EP1052213A2 - Telescopic boom for a crane - Google Patents

Abstract

The telescopic boom has an extending cable drive and two or more telescopic header boxes which are be moved by operating mea mounted on the base frame and comprising a single or multi-stage piston cylinder unit whose fixed element (7) is connected to th base frame and whose movable element (8) is connected to the first telescopic header box (2). In the retracted position the mova element (8) extends into the head area of the innermost header box and the piston cylinder unit interacts with a second extendin cable (14) and a retracting cable (21) through a guide pulley (10) mounted in the head area of the movable element of the piston cylinder unit , and a first extending cable (11). All the cables are formed as fixing cables between two fixed points (12, 13, 1 18, 24, 25). The fixed points of the first extending cable are near the bottom of the base box and second telescopic header box whist a second extending cable is guided over a guide pulley (16) mounted in the head area of the second telescopic header box, and its fixing points are in the base area of the first and third telescopic header box.

Description

The invention relates to a telescopic boom for cranes, in particular mobile cranes with two or more telescoping shots according to the Preamble of claim 1.

A telescopic boom with cable actuation is known from DE-OS 19 06 483. This has a basic box and three shots that can be telescoped in and out are connected to each other by a cable drive. The rope drive consists of a Entry rope and a double guided exit rope, which on one at the foot of the Cantilevered rope drum can be wound and unwound in opposite directions. The Fixed point of the entry rope is at the foot end of the innermost one telescopic shot and extends through openings in the bottom of the each shot up to the rope drum. The extension rope is above the head and foot of the respective shot outwardly arranged deflection rollers. For Reduction of the rope friction, the deflection rollers in the weft walls are oblique built-in.

A telescopic boom for cranes with two or more telescopic interlocking shots that are pulley-like by an extension and retraction rope are interconnected is known from DE-OS 19 01 114. The rope ends of the Extending and retracting ropes are arranged on one at the foot of the basic box Rope drum can be wound and unwound in opposite directions. To guide the rope are on everyone telescopic shot on the outer jacket of their foot end each a base role and a head roller is arranged on the inner jacket of each head end, with additional Deflection pulleys are required to pull the rope from the one located on the outer sheath Base role to its head roller arranged on the inner jacket. A disadvantage of this solution is the need to arrange many pulleys, which mean on the one hand more weight and the rope load due to the many Increase redirections.

A slightly different construction of a cable drive for moving in and out two The G 84 16 121 U1 shows telescopic shots of a telescopic boom. At this known embodiment, a friction winch is arranged on the basic box, with a rope wrapped around it several times with in opposite directions outgoing rope ends, both ends of the friction winch at the end of the two telescopic shots are attached. The rope is guided via deflection rollers arranged at the foot or head of the respective weft. This one too Construction is the arrangement of the many pulleys disadvantageous. Besides, can the friction winch is only one of the number of wraps and the coefficient of friction dependent force transmitted. This leads to heavy shots (length, cross-section) very large friction winches, which mean a one-sided weight load.

The object of the invention is to provide a telescopic boom for cranes, in particular To specify mobile cranes, the three telescopic to save space and weight Shots can move.

This task is based on the generic term in conjunction with the characterizing features of claim 1 solved. Advantageous further training are the subject of subclaims.

According to the solution, the actuating means is a single-stage or multi-stage piston-cylinder unit, its fixed element with the basic box and its movable element is connected to the first telescopic shot. in the retracted state, the movable element extends into the head area of the innermost shot to be telescoped. In the head area of the movable Element or the first shot to be telescoped is a deflection roller arranged over which a first extension rope is guided, which with a second Extending rope and a retracting rope interacts, all ropes as fixed ropes are formed between two fixed points. This proposed arrangement has the advantage that two telescopic shots at low cost Space requirements and weight can be telescoped in and out. Instead of an education and one entry rope per telescopic shot is only one in the proposed solution Entry rope required. Since the entry rope is guided over two pulleys, the Force the piston-cylinder unit to be divided into three strands, so that the Cross section for the entry rope can be chosen smaller.

To accommodate the two cable drives are according to a further feature of the invention the two pulleys for the two extension ropes in the middle vertical plane and the two pulleys for the entry rope are arranged in a horizontal plane. The deflection rollers for the entry rope are preferably in the region of the Upper boom of the boom. This arrangement has the advantage that Telescopic shots are slightly raised, which is telescoping in and out facilitated. The proposed arrangement is advantageous for three telescopic Shots applicable, of which the two innermost shots move via the cable drive become. The arrangement is just as good for four telescopic ones, for example Shots applicable, of which the three innermost are moved via the cable drive. Of course, the number of shots to be moved via the cable drive increases also the number of extension ropes required.

Figur 1

im Längsschnitt einen erfindungsgemäß ausgebildeten Teleskopausleger im eingefahrenen Zustand

Figur 2

eine Draufsicht von Figur 1

Figur 3

wie Figur 1, jedoch im ausgefahrenen Zustand

Figur 4

wie Figur 2, jedoch im ausgefahrenen Zustand

In the drawing, the telescopic boom designed according to the invention is explained in more detail using an exemplary embodiment. Show it:

Figure 1

in longitudinal section a telescopic boom designed according to the invention in the retracted state

