DE3521696A1 - COMPOSITE STRUCTURE FOR PRODUCING A ROTATING COMPONENT FOR AN AIR TREATMENT DEVICE AND METHOD FOR THEIR ASSEMBLY - Google Patents

Description

The invention relates to a composite structure for use in the manufacture of a rotating component for a Air treatment device and a method for its manufacture.

Rotating components for use in an air treatment device are well known. If only one heat exchanger is required for the air treatment s-Vor direction the rotating element is typically made of a thin metallic base material such as aluminum foil, formed in a honeycomb structure in order to give the resulting structure the necessary rigidity. Intended to The aluminum base material can be used to dry the air passing through the rotating element or to control its humidity with an adsorbing compound such as silica gel, aluminum oxide, aluminum hydroxide or the like, coated, which adsorbs the moisture in the air.

One of the problems with rotating elements coated with adsorbents is that they are at high Moisture levels often have little effect as condensate forms inside the rotating element. The condensate tends to. Trapping dust in the air, causing clogging of the rotating component.

Theoretically it is possible to increase the effectiveness of the rotating component by increasing the thickness of the adsorbent coating However, to improve this measure leads to an increase in the static losses caused by the rotating Component flowing air. As the thickness of the adsorbent film increases, there is also a greater tendency to detach the covering from the base or substrate material and thereby to clog the rotating component.

The general object of the present invention is to provide a composite structure for a rotating component specify an air treatment device with which the disadvantages inherent in the prior art at least partially be avoided.

The present invention overcomes the above-described disadvantages of known adsorbent-coated materials Rotary elements, without a detrimental effect on the static loss properties of the rotating components exercise. In addition and surprisingly, the strength properties of the coated with an adsorber Structure improved by the present invention, resulting in cost savings because of a thinner substrate material Can be used.

The composite structure of the invention for use in Production of a rotating component for an air treatment device has the following elements: a driven one Substrate with irregular surface contours, which is suitable for an adhesive coating of an adsorbent Assume connection, and this coating of an adsorbent compound, which lies over the substrate and its irregular Replicates surface contours. Preferably the substrate is an aluminum foil and the adsorbent compound Silica gel.

The method according to the invention for forming the composite structure for the rotating component of an air treatment device has the following steps: driving or embossing a substrate in order to provide this with irregular surface contours, and depositing an adsorbent Connection on the substrate.

Further details and advantages of the present invention will become apparent from the detailed description given under Reference is made to the attached drawing.

In the drawing is an enlarged sectional view of the invention Composite structure shown.

When making the composite structure shown in the drawing 10, a flat piece of substrate material 12 is first prepared, made of either organic or is made from inorganic substances. The substrate 12 is preferably an aluminum foil. This substrate 12 is subjected to a known embossing process, which systematically creates depressions in the surface, to produce the irregular surface contours shown in the drawing. After this embossing step, the "Surface of the substrate 12 increased by about 20 to 30%.

Subsequently, the driven substrate 12 according to any coated with an adsorbent compound 14 such as silica gel. There the surface area of the substrate 12 was increased in the embossing step, the thickness of the adsorbent coating may be less Keeping an effective amount of the adsorber to a minimum. So that by yourself The resulting composite structure does not increase the static losses of the air caused by a composite material according to the invention formed honeycomb structure flows.

It was surprisingly found that the compressive strength in the direction of the air flow through a honeycomb element, which is made from a 30 μm thick piece of the structure according to the invention, corresponds to the compressive strength of a 40 \ im thick flat structure which is coated with an adsorbent substance. Because of this increase in strength

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it is possible to use thinner aluminum foils, which results in corresponding cost savings.

In comparison to flat, coated structures, it is the same in the case of a rotating component from the composite structure according to the invention possible to increase the amount of adsorbent coating and still have good adhesion of the adsorbent material on the irregularly structured surface, thereby increasing the thermal conversion efficiency of the rotating Can increase component without increasing the static losses of the air flow flowing through the component .

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Claims (1)

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STREHL SCHÜBBL-HOPF SCHULZ 3521696 WIDENMAYERSTRASSE 17. D-8000 MUNICH 22 BERNER INTERNATIONAL CO., LTD. +
SUMIKEI ALUMINUM FOIL CO., LTD. DEA 27197 1 ⁸ * ^{June 1985} Composite structure for the production of a rotating component for an air treatment device and method for its construction 1 .; Composite structure for use in making an Ii rotating component for an air treatment device, marked by a driven substrate (12) with irregular surface contours, which can accept an adhesive coating (14) of an adsorbent compound; and a coating (14) of an adsorbent compound, which lies over the substrate (12) and on the irregular surface contours of the substrate is adapted. ο 2. composite structure according to claim 1, characterized in that the substrate (12) is an aluminum foil, and the adsorbent Compound (14) is silica gel. 3. A method for producing a composite structure door for use in the production of a rotating component for an air treatment device,
characterized by the following steps: Driving a substrate (12) around this with irregular To provide surface contours; and Deposition of an adhesive coating (14) of an adsorbent compound on the substrate (12). 4. The method according to claim 3, characterized in that the substrate (12) is an aluminum foil and the adsorbent Compound (14) silica gel is used.