DE3835231A1 - Combined A-frame/slewing crane - Google Patents

Abstract

A slewing crane with jib is characterised in that the jib in normal slewing operation is mounted on the slewing part and during non-slewing operation on additional bearings (4) can be connected to additional abutments (6) which are attached to the non-slewing base of the crane, while the bearing arrangement at the slewing part (16) is released (Fig. 1). <IMAGE>

Description

A common requirement for slewing cranes is that in certain Positions of the boom, but without the crane boom ge must be rotated, the payload should be much higher than in normal turning operation. The known cranes are supported the boom on the turned part. If now the payload in be if the positions are higher, the pivot bearing must be the same which construction is also larger. The bigger the difference, the greater the difference in the Dimensioning of the pivot bearing and thus also the costs. On Because of this connection, there are no major differences between loads in turning mode and loads in a fixed position possible.

In order to avoid this disadvantage, the invention counter the boom spars were extended and below the usual Boom storage at the height of the turned part two more bearings arranged. These eyes are with corresponding abutments, which are arranged on the fixed base of the crane, articulated connected and thus enable at the same time solving the other support an A-frame operation. The forces from the Booms are thus directed past the turned part. A bigger one Dimensioning of the turned part for the higher payload in fixed Position is thus omitted.  

To relieve the crane column, which is also due to the higher Payload should be larger, is usually a fixed stand from the column head to the base, which one does not allow optimal relief of the column. The optimal one Relief is achieved according to the invention in that the fixed (n) Parte (n) der Topptalje led over the column head and from there be sheared several times in one valley. This Talje is with one end to the column stay and the other end attached to the base supporting the crane. The connection of the Guy rope with the top rope creates a defined support force in the guy. Through an adapted shear of the guy rope the supporting forces are optimally distributed to the mast and guying, i.e. the guying can be selected so that the column in the A-frame Operation does not experience a greater load than in turning operation. The Ab voltage can be dimensioned relatively small because of the column the freely selectable supporting force is carried up to its maximum as planned.  

It is possible to use the tension instead of using a tether Generate hydraulic cylinders.

The fixed party (s) act on a hydraulic cylinder, which creates pressure in the hydraulic system. This pressure will to another hydraulic cylinder with a correspondingly larger one Brought cross section and thus creates a definable high Ent load capacity.

In the drawing, an embodiment is shown schematically Darge poses. It shows:

Fig. 1 is a schematic representation of the crane in the rotational operation,

Fig. 2 is a schematic representation of the crane in the change position,

Fig. 3 is a schematic representation of the crane in A-frame operation.

Fig. 1 shows the boom 1 as usual with bolts 16 on the rotary part 2 stored. The boom extension 3 with the additional pivot points 4 is moved freely when the boom 1 is topped or topped with the help of the top roller 5 .

The fixed tree supports 6 on the base 7 of the crane are designed so that they do not collide with the pivot points 4 in any boom position.

The Topptalje 5 is operated by the top winch 13 via the fetching part 14 . The fixed party (s) 12 of the Topptalje 5 is sheared over the column head 15 into the blocks 10 and 11 . Because the guy 8 is not connected to its abutment 9 on the crane base 7 , the blocks 10 and 11 are pulled against each other by the train of the fixed part 12 and only generate internal forces.

Fig. 2: to convert the crane from turning to A-frame operation, the boom 1 is moved to its steepest position, for example. The fulcrums 4 are connected to the abutments 6 by bolts. The bolt 16 is removed. From the voltage 8 is connected to its abutment 9 .

Fig. 3 shows the boom 1 in the A-frame operation. The rotating part 2 is relieved and the guying 8 is loaded by the fixed part 12 via the blocks 10 and 11 .

Combined A-gantry / slewing crane

A crane that can work both in rotating operation and with significantly higher loads in A-frame operation, the boom of which is equipped with additional support points ( 4 ) on the elongated spars ( 3 ), which can be used in A-frame operation instead of support conventional bearings ( 16 ) on additional fixedly arranged abutments ( 6 ).

The pillar is supported in A-frame operation for the defined application of the required supporting force by blocks ( 10 , 11 ), which are acted upon by the Topptalje.

With this construction, the rotating part and the column of relieves the higher payloads in A-frame operation.

Claims (5)

1. slewing crane with jib, characterized in that the jib is mounted on the rotating part in normal turning operation and can be connected to additional abutments ( 6 ) during non-rotating operation on additional bearings ( 4 ) which are attached to the non-rotating base of the crane, while the bearing on the rotating part ( 16 ) is released. 2. A crane with jib according to claim 1, characterized in that the pivot bearings ( 4 ) are arranged on elongated bars ( 3 ). 3. Slewing crane with jib according to claim 1, characterized in that a defined tensile force is brought to the guy which relieves the column by coupling the top part with the column guy via the fixed part ( 12 ) by means of the blocks ( 10 and 11 ). 4. slewing crane with jib according to claim 1, characterized in that the column bracing during rotation of the crane by ineffective movement of their Taljenblocks ( 10,11 ) is ineffective. 5. crane with boom according to claim 1, characterized characterized in that instead of the mechanical coupling for the Bracing the fixed part via a hydraulic cylinder pressure generated on a arranged in the guy, correspondingly larger cylinders the force for the guying generated.