DE19717266C1 - Sound-absorber with micro-perforated components - Google Patents

Abstract

The pane (3) made of glass or transparent plastics, or alternatively a metal, plastics or wooden plate, and between 0.1 and 10 mm. thick, is mounted in front of a rear wall (1). It is fixed in a frame, and gas is passed through the space (5) between it and the wall. It can form a gastight joint at the indoor side, and the gas can be delivered intermittently. One or more sensors can be provided, to measure temperature or humidity, the gas being supplied dependent on the values detected. Air can be used as the gas, being dried or dust-free.

Description

The invention relates to a device for sound absorbers with microperforated Components for e.g. B. suspended ceilings, walls, double windows and other two shell components, e.g. B. skylights, fixed glass walls or glass windows as well Partitions, according to the preamble of claim 1.

DE P 43 15 759.9 describes a micro-perforated sound-absorbing glass or transparent art glass component known as an intermediate glass in front of glass walls, windows, doors or generally placed in front of walls, hung or can be attached. EP 697 051 is a sound absorbing structure known plate made of metal or plastic, the z. B. as a suspended ceiling in front of concrete ceilings can be suspended. In these micro-perforated components the air mass in the perforation is vibrated by the airborne sound stimulates, the air layer between the perforated component and the glass window, the ceiling or wall, etc. acts as a spring. On these two patents for the rest, the applicant is expressly referred to of the explanations about the advantageous properties and the individual technical designs of the micro-perforated glass or synthetic glass, and metal or plastic components as sound absorbers.

In general, a particular problem with double windows is that in the Air gap, depending on the humidity and temperature conditions both on the part of the glass or artificial glass components, condensation can occur, and in Fixed double glazing will address this problem with the most diverse agile methods such. B. moisture absorbing fillings in Window frames, solved.

The object of the invention is in micro-perforated components, and applications dungen according to DE 43 15 759.9, the components, for. B. glass window or general my double glazing, fixed in a frame, condensate tion and dust problems to solve because of the natural air movement dust can get through the perforations into the space that over time the windows get dirty and the cleaning is almost impossible. In applications according to EP 697 051, the absorbers building boards parts of a closed false ceiling with one there form the all-round closed ceiling cavity, the task of Invention additionally consist of the ceiling cavity itself as a plenum and air duct for an air supply for ventilation and air conditioning of the space below and the micro-perforated building boards as to use very finely distributed air outlets. Especially for so-called Clean rooms can be filled with micro-perforated components Tasks to reduce noise and optimize the indoor climate as well as the Solve hygiene and self-cleaning at the same time. There is also everyone the components that avoid or reduce the noise Increase efficiency.

According to the invention, these problems are solved by the device Claim 1 solved. Advantageous configurations are in the Subclaims marked.

Although it is known for solid double glazing, the problem of con to solve densation with flowed through windows. This is however, a relatively high effort to operate because of relatively large flow outlets and inlets must be available.

A decisive advantage of the invention is that the low leakage currents mung does not have to be continuously maintained because z. B. in time from about 8:00 am until early afternoon the air in the gap is heated and automatically flow out through the perforation can, so that neither the prerequisite for condensation nor for dust is given. Only in the late afternoon or when the weather changes and  If a cold phase occurs, the flow is reversed through the perforation returns, and by cooling the air in the intermediate layer would Fresh air with moisture and dust enter the space can. As soon as this is done by appropriate sensors, it also being e.g. B. only can be a single outside and an inside temperature sensor is shown, the pump for conveying air into the space between Double glazing or double window switched on, and the air flows with it an extremely slow speed out of the perforation and In this way, it reliably and reliably prevents humidity dust and dust can get into the gap.

It has also been shown that this leakage flow is not continuous must be maintained since only with negative temperature changes, So at colder temperatures, the flow must be switched on. This causes the cost of providing the air extremely low because, firstly, the amount of air is small and secondly only intermittently must be switched on. With skylights it can even be useful the leakage flow at larger intervals, i.e. once a week or once to be started every month since the dust entry disappears through the perforation dend is small and mainly counteracts condensation problems must become.

Amazingly, it has emerged as an additional advantage that with the Air flow through the micro-perforated components according to the invention the efficiency of sound absorption can be increased significantly.

The flow rate in the holes is between 1-1000 cm / sec.

