DE1556352C3 - Moment-locking connection arrangement for the telescopic parts of a telescopic tower on a tower crane or the like - Google Patents

Description

3 4

include and the rods attached at a sufficient distance from the telescopic part for the transmission of Bearing blocks located extensions with to the tower torsional moments. The bracing of both part axes have parallel bores, scope parts by means of bolt-like connecting elements the appropriate, both in the bearing blocks can then be done safely, if as well as in the cross struts of the outer telescope 5, the inner telescope part on the outer telescope part partly located holes are aligned so that it is discontinued. With the connection corner posts according to the invention of the inner telescopic part with the transverse distribution arrangement is also achieved that the as ben of the outer telescopic part with simultaneous pulling elements used screw bolts only Fixing of the bearing blocks by means of screw bolts pulling and not being subjected to shearing, are non-positively connectable. io The bracing of both telescope parts can be in ver-In of German patent specification 1 162 050 are relatively short and without any particular preparation safety measures are carried out on the outer telescope part of a telescope tower, pivotally mounted bearing blocks shown on which the FIG. 1 to 4 the invention is in explained in more detail below on the corner posts of the inner telescopic part. It shows Support solid rods or the like. This arrangement 15 F i g. 1 sets the connection area between the but no moment-locked connection to the outer telescope part of a telescope assembly because they do not contain any bending moments in the side view,

men can and also for proper transmission F i g. 2 is a plan view of the illustration according to FIG

of torsional moments is not suitable. Rather Fig. 1,

this known arrangement only allows the ab- 20 F i g. 3 shows part of the illustration in FIG. 2 in

place the inner telescope part on the outer Te cut according to the cutting line BB and in larger

leskopteil, the arrangement in conjunction with ßeren scale and

further guide means essentially to the center of F i g. 4 a front view of an inventive

tration of both telescope parts is used. A braced connection arrangement.

tion of the telescope parts elsewhere is in every 25 F i g. 1 shows the lower part of an inner part case still necessary. It is very likely that the scoped part must be 16. Along the outer edge of each corner post actual bracing of the two telescopic parts 17 of the telescopic part 16 is a rod 1 welded on, with each other in a manner known per se, even in two of which are underneath with its semicircular cross-section Axial direction of the tower mutually offset ren end in a recess 10 (Fig. 4) of the draft planes be performed. Otherwise, a 30-eared bearing block 2 would be located and on the perfect transmission of tensile forces probably supported by the bearing block. When telescoping the inner can hardly be reached, since the telescopic part 16 from the outer telescopic part 15 NEN distance between the point of bracing, each rod lifts the associated bearing block 2, the by means of clamping screws and the location of the aforementioned around a horizontally lying bearing pin 13 Arrangement already the elasticity of the corner posts of the 35 is pivotable, initially in the in F i g. 3 dashed inner telescopic part affects. But also for position 14 shown on the figure. After the rods 1 have taken The bearing blocks are moved past the bearing blocks 2 by pressure forces Patent specification is not particularly well suited, because the bearing blocks fall due to their own weight the bearing blocks are not at the same time weight again on the adjacent cross struts 9 of the type a bridge on adjacent cross struts of the outer telescope part. After the subsequent Support the outer telescopic part. The inner telescopic part is supported by the slacking of the rope Arrangement of the part 16 in the telescopic path in the manner shown in the drawing The corresponding bearing blocks act on these due to the on the bearing blocks 2. Then the inner Weight of the inner telescopic part and the attached telescopic part 16 with the outer telescopic part 15 unloads considerable torques, which the bearing 45 ter the use of bolt-like connecting elements 3 Load the bolts of the bearing blocks accordingly. This will be tense. The bolt-like connection is required a reinforced design of the bearing pins 3 include those facing the tower top zen and the camp. In any case, this arrangement has ends of the rods 1 and do not have any further designation the disadvantage of faster wear. Nete extensions with Boh-Auf, also not marked Reason of the then inevitable occurring 50 ments on, with further, likewise not descriptive game In the storage of the bearing blocks there is a hole in the bearing blocks 2 and the Align the tension of the inner telescopic part with the outer cross struts 9. Thus, the inner part telescopic part in two offset parts of the escalator with the outer part of the telescope under Verwennen for this reason alone necessary. Change of screw bolts non-positively connected If so, a perfect transmission of all would be possible. The bolt-like connectors are preferably Forces and moments from one to the training element 3 on all corner posts of the inner team Telescopic part no longer guaranteed. Leskopteils 16 is provided. However, it can be enough the connection arrangement according to the invention be that in special cases only to the All forces that occur and corner posts remote from the mo- tor are used, ments perfectly from the inside to the outside part of the telescope tower. The forms in FIG. 9 are located on adjacent cross struts 9 The pivotable bearing supports serving as bridge elements are the bearing bolts 13 of the bearing blocks 2 block provided, in the direction of the tower in the clamped state of the two telescopic parts cause the axis to run recesses relieved.

when placing the inner telescopic part on the outer

ßere telescopic part a centering of both parts and like connecting elements 3 removed. Then will

continue to be used together with the correspondingly from the anchoring point 8 on the mast base

formed ends of the stranding 5, the rocker arm 6, the deflection roller

len 7 and those located on the erecting levers 12 Rope anchors 11 pivoted the bearing blocks 2 upwards after the rope has been completely retrieved became. The inner telescopic part 16 can then be lowered into the outer telescopic part 15.

