DE29924978U1 - Continuous adjustable crane e.g. for crane, has ballast element which is adjustable as function of load condition of crane and position of arm elements in ballast radius under load of crane - Google Patents

Abstract

The crane has ballast element which is adjustable as a function of the load condition of the crane and the position of arm elements (1, 2) in a ballast radius under load of the crane. A sensor determines the ballast radius. A controller determines, on the basis of the ballast radius and the respective position of the arm elements (1, 2), the permissible load of the crane. A load-carrying capacity display indicates during the adjustment of the ballast element (6, 7) the permissible load computed. The movement of the ballast element is controlled when exceeding the permissible load computed.

Description

The The invention relates to a crane with an undercarriage, a superstructure rotatably supported about a vertical axis, a ballast element, a boom, attached to the superstructure by a horizontal axis tiltable is, wherein the boom has a plurality of boom elements, which are movable relative to each other, a plurality of moving devices in each case for the movement of one of the jib elements, sensors for determination the respective instantaneous position of the boom elements and a control device for controlling said moving devices, wherein the control device connected to the sensors and allowable crane loads for the different ones Positions of the boom elements according to the sensor signals determined, wherein the control device comprises means for actuating at least two of the moving devices under load, wherein the control device comprises a computing unit (CPU) for determining the respectively permissible Load capacity for each of the positions of the boom elements simultaneously with their movement under load, and wherein the control device is a monitoring unit to cancel the operation having the movement devices when the of the computing unit each certain allowed Load capacity reached and / or exceeded becomes.

Around To ensure the operational safety of a crane are for certain Positions of the crane main boom Crane limit data determined. Based this data for the carrying capacity it can be determined which load is picked up by the crane can not get into a critical operating condition. Should he Crane can be used in a different configuration, so in the load-free state of the main boom of the crane in a different position proceed, for which corresponding crane limit data are available. In this position the crane can then be put into operation again, by means of the for This state existing data can be ensured that no critical loads on the crane occur. So it is z. B. at known crane systems with luffing To behör usual that the main boom of the crane in one or more fixed rocker positions with each associated fixed stored limit curves is operated.

Out the reference "Hoists and funding, Berlin 31 (1991) 9, pages 340 to 341 "is a crane with a main boom known not only in single fixed rocking positions, but can also be brought into intermediate positions. The boom angle is detected by a sensor and for Intermediate values of the boom angle, for which not specifically a load curve is stored, the permissible load values are interpolated.

From the DD 276 080 A1 For example, a crane control is known which calculates different load variants and operating modes of respective load curves in order to avoid the storage of almost countless load curves, which result for the different set-up variants, attachments and operating modes.

The DE 35 08 215 A1 describes it to perform the adjustment of a movable counterweight in dependence on the pivot angle position of the crane shell.

Furthermore, the describes DE 29 10 057 a Lastmomentbegrenzer for a crane that determines interim values of the force and moment limits for each crane positions by interpolation.

The GB 2 072 343 describes a crane in which a ballast weight is articulated via a counter-jib, wherein the ballast weight can be adjusted by a pulley in height.

Of the The present invention is based on the object of ballasting improve the crane and thus increase its scope.

According to the invention this Task solved by a crane with the features of claim 1. preferred Embodiments of the invention are the subject of the dependent claims.

Draws according to the invention Thus, the crane characterized by the fact that the ballast element in dependence from the load condition of the crane and the position of the boom elements in its ballast radius is adjustable under load of the crane, a Sensor is provided for determining the ballast radius, the control device on the basis of the respectively determined ballast radius and the respective position the boom elements the permissible Load capacity of the crane simultaneously with the adjustment of the ballast element determined under load, a load capacity indicator during the Adjustment of the ballast element the respective calculated permissible load and indicates the current crane load, and the control device the movement of the ballast element upon reaching and / or exceeding each calculated allowable Load breaks off.

When adjusting the crane with at least one rocking and / or telescopic boom, especially under load, while a limit value curve or limit data for the allowable load in the respective rocking position of the crane boom is specified. These data indicate which loads the crane underlies in the specific rocking position can be thrown. From one or more of these predetermined limit curves for each particular rocking position of a crane jib, possible permissible load conditions or load limit values are calculated for further rocker positions of the crane jib, which indicate for each individual rocking position in a continuously tiltable crane jib how large the respective loads may be. This makes it possible to continuously rock a crane boom under load, since the respective carrying capacity limits can be determined for each individual rocking condition. This allows the crane operator, the load by any rockers z. B. the main boom or the jib over the entire working radius. Of course, a simultaneous rocking of main boom and luffing jib is possible.

