DE29712053U1 - Facade profile system - Google Patents

Description

A:WEG55 T3.TAT

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Facade profile system

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The invention relates to a facade profile system for filling external wall joints in facade constructions.

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When building facade structures, for example with facade panels, external wall joints must be left free. When planning them, the joint width, which is calculated taking into account normal production and assembly, must be measured.

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In addition to the dimensioning, sealing the external wall joints with joint sealants is also known from DIN 18 540. A backfill material is inserted between two facade panels that form a joint. The insertion depth is determined by the width of the joint. A joint sealant is placed over the filler material inserted into the joint.

The disadvantage is that the backfill material is laboriously pressed into the joint using a spatula, a stick or your fingers. Depending on the pressure applied, the backfill material is pushed into the joint to different depths. It is also laborious that the joint sealant is then applied using the same process.

From DE 37 22 824 C2 a molded body is known which consists of a soft elastic base body and a at least

j_ a protective skin covering part of the outer surface of the base body. However, the molded body is only used as a design element for facades, outdoor facilities or interiors, in particular in the form of stucco moldings or stucco reliefs.

The task therefore is to create a joint seal that is easy to install and that combines the backfill material and the joint sealant.

This task is solved with a facade profile system with

at least one soft-elastic and strand-shaped molded body having at least one flat outer surface, which is at least partially covered with an outer skin and each of which rests against at least one of the facade panels with at least one uncovered part of one of its outer surfaces in the outer wall joint.

The advantages achieved with the invention consist in particular in the fact that the soft-elastic molded body is arranged in the external wall joint between two facade panels. This not only takes on the function of filling the joint, but also forms an expansion joint and a thermal insulation bridge. The partial and external surfaces covered with the outer skin protect the expansion joint created in this way from the effects of the weather.

One or two molded bodies covered at least with the outer skin can be arranged in an external wall joint.

₃ Q If two molded bodies are arranged in the outer wall joint, a leveling joint material is placed between the outer surfaces of the molded bodies coated with the outer skin. The different design options for filling the outer wall joint allow adaptation to a wide variety of facades.

g ₅ denkonstruktionen given.

A liquid sliding recess can be made in one of the outer surfaces of the molded body. The liquid sliding

&igr; recess ensures that the water flowing down from the facade construction is not drained into the facade joint, but rather is drained away beforehand.

The soft-elastic molded body can be a strand-shaped plastic rigid foam body. Polystyrene foam is advantageously used as the plastic rigid foam. Other plastic foams can also be used. Plastic rigid foam has properties that allow it to adapt to the respective application conditions. Its high permanent elasticity ensures that it constantly fills and seals the external wall joint after it has been inserted. In addition, this material makes it easier to produce a wide variety of body shapes and is sound and heat insulating.

The outer skin can be constructed as follows:

A covering layer is flocked onto the outer surface, which is then impregnated with a protective skin. A covering layer is then applied to the protective layer.

The protective skin can be a hardenable, liquid synthetic resin. Epoxy resin, polyester resin, acrylic resin or polyurethane resin can be used as the synthetic resin.

The coating layer can be a sand or metal powder layer. This allows adaptation to the most diverse external structures of the facade construction. If the facade constructions are finished with an external plaster, the sand powder layer as a coating layer ensures a

QQ optimal adaptation. If the exterior plaster is painted, no difference can be detected between the plaster layer of the facade panels and the covering layers of the facade profile system.

An embodiment of the invention is shown in the drawing and is described in more detail below. They show

]_ Fig. 1 a building clad with a facade construction and a facade profile system in a schematic, perspective, partially exploded view,

Fig. 2 and 3 Sections of the facade construction with

a profile system used in a partial sectional view and

Fig. 4a to 4c Facade profiles for a facade profile system according to Fig. 1 to 3.

Fig. 1 shows a high-rise building in which prefabricated house walls 2 are placed on a building base 6 in a prefabricated construction. Windows 3 are installed in the house walls 2. The house walls 2 are made of reinforced concrete slabs that have low thermal insulation.

