 2 and the support structure 7 is the Insulation block 1a arranged.

According to the invention it is proposed that the left and the right seal 1 made in one piece with the insulation block 1a is. The production takes place here as so-called Coextrusion. The result is a heterogeneous profile product that has a different hardness in the area of the seal than in the Area between the facade elements. For example it is Material of the seals 1 made of EPDM plastic, as in the sealing area otherwise common, with hardnesses between 60 and 70 Shore manufactured. The insulation block 1a is made of foamed EPDM (for example, foam rubber). This results in for the insulation block 1a hardness of only 30 to 40 Shore and thus significantly improved insulation properties.

A one-piece design of the insulation block with the seals offers both advantages in assembly due to a lower number of components as well as in the construction in general, because the separate production of sealing profiles on the one hand and insulation block profiles is reduced on the other hand.

As already described at the beginning, is just in the marginal area the facade elements the thermal insulation from the extreme Importance. By skilfully filling the joint area The thermal insulation between two facade elements is appropriate to optimize so that if possible no sharp ones There are cracks in the course of the isotherms. The dew line should in any case as far out as possible to get a Avoid condensation or sweating of the facade safely. The arrangement according to the invention now allows the insulation block to optimize accordingly.

The insulation block 1a is T-shaped. The middle bridge this T stands between the two facade elements with a a certain distance from the end faces. This makes it possible to compensate for corresponding dimensional differences. In here The exemplary embodiments shown lie in the T-shaped central web trained insulation block 1a on the inner seal, which is attached to the screw channel-like fastening profile 6 is. The space 8 between the front of the Facade element 4 and the web of the insulation block 1 a forms also an air chamber in which the air if possible not circulated.

The crossbar of the T-shaped insulation block 1 a carries on the respective lateral ends of the seals 1. Conveniently is the one-piece sealing / insulation block 110 as a profile product formed like a strip and in an extrusion process ultimately infinitely producible.

An advantage of this invention is that just the intermediate area between two adjoining Insulate facade elements 4 so effectively that none here Thermal bridge does not arise or the heat conduction is better than in the facade element 4 itself. For this are different measures possible. For one thing, it is possible appropriate insulation material in the intermediate area contribute. Another option is Provide recesses 1b, which are arranged in the insulation block 1a and that are, for example, between the opposite End faces of the facade element 4 is located.

It is advantageous not to make these recesses 1b too large to choose, i.e. to leave it relatively small, in particular to ensure that the air contained therein does not circulate. Doesn't this air circulate, so it is standing, like this the thermal insulation property is significantly improved again. Experiments have shown that this cross section is approximately one Should not exceed square centimeters, this being none Restriction of the invention is intended to represent, but it comes in essential that the recess 1b sufficiently small is that there is no circulation of air.

To facilitate assembly, the pressure bar 2 provided that there grooves 11 incorporated or are arranged, which are suitable, corresponding locking projections 10 or lugs of the one-piece sealing / insulation block 110 for a reliable network.

A further variant of the invention is shown in FIG. How 1 already carried out, it is provided that the seal 1 made of a harder material, possibly a harder one EPDM material to form. In the variant in FIG. 1 these harder areas are limited to the outer ones Sealing areas, i.e. the lateral edge areas of the Cross bar of the T-shaped insulation block 1a. In this one illustrated embodiment is the harder material in such an area in a region 120 between the seals 1 arranged like a strip that the sealing areas together combines. The harder material thus stiffens the Insulation block and sealing unit and improves stability.

2 improves the stability of the entire unit.

3 are circular instead of circular Cutouts 1b in the insulation block 1a rectangular cutouts 1b intended. In the example shown here there are two recesses 1b arranged without the invention on one, two or more want to limit longitudinal recesses. Depending on Design of the facade elements 4 and Facade overall, it may be beneficial to have a larger number of recesses 1b to be arranged.

Furthermore, the invention proposes in particular the To increase heat insulation again that the side room 8 between the end face of the facade element 4 and the Insulation block 1a by a lip 1c protruding laterally is divided. This lip 1c, which has some elasticity has to securely on the front side of the facade element 4th create divides the strip-like space 8 between the Front side of the facade element 4 and the insulation block 1a or the mounting profile 6 again to ultimately, here too, a circulation of air prevention. It is also advantageous that optionally several lip-shaped webs 1c in a row are arranged if, for example, relatively thick Facade elements 4 are to be installed. With a tie the air circulation improves the thermal insulation. As before described, the air circulation is then prevented, if by dividing air chambers 9 arise in which an air is no longer able to circulate, i.e. one standing column of air.

4 shows a further variant according to the invention. To optimize the thermal insulation, here are several Air chambers 1b proposed, here the upper, outer part of the insulation body 1a up to the end faces of the facade element 4 (for example a sheet of glass) is led to the same To achieve the result, namely the air gap to the front to reduce the size of the glass pane and thus the thermal insulation improve.

The embodiment of the invention designated in FIG. 5 is dispensed with a heterogeneous structure of the sealing and insulation block unit, making the manufacture cheaper.