So is it possible, for example, that main boom and luffing jibs from their steepest operating position, z. B. Main boom angle = 87 °, Point angle = 77 °, under load in the flattest operating position, z. B. Main boom angle = 67 °, point angle = 10 °, moved be determined using the method according to the invention in each case how big the maximum permissible Load capacity of the crane. There is no need for one an overload protection permanently set crane state, so that during the entire rocking process z. B. always a load capacity indicator and load monitoring carried out can be. From the for different positions of the crane boom stored load limits for different Positions of a crane jib, such. B. of the main boom, and The current position of the main boom can be used to set new load limits for the current boom Main boom position are calculated.

Advantageous at least one limit curve is provided for a boom position, being natural also possible is a larger number on exposure limits, each for a particular position of a Crane boom, such. B. of the main boom, permanently save. Out of or for a or several rocker positions of the crane jib stored data can then by suitable calculation methods, for. B. interpolation or Extrapolation, for every condition of the crane, d. H. any rocking angle of the Main jib or luffing jib, which Load limits for the respective positions are calculated.

there are arranged on the crane sensors with which the current position or configuration of the crane can be determined. This z. B. a Angle sensor on the main boom for detecting the current main boom position be provided. Of course it is also possible one corresponding sensor for to provide the luffing jib. It is also possible to provide other sensors, such as As load sensors or position sensors with which the current Location of the or each crane boom, in particular their rocker or Tilt angle, can be determined.

The signals picked up by the sensor or sensors are used to determine the current position of a crane jib, for which the applicable overload limits to be determined.

advantageously, become the possible carrying capacities for every Operating position of the main boom calculated so that at a continuous rockers of the main boom for each position load limits for the Crane can be determined. Naturally it is also possible apply this method to the luffing jib, or luffing jib and main boom together, so that both rocked under load can be being always a load monitor he follows. This is also possible with a counter-jib. According to the invention can any crane boom, such. B. the main boom, preferably be adjusted steplessly under load.

With the adjustable ballast element, in particular when on a crane boom attached load to be sure that the Ballast or the current position of the ballast the current Loading condition of the crane corresponds. If z. B. the main boom Steplessly tilted under load, so can by a corresponding stepless simultaneous adjustment of the ballast element one for each Operating condition exactly coordinated ballast done. By a continuous adjustment of the ballast element can be ensured be that for everyone Wippzustand of the crane boom or a coordinated or optimal counter ballasting done. The ballast element has preferably a variable one Distance to the lower rocker axle or the revolving platform of the main boom.

As infinitely adjustable ballast element z. B. a counter or derrick boom may be provided, to which a ballast element is attached. To design the counter ballast steplessly, the derrick boom can either be steplessly tilted or z. B. also be telescoped. Should z. B. a crane with a main boom and possibly luffing jib under load from a stei len operating position are brought into a shallower operating position, so z. B. also be brought from a steep to a shallower operating position to the matching counter ballast of the derrick boom to the force acting through the ballast element on the main boom or the revolving counter load by increasing the lever arms to enlarge.

As well it is also possible the ballast element on a float or ballast z. B. with controllable wheels provide, wherein the ballast element in the horizontal direction preferably continuously can be extended, so that by a corresponding method or telescoping the ballast element for the current load condition of the crane a matched ballast can be done.

there it is advantageous at least one sensor element for detecting the provide current configuration of the crane. This can, as already described above, z. B. angle sensor on the respective crane arms be provided for detecting the operating state. Likewise, appropriate Sensor elements z. B. on the derrick boom or the ballast element be attached, which determine the current position of the ballast element can.

advantageously, In the adjustment, a load monitoring is performed, wherein for every crane condition and monitors the currently lifted load that will happen the crane is still in a safe operating area. There at the stepless adjustment of or the individual crane jib or the ballast element for every operating condition at any time the applicable load limits it is also calculated during the rocking of the crane from a first position to a second position Position possible, each determine whether the currently occurring load is still in permissible Range is or where the limits of the maximum allowable load of the crane. This can, as already stated above, by the use of load limits or a limit curve for one fixed predetermined state of the crane, whereby by a calculation method, z. Interpolation or extrapolation for each configuration of the crane, i. H. any rocking angle of the individual crane jib, a limit curve or suitable load limits are determined can.

It It is advantageous to display the calculated maximum allowable load, where just as advantageous the currently occurring load, which z. B. is measured by means of a load sensor is shown. This allows it to a crane operator or a suitable controller to assess how large the safety reserves crane are still.