Figure 2

a plan view of Figure 1

Figure 3

like Figure 1, but in the extended state

Figure 4

like Figure 2, but in the extended state

In Figures 1-4 are in a longitudinal section and in a plan view both in retracted as well as in the extended state a trained according to the invention Telescopic boom shown. In this exemplary embodiment, it consists of a Basic box 1 and three sections 2 - 4 that can be telescoped in and out. Am innermost telescopic shot 4 is a head piece 5 and two at the front end Rope pulleys 6, 6 'arranged to guide the load rope, not shown here. As Actuating means for moving the shots 2-4 is one out of one Piston rod 7 and a cylinder 8 existing piston-cylinder unit are provided. The piston rod 7 is articulated in the bottom region 9 of the basic box 1. At the The head of the cylinder 8 is arranged a deflection roller 10, over which a first Extension rope 11 is guided. This first extension rope 11 as well as all other ropes 14, 21 are designed as fixed ropes with two fixed points. The one benchmark 12 of the first extension rope 11 is located in the bottom area 9 of the base box 1 and second fixed point 13 in the bottom area of the second telescopic shot 3. Das second required extension rope 14 is closed in the head region 15 of the second telescopic shot arranged guide roller 16 out. The two benchmarks 17, 18 for the second extension rope 14 are on the one hand in the bottom area 19 of the innermost shot to be telescoped 4 and the other in the bottom region 20 of the first shot to be telescoped 2.

The single entry rope 21 is closed via a in the bottom area 20 of the first telescoping shot 2 arranged pulley 22 and in a Head region of the base box 1 arranged guide roller 23 guided. The two Fixed points 24, 25 for the entry rope 21 are located on the one hand in the head region 26 the innermost shot 4 to be telescoped and the other in the bottom region 20 the first shot to be telescoped 2.

From the representation in Figures 3 and 4 it can be seen that the first to telescopic shot 2 through the direct connection of the cylinder 8 in the floor area 20 on and immediately according to the movement of the piston-cylinder unit can be pushed out.

The movement of the two front shots 3, 4, however, takes place through the combination of the cable drives. If the cylinder 8 is now moved to the left, ie in the push-out direction, then the second weft 3 is also moved by the first extension rope 11. At the same time, the deflection roller 16 arranged on this shot 3 moves to the left and, by means of the second extension rope 14, the innermost shot to be telescoped in the push-out direction. As FIG. 4 shows, when the wefts 2-4 are moved in the push-out direction, the entry rope 21 is also moved and the two deflection pulleys 22, 23 for the entry rope 21 move towards one another. During the pulling-in process, the deflection roller 22 is moved to the right, ie in the pulling-in direction, by the direct movement of the first shot 2 to be telescoped by means of the piston-cylinder unit. The entry rope 21 is taken along and thus also the innermost shot to be telescoped 4. By linking the first shot 2 to be telescoped with the innermost shot 4 to be telescoped via the second extension rope 14, the second shot to be telescoped becomes in the pull-in direction in the predetermined movement moved along. Reference list 1 Basic box 2nd first shot to be telescoped 3rd second shot to be telescoped 4th third shot to be telescoped 5 Headpiece 6, 6 ' Rope pulleys 7 Piston rod 8th cylinder 9 Floor area of basic box 1 10th Deflection pulley for the first extension rope 11 11 first extension rope 12th Fixed point first extension rope 11 13 Fixed point first extension rope 11 14 second extension rope 15 Head area of the second shot 3 to be telescoped 16 Deflection pulley for the second extension rope 14 17th Fixed point second extension rope 14 18th Fixed point second extension rope 14 19th Bottom area of the third shot to be telescoped 4 20th Bottom area of the first shot to be telescoped 2 21 Entry rope 22 Deflection roller for entry rope 23 Deflection roller for entry rope 24th Fixed point entry rope 25th Fixed point entry rope 26 Head area of the third shot to be telescoped 4

Claims (5)

Telescopic boom for cranes, in particular mobile cranes with a cable drive consisting of at least one extension and one entry rope and with two or more shots that can be pushed in and pushed out and that can be moved in conjunction with the cable drive by an actuating means arranged on the basic box,
characterized,
that the actuating means is a single-stage or multi-stage piston-cylinder unit, the fixed element (7) of which is connected to the basic box (1) and the movable element (8) of which is connected to the first telescopic section (2) and, in the retracted state, the movable element ( 8) extends into the head region of the innermost shot to be telescoped (4) and the piston-cylinder unit via a deflection roller (10) and. Arranged in the head region of the movable element (8) of the piston-cylinder unit or the first shot to be telescoped (2) a first extension rope (11) guided above it interacts with a second extension rope (14) and an entry rope (21), all the ropes (11, 14, 21) as fixed ropes between two fixed points (12, 13, 17, 18, 24, 25) ) are trained. Telescopic boom according to claim 1,
characterized,
that the fixed points (12, 13) of the first extension rope (11) are located in the floor area (9) of the base box (1) and the second telescopic weft (3) and a second extension rope (14) via one in the head area (15) of the second telescopic shot (3) arranged deflection roller (16) is guided and its fixed points (17, 18) are located in the bottom region (20) of the first (2) and third telescopic shot (4). Telescopic boom according to claim 1 and 2,
characterized,
that in the foot area of the first telescopic shot (2) and in the head area of the base box (1) a deflection roller (22, 23) is arranged, over which the entry rope (21) is guided, the fixed points (24, 25) in the floor area (20 ) of the first telescopic shot (2) and in the head area (26) of the third telescopic shot (4). Telescopic boom according to claims 1-3,
characterized,
that the two deflection rollers (10, 16) for the two extension ropes (11, 14) are arranged in the central vertical plane and the two deflection rollers (22, 23) for the entry rope (21) are arranged in a horizontal plane. Telescopic boom according to claim 4,
characterized,
that the two deflecting rollers (22, 23) for the entry rope (21) are arranged in the region of the upper boom of the boom.

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