In a further variant according to the invention, that, as shown in Fig. 6, the insulation block 1a another Has locking projection, the pressure bar 2 an additional Groove for fixing or receiving the insulation block 1a has.

It is clear that the different individual variants that are proposed, of course partially in the sense of the invention can be combined with each other.

The claims now filed with the application and later are attempts to formulate without prejudice to achieve further protection.

Should there be a closer examination, especially of the relevant prior art, show that one or other feature for the purpose of the invention, although favorable, not but it is of crucial importance, it will of course be now striving for a wording that is such a characteristic, especially in the main claim, no longer has.

The backward relations mentioned in the dependent claims point to the further training of the subject of the main claim by the features of the respective subclaim out. However, these are not considered a waiver of achievement an independent, objective protection for the characteristics to understand the related subclaims.

Features previously only disclosed in the description can in the course of the process as of essential to the invention Significance, for example to differentiate it from the prior art be claimed.

Features that were only disclosed in the description, or also individual features from claims that have a plurality of features can at any time to differentiate from the status of Technology in the first claim to be adopted, and indeed then when such characteristics are related to other characteristics were mentioned or in connection with others Characteristics achieve particularly favorable results.

Claims (15)

Facade, consisting of a support structure with a plurality of supports, which holds facade elements such as panels, glass panes and the like, a pressure bar being provided which presses the facade elements against the support, a seal is provided between the pressure bar and facade elements and an insulation block is arranged between the pressure bar and support , characterized in that the insulating block (1a) and seal (1) are formed in one piece and form a unit (110). Facade according to claim 1, characterized in that the unit (110) made of insulating block (1a) and seal (1) are made of one material. Facade according to one or both of the preceding claims, characterized in that the unit (110) consists of an insulating block (1a) and a seal (1) made of different materials. Facade according to one or more of the preceding claims, characterized in that a foamed plastic is provided as the material for the insulating block (1a) and / or the insulating block (1a) consists of foamed EPDM. Facade according to one or more of the preceding claims, characterized in that the material of the insulating block (1a) has a hardness of approximately 30 to 40 Shore and / or a plastic, for example EPDM plastic, is provided as the material for the seal (1) which has a hardness equal to or greater than that of the insulation block (1a) and / or the plastic for the seal (1) has a hardness in the range from 60 to 70 Shore. Facade according to one or more of the preceding claims, characterized in that an area (120) of higher hardness than the hardness of the other insulating block (1a) adjoins and / or adjoins the side of the insulating block (1a) which faces the pressing bar (2) A seal (1) with a hardness higher than the hardness of the insulation block (1a) connects to both sides of the insulation block (1a) and the area (120) connects the two seals (1). Facade according to one or more of the preceding claims, characterized in that the insulating block (1a) is T-shaped and carries the seals (1) at its lateral ends and / or the insulating block (1a) and seal (1) are designed in the manner of strips and / or insulation block (1a) and seal (1) are firmly connected. Facade according to one or more of the preceding claims, characterized in that the insulating block (1a) and the seal (1) are connected to one another by gluing and / or the insulating block (1a) and the seal (1) can be produced in an extrusion process and / or the insulating block (1a ) and seal (1) are coextruded and / or the insulation block (1a) has one or more recesses (1b). Facade according to one or more of the preceding claims, characterized in that the insulating block (1a) projects into the area between the facade elements (4) and the cutouts (1b) are provided in the area between the facade elements (4) and / or the cutouts (1b) channel-like or tube-like or completely enclosed in the material of the insulating block (1a) and / or the cross section of the recess (1b) is approximately 1 cm ² . Facade according to one or more of the preceding claims, characterized in that the unit (110) comprising the insulation block (1a) and the seal (1) is held by the pressure strip (2) and / or between the insulation block (1a) and the facade elements (4 ) a room (8) is provided. Facade according to one or more of the preceding claims, characterized in that the insulating block (1a) in the area which is arranged between the facade elements (4) has laterally projecting lips (1c) which are located on the end faces of the facade elements (4). lean and / or the lips (1c) divide the space (8) between the insulation block (1a) and the facade elements (4) into further chambers (9) and / or these lips (1c) are elastic. Facade according to one or more of the preceding claims, characterized in that the insulation block (1a) completely fills the area between the facade elements (4) and / or at least the material of the insulation block (1a) is flat, strip-like and / or the insulation block ( 1a) lies at least partially on the end face of the facade element (4). Facade according to one or more of the preceding claims, characterized in that the pressure strip (2) is fastened to the supporting structure (7) of a facade by means of screws and a fastening profile (6) and / or the unit (110) made of insulating block (1a) and Seal (1) has locking projections (10) or lugs which cooperate with grooves (11) in the pressure strip (2) and / or the grooves (11) are provided with undercuts for the latching reception of the locking projections (10). Facade according to one or more of the preceding claims, characterized in that both the insulation block (1a) and the seals (1) each have locking projections (10) which interact with corresponding grooves (11) of the pressure bar (2) and / or the pressure bar (2) with the seal (1), the insulation block (1a) or its unit (110) is formed in one piece by means of gluing or coextrusion. Facade according to one or more of the preceding claims, characterized in that the unit (110) also comprises the pressure bar (2).

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