The Control device for adjusting the crane, in particular under Last, has sensor elements, with which data regarding the current position of the crane can be determined. So can z. B. by means of an angle encoder on the main, top or derrick the current positions are detected, including load sensors or position sensors, z. For example a continuously adjustable ballast, can be provided. Everyone the said sensors can be used individually or in combination with a or several other sensors may be provided on the crane. The that detected by the sensor element Signals are transmitted to a computer. Furthermore is at the control device according to the invention a memory unit is provided in which at least one data record for exposure limits or corresponding load limits for a fixed configuration or tilt position of the crane can be stored. The Memory unit is with the mentioned Computing unit connected, so that the Arithmetic unit with the aid of stored in the memory unit Data for the load limits and using the sensor data for determination the current configuration of the crane the current load capacity for the each operating condition of the crane can calculate. The calculated data can then for the crane operator over one suitable output device z. B. to display the current load in relation to the calculated Load capacity spent be or be supplied to a crane control, which prevents that the Crane in a critical operating condition.

It is so sufficient for only one configuration of the crane, d. H. corresponding rocker positions single boom, permissible Crane limit data for the burden available to ask from this record using appropriate arithmetic operations the load limit data for Any other operating condition can be determined without individual fixed preset states have to be set beforehand. It can also be provided that the ballast on the each crane state is tuned so that for each lifted or to be lifted Load a correspondingly suitable position of the ballast element set can be.

So can a crane operator by any adjustment of the ballast position, such as. Extracting and retracting the ballast in the entire ballast radius range, the ballast element e.g. from a smallest predetermined ballast radius from e.g. 11 m to the largest predetermined Ballast radius of e.g. Move 15 m, with always a load monitoring or load capacity indicator for the respective operating state of the crane can take place.

For one certain crane equipment condition can e.g. For one or more Ballastnennstellungen limit curves specified be, from the predetermined load limits and by means of of a sensor determined current position of the ballast new Load limits for the current ballast position can be calculated.

The Invention will be described below with reference to figures. Show it:

1 a crawler crane with main boom;

2 a crawler crane with main and counter (derrick) outriggers;

3 a crawler crane with main and luffing jib;

4 a crawler crane with main, apex and counter (derrick) outrigger;

5 a mobile crane with a main, apex and counter (derrick) outrigger; and

6 a mobile crane with telescopic head, apex and counter (derrick) outrigger

7 a block diagram of the device according to the invention.

1 shows a crawler crane with a main boom 1 , which can be tilted continuously in the direction of the arrow from its steepest position shown to a shallower position, wherein in each rocking state of the main boom 1 the applicable load limits can be determined. There is a ballast element on the crane 6 provided, which can be shown in the horizontal direction as shown by the Dop pelpfeil steplessly, for each main boom position a matching position of the ballast element 6 adjust. In this case, the position of the ballast element 6 also depending on one of the main boom 1 be set recorded load, for example, a load sensor 5 at the head of the main boom 1 can record appropriate data.

2 shows a caterpillar crane with main boom 1 and counter-stirrup or jib 3 , which can be adjusted independently of each other continuously, wherein the adjustment of the main boom 1 the position of a recorded load can be changed and the associated ballasting via an adjustment of the derrickauslegers 3 can be made. In this case, the ballast element 6 as in 1 shown to be telescoped in a horizontal direction. The ballast element 7 can be telescoped either in a horizontal direction or on the derrick boom 3 be attached over a rope, the derrick 3 in the direction indicated by the arrow can be tilted. It is also possible only a single ballast element 6 or 7 provided.

3 shows a caterpillar crane with main boom 1 and luffing jib 2 , which are both infinitely adjustable under load. The main boom 1 can work together with the luffing jib 2 from the in 3 shown steepest operating position with recorded load in a shallower operating position are tilted, at the same time main boom 1 and luffing jib 2 be tipped. To provide a corresponding ballast for each recorded load, the ballast element 6 For example, in a horizontal direction infinitely retracted and extended or telescoped.

4 shows a caterpillar crane with main boom 1 , Luffing jib 2 and derrick 3 which can be adjusted independently of each other and at the same time, wherein the angular position of the main boom 1 and the top jib 2 the position of the load can be changed and the angular position of the derrick boom 3 a corresponding ballast can be done. As described above can be the ballast element 6 be adjusted and the ballast element 7 hanging on the derrick boom 3 be provided, or be telescoped accordingly to be telescoped away from the viewpoint of the crane or einteleskopiert to the point of view. On the arms are angle encoders 4 . 4 ' and at the jib 2 a load sensor 5 intended. The sensors 4 . 4 ' and 5 can be installed at any suitable position.

