DE3201067A1 - TELESCOPICABLE PORT - Google Patents

Description

DiPL-ING. HORST ROSE 3 DIPL-ING. PETER KOSEL

PATENT LAWYERS

Our file number: 1774/866 Bad Gandersheim, January 14, 1982 Salzgitter machines and
Investments joint-stock company

Telescopic load-bearing mast

The invention relates to a telescopic support mast for devices to be held at a greater height, in particular an antenna mast, the lower mast part of which has at least three cantilevers distributed around the circumference can be supported on the ground and the mast parts can be extended with the aid of the mast's own drive means.

Such support masts and in particular antenna masts serve as mobile carriers for setting up in larger Height devices to be supported at different locations and at different heights. With such masts the stability as well as the flexural and torsional rigidity as well as the construction times are more essential Meaning. The flexural rigidity is essential with regard to the deflectability of the extended support mast within prescribed limits, and the torsional stiffness is important for the most precise alignment possible of the device to be held, in particular an antenna held by the support mast, on both sides because of the wind loads occurring in open terrain.

There is a support mast of the type specified (eg prospectus »Salzgitter Antennenmast ¹ » ¥ 343-677-1000G), in which about vertical axes pivotable booms are articulated on a base frame, which on the one hand

-2-Rö / J

supports lower mast part and on the other hand can be designed as a motor vehicle. As a driving force for the Telescoping the mast parts is a hydraulic lifting device arranged in the lower mast part, with which the respective mast parts are extended one after the other and after the respective latching. To straighten the still When the mast is pushed together, a separate hydraulic drive device on the base frame is used. This known support mast has several disadvantages: The lower mast part is only in the base frame itself on his held lower end. The deflecting forces acting on the mast, especially wind forces, are demanding therefore not only the upper mast parts but also the lower mast part vo3.1 on the one hand and on the bend Torsion on the other hand. Are deflection limits specified and the most accurate possible alignment of the one to be held is required Device and especially the carried antenna required, the known support mast can only be in use a limited height, or separate anchoring of the mast is required. Because the one on the mast and in particular bending moments acting on the lower mast part on the one hand and torques on the other hand can only be discharged through the mast base, in the known case via the base frame. However, tension brings especially at different heights, considerable additional assembly and dismantling times. Increased up and dismantling times result from the necessity of the respective latching of the individual mast parts and the idle travel of the lifting device of the well-known Mastan order.

The invention is based on the object of creating a support mast of the type specified at the outset, in which with

-3-

simple and, above all, easy-to-use means, increased stability and, in particular, increased Flexural and torsional rigidity is achieved and thus the height of the support mast that can be achieved without any bracing can be enlarged, and also significantly reduced the required assembly and dismantling times can be. This is mainly achieved according to the invention in that the boom as telescopic Support legs are formed, the telescopic parts of which can be locked against one another in the respective extended positions are, and these support legs at their upper end each by one in the upper region of the lower mast part arranged, fixed against axial displacement torque sleeve are articulated on the lower mast part, the The longitudinal axis is perpendicular to the longitudinal axis of the mast, so that the lower end of the lower telescopic part of each Support leg is connected to a tensioning cable, the other end of which is at a distance from the articulation points of the Support legs in the lower part of the lower mast part is attached, and that the lower facing the ground Ends of the support legs each via an adjusting device for separate height adjustment with an associated one Support foot are connected.

This v / ird achieved that the lower mast part its said height is firmly supported and thus impacts of the support mast, in particular due to wind loads, only bends to a very small extent in terms of bending forces in the lower mast part and not lead to any deflection of the upper area of the lower mast part, so that almost complete flexural rigidity is achieved over this entire height range of the support mast. By the marked articulation of the support legs by the

-4-

4 »W *

7 «-

axially fixed torque sleeve is achieved that the torque generated by torsional forces on the mast base is transmitted to the support legs in a distributed manner and express themselves there as controllable bending moments. These bending moments are reduced to on the support legs Lateral forces at the lower base of the support legs. With the same specified mast height, one becomes essential increased torsional rigidity of the support mast achieved by that the torques acting on the lower mast part are already intercepted at the upper end of the lower mast part will. A significant increase in the stability of the support mast is achieved, with the ability to be telescoped as a result the support legs can reach large spans. The increase in bending stiffness, torsional stiffness and the stability leads on the one hand to an increased achievable height of the support mast even with a given Deflection limits and, on the other hand, to the advantage that no additional bracing of the support mast is also required greater extension heights is required, so that the assembly and dismantling time is significantly shortened even at greater heights will. The erection of the mast is facilitated by the telescopic ability of the support legs. After standing up If the mast is not extended, the support legs are manually or by means of any provided Telescoping drives are pulled out until the tension ropes are tensioned, after which the lower part of the mast is already stretched is fully supported and stiffened in the manner described. Then the mast can be moved to the desired position Height can be extended. The marked formation of the lower ends of the support legs leads in In cooperation with the features described above, - that after the described pulling out of the support legs

