EP1831978A1 - Guiding system for an energy guiding unit, and crane arrangement - Google Patents

Abstract

The invention relates to a guiding system for an energy guiding unit (2), said system comprising at least one guiding channel (1) for an energy guiding unit guided in the channel. The energy guiding unit is formed by a hollow profiled element (3) comprising a passage (4) extending in the longitudinal direction of the guiding channel. A mobile driving element (5) is arranged in the longitudinal direction of the guiding channel and is connected to the energy guiding unit, said driving element being guided by the guiding channel. The driving element comprises at least two elements (10, 11, 12) that can be respectively rotated about an axis, at least two axes being in different intersecting planes.

Description

 Guidance system for an energy guidance unit and crane arrangement

The subject matter of the invention relates to a guide system for an energy management unit and to a crane arrangement.

Energy management units for guiding lines, hoses or the like between a stationary connection point and a movable connection point are known in various embodiments and designs. Energy management units, also called energy guiding chains or energy chains, have a channel in which the lines, hoses or the like are laid. The energy management units can be formed by articulated chain links. The individual chain links are made up of side straps and crossbars. The transverse webs may be relatively narrow or also wide, so that a cover of the channel of the power management unit is achieved. Energy-conducting units are also known, which are formed, for example, from extruded hollow profiles, the hollow profile being subdivided by cuts in the side walls and a top wall with a bottom wall. The energy guiding units may be made of plastic or a metal. Combinations of different materials are possible.

In the course of the further development of machines, in particular machine tools, the need has arisen to provide energy guidance units which can also follow rapid movements of the machine. This can cause problems. Abrupt acceleration and stopping of the energy-conducting unit can lead to instabilities, so that the energy-conducting unit is no longer properly guided. Also by the application of Energiefiihrungseinheiten for long travels, which are present for example in cranes, there may be the need to lead the energy management unit. There are therefore guide channels have been developed in which the power management unit is performed.

From DE 298 07 063 Ul a guide system for a power management unit with a guide channel for a power management unit, which is guided in the channel known. The channel consists of a hollow profile with at least one breakthrough extending in the longitudinal direction of the channel for at least one driver engaging the energy guide unit arranged in the channel. In the breakthrough a feasible carriage is provided, which is coupled to the driver. The adjacent to the breakthrough areas of the channel are formed as a slide guide. Specifically, it is proposed that the carriage has rollers that can roll on a lower edge of the opening.

In such an embodiment of the guide system there is a risk that the rollers spring out of the guide.

On this basis, the present invention, the objective underlying the known leadership system in such a way that increased reliability is achieved. Another object of the invention is to design the guide system such that bending loads have little or no effect on operational safety.

This object is achieved by a guide system for a power management unit with the features of claim 1. Advantageous developments and refinements of the guide system are the subject of the dependent claims. The guide system according to the invention for a power-conducting unit with at least one guide channel for a power-conducting unit, which is guided in the channel, is formed by a hollow profile, which has an opening extending in the longitudinal direction of the guide channel. In the longitudinal direction of the guide channel, a movable carrier is provided, which is connected to the energy management unit, wherein the driver is guided by the guide channel. The guide system according to the invention is characterized in that the driver has at least two elements which can be rotated about one axis in each case, wherein at least two axes are arranged in different, intersecting planes. The guide channel has walls with which the rotatable elements of the driver are in contact.

This inventive design of the guide system increased reliability is achieved. The fact that rotatable elements are provided, which are positioned on axes which are arranged in intersecting planes, is achieved in that the forces acting on the driver are absorbed by the rotatable elements and introduced into the walls of the guide channel.

Preferred is an embodiment of the guide system in which two planes intersect at an angle of substantially 90 °. In such an embodiment, the axes may, for example, extend in a horizontal and a vertical plane, whereby the vertical and horizontal force components of the force acting on the driver are introduced into the walls of the guide channel. By this measure it is also achieved that bending loads or torques acting on the driver by transverse forces can be absorbed.

According to yet another advantageous embodiment of the guide system is proposed that at least one pair of elements is provided, which are arranged coaxially to each other. An embodiment of the management A system in which at least one pair of rotatable elements is provided whose axes are substantially parallel to each other. The elements are rotatable about mutually offset axes. There is the possibility that the one element of the pair is in contact with an inner surface of a wall of the hollow profile and the other element of the pair is in contact with an outer surface of a wall of the hollow profile. It is also possible to arrange the rotatable elements so that they lie within the hollow profile and are in contact with the opposite walls in each case. By this preferred embodiment of the guide system, the reliability of the guide system is increased because the risk of tipping the driver is reduced by the at least one pair of elements. In addition, the power management unit is given a high stability even at high speeds.

The guide system has a channel in which the energy management unit is guided. In this case, an embodiment in which the channel has at least one region in which the energy-conducting unit is guided is preferred. The area preferably comprises a bottom wall and side walls of the guide channel.

The guide channel is preferably constructed by segments which are interconnected. The segments can be formed by shaped sheet metal parts. There is also the possibility that the hollow profile was produced for example by continuous casting.

Crane arrangements are known in which the lines, control lines and power lines are led garland-shaped. It is also known that, for example, the hoist or the trolley of a crane assembly is controlled via a mobile operating terminal. In this case, the operating terminal is connected via a line to a control device or directly to the drives of the crane. To simplify the handling of such crane arrangements, it is proposed that the crane arrangement has at least one guide system according to one of claims 1 to 6. Advantageously, the guide channel is connected to a crane girder, whereby a compact construction of the crane arrangement is achieved.

Further details and advantages of the invention will be explained with reference to the embodiments illustrated in the drawings, without the subject matter of the invention being limited to the specific embodiments.