As shown in Fig. 1 to 3, the walls 2 of the 2Q high-rise are clad with a facade construction 100. The facade construction consists of facade panels 4, 5 and a facade profile system 1, which is arranged in external wall joints 9 between the facade panels 4, 5. The facade panels consist of a thermal insulation panel 4, which is covered by a cover panel 5.

The facade profile system 1 consists of facade profiles 51, 52, 53, 54, which are shown in Fig. 4a to 4d. Each of the facade profiles consists of a plastic hard

₃ Q foam bodies 11, 12, 13, 14. They are at least partially covered with an outer skin 21, 22, 23, 24. The outer skin is produced by first applying a flocked covering layer, which is then impregnated with a protective skin. A covering layer is then applied to the still moist protective skin. When using polystyrene foam for the plastic rigid foam bodies, epoxy resin is the medium of choice for impregnating the flocked covering layer. It gives the protective skin that is being formed the necessary

• · dead ·· ··**

strength and, on the other hand, is also suitable for coloring the facade profile through suitable coloring. Immediately after the liquid synthetic resin has been applied, the protective skin is covered with a layer of sand, plaster, cement or plastic powder. This ensures that the appearance and protective function are adapted to the cover plate 5.

IQ The plastic rigid foam body 11 has a rectangular cross-section, which is provided with a groove on one side. Its outer surface 111 is uncoated. The opposing outer surfaces 110 and 112 are partially covered by the outer skin 21. The also opposing

The outer surfaces 113 and 117 are completely enclosed by the outer skin 21, as are the groove-forming outer surfaces 114, 115 and 116.

The plastic rigid foam body 52 has an anvil-like configuration. Its outer surface 121 is uncoated.

Its outer surface 120 is partially covered by the outer skin 2 2, while its outer surfaces 122, 123, 124 and 125 are completely coated. The outer surface 120 has a width that corresponds to that of the outer surfaces 110 and 112. The outer surface 122, which is parallel to the outer surface 120, is about half as long as the outer surface 120. The outer surface 125 adjoins it at a right angle, which then merges into the outer surfaces 124 and 123. The anvil-like plastic rigid foam body 12 described in this way therefore has the QQ shape of a plastic rigid foam body 11 split in the middle.

The plastic rigid foam body 13 is delimited by outer surfaces 130, 131, 132, 133, 134 and 135. It has the same configuration as the plastic rigid foam body 12 as described above. In contrast to these, however, a liquid guide recess 10 is embedded in the slanting outer surface 134. This liquid guide recess

can have a square or a partially circular cross-section, as shown in Fig. 4c.

The plastic rigid foam body 14 of the facade profile 54 shown in Fig. 4d has a similar configuration to the plastic rigid foam body 12 shown in Fig. 4b and described in great detail. It is delimited by outer surfaces 140, 141, 142, 143, 144 and 145. In contrast to the plastic rigid foam body 12, its outer surfaces 141 and 145 are not as long. The outer surface 140 is partially covered by the outer skin 24, while the outer surfaces 142, 143, 144 and 145 are completely covered.

The use and functionality of the facade profile system 1, as shown in the exemplary embodiment shown, is explained.

Above the building base 6, as shown in Fig. 1 and 3, a holding element for holding the facade construction 100

2Q. The facade profile 52 is then placed on the building base 6 and a leveling joint material 8 is placed on its outer surface 122 covered with the outer skin 22. The facade profile 53 with its outer surface 32 coated with the outer skin 23 is placed over the leveling joint material 8. The thermal insulation panel 4 is then attached to the housing wall 2 and then the cover panel 5 is attached to it. The cover panel 5 lies on the uncoated part of the outer surface 130. The outer wall joint 9 can be made instead of the described construction with the facade profile

QQ 51, whereby here too the thermal insulation panel 4 rests on the non-coated part of the outer surface 110.