-5-

Until the first tensioning of the tensioning cables, an exact alignment of the lower mast part via the adjusting devices can be made and at the same time the Spannsele are finally fully tensioned. Come through this the described increases in stability and bending and torsional stiffness to full effect, so that Overall, the operational safety of the extended mast is improved.

It is in a support mast similar to the type specified, but without mast-own drive means for the telescopic parts, known per se (GB-PS Zk 966 from 1906), non-adjustable support legs via a fastening ring on the upper section of the lower mast part and with tension ropes to the To brace your feet. Apart from the lack of telescoping capability of the support legs, a certain increase in flexural rigidity is possible in this known arrangement because of the in no way guided and controlled articulation of the support legs, but with this arrangement no torques introduced into the lower mast part can be dissipated via the support legs. In addition, there is no safe guidance of the support legs during the pivoting movement, so that the known arrangement requires additional rigid connecting elements between the support leg feet in order to achieve the necessary support.

The inventive articulation of the support legs via the torque sleeves ensures the exact pivoting out the support legs and the exact placement of the support feet of the support legs on the ground to form the polygons resulting from the number of support legs.

With the help of the features characterized in claim 2

-6-

is a stepless extension of the mast parts and secure holding of the mast parts in the respective extended position possible without any notch. The various rope drives suitable in each case can be used, e.g.

individual cable pulls coupling the mast parts to be telescoped or a cable to the respective upper or the lower ends of the successive mast parts reeved through a continuous cable. Such a rope drive can also be used in the non-extended state and with each other in this state locked mast parts Erecting the lower mast part can be used on the base frame. With the help of the inventively provided Support legs and adjusting devices can be the base frame be lifted off the ground so that it only hangs on the lower part of the mast, which over the weight of the Base frame the stability of the mast is further increased. This is especially true for those who claim 3 characterized embodiment of the invention, in which on the one hand the whole of the base frame or chassis and the mast with its support devices can be moved and the existing unit on the other hand, the weight of the chassis contributes to the stability of the support mast.

Features, further advantages and details of the invention emerge from the claims and from the following Description of an embodiment of the invention with reference to the drawing, in particular as a mobile antenna mast Can be used. Show it:

Fig. 1 largely schematically in a side view of a support mast according to the invention, wherein for simplification and clarification of the representation of only two of the opposite sides of the lower mast part

-7-

-f-

hinged support legs are shown and two other support legs in the perpendicular to the plane of the drawing Level are to be provided so that in this embodiment four support legs offset by 90 ° on the lower mast part attack,

FIG. 2 shows the top view of the support mast according to FIG. 1 without showing the upper mast parts.

3 shows an enlarged partial view of an articulation area the upper end of a support leg on the upper portion of the lower mast part according to FIG. 2,

FIG. 4 is a side view of the representation according to FIG.

The telescopic support mast 1 has a lower mast part 2 and five other telescopic masts Box parts 3 on. The mast parts 2 and 3 are, as FIG. 2 shows, preferably designed with a square cross-section and can expediently be designed as lattice mast parts. In the upper area of the lower mast part 2, here at the upper end of the lower mast part 2, there are four telescopic ones that are offset from one another by 90 ° on the circumference Support legs 4 hinged at 5. The individual telescopic parts of the support legs 4 are in a suitable manner in different Extension positions can be locked against each other, e.g. by locking pins, which simplifies the process the representation in the drawing is not reproduced. The drawing shows support legs 4 made by hand be pulled out. However, suitable telescopic drives can also be used may be provided, e.g. hydraulic actuators or the like.

The lower end of each support leg 4 is connected to a tensioning cable 6, the other end of which is at a distance is fastened by the articulation points 5 of the support legs 4 in the lower region of the lower mast part 2, as at 7 is indicated in the drawing.