5 shows a mobile crane with lattice boom in similar configuration as 4 wherein the ballast element can be adjusted as described above.

6 shows a mobile crane with telescopic boom in similar configuration as in 5 , wherein the ballast element 6 . 7 can be adjusted as described above.

Although adjusting the ballast elements 6 and 7 has been described above together with the stepless adjustment of the individual crane boom, a continuously variable ballast element according to the invention may be provided in any known crane. The counter ballast can, even under load, be brought to a suspension hanging in the desired position, as well as a suspended ballast or ballast preferably stepless retracted or extended or telescoped.

It is also possible stepless rocking of the individual or crane jib, such as the main boom 1 to use with the simultaneous calculation of the respective limit load conditions in a known crane, without making the ballast infinitely adjustable.

7 shows a block diagram of a control device according to the invention. It is in egg stored memory data for one or more defined configurations or positions of a crane, with which the respective permissible limit loads can be determined. For example, a data record is stored in the memory, which in a crane according to 4 for a given first position of main boom 1 , Luffing jib 2 and derrick 3 indicates which loads can be picked up. Such a data record can also be stored for a second position of the crane. If the crane moves steplessly into a certain position, the respective positions and possibly load states of the individual crane jibs are transmitted to a computer CPU via corresponding sensors, such as angle sensors and load sensors, which take into account the data sets stored in the memory, the new limit load data of the Cranes calculated so that the data can be output to an overload protection or a display. Furthermore, the crane operator can enter data into the CPU via a console which can be used to calculate the limit load data by the CPU.

Claims (8)

Crane with an undercarriage which rotatably supports a superstructure about a vertical axis, a ballast element ( 6 . 7 ), a cantilever mounted on the uppercarriage about a horizontal axis, the cantilever having a plurality of cantilever elements ( 1 . 2 ), which are movable relative to each other, a plurality of moving devices each for moving one of the boom elements ( 1 . 2 ), Sensors ( 4 . 5 ) for determining the respective instantaneous position of the jib elements ( 1 . 2 ) and a control device for controlling said movement devices, wherein the control device with the sensors ( 4 . 5 ) and permissible loads of the crane for the different positions of the jib elements ( 1 . 2 ), the control device having means for actuating at least two of the movement devices under load, the control device having a computing unit (CPU) for determining the respective permissible load for each of the positions of the extension elements ( 1 . 2 ) at the same time as their movement under load, and wherein the control device has a monitoring unit for stopping the actuation of the movement devices when the permissible load determined by the arithmetic unit is reached and / or exceeded, characterized in that the ballast element ( 6 . 7 ) depending on the load condition of the crane and the position of the jib elements ( 1 . 2 ) is adjustable in its ballast radius under load of the crane, a sensor is provided for determining the ballast radius, the control device on the basis of the respectively determined ballast radius and the respective position of the boom elements ( 1 . 2 ) the permissible load of the crane at the same time as the adjustment of the ballast element ( 6 . 7 ) under load, a load capacity indicator during the adjustment of the ballast element ( 6 . 7 ) indicates the respective calculated permissible load and the instantaneous crane load, and the control device stops the movement of the ballast element upon reaching and / or exceeding the respective calculated permissible load. Crane according to claim 1, wherein the control device comprises means for simultaneously actuating the movement device of the ballast element ( 6 . 7 ) and the movement device of a cantilever element ( 1 . 2 ) having. Crane according to claim 1 or 2, wherein the control device has a memory in which limit loads for at least two rocking positions of the boom elements ( 1 . 2 ), and the arithmetic unit determines the boundary loads for intervening or adjacent positions by interpolation and / or extrapolation. Crane according to one of the preceding claims, wherein the sensors ( 4 . 5 ) for determining the position of the jib elements ( 1 . 2 ) consist of an angle sensor, a load sensor and / or a position sensor. Crane according to one of the preceding claims, wherein the jib elements consist of a main boom ( 1 ) and a cantilever mounted on the main boom about a horizontal axis ( 2 ) and the arithmetic unit admissible limit loads over the entire rocker area of the main boom ( 1 ) and the entire rocker area of the jib ( 2 ) relative to the main boom ( 2 ) certainly. Crane according to one of the preceding claims, wherein the control device is designed such that the jib elements ( 1 . 2 ) are steplessly adjustable under load. Crane according to one of the preceding claims, wherein the horizontal distance between the at least one ballast element ( 6 . 7 ) and a lower luffing axis of the boom ( 1 ) is infinitely adjustable. Crane according to one of the preceding claims, wherein the at least one ballast element ( 7 ) at a counterpart ( 3 ) is attached.