Show it:

Fig. 1: schematically and in a front view an embodiment of a

Guidance system

2: the guide system in a view from the right,

3: the guide system in a view from the left,

4: a driver in a front view,

5: the driver of FIG. 4 in a plan view,

Fig. 6: the driver in a side view from the left and

Fig. 7: a guide channel in a front view.

Fig. 1 shows schematically an embodiment of a guide system according to the invention for a power supply unit. The guide system has a guide channel 1 for a power supply unit 2. The energy guiding unit 2 is guided in a channel which is formed by a hollow profile 3. The Hollow section 3 has an opening 4 extending in the longitudinal direction of the guide channel.

In the longitudinal direction of the guide channel 1, a movable carrier 5 is provided. The driver 5 is connected via a fastening means 6 with the power management unit 2. The driver 5 has a base body 7. The main body 7 is preferably in the form of a box profile. At the opposite end faces of the base body 7 damping means 8 are provided. From Fig. 1 it can be seen that the damping means 8 cooperates with a Verfahrbegrenzer 9. In the illustrated embodiment, the Verfahrbegrenzer 9 is formed in cross-section substantially triangular. He is connected to the hollow section 3. By the Verfahrbegrenzer 9, the movement of the driver 7 is limited to other side. A correspondingly designed travel limiter 9 is provided on the other side of the guide channel, so that the driver 5 can be moved between two defined end positions.

The mobility of the driver 5 via rotatable elements 10, 11 and 12, wherein the rotatable elements are each seconded in pairs, as can be seen from Figures 1, 2 and 3.

The rotatable elements 10, 11, 12 are in the form of rollers or wheels. This is not mandatory. There is also the possibility to design the elements differently. The individual rotatable elements are in contact with a wall of the guide channel. 3

In particular, from Figures 2 and 3 it can be seen that the axes of the torsion elements 10 and 12 and the axes of the rotatable elements 11 and 12 are arranged in different, intersecting planes. From Figures 2 and 3 it can be seen that the rotatable elements 10, 11 form a pair whose axes are substantially parallel to each other.

The driver 5 is shown in Figures 4, 5 and 6. With the main body 7 U-shaped bracket are connected in the illustrated embodiment. On longitudinal members 14, which are connected via bolts 15 with the brackets 13, the rotatable elements 10, 11 and 12 are arranged.

At the end faces of the base body 7, the damping means 8 are formed. The damping means 8 comprise a piston-cylinder unit and a compression spring 16, are damped by the shocks of the driver 5 against the Verfahrbegrenzer 9.

Transverse to the driver 5 is connected to the main body 7, a boom 17. To improve the connection between the main body 7 and the boom 17, a substantially triangular-shaped plate 18 is provided.

The boom 17 is also apparent from FIG. In the illustrated embodiment of FIG. 2 and 3 shown. On the boom 17, for example, a line 19 is laid, which is connected to a control terminal, not shown. The guide channel is fixed to a horizontally extending crane girder 20. This is not mandatory. The guide channel can also be fixed to a wall or other components of a complex system. To strain relief of the line 19, the operating terminal, not shown, is connected via a cable 21. Through the line 19 and the control terminal, a torque is generated via the boom 17, which is collected by the elements 10, 11. This is done by the elements 10 abutting an inner surface of a wall 22 of the guide channel and the elements 11 on an outer surface of the wall 23 of the guide channel. The guide channel 1 is shown in cross section in FIG. 7. The profile has a bottom wall 24 which is connected to the walls 23 and 25. The bottom wall 24 and the walls 23, 25 form a region in which the energy guiding unit 2 is arranged.

The profile has a substantially horizontally extending shoulder 26 on which the movable elements 12 roll.

The erfmdungsgemäße guide system is particularly suitable in conjunction with Kranan- orders to ensure the power supply and control signal supply.

LIST OF REFERENCE NUMBERS

1 guide channel

2 energy management unit

3 hollow profile

4 diameters

5 drivers

6 fasteners

7 basic body

8 damping means

9 travel limiters

10, 11, 12 rotatable elements

13 stirrups

14 side members

15 bolts

16 compression spring

17 outriggers

18 plate

19 line

20 crane girders

21 rope

22, 23 sidewall

24 bottom wall

25 side wall

26 paragraph

Claims

Patent claims

A guide system for a power management unit having at least one guide channel for a power management unit, which is guided in the channel, formed by a hollow profile having an opening extending in the longitudinal direction of the guide channel, and with a movable in the longitudinal direction of the guide channel driver with the Energy guide unit is connected, wherein the driver is guided by the guide channel, characterized in that the driver has at least two rotatable about one axis elements, wherein at least two axes are arranged in different, intersecting planes and which has the guide channel walls, with which the elements are in contact with.

2. Guide system according to claim 1, characterized in that intersect two planes at an angle of substantially 90 °.

3. Guide system according to claim 1 or 2, characterized in that at least one pair of elements is provided, which are arranged coaxially with each other.

4. Guide system according to claim 1, 2 or 3, characterized in that at least one pair of elements is provided, the axes of which extend substantially parallel to each other.

5. Guide system according to one of claims 1 to 4, characterized in that the channel has at least one region in which the energy-guiding unit is guided.

6. Guide system according to claim 5, characterized in that the region is formed by a bottom wall and by side walls of the guide channel.

7. Guide system according to one or more of the preceding claims 1 to 6, characterized in that the elements are rollers and / or wheels.

8. Crane arrangement comprising a guide system according to one of claims 1 to 7.

9. Crane arrangement with a substantially horizontally extending crane girder, wherein the guide channel is connected to the crane girder.