By arranging further rods 1 in different, offset against each other in the axial direction of the tower Levels of the inner telescopic part 16 can be achieved that the bracing of both telescopic parts can be made in any desired setting. This training has additional the advantage that, for example, as a result of cable breakage or damage to the cable winch during the Telescoping process falling back again with the help of the closest over the bearing blocks located rods is caught.

For this purpose 2 sheets of drawings

Claims (1)

Claim: Moment-locking connection arrangement for the telescope parts of a telescope tower on one Tower crane od. Like. In the area of the upper end of the outer telescopic part in only a plane running transversely to the tower axis and each on adjacent, im Area of the upper end of the outer telescopic part located cross struts of the outer telescopic part supporting bridge elements are provided, which in the Teleskopierungsweg are pivotable and by means of screw bolts with the cross struts on the one hand and the corner posts of the inner telescopic part on the other hand can be positively connected, characterized in that that the bridge elements are known per se, preferably about a horizontal axis bearing blocks pivotable in the telescopic path under the effect of their own weight (2) with a cross-sectional profile-shaped recess (10), the adjacent Bearing blocks run in directions deviating from one another by about 90 °, that on the corner posts (17) of the inner telescopic part (16) known per se, with respect to their lower ends in a Rods that are parallel to the plane of the bearing blocks and can be set down on the bearing blocks Od. Like. (1) are attached, the lower ends of the course and shape of the in the Bearing blocks located recesses are adapted and preferably in several, in Direction of the tower axis provided with a predetermined distance from each other extending planes Are, and that bolt-like connecting elements (3) are provided, which od the rods. Like. at the ends facing the top of the tower form-fittingly encompass and with sufficient distance extensions located by the bearing blocks with bores running parallel to the tower axis have, with the corresponding, both in the bearing blocks and in the cross struts (9) the outer telescopic part (15) located holes are aligned so that the corner posts of the inner Telescopic part with the cross struts of the outer telescopic part while defining the Bearing blocks can be positively connected by means of screw bolts (4). The invention relates to a moment-locked connection arrangement for the telescope parts of a telescope tower od on a tower crane. Like. In the area of the upper end of the outer telescopic part lying in only one plane running transversely to the tower axis and each on adjacent, located in the area of the upper end of the outer telescopic part, cross struts of the outer telescopic part supporting bridge elements are provided which can be pivoted into the telescopic path and by means of screw bolts with the cross struts on the one hand and the corner posts of the inner telescopic part on the other hand are non-positively connectable. From the German Auslegeschrift 1 254 841 is already a connection arrangement of this type can be found as known. Compared to other well-known Arrangements for the moment-locked connection of two telescopic parts by means of bolt connections and has adjusting screws arranged in two planes offset from one another along the length of the tower this known connection arrangement has the advantage of low technical effort and allows a Bracing of two telescopic parts in a relatively short time. A disadvantage of this known connection arrangement is, however, that for the purpose of connecting the two telescopic parts to a fitter the still unstrained outer telescope part must climb up and around vertical axes pivotable bridge elements must pivot by hand under the corner posts of the inner telescopic part. During this work, the inner telescopic part only hangs in the lifting stranding. This creates the Danger that the fitter can get serious injuries because he is working between grab the inner and outer telescopic part and work there with tools while the hoist rope can give way unexpectedly, z. B. by failure of the winch blocking or by Rope breakage or even through longitudinal vibrations of the rope as a result of its tensile elasticity. The same Of course, there is also a risk when telescoping in, because the inner telescope part is also in this case by complete retrieval and tensioning of the erecting rope on this must hang freely so that the Bridge elements relieved and can be pivoted out of the telescopic path. Another The disadvantage of this known connection arrangement is that it is used as pulling elements Screw bolts are subjected to shearing stress when torsional moments occur. The invention is therefore based on the object, one with regard to the technical complexity to create a relatively simple connection arrangement for the telescopic parts, on the one hand all occurring forces and torques is suitable to be transmitted and on the other hand a harmless one Bracing of the inner telescopic part with the outer telescopic part allowed. The screw bolts used for tensioning should only pull and not shear are claimed. In a connection arrangement of the type mentioned at the outset, the invention is characterized in that that the bridge elements known per se, about a horizontal axis, preferably under the action their own weight in the telescopic pivoting bearing blocks with a cross-section are profile-shaped recess, which deviate from each other by approximately 90 ° in adjacent bearing blocks Directions run that known per se on the corner posts of the inner telescopic part, with respect to their lower ends lying in a plane parallel to the plane of the bearing blocks and on the Bearing blocks removable rods or the like. Are attached, the lower ends of the course and the shape are adapted to the recesses located in the bearing blocks and which are preferably in several, provided in the direction of the tower axis with a predetermined distance from each other extending planes Are, and that bolt-like connecting elements are provided, which od the rods. Like. To the the ends facing the spire form-fit