Stock material or miscellaneous articles – All metal or with adjacent metals – Embodying fibers interengaged or between layers
Reexamination Certificate
2000-08-15
2002-04-30
Zimmerman, John J. (Department: 1775)
Stock material or miscellaneous articles
All metal or with adjacent metals
Embodying fibers interengaged or between layers
C428S034100, C245S010000, C228S189000
Reexamination Certificate
active
06379817
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a metallic fabric having two edge areas welded together into a hollow body, and a process for manufacturing a hollow body from a metallic fabric in which two opposite edges of the metallic fabric are welded together.
BACKGROUND OF THE INVENTION
Metallic fabrics are usually manufactured in lengths, as they are made on weaving looms. Fabric pieces are cut to size and welded into a hollow body to manufacture hollow bodies from these lengths.
By way of example, in filter technology metallic fabric tubes are used, during the manufacture of which a metallic length cut at a right angle is bent into a cylinder and the two abutting edge areas are welded together.
With the use of such metallic tubes it has eventuated that the entire fabric resists dynamic loads very well, though the welded seam does represent a weak point. It has been shown that the breaking points of such a bag filter occur mostly in the vicinity of the welded seam, because there the material is compact and alternating loads lead to a break in the adjoining metallic fabric area.
German utility model G 83 20 438 shows the manufacture of a filter bag from a metallic fabric strip. Here, the edge areas of the metallic fabric are not welded to one another, rather they are held together by means of a clamp. The edges are first provided with guy wires and then held together with a C-shaped connecting block. This type of connection allows restricted movement for the metallic fabric edges inside the clamp in order to react to dynamic loads. The fabric, however, breaks in the vicinity of the connection point, and the manufacturing method of the connection is relatively expensive.
SUMMARY OF THE INVENTION
The object of the present invention is to further develop a metallic fabric having two edge areas, welded together into a hollow body, such that the hollow body is resistant to dynamic loads.
This task is solved by a metallic strip being welded in the vicinity of the welded seam and the width of the welded seam being narrower than the width of the metallic strip.
DESCRIPTION OF THE INVENTION AND PREFERRED EMBODIMENTS THEREOF
The basic understanding of the invention is that the greatest alternating tensions originate in the vicinity of the welded seam and these alternating tensions can be distributed to a larger surface by means of a welded metallic strip. Whereas with known hollow bodies made of metallic fabric each distortion of the metallic fabric leads to a bend in the vicinity of the welded seam, the welded metallic strip ensures that the bend is positioned in a area at a distance from the welded seam. The strongest dynamic loads are thereby no longer in the vicinity of the welded seam, but in the vicinity of the metallic fabric. The design of the metallic strip enables the most heavily loaded area of the metallic fabric to be displaced to a larger surface. The metallic fabric is therefore no longer bent in the vicinity of the welded seam, but is gently concealed in the vicinity of the metallic strip. The surface loading is sharply reduced by this, and the application duration of the hollow body is thereby increased.
The metallic strip can be manufactured such that it comprises and elastic area. This elasticity can be achieved by a particularly thin design of the metallic strip, or by partial weaknesses of the strip. The elasticity modulus is to be adjusted such that in the case of alternating loads of the hollow body arising in practice there is minimal deformation of the metallic strip. The deformation energy thus applied is removed from the metallic fabric in the vicinity of the welded seam and no longer has such a destructive effect on the welded seam.
The metallic strip can be welded on the inside and on the outside of the hollow body. Welding on the outside of the hollow body is advantageous since the hollow body is easily accessible here and vibrations arising in practice can be better eliminated with an externally welded metallic strip.
An advantageous embodiment provides for the metallic strip to be designed from angled sheet iron. Angled sheet iron allows the bend arising in practice to be covered over optimally in the vicinity of the welded seam, and enables an arrangement on the metallic fabric which is particularly suited to flattening out the vibrations.
With use of angled sheet iron it is proposed that the angle of the angled sheet iron is an obtuse angle. Such angled sheet iron has been tested and proven to be particularly sound in practice.
It is advantageous if the metallic strip comprises wings on both sides of the welded seam and at a distance from the metallic fabric. These wings allow a gentle transition between the unsupported metallic fabric area and the metallic fabric areas surrounding the welded seam, supported by the metallic strip.
Here, it is an advantage if an obtuse angle or an arc is formed between metallic strip and wing. This leads to a particularly gentle transition between the metallic fabric and the edge of the metallic strip, to the extent that kinks are avoided in this area.
Tests have shown that it is a particular advantage if a ductile material is arranged between metallic strip and metallic fabric. The purpose of this ductile material is to fill out cavities between the metallic fabric and the metallic strip, and to form a flat arrangement between metallic fabric and metallic strip. The forces being exerted between the fabric and the strip are distributed by the ductile material over the largest possible bearing surface and then eliminated through the deformation energy of the material or the strip.
It is an advantage if the ductile materials are elastic, because repeated deformation and vibrations can thereby be optimally deadened.
The task is also solved by a manufacturing process for a hollow body made of a metallic fabric, in which two opposite edges of the metallic fabric are welded together and a metallic strip extending along the welded seam is welded on as the edges are welded together.
Here it is an advantage if a plastic, preferably elastic, material is injected in between metallic strip and metallic fabric after the metallic strip is welded on. The material can be injected in liquid or viscous form and can then harden into a plastic or elastic material. This effectively fills in all the cavities between the metallic strip and the metallic fabric, and the material can create a firm connection between the fabric and the metallic strip by way of its viscous or adhesive properties.
An alternative procedural variant provides for a plastic, preferably elastic, material to be applied to the metallic strip or to the edges of the metallic fabric prior to welding on of the metallic strip. The material can be applied such that there is no materials present directly in the vicinity of the welded seam on the fabric and on the metallic strip. According to choice and thickness of the layer of the material, it can cover the entire surface and can be melted or burnt in during the welding process. The result of using this procedural variant is that the area between the metallic strip and the metallic fabric is well filled with material to guarantee optimal damping properties.
REFERENCES:
patent: 1935631 (1933-11-01), Guba
patent: 2061454 (1936-11-01), Crossman
patent: 2078369 (1937-04-01), Buchanan
patent: 2116811 (1938-05-01), Webb et al.
patent: 2116812 (1938-05-01), Webb
patent: 2855918 (1958-10-01), Tescula
patent: 3094302 (1963-06-01), Stauffer
patent: 4358371 (1982-11-01), Jameson et al.
patent: 4969999 (1990-11-01), Riddell
patent: 5032272 (1991-07-01), Mould
patent: 5814118 (1998-09-01), Wickland et al.
patent: 156184 (1932-01-01), None
patent: 2161352 (1972-06-01), None
patent: G8320438.5 (1983-11-01), None
patent: 2139131 (1984-11-01), None
patent: 2186211 (1987-08-01), None
Fuierer Marianne
GKD Gebr, Kufferath GmbH & Co., KG
Hultquist Steven J.
Yang Yongzhi
Zimmerman John J.
LandOfFree
Metallic fabric and manufacturing process of a hollow body... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Metallic fabric and manufacturing process of a hollow body..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Metallic fabric and manufacturing process of a hollow body... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2908411