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Title:
SEAL-HOLDING PROFILE AND PROCESS TO MANUFACTURE IT
Document Type and Number:
WIPO Patent Application WO/1986/000102
Kind Code:
A1
Abstract:
A process designed to make it possible to manufacture a seal-holding profile, meant especially for the panels of industrial cubicles, and obtained from the same piece of plate metal. The profile obtained from this process is also described. The process consists in shaping the edges of the sheet of metal with which the panels are made, in such a manner that they have a first (4), a second (5) and a third portion (6) reciprocally positioned according to predetermined directions. The sheet of metal thus shaped is subjected to a pressing operation exercised between the wall of the panel next to the profile and the said third portion.

Inventors:
SALVATORE DANIELE (IT)
Application Number:
PCT/IT1985/000008
Publication Date:
January 03, 1986
Filing Date:
June 13, 1985
Export Citation:
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Assignee:
ITALTEL SPA (IT)
International Classes:
B21D5/08; B21D7/00; E04B1/38; B21D7/06; B21D19/00; B65D90/08; E04B1/68; E04B1/684; (IPC1-7): E04B1/68
Foreign References:
US3514915A1970-06-02
DE2233471A11974-01-24
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Claims:
CLAIMS
1. Process for the production of a sealholding profile, meant especially for panels of industrial cabinets, characterized by the fact that it includes the carrying out in sequence of the following operations: a shaping operation, of the edges of the same sheet of metal as the panels are made of, consisting in preforming each edge (2) in such a manner that it has a first portion (4) arranged at an angle of more than 90° to the extension of the panel wall next to the profile, a second portion (5) arranged at an angle of 90° to the aforesaid wall, a third portion (6) arranged at an angle between 0 and 90° to the second portion; a pressing operation exercised between the wall (2) of the panel next to the profile and the said third portion (6), until the first and the third portion (4>6) are made parallel with respect to the abovementioned panel wall (2).
2. Process as described in claim 1, characterized by the fact that said shaping operation is carried out by means of bending operations.
3. Process as described in claim 1, characterized by the fact that said shaping operation is carried out by means of profiling operations.
4. Sealholding profile obtained with the process described in claim 1, characterized by the fact that it is made up of an element (3)> the cross section of which is groove shaped and has one of the sides (4) of the said groove positioned parallelly to the wall (2) of the panel carrying the said profile and also has an edge which constitutes the continuation of the edge of the said wall (2).
5. Profile as described in claim 4. characterized by the fact that between the side (4) of the groove next to the wall (2) of the panel and the wall itself there is a cavity designed to receive surface treating materials.
6. Process and profile according to all that has been described in the aforegoing description and the attached drawings as also any isolated or combined parts of the same.
Description:
Seal-holding profile and process to manufacture it.

The present invention refers to a process for manufacturing a seal-holding profile, meant to be used for example in the field of industrial cubicles, and to the profile obtained from said process.

Usually, industrial cubicles are made up of a supporting structure, the shape and size of which corrispond substantially to those of the cubicle to be made, which is then covered with panels that are fixed ^o the structure itself.

In consideration of the fact that the equipment contained in said cubicles frequently has to be preserved from dust and sprays of liquid, a seal designed to guarantee sealing against these factors is usually interposed between the edges of the panels and the support structure. In particular, the seal is usually fixed *° *he panels as it is positioned inside a profile fixed along each of their edges. According to some known types of solution, the said profile is made by means of a metallic element shaped in such a manner as to form a groove together with the edges of the panels, in which a stem of the seal will be positioned. The metallic element is usually fixed to the panel by means of welding. Such solutions have the inconveniency of being expensive because it is necessary to manufacture the said shaped

element and then carry out the welding operations. Furthermore the said solutions make it necessary to store and "manage" both the panels and the shaped elements, and in industrial production such operations have a cost that affects the cost of the structure as a whole.

In the same way, manufacturing processes for seal-holding profiles for products other than industrial cubicles are also well known, that make it possible to avoid the above mentioned inconvenienciesj . as they make it possible to obtain the said profile from the same sheet of metal with which the panels are made, and as a consequence the problems of welding and "management" mentioned above no longer exist. However, the said known processes are applicable exclusively in the case that the sheet metal has a thickness of less than one millimeter, as the said profile is obtained with these proceses by means of bending.

On the other hand it must be kept in mind that the coating panels of industrial cubicles must have certain characteristics of sturdiness that can be obtained only through the use of sheet metal of more than one millimeter in thickness. Seeing as the production of the said profiles from the same sheet of metal as that from which the panels are obtained requires bending at nearly l8θ°, it becomes evident that the processes of the known type cannot be applied to the field of panels for industrial cubicles due to the technical

problems that arise from trying to bend, to the above mentioned degree, sheet metal of the aforementioned thickness.

