NL8005761A - CONSTRUCTION UNIT FOR FLOW TECHNICAL DEVICES. - Google Patents

Description

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Structural unit for power engineering facilities.

The invention relates to a construction unit for power engineering devices or machines, which has a certain shape or profile in terms of flow technology. Such a construction unit can for instance be a fan blade.

In general, the invention can be applied in the field of devices and machines associated with the radiant technique, such as in the fields of paws, turbines, fans and various directional guidance devices, aircraft engineering, and similar fields.

As is known, large-sized construction units of bound cross-section and shape, such as, for example, the various fan blades or turbine blades, can be manufactured very cumbersome. For example, with the blade of a fan used in a cooling tower, it is clear that there are extremely great difficulties in assuring the aerodynamically required shape of this blade from the manufacturing engineering point of view. In the case of small machines, such construction units are made from solid material, or the raw product is manufactured, for example, by casting.

On the other hand, in such larger-sized construction units, a framework is manufactured and provided with a cover. The latter manufacturing method is used in particular in the manufacture of aircraft wings.

Regardless of which known manufacturing method is used, ensuring the correct shape is only possible with a complicated technology in a low-productive manner with a lot of work and consequently only possible at great expense.

The object of the invention is to simplify the production methods of these construction units and the standardization or the application of series construction or fixed principles, respectively, in the case of the manufacture of construction units which have solid shapes in power technology or machines. possible to make 80 05 76 1 2.

The present invention achieves the object set by this, in that the construction unit itself is composed of building elements and these building elements are provided with predetermined outer surfaces, which together give the final surface of the construction unit. When using a corresponding series construction, it can be ensured that construction units of different shapes and sizes can be assembled from the quantity of building elements.

Joining the building elements together can be realized with the aid of elements which provide a detachable connection, or by non-detachable connections.

In general, first of all, there is a joint, which is effected by gluing or welding. The fixing to each other can also take place by rivets or with the aid of other connecting members. These connections include grooves and the means placed therein, such as connecting or coupling heads and coupling strips, respectively.

The material of the building elements can be metal or plastic, while semi-finished products with different cross-sectional shapes can consist of metal and plastic, wood or foamed plastic.

The individual building elements can be simple ΘΘΠ shell constructions or provided with / internal reinforcement. Furthermore, the use of building elements, the internal spaces of which are filled with, for example, foamed plastic, can also be considered. The building elements can also be obtained from extruded, drawn or pressed semi-finished products, for example by separation.

The essence of the present construction unit therefore consists in that it has assembled or connected construction elements, which have at least one such surface, which is identical in technical terms to a part of the final surface of the construction unit.

80 05 76 1 3 The present building element can be seen as part of the division of the final construction unit.

As a result, in most cases it is a 5 cara construction element, two planes of which serve as part of the final surface of the composite construction unit. Of course, the plane of the prefabricated building element will not in all cases form the final surface of the later construction unit, because the final surface after assembling the construction unit can be obtained by some kind of covering, for instance a paint or lacquer layer or in another similar manner. From a flow-technical point of view, however, at least one surface of the prefabricated building element forms part of the surface area of the final construction unit which is similarly intended, that is to say, in terms of radiant engineering.

Embodiments in which the construction unit is a fan blade, for example, will now be further elucidated on the basis of the description and accompanying drawings, in which:

Pig. 1 represents the profile of a fan blade? Fig. 2 shows the division of the fan blade according to Fig. 1 into building elements; Fig. 3 shows the embodiment of a building element of the construction unit; Fig. 4 is a cross-section of the embodiment of the building element according to Fig. 3? fig. 5 shows another embodiment of the building element according to fig. 3 in cross section.

The fan blade 1 is bounded by the plane 3.

The surface 3 determines the profile required from a technical engineering point of view. In Fig. 2, the fan blade 1 is divided into five building elements 2. The building elements 2 can each be manufactured separately in advance and, after joining, give the fan blade shown in Fig. 1. At least one face 4 of the construction element 2 forms part of the overall surface 3 of the fan blade 1, which, from a technical engineering point of view, constitutes the construction unit.

The building elements 2 can also be designed in such a way that they form a shell construction, as shown in Fig. 3. The fitting edges 5 along which the adjoining building elements 2 can be glued or welded, or possibly for stapling, can be joined to connect the individual shell constructions together.

10 The surfaces 4 of the building elements 2 determine it in terms of stress engineering. In this respect, the surface of the fan blade 1 requires, or the surfaces 4 are still provided with a coating after the building elements 2 have been mutually connected.

Pig. 4 shows a building element, which is provided with reinforcing elements 6. These building elements 2 can also be joined together with the aid of the aforementioned fitting edges 5 and the fixing elements of the building elements can be secured along these edges.

Fig. 5 shows by way of example an embodiment of the building element 2, wherein foamed plastic 7 is arranged in the interior of the building element 2. In connection with this embodiment, the manner of fastening the building elements to each other is shown, wherein a connecting screw 8 is arranged in one building element, while in the adjacent building element a counter-member must be present, which can be placed in the connecting groove 8, which counter element may consist of one or more connecting or coupling heads or optionally coupling strips.

In the present solution, the construction of the building elements 2 obtained according to the series construction can be realized in order to be able to assemble construction units from the various building elements 2, each with different dimensions and shapes.

In this way a large number of construction units can be realized, which differ in terms of the shape of the profile as well as in size differences. By using the 80 05 76 1 5 series series construction, it is of course also possible to produce embodiments which are rotated along a center line of the construction unit.

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Claims (6)

1. Construction unit for power engineering devices on machines, which has a particular shape or profile from a power engineering point of view, for example a fan blade, characterized in that it has mutually connected building elements 5, which have at least such a surface that in power technically identical to part of the final surface of the construction unit. 2. Construction unit according to claim 1, characterized in that reinforcing elements are arranged within the individual building elements. Construction unit according to claim 1, characterized in that a space-filling material, for example foamed plastic, is present in its interior. Construction unit according to claims 1-3, characterized in that the building elements are fastened together by gluing or welding. Structural unit according to any one of claims 1 to 3, characterized in that on their building elements there are provided connection grooves or coupling grooves and / or the connecting elements or coupling strips or coupling strips forming these counter elements. 6. Construction unit substantially as described in the description and / or shown in the drawings. 80 05 76 1