DE1479966A1 - Process for the production of insulating layers from small, cellular plastics and binding agents - Google Patents

Description

Process for the production of insulating layers from small, cellular Plastics and binders It is known, components with low specific Manufacture weight by making small-scale porous plastic body with water-containing Binding agents mixed, shaped and allowed to set.

It has now been found that insulating layers can be applied by spin coating of adhesive mixtures of small cellular plastics and binders against load-bearing walls or in cavities and solidification of the resulting layers with particularly advantageous properties, if one can produce closed-cell thermoplastics in the form of small spheres or pearls are used.

As small-scale cellular plastics, closed-cell plastics are preferred thermoplastics such as polystyrene, polyvinyl chloride and polymethacrylic acid ester in the form of small KU - gels or pearls, suitable. The XUgelchen or pearls can expediently 1 to 4 mm in diameter and a bulk weight of 10 to 50 g / l own.

Suitable binders are, for example, adhesives that are in liquid, may be in dissolved or dispersed form, e.g. B. aqueous dispersions or alcoholic solutions of adhesives with adhesive properties, such as polyvinyl propionate. Other suitable binders are bitumen emulsions, aqueous solutions which are curable Resins e.g. B. of urea-formaldehyde resins, casting resins, z. B. epoxy resins, and cement sand mixtures. Substances that solidify when they cool can also be used in molten form be e.g. B. bitumen, paraffin and natural or synthetic waxes or resins. These substances should have a melting point below the softening point of the cellular Own plastics. Care must be taken that the binders or those with the Solvents related to binders do not attack cellular plastics.

The method according to the invention can be carried out with commercially available centrifugal machines, Cleaning guns or spray guns are carried out.

These usually contain mixing devices in which the mixtures can be made from cellular plastics and binders. One works expediently at a pressure of 0.5 to 4 at, preferably 1 to 2 at, depending on the specific gravity of the mixtures. You can, for example, with a device work in which a mixture of cellular plastic and binders through a pipe is promoted, at the lower end of which Preßlurt is initiated. By the suction of the air stream is followed by the mixture. With this device can powdery resin is used as a binder. use. If you heat that at the same time Pipe and the compressed air, so you can use the powdery binder melt during pumping and after processability Cool down to freeze. Surprisingly, the diesel process becomes more dense Coatings reduce the resilience of the cellular particles.

The ratio of cellular particles to binders can vary. 18 depends on the binder used and the desired density. in the In general, the ratio will be chosen so that the insulating layer has a volume weight between 25 and 1500 kg / m3.

That inventive method is suitable for the production of against Cold, heat or sound insulating layers on walls, floors or basins, for Construction of inner walls on a Rabitz fabric, for filling out steam pipe, Water pipe or cable ducts or too. Filling the voids between the Walls of refrigerated cabinets.

Example 1 In a commercially available mixing and centrifuging machine 6 liters of sand, 2 liters of iron Portland cement Z 225 and 20 liters of cellular polystyrene beads are used from 1 to * mm diameter and a bulk density of 15 g / l mixed. The water tank of the device contains 2.5 1 of water and 0.25 1 of a 50 own aqueous dispersion of Polyvinyl propionate. The dilute aqueous dispersion of polyvinyl propionate will by means of a hose line just before the outlet opening the Machine mixed with the mixture of sand, cement and cellular polystyrene beads. The mixture is sprayed against a wall with compressed air of 2 atm. 8ie educates there a hardening covering with a density of 750 kg / m3, high compressive strength and has low thermal conductivity.

Example 2 The liquid container of a commercially available tropical spray gun contains 50 liters of water and 5 liters of a 50% aqueous dispersion of polyvinyl propionate. Shell-shaped polystyrene beads with a diameter of 1 to 3 mm are passed through the conveying hose and a bulk weight of 12 g / l with compressed air of 4 at.

They are diluted with the at the spray nozzle by a spray ring mixed in an aqueous dispersion of polyvinyl propionate.

The mixture is thrown against a brickwork. You get one 3 to 5 cm thick, dense foam layer0 The foam beads adhere well to one another and on the underground. The layer has a density of 25 to 30 kg / m3 and a low heat conductivity.

Example 3 A mixture of 50 1 cellular polystyrene beads which have a diameter of -1 to 2 mm and a bulk density of 12 g / l, and 500 g of epoxy resin are poured through the main pipe of an injection mold with the help of Air pressure of 1 at, which is introduced at the lower part of the pipe, between the walls a cooler blown. The cavity between the wall is closed except for two openings. Through an opening at the top is the insulating compound blown in. Through an opening covered with a sieve on the on the opposite side, the compressed air can escape. The 52 1 large cavity will in 1 to 2 Mi-Butene tightly filled with the insulating compound. The epoxy resin needs to Hardening 3 to 4 hours. After that, a coherent insulating layer is less Thermal conductivity and high stability were created.

Claims (1)

Claim method for the production of insulating layers, at adhesive mixtures of small cellular plastics and binders using compressed air to form coherent layers against load-bearing Walls or in cavities and the layers can solidify, thereby characterized in that one closed-cell thermoplastics in the form small beads or pearls are used. Badische Anilin- & Soda-Fabrik AG 2-fold