DE3636893C1 - Telescopic mast with coaxially arranged mast sections - Google Patents

Description

The invention is based on a telescopic mast in the preamble of claim 1 and known from DE-OS 25 46 145 become art.

Telescopic masts of the type mentioned come in civil and military area as equipment carrier, preferably for messages support systems, for use. Because of these telescopic masts mechanical devices used for locking neigh Barter mast shots, it is possible to lift the pressure medium system switch off the unit after the extension process has ended. The Locking devices bring the holding forces for the extended mast shots. Changes in length of the telescopic mast as a result of temperature fluctuations, such as those with pressure medium actuated lifting cylinders are known, can be avoided.

From DE-OS 25 46 145 is a generic telescopic mast be knows, which has disadvantages. Firstly, the mast shots with the help of a comparatively complex multi-stage lift telescoped, on the other hand is the locking mechanism attached to the outside of the mast sections. With unfavorable Weather conditions exist on these locking elements Icing hazard. In addition, it is properly engaged Locking components by the operator on the ground often do not recognizable.

The object of the invention is a lifting and for telescopic masts Introduce locking device with which under comparative the mast shots operated with little effort and without verei danger of locking and unlocking.

The achievement of this object results from the characterizing Features of the main claim. Advantageous configurations and Further training can be found in the subclaims.

The telescopic mast according to the invention is a one-stage pressure-operated lifting unit extended, the mast shots by a ver located inside the mast shots locking mechanism can be locked or unlocked. The locks The mechanism is made using the single-stage lifting unit actuated in the mast sections by turning them. During the Turning the lifting unit will latch between the fixing mast section and the already fixed mast section inserted. After the mast section has been locked in this way, stands the lifting unit for the excavation of another mast section and its locking is available. The unlocking and the on the mast shots are driven in the opposite order with active force from the lifting unit.

An embodiment of the invention is with the help of the drawing explained. It shows

Fig. 1 shows a longitudinal section through a lifting unit in a retracted and locked vierschüssigen mast,

Fig. 2 is a longitudinal section through the lifting unit with drive NEN out and locked above the innermost mast section wherein the lifting unit moves downward,

3 shows a cross section AA of Fig. 1 in the lower position INTERLOCKS lung.,

Fig. 4 shows a cross section AA of Fig. 1 position in the lower lung Entriege,

Fig. 5 shows a cross section AA of Fig. 1 in the upper locking position and

Fig. 6 shows a cross section AA of FIG. 1 in the upper locking position, but without individual parts.

The mast shown in FIG. 1 is formed by four mast sections 1, 2, 3, 4 , within which a single-stage lifting unit 7 retracts and extends and locks and unlocks the mast sections 1, 2, 3, 4 with the aid of a lever 11 allowed. In the retracted and locked state, the individual mast sections 1, 2, 3, 4 are connected to one another with the aid of bolts 5 and positioned as shown in FIG. 3. Lugs 6 of the lifting unit 7 are immersed between drive plates 8 , which are seen with recesses 9 ( FIG. 3, FIG. 6).

To extend the mast, the mast section 1 to be lifted is released by rotating the lever 11 about the longitudinal axis of the lifting unit 7. This is done by the knobs 6 of the lifting unit 7 rotating a component 10 clockwise by a certain angle. The bolts 5 are arranged in a toothed manner with the component 10 , so that the rotation of the lifting unit 7 causes the mast section to be unlocked ( FIG. 3, FIG. 4). In the unlocking position shown in FIG. 4, the lugs 6 are located between the driving plates 8 and the mast section 1 is positively connected to the lifting unit 7 . By activating the lifting unit 7 , the mast section 1 moves upwards. If the mast shot 1 was raised a few millimeters, an immersion of the lugs 6 from the driving plates 8 is no longer possible, since the bars 5 according to FIG. 4 are blocked by a renewed rotation of the lifting unit 7 by the inner wall of the mast section 2 .

After the mast section 1 has been raised to the upper end position, the mast section 1 and the mast section 2 are connected to one another by means of the latch 5 by turning the lever 11 clockwise again. Fig. 5 shows the locked mast sections 1 and 2 , the Knag gene 6 are in the recesses 12 of the component 10 ( Fig. 6) be and can thus be moved downwards. By moving lever 11 counterclockwise until it stops, the lifting unit 7 with the lugs 6 is brought into the retracted position for the next mast section to be lifted. In this position, the lugs are tioniert posi 6 over the recesses 9 of the entrainment plates 8 and the unlocking, raising and locking operation as described can again ablau fen for the next shot mast (Fig. 6, Fig. 3).

The retraction of the mast sections 1, 2, 3 happens in the opposite order as when extending, the first extended mast section 1 is drawn in as the last. According to the invention, the positive connection of the lifting unit 7 with the respective mast section 1, 2, 3 enables a force-moving retraction. As a result, the mast sections 1, 2, 3 can be reliably retracted even in the icy condition.

The use of the locking device according to the invention can with different mast types, such as with Solid wall masts and lattice masts that are round, triangular, quadrangular or are polygonal. For example, as lifting units Spindle drives and hydraulic systems Find use.

Another advantage of the invention is that it always costs inexpensive single-stage lifting unit can be used. By turning the lifting unit, the mast section to be lifted is detected, unlocked at the same time and then raised. As soon as the mast shot in the upper end position has been reached by turning it again the lifting unit the upper mast section with the fixed verrie applies and then released for lowering. Through this one mishandling is not an incorrect operation with damage consequences possible.

Claims (3)

1. Telescopic mast with coaxially arranged mast shot, with a angeord Neten lifting unit at the bottom of the outermost mast section and with devices for locking adjacent ter mast sections, wherein a device is provided for each inner mast section, characterized in that the lifting unit ( 7 ) in one stage is that the lifting unit ( 7 ) on the bottom of the outermost mast section ( 4 ) is rotatably supported to a limited extent about its longitudinal axis by means of a lever ( 11 ), that knobs ( 6 ) are arranged on the part of the lifting unit ( 7 ) which can be extended upwards, that the locking devices are each arranged in the interior of the mast sections ( 1, 2, 3 ) in their lower region, that the locking devices each consist of bolts ( 5 ) and a component ( 10 ) meshing with them by means of a toothing, that the bolts ( 5 ) in the locked state connect the relevant mast section ( 1, 2, 3 ) to the adjacent outer mast section ( 2, 3, 4 ), that each component ( 10 ) about the longitudinal axis of the lifting unit ( 7 ) can be pivoted and thereby the latches ( 5 ) can be brought into a locking and unlocking position in that each component ( 10 ) is arranged between superposed driving plates ( 8 ), which are connected to the wall of the Mast shot ( 1, 2, 3 ) are connected so that each component ( 10 ) with recesses ( 12 ) for the one grip and the vertical passage of the lugs ( 6 ) is provided and that the driving plates ( 8 ) recesses ( 9 ) for the vertika len passage of the lugs ( 6 ) and can be attacked by them in the remaining area. 2. telescopic mast according to claim 1, characterized ge indicates that spindle drives or Hydraulic cylinders are used. 3. telescopic mast according to claim 1 or 2, characterized ge indicates that the locking device for out Mobile masts of different geometries, designs and uses can be used.