DE10009914A1 - Joint seal for buildings consists of a sealing material which remains pre-compressed and dry in the joint but expands in the joint when liquid is applied - Google Patents

Abstract

Joint seal for buildings consists of a sealing material for suction-closing a joint which is inserted pre-compressed into the joint. The sealing material remains pre-compressed and dry in the joint but expands in the joint when liquid is applied. An Independent claim is also included for a process for the production of joint seal for buildings. Preferred Features: The liquid is applied by spraying. The sealing material consists of or is impregnated with flame retardant material. The liquid is a fireproof liquid containing expanded graphite.

Description

The invention relates to a joint seal a building, especially fire protection elements such as door or window with an absorbent joint that closes a joint Sealing material that is pre-compressed into the joint is.

A joint seal with the aforementioned features well known. The absorbent sealing material is a Foam strip that compresses during its manufacture will and remains at first. As a result, it is possible for him roll up without creating large volumes. The like pre-compressed foam is inserted into a joint brings, for example in a joint between a reveal of masonry and a frame inserted in this reveal men. The pre-compressed foam decompresses. The volume increase leads to the fact that the Seal foam on both the reveal and the frame tends. The known foam is limited Absorbent to absorb impregnation, with which the fire resistance of the well-known Fu to some extent can achieve gene sealing. The decom pression of the known sealing material begins as soon as it is inserted in the joint and progresses to the complete Sealing off quickly. On the one hand, this is desirable. Other on the other hand, a correction of the seat or an addition the installation of sealing material difficult because that turned built sealing material is difficult to move for example, deeper into the joint.  

The invention is therefore based on an object Joint sealing with the characteristics mentioned above improve that even after installing absorbent you handling material in the joint can without these manipulations by the be already decompressed sealing material.

This object is achieved in that the Dichtma material remains pre-compressed dry in the joint, but extensive after applying liquid tend to be present in the joint.

It is important for the invention that the Sealing material in the joint is dry and dimensionally stable remains lubricated. So it also keeps its compressed form after installation in the joint if it is dry. This is usually the case. So when installing, on the one hand from the small volume of the sealing material Made use of that it is easy to insert into the joint, that is, without hitting the boundary walls forming the joint. On time-consuming plugging of the joint is therefore eliminated. About that but it is also after the insulation material has been inserted than possible in the joint, prefers handling in the joint take, for example, adjustments in a reveal used frame, without being through the already inserted brought sealing material to be hindered, if necessary can also be easily removed again until the requ The handling is done to get it back on afterwards to be built. Only at a predetermined time Liquid applied to the sealing material so that this expands until it is completely sealed in the Groove is present. The time of sealing is at this joint sealing according to the building requirements tunable, so that there is a corresponding free movement of time for handling the element to be sealed especially in Area of the joint to reveal the masonry.  

It is advantageous to form the joint seal in such a way that the liquid is sprayed on. As a result, is rivers liquid finely divided in a predeterminable amount the. With the amount of liquid, the degree of decom Priming can be determined or it will be the joint sealing depending on the properties of the sprayed rivers conveyed predetermined properties. In all cases spraying is a suitable method to remove the dose sufficient amounts of liquid to be carried can.

The joint sealing opens up a special application area if the sealing material is made of flame retardant Material exists and / or is flame retardant impregnated. In In this case the joint seal is in connection with fire use protective elements, especially with fire protection doors and / or fire protection windows. The flame retardant material the sealing material prevents the fire from inside a path through the seal within a predetermined time material or looking through the joint. The same goal will achieved when the sealing material impregnates flame retardant is, that is, before it is co-compressed or installed. Improved flame retardancy can result if flame inhibiting material is impregnated flame retardant.