Furthermore, the lower ends of the support legs 4 directed towards the ground are each via an adjusting device 8, in Exemplary embodiment via an adjusting spindle that can be driven by a hand crank, for separate height adjustment the lower ends of the support legs are connected to an associated support leg 9.

The lower end of the lower mast part 2 is also connected to a base frame 10, which is also used as a chassis is designed for the mast.

In Fig. 2 to 4, the inventive design of each articulation point 5 between the support legs 4 and the lower Mast part 2 shown. Each support leg 4 is on his

The upper end is provided with a moment sleeve 14 .. This moment sleeve 14 of each support leg 4 is, in particular, like 3 and 4 can be seen, mounted on a bearing pin 15 so as to be pivotable. The bearing pin 15 is held in attached to the lower mast part 2 side cheeks 16, which also act as limit stops for the serve axial movement of the torque sleeve 14, so that this torque sleeve is fixed against axial displacement. The longitudinal axis of the torque sleeve 14 or the bearing pin

ΙΟ 15 runs perpendicular to the longitudinal axis of the mast and thus horizontal.

In the exemplary embodiment, the mast parts of the support mast are shown with a square cross-section, the four support legs assigned. The arrangement according to the invention is equally applicable to round, in particular cylindrical, mast parts as well as for mast parts with a different polygonal cross-section as well as with a different number of support legs evenly distributed on the circumference, the respective articulation point according to FIGS. 2 to 4 on The lower mast part is designed and arranged to link the support legs via the counter-axial displacement to achieve specified torque sleeve.

A cable drive is provided for a stepless telescopic drive of the mast parts 3 of the support mast 1. As an exemplary embodiment, a cable 11 is shown to simplify the illustration, the upper end of which engages the lower end of the first telescopic part 3, then leads over a pulley 12 at the upper end of the lower mast part 2 and finally is guided to a cable winch 13 arranged on the base frame 10 which can be braked in the respectively desired height position, namely here in the extended position shown in the drawing, and thus locks the cable 11. Corresponding cable pulls coupling the individual mast parts 3 with one another in a driving manner are located between the _1Q

other following mast parts 3 are provided. Such cables are known per se and are therefore not shown in the drawing to simplify the representation. It can as a rope drive e.g. also a continuous rope pull

Q5, the one between the respective upper and is sheared lower ends of the successive mast parts 2 or one or more times. One of those too Cable is known per se and therefore not shown. It can be seen that with the help of such a cable drive the mast can be extended steplessly to the required height and only by braking the winch must be locked at this height. There are no special latches at all.

Patent Attorneys DIpJ.-Ing. Horst Rösö Pjßl.-Ing. Peter Kosei

Le

first page

Claims (3)

DIPL-ING. HORST ROSE DIPL.-ING. PETER KOSEL PATENTANWÄLTE Our file number: 1774/866 Bad Gandersheim, 14. January 1982 Salzgitter Maschinen und Anlagen Aktiengesellschaft PATENT CLAIMS 1. Telescopic mast for at greater heights supporting devices, especially antenna masts, the lower mast part of which has at least three on the circumference distributed boom can be supported on the ground and the mast parts can be extended with the aid of the mast's own drive means, characterized in that the booms are designed as telescopic support legs (4), the telescopic parts of which are in the extended Positions can be locked against each other, and these support legs at their upper end each by one arranged in the upper region of the lower mast part (2) and fixed against axial displacement The torque sleeve (14) is hinged to the lower mast part, the longitudinal axis of which is perpendicular to the longitudinal axis of the mast, that in each case the lower end of the lower telescopic part of each support leg (4) is connected to a tensioning cable (6) is, the other end (7) at a distance from the articulation points (5) of the support legs (4) in the lower area of the lower mast part (2) is attached, and that the towards the ground lower ends of the support legs (4) each via an adjusting device (8) for the separate Height adjustment are connected to an associated support foot (9). 2. Support mast according to claim 1, characterized in that the mast parts (3) steplessly by means of a cable drive (11) telescopic and on a base frame (10) carried by the lower mast part (2) one in each —2— Rö / Hu Temporary extended position of the mast parts brakable winch (13) is arranged as a cable drive. 3. Support mast according to claim 2, characterized in that the base frame (10) at the same time as a chassis for the Support mast (1) is formed and connected to the lower end of the lower mast part (2). Patent Attorneys Dißl.-Ing. Horst Rose Djßl.-Ing. Peter Kose!