DE583735C - Insulating compound for the production of heat and sound insulating bodies - Google Patents

Description

Insulating compound for the production of heat and sound insulating bodies The subject of this invention is an insulating compound which, for the production of heat and sound insulating bodies of all kinds such as plates, trays and the like are used can be.

Up to now, two main materials have been used in insulation technology. used, whose good insulating properties are known, namely earths and fibers.

Earth, e.g. B. calcium compounds, clay, lime, gypsum have the disadvantage that they are very sensitive to mechanical influences. To this disadvantage to fix, vegetable substances are added to the earth, z. B. sawdust, 'Chopped flax straw, long straw, reed straw, etc. According to the whole consistency However, these masses can never be nailed in the form of thin boards, as building board Isolation walls, can be used.

The production of insulating compound for these purposes is only possible, if pure fibers are used as the base material for the insulating compound. Around Now to achieve a sufficient strength and cohesion of this mass is after known method of starting material, mostly straw, either ground to flour and then pressed or mechanically or chemically digested so that the straw into individual Fibers are broken down, and then this mass is made with the addition of binders or the desired plate can be produced by pressure in the heat. The coefficient of thermal conductivity of this Insulating compound corresponds to the coefficient of thermal conductivity of its starting material (approx. 0.057).

The invention is based on the idea, thereby improving the insulating capacity of these existing mass of fibers further that iume in the mass Hohlr i ', are formed; which are filled with air; the well-known poor conductivity of the air (heat coefficient o, oicg) then significantly reduces the thermal conductivity of this insulating compound. Is achieved; the formation of the hollow bodies in the simplest way, that the straw component of the insulating compound, which has straw, cellulose fibers and possibly a binding agent as a component, consists of hollow, chopped, mechanically or chemically undigested straw, through which small cavities are formed in the mass will. The invention consists in the fact that no binding or poor binding (so-called crispy, bulky, brittle, poorly heat-conducting vegetable fibers, such as straw, reeds and the like, except for sawdust, in chopped or similarly shredded condition with fine-fiber, pliable, Good binding, also heat-insulating fibrous materials, such as cellulose of all kinds, wood pulp, peat and the like, with water and possibly with the addition of glue or similar colloidal substances, as are common in the paper and cardboard industry as binders and water-repellent substances, such as resin glue precipitated with alum, animal glue, water glass and the like, intimately mixed in a known manner, then shaped as desired, pressed and then dried.

The mass can in a known manner with a waterproof and airtight Protective skin can be provided, and to increase the strength of the mass can still Splinters or shavings - other vegetable and poorly heat-conducting substances with great fiber strength, such as. B. chopped wood wool and the like., Mixed in will. (Sawdust is unsuitable for use because its fiber is too short.) With this mass consisting of organic substances, the bandage does not open chemically, but by wrapping the poorly binding, bulky ones as well the fibers that may be added to increase strength, their two fibers Can neither be chemically nor mechanically digested, with the pliable, good binding fibers: manufactured.

Characteristic of the mass thus composed and treated is that they are after squeezing and during! their volume compared to drying that which has passed under the press is enlarged up to a multiple of the same and thus extremely light and porous and this remains permanent, whereby the insulating ability the mass significantly exceeds that of its individual components. Through this increase in volume the use of known more efficient for drying thick-walled (several centimeters strong) bodies from this mass, as they are for the industrial production of such is required, allows.

It is also characteristic that the volume increase and thus the Degree of insulation and the strength of this mass - if the same is used Substances mainly by the proportions according to which the mass is derived the substances that make up the groups characterized above, and also of the selected Size of the particles from the first-mentioned group of substances is determined, whereby it is possible, the qualities of the mass the requirements according to the respective Adapt uses. The special advantages of this mass are that their Raw materials can be procured easily and cheaply everywhere, so that the mass is extremely elastic and is not brittle and can be nailed easily, easily cut with a knife and saw that it does not warp or throw when dry, that all kind of. Plaster adheres well to it that it is easily covered with wallpaper or can be painted so that it repels water completely when dry and that even if dry bodies of this mass are immersed in water for several hours only a surface layer a few millimeters thick absorbs moisture while the inside remains quite dry.

To produce an insulating panel, for example, for every 1 kg of dry mass, about 310 g of chopped straw (length 10 to 25m111), 3109 cellulose, 3109 chopped wood wool and 70 g of resin glue precipitated with alum are intimately mixed with the addition of water; this mixture is introduced into a device which allows the water to be separated out, in a consistency of about 10%, about 10 cm thick and with constant pressure increase until a pressure of about 20 atm is reached. Pressed down to about 1 cm thickness and thus to about 50 ob, dehydrated. The press pressure is then immediately relieved and the plate is dried in a known manner in an artificial or natural way. When the press pressure is released, the thickness of the plate increases to around 2.5 to 3 cm with the simultaneous formation of air-filled cells. From now on, the plate maintains this thickness permanently, so that the volume of air enclosed in said pores is approximately 11/2 to 2 times the volume of the solid constituents. The thermal conductivity of a plate produced in this way is around 0.04. Insulating bodies made of this compound, which are intended for use in wet or humid environments, are after absolute drying according to known methods to increase the water resistance via the effect achieved by the glue impregnated or covered with a waterproof, permanently elastic protective layer, whereby in the latter case they also gain strength in addition to the permanent protection of their absolute dryness and their high insulating capacity. The specific weight of the mass is mainly influenced by the pore volume present in it. With the appropriate strength, specific weights of zoo kg / ms and below can easily be achieved.

Claims (1)

PATENT CLAIM: Insulating compound made of straw, cellulose fibers and possibly a binding agent, characterized in that the straw component consists of the mass consists of hollow, chopped, mechanically or chemically undigested straw, by which small cavities are formed in the mass.