EP0476225A2 - Telescopic device with reduced buckling length of the telescopic cylinder - Google Patents

Abstract

After locking bolt connections are released, the individual telescoping sections of a telescopic jib of a crane are extended and retracted with only one single-stage hydraulic piston-cylinder unit and are bolted in the respectively extended or retracted position. One end of the piston-cylinder unit is linked to the jib link piece terminating the inner end of the outer section, and the part of the piston-cylinder unit which is movable relative to the linked part is provided with a hydraulically operable driving device which can be coupled to receptacles of the telescoping sections. So that the telescopic cylinder is stressed with only a smaller buckling length, the piston rod (12) of the piston-cylinder unit (7) is linked to the jib link piece (8). The driving device (19) is arranged in the end area of the cylinder (18) from which the piston rod (12) emerges. <IMAGE>

Description

The invention relates to a mobile crane with telescopic boom, the individual telescopic shots can be extended and retracted with only one hydraulic piston-cylinder unit after releasing locking bolt connections and are bolted in the extended or retracted position, in which one end of the piston -Cylinder unit to which the boom-articulated section closing the inner end of the outer articulated shot in the superstructure is articulated and the part of the piston-cylinder unit which is movable relative to the articulated part is provided with a hydraulically operated driver device which can be coupled to recesses in the telescoping shots .

In a known mobile crane with a telescopic boom of this type, the cylinder of the piston-cylinder unit of the telescopic system is articulated to the boom link piece of the outer shot and the outer end of the piston rod carries a bolting carriage which passes through opposite wheels or sets of wheels on the inner walls of the individual telescopic shots are guided in such a way that tilting or jamming of the bolting carriage on the edges of the shots is prevented. In the telescopic boom of this known mobile crane, the inner telescopable section, which thus forms the outer end piece of the telescopic boom in the case of telescoped telescopic booms, is provided with two axially spaced-apart connections for coupling the bolting carriage, of which the outer receptacles in the extension direction are used to bolt the bolting carriage serve when telescoping this inner shot, while the receptacles provided at the inner end serve to extend the following telescopic shot after the inner shot has been extended and bolted to the following shot.

This known telescopic system allows the telescoping of the individual telescopes of a telescopic boom with only one telescopic cylinder. However, it can be improved because it has a number of disadvantages. Thus, the telescopic cylinder formed by the piston-cylinder unit is subjected to a high degree of buckling because it has a great length between the boom link piece and its bolting in the area of the bolting carriage with the receptacles of the shot that is to be taken out or into the buckle, which corresponds to the effective buckling length . Furthermore, the bolting carriage must be provided with a complex bolting system, because the spacing of the opposing recesses serving for bolting in the individual telescopic sections increases from inside to outside from one telescope to the other. Finally, it must also be ensured by means of appropriate control means that individual telescopes are not thrown out of the composite telescope by the telescopic cylinder, because for telescoping one Shot the pliers formed by the locking bolt of the bolt carriage is always coupled with the next inner shot opposite the shot to be telescoped, so that it can be moved when the bolting to the telescopic shot is not closed.

The object of the invention is therefore to provide a telescopic system for a crane of the type mentioned, which is overall easier to handle and in which the telescopic cylinder is less stressed.

According to the invention, this object is achieved in a crane of the generic type in that the piston rod of the piston-cylinder unit is articulated on the boom joint piece and the driver device is arranged in the region of the end of the cylinder from which the piston rod emerges. In the crane according to the invention, the telescopic cylinder is arranged in the telescopic boom in relation to the known rotated by 180 °, the driver device, which is coupled to the telescopic section to be moved in each case, being located in the region of the outlet end of the piston rod on the cylinder, so that essentially at Moving a telescope requires only a length of the telescopic cylinder with a kink that corresponds to the extended part of the piston rod plus the necessary clamping length. Since the telescopic cylinder is generally much less subjected to buckling, it is correspondingly easier to train.