In the exemplary embodiment, an element of a skylight is shown with a frame 1 , in which the double glazing is mounted, which consists of an outer glass 2 and an inner glass 3 , which is perforated. For this element, a gas supply 4 is now provided in the frame 1 , via which means for conveying a gas, for. B. Pumps of the most diverse kind, a gas, e.g. B. air is pumped into the gap 5 and the gas leaves the gap through the perforations 3 a. The Gaszuführun conditions 4 are then provided for all double glazing of a dome with Doppelvergla solution as skylight, which then leads by means of a pump on the Gaszu with gas, z. B. air can be supplied.

If in the room, which is completed by the double-shell component according to DE P 43 15 759.9 or EP 697 051, a higher air circulation by heating or vehicles that move in the room, so z. B. takes place in station halls, it is advisable to maintain the leakage flow continuously so that, for. B. dust, tobacco soot or Bremsenab rubbed, etc. can neither get into the space nor near the surface of the microperforated component facing the space. In this way, the entire micro-perforated surface facing the room never needs to be cleaned. B. with high domes, roofs and facades made of glass would be a great effort. The cleaning of the glass surfaces 2 from the outside, on the other hand, is relatively easy to accomplish, since normal rain cleans the glass panes on the surfaces with a slight slope, and the domes with the double glazing can be designed such that there is always a slight slope of the surface.

There can also be a control device for controlling the gas delivery device be available depending on the time of day and / or temperature and / or moisture regulates the operating state of the pump. The regulation can also be designed so that only horizontal areas of double Glazing flows relatively often and vertical arrangements less often or vice versa.

With the gas delivery device is preferably air, for. B. dried, cleaned, heated or pumped with other gaseous components enriched air in the spaces 5 .

In the case of several individual areas of the double glazing, hoses or pipes ( 4 a) can at least partially be laid continuously in a plurality of interspaces as gas supply lines, wherein a plurality of openings ( 4 b) can be provided in the hoses or pipes in the respective interspace, whereby the assembly of the Gas supply is much easier. The openings ( 4 b) in the hoses or pipes must be dimensioned so that even the most distant double glazing is supplied with air. In the schematic drawing, the supply is shown on the left by means of a hose or tube 4 a, and on the right by means of a feed 4 for, for example, two adjacent double glazing units.

In the embodiment of the invention when using a false ceiling according to EP 697 051, the air entry into the cavity behind the false ceiling via analog gas feeds 4 is also very suitable for solving the problems with regard to condensation and dust. The frequency-dependent efficiency of the flow through the sound absorber compared to the flow through it is increased by about 10-50%.

Especially when the false ceiling is under a blanket, which is an outer shell of the The building is, the condensation problem arises strengthens, because additionally due to the quasi closed cavity Mold can form on the colder outer surfaces.

Claims (9)

1. Device for sound absorbers with micro-perforated components, for z. B. suspended ceilings, double glazing such as double windows, skylights or glass walls, facing shells or partition walls, the component being a microperforated glass or transparent synthetic glass pane ( 3 ), or metal, wood or plastic plate with a thickness of 0.1-10 mm and in front of one Rear wall ( 1 ) is arranged, characterized in that the component ( 3 ) is fixedly mounted in the frame ( 1 ), and a guide ( 4 ) in the intermediate space ( 5 ) and further feed channels to the feed ( 4 ), and a gas delivery device for flowing through the intermediate space ( 5 ) is provided. 2. Device according to claim 1, characterized, that the component is mounted gas-tight to the room. 3. Device according to claim 1, characterized, that the gas delivery device is operated intermittently.   4. Device according to claim 1, characterized, that one or more sensors for temperature and / or humidity speed measurement are provided. 5. Device according to claim 4, characterized, that a control device is provided which is time-dependent and / or humidity-dependent and / or temperature-dependent the gas supply system regulates. 6. Device according to one of claims 1-5, characterized, that multiple facilities are provided and the gas supplies are switched so that only certain devices with the gas are flowed through, e.g. B. only approximately horizontal Double glazing or z. B. only certain screens. 7. Device according to one of claims 1-6, characterized, that the gas is air or dried and / or dust-free air.   8. Device according to one of claims 1-7, characterized, that the gas delivery device is dimensioned such that the air with pumped through the holes at a rate of 1-1000 cm / sec becomes. 9. Device according to claim 1, characterized in that the gas supply ( 4 ) takes place by means of hoses or pipes which supply several gaps between several devices ( 1 , 2 , 3 ) with the gas.