A further improvement in the joint sealing can result in that the liquid fire protection liquid is. So it can still be done during construction from a non-fire retardant construction to a fire retardant construction can be changed. By on brought fire protection liquid becomes fire resistance the joint sealing improved considerably. It will be over agreed fire protection values better achieved, for example Fire protection values according to fire protection class B1. With The fire protection liquid is not only the fire protective behavior of the joint seal improved, but it  is also ensured that the sealing material decompressed and the joint is completely sealed, whereby the sealing material close to both forming the joint Interfaces, for example to a window reveal on the one hand and on a frame of a door of another on the part of

The joint sealing can be specialized in that that the liquid contains expanded graphite. Expandable graphite can be contained in the liquid, so that it with the liquid also inside the sealing mat rials got into it. In the event of a fire, the outer ones first Layers of joint sealing by fire e.g. B. with a tem temperature of over 180 ° C. As a result of the fire swells the expandable graphite and increases the volume of you processing material. The burning material of you tion material is replaced by expanded graphite, so that the Ab sealing of the joint is not impaired. It will be at for example excluded that fire, smoke and gases through to step through the joint. Rather, when you burn up uncovered new expanded graphite, which with the Fire comes into contact and inflates. In this way the seal is continuously improved despite the fire, by sealing the newly inflated expanded graphite and thereby may replace the burning of the sealing material or this even displaces it, so that further burn-up is reduced becomes.

It is preferred that the sealing material of the foot correspondingly differently pre-compressed is. Common joints in the door and window area of buildings have a width between 5 mm and 25 mm. The pre-compression can be adjusted to these widths. More compressed The sealing material becomes with narrower joints and less highly compressed sealing material for wider joints turned. So that the manufacturing process of the joints can be tion can be optimized. In particular, the joints close  after applying the liquid comparatively fast, because there is no particularly large space for decompressing is to be overcome. Such a configuration of the Fu Gena sealing is particularly advantageous if the Joint width is structurally predetermined, for example at New buildings, especially with tolerance limits.

This can further improve joint sealing be that the seal intended for installation in a joint material is a dry compressed sponge. Sponges are particularly absorbent and can be applied quickly Absorb liquid. That is for a fast-paced one Manufacturing process of a joint seal important, such as also for a thorough recording of e.g. B. fire protection rivers liquidity

The invention also relates to a method for Production of a joint seal for a building, in particular re on fire protection elements, such as doors or windows, in which pre-compressed into a joint of absorbent sealing material is introduced.

In the previously described and generally known Method is used strip-shaped sealing material, the applied on a roll in a pre-compressed state is. The required strips are removed from the roll wraps, cut and inserted into the joint. It there is an immediate decompression, so that you expansion material accordingly and the joint closes by it is supported at the interfaces forming the joint, e.g. B. on a masonry reveal and on a door frame on the other hand. The after inserting the sealing material Hardly any volume increase immediately into the joint Time in positioning the sealing material in the foot ge or for work that may be within the joint after installing a frame of a door or a window must be carried out. From these and from the above too  The reasons for the joint sealing lie with the process the task is based on a procedure with the aforementioned to improve th process steps so that even after a Installation of absorbent sealing material in the joint still Manipulations can be made without this hand thanks to the already decompressed seal material.

This object is achieved in that dry formsta bil permanent sealing material is used, after which when it is introduced into the joint, liquid is applied, under the influence of the sealing material the joint sealingly expands.

It is important for the invention that dry form sealing material that remains stable is used. With sol Chem sealing material, the joint can be filled and be if necessary, the sealing material can also be removed be taken. Because reasonably, the sealing mat rial with regard to the subsequent volume increase tion selected so that it is narrower than the width of the Gap. After inserting the sealing material into the joint liquid is applied, under the influence of which Sealing material expands so far that the joint seals becomes. Liquid is the means to increase volume of the sealing material. Taking into account the swelling The joint can reliably seal the sealing material be tested. The volume increase and thus the seal effect can be determined by the amount of applied Affect liquid.