According to an advantageous embodiment it is provided that the receptacles for the coupling pieces of the driver device are arranged at the inner ends of the telescopic shots. To extend and retract a telescopic shot, only this is coupled to the driver device, so that the control of the bolts as a whole becomes easier and more manageable. The receptacles for the coupling pieces of the driver device are expediently provided on annular frame parts at the inner ends of the telescopic sections. These recordings are expediently arranged in pairs opposite one another. They can consist of holes or bushings for retractable bolts.

According to a particularly advantageous embodiment, the receptacles are arranged in common planes parallel to the center line of the shots. This configuration allows that the coupling pieces of the driver device, which will generally be bolts, only have to be extended by the same amount to couple each of the shots, so that the driver device can be made more uncomplicated overall and the coupling pieces or Bolts for opposing shots can be closer together, so that the bolt and the entire driver device is less stressed because of the shorter lever arm lengths.

The driver device expediently consists of a block with opposing cylinders for the retractable and retractable driver bolts formed by their pistons. The block can be connected to the cylinder as a collar-like end piece.

In order to ensure bolting that is as free of jamming as possible, the receptacles are expediently located on both sides of the luffing plane of the telescopic boom.

In a further embodiment of the invention, it is provided that the block with the driving pins or the telescopic cylinder in the area of the driving device are provided with support wheels for guiding the cylinder essentially in the center is. The cylinder is expediently additionally provided with support wheels in its end region. Since this end area projects freely into the cavity of the telescopes, these support wheels prevent the cylinder from bumping or getting caught.

In a further embodiment of the invention it is provided that the cylinder in the area of the driver device is provided with sensors which scan marks in the area of the recordings of the telescopic shots for the correct insertion of the driver bolts into the receptacles. The marks can be arranged in the direction of extension of the shots before the shots. The marks expediently generate signals for reducing the entry speed and for extending the driver bolts into the receptacles. The marks thus reduce the speed when approaching the receptacles in the driver device of the cylinder for coupling the next shot to be fired, so that the receptacle bores are not overrun. Once the correct bolt-in position has been reached, other brands or signals generated by these control the bolts in the correct position in the receptacles.

The marks expediently consist of reflection marks and the sensors are light-emitting and light-receiving elements which then generate the corresponding signals.

In a further embodiment of the invention it is provided that the piston rod is hollow and is provided with two telescopic tubes, the central bore and the annular space of which form supply and discharge lines for the hydraulic oil of the locking bolts. In order to control the movement of the locking bolts, it is therefore possible to provide corresponding connections on the piston rod and on the cylinder, so that no hose reel is required.

The retraction and extension of the individual telescopes can be monitored by special control and safety devices. For example, limit switches are provided which report the correct engagement of the locking bolts of the driver device in the receptacles.

The entire retraction and extension of the telescopes, namely the loosening and closing of the bolts, can be program-controlled via microcomputers. Pneumatic bolting cylinders are provided in a known manner for bolting the individual telescopic sections, the individual locking bolts of which being spring-loaded.

Fig. 1

eine Seitenansicht des Teleskopauslegers mit vier austeleskopierbaren Schüssen, die sich im eingefahrenen Zustand befinden, teilweise im Schnitt,

Fig. 2

eine Draufsicht auf den Teleskopausleger nach Fig. 1, teilweise im Schnitt,

Fig. 3

einen Schnitt durch den Teleskopausleger längs der Linie B-B in Fig. 1,

Fig. 4

einen Schnitt durch den Teleskopausleger längs der Linie C-C in Fig. 1,

Fig. 5 - Fig. 9

schematische Seitenansichten des Teleskopauslegers mit eingefahrenen Schüssen und mit einem ausgefahrenen Schuß und mit nachfolgend jeweils einem weiteren ausgefahrenen Schuß,
und

Fig. 10 - Fig. 19

schematische Darstellungen unterschiedlicher Ausfahrzustände des Teleskopauslegers.

