DE19756746A1 - Roofing crane with modular cantilevered arm with several telescopic lengths - Google Patents

Abstract

One telescopic length has a hollow chambered section in the corner between two surfaces. The hollow-chambered section is in the form of a separate corner piece (2,3). Two adjacent corner pieces of the same telescopic length are joined by connecting elements (4). The two arms (5,6) of the corner piece may be of different thicknesses. All the corners of the cross-sectional profile of one telescopic length may have separate corner profiles. The corner profile can have two hollow chambers separated by a middle arm (8) running along the angle bisector of the angle included by the corner profile.

Description

The invention relates to a roofing crane according to the upper Concept of claim 1.

Such roofing cranes are often from practice knows. They have telescopic booms with several Telescopic shots on. The cross-sectional dimensions of the one individual telescopic shots differ from one another the space-saving guidance of smaller telescopic shots in the to enable larger telescopic shots. From Ge For reasons of weight, the telescopic shots made of aluminum consist. It is known to extrude every telescopic section to produce pressed aluminum profiles, the strand Press profile in the area of at least one corner of the cross section Profiles of the telescopic section have a hollow chamber can. This hollow chamber is used, for example, for protection Leading the stranding.

In the known roofing crane it is disadvantageous that for everyone A separate molding tool is required because the telescopic shot Cross-sectional dimensions of each telescopic shot differ from differentiate those of the two neighboring telescopic shots the. This leads to both the manufacturing process as well as with regard to the molding tools required for this considerable cost.

The invention has for its object a genus to improve roofing crane in that this is inexpensive to manufacture.

This task on which the innovation is based is accomplished by  a roofing crane with the features of claim 1 solved.

In other words, the invention proposes the corner areas to be designed as separate hollow chamber corner profiles. To this It is possible to use the same extruded profile for several or even all telescopic shots of the same boom use. The different cross-sectional dimensions of the telescopic shots can be easily by the Be Dimensioning of the connecting elements can be achieved with with two adjacent corner profiles of the same telescopic section be connected.

Advantageous embodiments of the invention are the Unteran sayings removable.

Embodiments of the invention are based on the drawing tion explained in more detail below. It shows

Fig. 1 Two embodiments of a plurality of telescopic shots arranged one inside the other of a boom of a roofing crane, and

Fig. 2 is a side view of a telescopic shot, as used in Fig. 1.

In Fig. 1 a boom 1 of a roofing crane is partially indicated. The boom 1 consists of a total of five telescopic sections, each telescopic section having corner profiles 2 and 3 and connecting elements 4 arranged between them. The corner profiles 2 and 3 are manufactured as separate extrusion components and welded to the connecting elements 4 in order to form a telescopic section.

Fig. 1 shows two different embodiments: While the corner profiles 2 and 3 shown on the left each have a central web 9 and thereby have two hollow chambers sen, the corner profiles shown on the right form only a single hollow chamber. This profile shape of the corner profiles shown on the right has the goal of bringing as much material as possible into the outer edges lying in the bending direction, so that the load on the cantilever is the greatest possible proportion of the moment of inertia. By shifting the cross-sectional area of the corner profiles, which significantly influences the bending stiffness, to the outer edge of the profile and thus to the outer edge of the bracket, a larger, free space for an inner rail and for stranding is created inside the profile.

The corner profiles 2 of all telescopic sections shown in the drawing above have the same cross-section and the corner profiles 3 of all telescopic sections shown below in the drawing also all have the same cross-section, so that overall only two different hollow chamber profiles as corner profiles 2 for the manufacture of the crane boom shown and 3 must be manufactured and kept ready. The corner profiles 2 and 3 shown on the left in FIG. 1 each have two hollow chambers which are separated from one another by a central web 9 . The central web 9 improves the static resilience of the corner profile 2 or 3 and extends ent along the bisector of the 90 ° angle included by the corner profile 2 or 3 .

The corner profile 3 differs in the two variants shown in FIG. 1 Darge from the corner profile 2 in that the two legs of the profile arranged at an angle of 90 ° to one another are of different thicknesses: while in the corner profile 2 both legs are of the same thickness, the corner profile has 3 a narrower leg 5 and a thick ren leg 6 . In this way, free spaces 7 are created between two adjacent telescopic sections, in which, for example, the stranding is guided and protected.

The connecting elements 4 between two corner profiles 2 and 3 or between two identical corner profiles 2 or between two identical corner profiles 3 can each be formed as a single plate. However, it can advantageously be provided to form the surface between two corner profiles from a large number of individual plates.

This is particularly evident from Fig. 2: Between the corner profiles 2 and 3 , a plurality of Verbindungsele elements 4 is provided to form a surface of the telescopic shot. The plates are not designed as rectangular plates, but with respect to their welding edge with which they rest on the corner profiles 2 and 3 , with an increasing distance from the respective corner profile 2 or 3 inwards. This results in recesses 8 between two adjacent connecting elements 4 , which on the one hand bring about a weight saving of the telescopic section and on the other hand allow access to the inside of the telescopic section if it has a closed example of a square box cross-section. A stranding inside the boom, electrical supply lines or the like are optimally accessible in this way.

For static reasons, the free spaces between two adjacent connecting elements 4 and the same area between two corner profiles at the two ends of the telescopic section are made smaller in the central region of the length of the same telescopic section, since the two end regions are subject to greater static loads. For this purpose, either the individual connecting elements 4 can be designed as differently waisted panels or, when using the same panel dimensions, the spacing between two adjacent panels can be selected accordingly.

A particularly inexpensive manufacture of the telescopic section is possible if only two different types of corner profiles are required for all telescopic sections of one and the same boom and if only a single plate type is required for all connecting elements 4 of the same surface of a telescopic section. In this way, standardized and very inexpensive production with large quantities of the same component type is possible.

Claims (5)

1. roofing crane, with a plurality of telescopic sections aufwei send boom, a telescopic section in the corner area between two surfaces has a hollow chamber profile, characterized in that the hollow chamber profile is designed as a separate corner profile ( 2 , 3 ) with two adjacent corner profiles ( 2 , 3rd ) of the same telescopic section are connected to one another by connecting elements ( 4 ). 2 roofing crane according to claim 1, characterized in that the two legs ( 5 , 6 ) of the corner profile ( 3 ) are of different thicknesses. 3. Roofing crane according to claim 1 or 2, characterized net that all corners of the cross-sectional profile of a telescopic section ses are designed as separate corner profiles. 4. Roofing crane according to one of the preceding claims, characterized in that the corner profile ( 2 , 3 ) has two hollow chambers which are separated from one another by a central web ( 9 ) which runs along the bisector of the angle enclosed by the corner profile. 5. Roofing crane according to one of the preceding claims, characterized in that the connecting elements ( 4 ) of a surface provided between two corner profiles ( 2 , 3 ) are designed as a plurality of individual spaced apart plates.