It is advantageous to carry out the method in such a way that the liquid is applied with a sprayer. The Sprayer can be specially designed so that liquid only in the area of the joint on the sealing material is brought. It is particularly suitable for the up brought liquid to dose as desired. Furthermore  the liquid to be applied is always ready for use a closed container available so that the Liquid not inadvertently contaminated or otherwise can be changed. Commercial hand sprayers can be used te are used. Such hand sprayers are suitable even if they do not spray very precisely or if incorrect dosing occurs; because the liquid can get in their composition should be chosen so that no legs the surfaces of the building elements are expected to deteriorate are, for example, undesirable stains on fen star or door frame.

The joint sealing can about the sealing effect in Normally, additional sealing effect is assigned to who the if fire protection liquid is used as the liquid becomes. As a fire protection liquid, for example, be used impregnation agent to use that the Bring liquid to be added or this in rivers replace their shape. There may also be other fire retardants Agents are used in conjunction with the liquid such as B. Expandable graphite and / or water glass. Especially last teres can be applied with the liquid in finely divided form and penetrates into the interior of the sealant with the liquid terials. In all cases, the volume of the absorbent sealing material and seals the joint. The Joint sealing is due to the fire protection introduced fire retardant, the extent of the fire retardancy of the sprayed amounts of fire protection liquid depends on how also of their fire-retardant quality. With the same suction capable sealing material can be of different thicknesses Achieve fire protection effects. A bloating effect is on the edge the joint sealing is the largest, since there the burnup on greatest is.

To achieve the prescribed fire protection effects range, the process is advantageously carried out in this way leads to fire protection liquid depending on the desired  Resistance to fire protection in accordance with different concentrations and / or different amounts is applied to the sealing material.

The procedures described above can be used at various joint seals can be used. To think is, for example, on masonry joints, as already mentioned above for fire protection elements have been described. That is in particular special door and window joints. In addition, you can but also cable and pipe connections are sealed, wel form joints with surrounding masonry. Furthermore, such a joint seal is also used in sound insulation become. For example, prefabricated components for Sound insulation with an absorbent sealing material be used that remains pre-compressed in a dry, dimensionally stable manner, but after an application of liquid, expanded internally half of a carrier or is present on such. Inso the term joint is also widely used for any cavities stretches the z. B. for receiving soundproofing material are true. Soundproofing material is the same with the absorbent sealing material described above.

Claims (11)

1. Joint sealing of a building, especially on fire protection elements such as doors or windows, with a joint sealing absorbent sealing material, which is introduced before being compressed into the joint, characterized in that the sealing material in the joint remains dry, dimensionally stable, but according to egg there is an extensive sealing in the joint. 2. Joint sealing according to claim 1, characterized net that the liquid is sprayed on. 3. Joint sealing according to claim 1 or 2, characterized ge indicates that the sealing material made of flame retardant material and / or impregnated flame retardant is nated. 4. Joint sealing according to one or more of claims 1 to 3, characterized in that the liquid Is fire protection fluid. 5. Joint sealing according to one or more of claims 1 to 4, characterized in that the liquid Expandable graphite contains. 6. Joint sealing according to one or more of claims 1 to 5, characterized in that the sealing material The thickness of the joint varies accordingly is pre-compressed.   7. Joint sealing according to one or more claims 1 to 6, characterized in that for installation in a Add certain gasket material to a dry kompri lubricated sponge. 8. Process for producing a joint seal Building, especially on fire protection elements such as door or windows in which a joint is absorbent Sealing material is pre-compressed, because characterized in that dry keep their shape of the sealing material is used on the after applied its introduction into the joint liquid under the influence of which the sealing material the joint expands sealingly. 9. The method according to claim 8, characterized in that the liquid is applied with a sprayer becomes. 10. The method according to claim 8 or 9, characterized records that as a liquid fire protection liquid is used. 11. The method according to one or more of claims 8 to 10, characterized in that fire protection liquid depending on the desired fire protection Continuity in different concentrations tion and / or different amounts on the seal material is applied.