DE2433795C3 - Double or multi-layer cavity wall for shielding from noise sources - Google Patents

Description

The invention relates to a two-shell or multi-shell cavity wall for shielding noise sources, their surface elements or cover plates to form one or more spaces at a distance are arranged from each other and in which the or the interstices with a gaseous, under Ambient pressure and ambient temperature standing pressure buffer with low spring constant filled out are.

There are two- or more-shell cavity walls of this type known in which the shielding of the Noise source required low spring constant of the gaseous filling the space or spaces Pressure buffer by choosing a correspondingly large distance between the cover plates or surface elements is achieved. This distance is several times that of normal double-leaf walls usual space. As a result, the known walls take up much more space Claim than normal double or multi-layer walls.

The invention is based on the object at two multi-shell cavity walls of the type specified at the outset, the distance between the surface elements or lower cover plates.

This object is achieved in that the space or spaces are completely or partially covered with a mixture of substances are filled in the gas-liquid phase, which is at ambient pressure and ambient temperature is in solution equilibrium. Such a mixture of substances has a very small spring constant because at If the pressure increases, part of the gas goes into solution and vice versa when the pressure drops out of the solution again exit. These processes take place relatively quickly, so that changes in sound pressure are also reduced can. A space filled with a pressure buffer according to the invention can therefore be a noticeable one have smaller thickness. Mixtures of substances with the highest possible solubility constant are advantageous. One large exchange surface - the contact surface of gas and liquid - can be combined with a porous Achieve carrier material for the liquid.

Another solution to the problem underlying the invention is that the or the

ίο Gaps wholly or partly with a fabric or mixture of substances in vapor-liquid phase are filled, soft at ambient pressure and Ambient temperature are in equilibrium. Such a system is also very poor Peder constant, since part of the steam condenses when the pressure rises and vice versa when the pressure drops some of the liquid evaporates. The liquid phase is advantageously by means of a sau ^ capable, Impregnable carrier material introduced. To increase the working temperature range of the system, Mixtures of liquids that evaporate in the relevant temperature range are advantageous.

The invention is further explained using two exemplary embodiments shown in the drawing shows

F i g. 1 a cavity wall, the space between which is completely filled with a mixture of substances, and

F i g. 2 shows another embodiment of a cavity wall according to the invention.

F i g. 1 shows a double-shell cavity wall for shielding from noise sources. In the space 4 between the cover plates 1 and 2 is a porous, absorbent carrier material 3. This is with soaked in a liquid mixture that is in equilibrium with its vapor phase under ambient conditions stands. Instead of a carrier material 3, the inner surface of the cover plates 1 and 2 can also be used as a carrier be used. It is roughened for this purpose, and the rest of the texture becomes so chosen that it acts as a carrier of the liquid mixture due to its capillarity. This can be inexpensive also be a large heat capacity of the cover plates 1 and 2, because then the heat conversions during condensation and can be collected during evaporation. The mode of action of this sound insulation wall is based on that caused by the sound pressure movements of one cover plate do not affect the other Cover plate are transferred because the mixture of substances in vapor-liquid phase the pressure essentially

5u holds constant. With a decrease in the space volume steam condenses, while an increase in volume leads to evaporation. Instead of a mixture of substances in the vapor-liquid phase, a mixture of substances in the gas-liquid phase can also be used which is in a Henry · solution equilibrium. The structure is in both cases identical. Systems with a large Henry's solubility constant are advantageous. Such a system works also as a print buffer.

The same structure can also be used by using a reaction mixture which changes in volume reacts, a soft intermediate spring can be realized. About the heat rates in these To neutralize equilibrium reactions, the porous support material expediently serves as heat capacity the surfaces are provided with a catalyst so that the reactions take place quickly and the Heat transfer directly to the heat capacity

gene.

Fig. 2 shows an embodiment of a sound insulation wall, in which not the entire space between the cover plates 11 and 12, but only a closed pressure buffer 13 is filled with a substance or mixture of substances in the vapor-liquid phase This pressure buffer 13 is closed by a membrane 15. Underneath there is an absorbent one Carrier material 14, which is soaked with a liquid. The mode of operation is identical to that of the

Wall according to Fig. 1. In order to achieve effective buffering over the entire surface of the panel, are several pressure buffers 13 at a mutual distance that is smaller than the sound wavelength to be dampened is necessary. Instead of the punctiform design of the pressure buffer 13, it is also possible to use this linear, as a membrane tube. To prevent the cover membrane from bursting when the temperature rises To avoid this, the amount of liquid is limited to the maximum permissible steam volume.

1 sheet of drawings

Claims (2)

Patent claims: 1. Double or more curved cavity wall for Shielding of noise sources, their surface elements or cover plates to form an or a plurality of spaces are arranged at a distance from one another and in which the or the Interstices with a gaseous, under ambient pressure and temperature Pressure buffers low spring constant are filled, characterized in that the space or spaces are completely or partially filled with a mixture of substances in the gas-liquid phase are, which are in solution equilibrium at ambient pressure and ambient temperature is located 2. Two-shell or multi-shell cavity wall for shielding from noise sources, their surface elements or cover plates to form one or more spaces at a distance from one another are arranged and in which the or the interstices with a gaseous, under Ambient pressure and ambient temperature standing pressure buffer with low spring constant filled out are, characterized in that the or the spaces wholly or partially with a Substance or a mixture of substances in vapor-liquid phase are filled, which are at ambient pressure and ambient temperature are in equilibrium.