An embodiment of the invention is explained below with reference to the drawing. In this shows

Fig. 1

3 shows a side view of the telescopic boom with four telescoping sections that are in the retracted state, partly in section,

Fig. 2

2 shows a plan view of the telescopic boom according to FIG. 1, partly in section,

Fig. 3

2 shows a section through the telescopic boom along the line BB in FIG. 1,

Fig. 4

2 shows a section through the telescopic boom along the line CC in FIG. 1,

Fig. 5-9

schematic side views of the telescopic boom with retracted shots and with an extended shot and with a further extended shot in the following,
and

Fig. 10-19

schematic representations of different extension states of the telescopic boom.

1 and 2, a telescopic boom 1 with an outer section 2 can be seen, from which telescoping sections 3, 4, 5, 6 can be extended. A single-stage piston-cylinder unit 7 is provided for extending the individual telescopic sections 3-6.

The outer shot 2 is closed at its inner end by the boom link 8. This boom link 8 has two forked bearing legs 9, 10 with aligned bearing bores 11, via which the outer shot is pivotally mounted in the usual manner on a pivot axis in the superstructure of a crane vehicle. The piston rod of the rocker cylinder is also articulated to the outer section 2 in a manner not shown.

The piston rod 12 of the single-stage hydraulic piston-cylinder unit 7 is provided at its inner end with a head piece 13 which carries an extension 14 with a bearing eye 15. The bearing eye 15 is mounted on a bearing pin which is held in bores of the forked bearing pieces 16, 17, which are connected to the base plate of the boom steering piece 8. The cylinder 18 is provided at the outlet end of the piston rod 12 with a block 19 which surrounds it in an annular manner and which has cylinder bores on opposite sides, in which are guided as piston locking bolts 20, 21. The telescopic sections 3-6 carry on their inner ends welded frame-shaped end pieces 22-25, which are provided on opposite sides symmetrically to the luffing plane of the telescopic boom with pot-shaped bushings 26, the receptacles for the locking bolts Form 20.21. In the state of the telescopes 3-6 retracted from FIGS. 1 and 2, the center lines of the bores of the receptacles each have the same distances a from one another.

At their outer ends, the outer shot 2 and the telescopic shots 3-5 are provided on opposite sides symmetrically to the seesaw plane each with spring-loaded locking bolts, which can be moved out of the associated locking holes by pneumatic bolting cylinders 30-33 against spring force and can be locked in the locking holes by venting .

The ring-shaped locking block is provided with a guide carriage, which consists of two wheel sets 35, 36, which are arranged on the underside in relation to the seesaw plane, and an upper roller 37. In a corresponding manner, the outer end of the Cylinder 18 is provided with a guide carriage which carries an axle with two rollers 39 on its lower side and only one roller 40 on its upper side.

The cup-shaped sockets 26 with the receiving bores for the locking bolts 20, 21 are arranged in the manner shown in FIG. 2 in two planes which are parallel to the luffing plane of the telescopic boom.

Reflecting marks 41, which are illuminated by light-emitting elements, are arranged on the walls of the telescopes in each case in the direction of extension in front of the pot-shaped sockets 26, receptors being provided for the reflected light. A scan is created by the light-emitting elements, reflectors and receptors, which reports a position of the driver block 19 to a central control unit when the cylinder 18 is extended and retracted, so that an exact and correct control the locking bolt 20, 21 is guaranteed in the receiving bores of the sockets 26.

As can be seen from FIG. 3, proximity switches 45, 46 are arranged in the pot-shaped sockets 26 and report to the central control device that the bolts have properly engaged in the receiving bores.

The locking bolts 20, 21 are locked due to the control only if the sensing devices consisting of the light-emitting elements, reflectors and receptors have previously reported the correct latching position. If, due to a possibly incorrect control, the locking block 19 has passed the first recordings when approaching it, there is no locking at all, because the reflectors 41 of the following telescopic sections are covered.

To supply the hydraulic cylinders for the locking bolts 20, 21 with hydraulic oil, the piston rod 12 is provided with a hydraulic oil bushing which consists of two telescoping tubes, supply and discharge lines through the inner telescopic tube and through the annular space between the two telescopic tubes Tubes are formed.