As shown in Fig. 3, the facade profile 54 with its partially coated outer surface 140 is placed on the opposite end of the thermal insulation panel 4 covered with the cover panel 5. Here, too, the leveling joint material 8 is applied to the outer surface 142 coated with the outer skin 24.

The coated outer surface 132 is then placed on the joint leveling material 8. The thermal insulation panel 4 and the cover panel surrounding it are then placed on the non-coated part of the outer surface 130, as already described. It is also possible to use the facade profile 51 here. The facade profile 51 can be provided with a liquid sliding recess that is made in the outer surface 114.

2Q In Figs. 2 and 3, the formation of two horizontally running external wall joints 9 is shown, which are sealed with the facade profile system 1. In a similar way, the vertical external wall joints 9 are filled, whereby here advantageously the joint profile 51 or two opposing

2g overlapping joint profiles 52 with an intermediate levelling joint material are to be installed.

It is important that the facade profiles not only seal the external wall joint 9 but that the heat-insulating

2Q insulation panel 4 or the cover panel 5, the plastic rigid foam body acts as an expansion joint. If the cover panels 5 of the facade construction 100 in particular expand at high temperatures, the plastic rigid foam bodies 11, 12, 13, 14 absorb this expansion.

If, however, the cover plates 5 contract, the plastic rigid foam body fills the growing outer wall joint 9 due to its high elasticity. Its partially uncovered outer surface presses itself in a similar way against the thermal insulation or cover plate.

The part of the plastic rigid foam bodies 11, 12, 13, 14 covered with the outer skin 21, 22, 23, 24 protrudes slightly from the outer wall joint 9. This part seals and protects the expansion joint that has been formed. By using a metal powder layer as the outer covering layer, the outer skin has a material configuration similar to the cover plate 5. If the facade construction is then painted, the individual

Cover plates 5 and the externally visible outer skins 21, 22, 23, 24 of the facade profiles 51, 52, 53, 54 can no longer be distinguished. The entrance to the high-rise building, marked 30, can be clad in a similar way. 31 is the final flat roof of the high-rise building. The client decides how and in what manner higher thermal insulation is to be carried out.

Claims (8)

Al (A:WEG55_A3.TAT) Protection claims: 1. Profile system for filling external wall joints in facade constructions, characterized by at least one jQ elastic and strand-shaped molded body (110; 120; 140) having at least one flat outer surface (110, ... 117; 120, ... 125; 130, ... 135; 140, ... 145), which is at least partially covered with an outer skin (21; 22; 23; 24) and which is provided with at least one non ^c covered part of one of its outer surfaces (110, ... 117; 120, ... 125; 130, ... 135; 140, ... 145) in the outer wall joint (9) rests against at least one of the facade panels (4, 5). 2Q 2. Facade profile system according to claim 1, characterized in that one or two molded bodies (110; 120; 130; 140) at least partially covered with the outer skin (21; 22; 23; 24) are arranged in an outer wall joint (9). 3. Facade profile system according to claim 1 or 2, characterized characterized in that, when two molded bodies (110; 120; 130; 140) are arranged, a compensating material (8) is arranged between one of the outer surfaces (HO, ...; 145) of both molded bodies (110; 120; 130; 140) coated with the outer skin (21; 22; 23; 24). 4. Facade profile system according to one of claims 1 to 3, characterized in that in one of the outer surfaces of the molded body (110, ... 117; 120, ... 125; 130, ... 135; 140, ... 145) a liquid sliding recess (10) is provided. A2 ^ 5. Facade profile system according to one of claims 1 to 4, characterized in that the soft elastic molded body is a strand-shaped plastic rigid foam body (110; 120; 130; 140). 6. Facade profile system according to one of claims 1 to 5, characterized in that the outer skin (12) consists of a flocked covering layer which is impregnated in a protective skin and an IQ coating layer applied to the outer skin. 7. Facade profile system according to one of claims 1 to 6, characterized in that the protective skin is a hardenable, liquid synthetic resin. 8. Facade profile system according to one of claims 1 to 7, characterized in that the coating layer is a sand or metal powder layer.