The aim of the present invention is to individuate a process for manufacturing a seal-holding profile obtained from the same sheet of metal as that constituting the panel, designed to make it possible to overcome the above mentioned technical problems.

The process, according to the invention, includes the carrying out, in sequence, of the following operations: a shaping operation, of the edges of the same sheet of metal as the panels are made of, consisting in preforming each edge in such a manner that it has a first portion arranged at an angle of more than 90° to the extension of the panel wall next to the profile, a second portion arranged at an angle of 90° to the aforesaid panel wall, a third portion arranged at an angle between 0 and 90° to the second portion;

- a pressing operation exercised between the panel wall next to the profile and the said third portion, until the first and the third portion are made parallel with respect to the abovementioned panel wall.

The seal-holding profile obtained according to the aforementioned process is made up of an element, the cross section of which is shaped like a groove and has one of the

« -

sides of the said groove positioned parallel to the wall of the panel carrying the said profile and is in physical continuity with the edge of the said wall.

A seal-holding profile shaped as described above has the advantage, with respect to the said profiles obtained by welding preformed elements onto the panels, that the edge of the panel is stengthened remarkably by the presence of the said side of the groove; in fact this latter determines a doubling in that area of the thickness of the material with which the panel is made. Seeing as the seal-holding profile constitutes one whole piece together with the panel, from an industrial point of view it is not necessary to "manage" the seal-holding profile. Whilst carrying out the aforementioned process it is possible to work in such a manner that a space remains between the said side of the groove and the wall of the panel that is sufficiently large to allow paint or other materials for superficial treatment to penetrate into the said cavity thus also preserving said areas from corrosion. The said cavity seems difficult to create using the known type of process.

Further characteristics of the invention will be made evident by the following description which refers to an example of production that is in no way intended to be limiting, and is completed by the attached diagrams in which: - fig. 1 shows a portion of a panel complete with the

seal-holding profile produced according to the invention; - fig. 2 shows the sequence of operations upon which the process at the basis of the invention is founded. In fig. 1 a portion of the largest surface face of a panel that may be used for example to cover the structures of industrial cubicles has been indicated with the number 1. The sides of said face are usually bent at right angles in order to strengthen the panel and give it both aesthetical and functional qualities. The edges of the said smaller surface faces 2 will come into contact with the supporting structure of the cubicles and, for the sealing reasons given above, a seal must be applied to said edges which in turn must be supported by a profile 3- In this fig. the profile made according to the invention is illustrated. The invention includes making the said profile from the same sheet of plate metal as the panels are made from and seeing as the said sheet metal must have a thickness of not less than one millimeter (and preferably of 1.5 - 2.0 mm.), the profile cannot be made by simple bending operations. According to the invention it is made by following the process illustrated in fig. 2 wherein the letter a) has been used to indicate a normal working phase to produce panels consisting in bending the edges of the said larger surface 1 in order to obtain the said smaller surface face 2. The portion of sheet metal with which the smaller surface

face is made is such however as to make it possible to also make the seal-holding profile out of it.

After the working phase a) has been completed, working phase b) must also be carried out, in which the portion of the sheet metal with which the seal-holding profile will be made is subjected to a shaping operation that can be carried out through bending or profiling. In particular the said operation includes the shaping of the said portion of sheet metal in such a way as to have: - a first portion 4 positioned at an angle of more than 90° to the extension of the said smaller surface face 2; a second portion 5 positioned at an angle of 90° to the aforementioned face 2; a third portion 6 arranged at an angle of between 0 and 90° to the said second portion.

Once the shaping operations have been carried out, a pressing operation must be carried out that is exercised between the said smaller surface face 2 and the said third portion 6, until the first and the third portions are more or less parallel with respect to the said smaller surface face.

In the working phase c) the seal-holding profile obtained from the operations described above is illustrated and it can be observed that it is made up of a groove shaped element that has one of the sides of the groove situated parallel to the smaller surface face 2; the edge of the said side

constitutes a continuation of the edge of the said face 2. In the working phase d) the profile described above and complete with its relative seal 7 is illustrated. In fact this latter has a stem, the dimensions of which more or less coincide with those of the said groove, thus it is firmly held in the profile and it is impossible for it to slip out of it when not desired.

The seal-holding profile shaped as described above, besides having a low production cost, also adds a concrete advantage to the panels themselves in as much as it strengthens the edge of the said smaller surface face remarkably; in fact, in that area the thickness of the material is doubled by the presence of the groove. During the pressing operation it is possible to create a cavity between the said first portion 4 and the said face 2 of such dimensions as to allow paint or other materials for treating surfaces, to penetrate inside the same and thus treat the said area in order to preserve it from corrosion. From an industrial point of view, seeing as the seal-holding profile constitutes one single piece together with the panel, it is not necessary to "manage" it separately, as described in the aim of the invention.




 
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