5-7 show how the individual telescopes 3-6 are each extended by 94% through the cylinder 18 in order to generate an extended state 94-94-94-94. The extended state of 94% can be regarded as more favorable, since there is a longer clamping length compared to the complete extension, which allows higher loads to be absorbed.

To extend the inner telescope carrying the deflection rollers at its outer end, the locking bolts 20, 21 inserted into the corresponding receptacles 26 at the inner end of the inner telescope 6. Then the bolts of the inner telescope are released by means of a corresponding control via the pneumatic bolt cylinders, so that the telescope can be extended until the bolting is carried out again by venting the bolt cylinders in the 94% extended state. The following telescopes are then extended in succession, 18 sequential controls being provided for releasing the locks, making the locks and controlling the cylinder. The controls are carried out in such a way that the cylinder 18 is always retracted further by the distance a in order to extend a subsequent telescope.

10-19 further extension states are produced, which can be achieved with the telescopic system according to the invention.

As can be seen, for example, from the second sketch in FIG. 10, with the telescopic system according to the invention the entire retracted telescopic package can only be extended by 50% in relation to the outer shot in the manner shown in order to achieve the desired telescopic lengths.

The telescopic boom of the telescopic system according to the invention can have any number of telescopic sections, limits being set only by the spatial conditions.

Claims (14)

Mobile crane with telescopic boom, the individual telescopic shots can be extended and retracted with only one single-stage hydraulic piston-cylinder unit after releasing locking bolt connections and are bolted in the extended or retracted position, in which one end of the piston-cylinder Unit on which the cantilever link piece closing the inner end of the outer shot is articulated and the part of the piston-cylinder unit which is movable relative to the articulated part is provided with a hydraulically actuated driver device which can be coupled with receptacles of the telescopic shots,

characterized,

that the piston rod (12) of the piston-cylinder unit (7) is articulated on the boom link piece (8) and the driver device (19) is arranged in the region of the end of the cylinder (18) from which the piston rod (12) emerges. Crane according to claim 1, characterized in that the receptacles (26) are arranged at the inner ends of the telescopic shots (3-6). Crane according to claim 1 or 2, characterized in that the receptacles are provided on annular frame parts (22-25). Crane according to one of Claims 1 to 3, characterized in that receptacles (26) lying opposite one another are provided in pairs. Crane according to one of claims 1 to 4, characterized in that the receptacles consist of bores or bushings (26) for retractable bolts (20, 21). Crane according to one of claims 1 to 5, characterized in that the receptacles (26) are arranged in common planes parallel to the center line of the shots. Crane according to one of claims 1 to 6, characterized in that the driver device (19) consists of a block opposite cylinders for the driver pins (20, 21) formed by their pistons which can be moved in and out. Crane according to one of claims 1 to 7, characterized in that the block (16) or the cylinder (18) in the area of the driver device with support wheels (35,36,37) for guiding the cylinder (18) substantially in the center. Crane according to one of claims 1 to 8, characterized in that the cylinder (18) is additionally provided with support wheels (39, 40) in its end region. Crane according to one of claims 1 to 9, characterized in that the cylinder (18) in the area of the driver device (19) is provided with sensors which mark in the area for the correct control of the driver pins (20, 21) in the receptacles (26) Scan the recordings of the telescopic shots. Crane according to claim 10, characterized in that the marks (41) are arranged in front of the receptacles (26) in the extension direction of the telescopic shots (3-6). Crane according to claim 10 or 11, characterized in that the marks generate signals for reducing the entry speed and for extending the driving pins. Crane according to one of claims 10 to 12, characterized in that the marks are reflection marks and the sensors consist of light-emitting and light-receiving elements. Crane according to one of the preceding claims, characterized in that the piston rod (12) is hollow and is provided with two telescopic tubes, the central bore and annular space of which form supply and discharge lines for the hydraulic oil of the locking cylinders.

Images