EP0187772A1

EP0187772A1 - Monitoring and control system for jib-cranes.

Info

Publication number: EP0187772A1
Application number: EP85902979A
Authority: EP
Inventors: Gerhard Kogel
Original assignee: Dr-Ing Ludwig Pietzsch & Co GmbH; Pietzsch Ludwig & Co GmbH
Current assignee: Pietzsch AG
Priority date: 1984-06-01
Filing date: 1985-05-31
Publication date: 1986-07-23
Also published as: JPS61502254A; WO1985005614A1; EP0187772B1; DE3420596C2; DE3564676D1; DE3420596A1

Abstract

Un système de surveillance et de commande pour grues à flèche avec un limiteur de moment de charge (1) et un dispositif de commande (2) influençable par le grutier pour l'actionnement de la grue comporte un appareil de transmission de données (10) pour transmettre des données de grue survenant lors de la limitation du moment de charge et un appareil de traitement dans le dispositif de commande (2), grâce auquel il est possible de produire des grandeurs de guidage pour le dispositif de commande (2) à partir des données transmises par l'appareil de transmission de données (10), ainsi que de signaux du dispositif de commande (2).A monitoring and control system for jib cranes with a load moment limiter (1) and a control device (2) that can be influenced by the crane operator to operate the crane, comprising a data transmission device (10) for transmitting crane data occurring during the limitation of the load moment and a processing device in the control device (2), by means of which it is possible to generate guide quantities for the control device (2) from data transmitted by the data transmission apparatus (10), as well as signals from the control device (2).

Description

Supervacuation and control system for jib cranes

The invention relates to a monitoring and control system for jib cranes with the features of the preamble of claim 1.

Conventional jib cranes have a control device that the crane operator can use to operate the individual crane drives. This is e.g. B. the slewing gear control, the hoist control, the telescopic control for telescopic cranes, the luffing cylinder control, the support monitoring when the supports are extended and the like.

In addition, jib cranes today have load torque limiters, which automatically switch the crane off when a permissible load torque is exceeded, depending on the lifted load and the jib length and jib angle. Although today's load torque limiters allow the lifting capacity of the jib crane to be used to a large extent over its entire unloading area, it still happens

Accidents, e.g. B. when setting up the crane, in the event of failure of the overload protection, giving way when operating with the supports extended or the like.

Uncertainty conditions often also arise due to improper influencing of the control device by the crane driver. For example wise when lifting a load from standstill due to full actuation of the hoist drive to an impermissible jerk. The crane operator can also accidentally cause the jib to rock too quickly for the prevailing load on the crane, select an excessively high rotational speed or the like.

A device for controlling a crane boom drive with the features of the preamble of claim 1 is known (DE-OS 25 04 455). There, intervention by the crane operator in the event of a critical load condition of the crane is to be avoided in that the actuator of the crane boom drive is acted upon by the quotient of the instantaneous load torque and the predetermined maximum load torque via a link which connects the setpoint adjuster of the load torque limiter to the actuator of the crane boom drive.

This solution cannot be satisfactory in terms of the achievable safety: in addition to the load on the crane characterized by the quotient mentioned, the stability depends on a number of other parameters such as the boom length, the boom angle or boom radius, the set-up status of the crane and the like.

Furthermore, a monitoring and control system for jib cranes is known which only works with the cooperation of the crane operator (ÜS-PS 4,178,591).

The invention has for its object to provide a monitoring and control system for jib cranes, which leads to greater safety in crane operation. To solve this problem are at one. Monitoring and control system of the type described in the preamble of claim 1 provided according to the invention the features of the characterizing part of claim 1.

In the monitoring and control system according to the invention, care is taken to ensure that the variables detected and preprocessed in the case of the load torque limitation, such as radius, load, utilization, set-up state and the like, influence the control device in such a way that the control commands given to the crane drives are dependent on that the respective crane condition, that is to say limited by the respective load, the respective radius, the respective set-up condition, etc., with the high accuracy inherent in the sensors of the load torque limiter.

In other words, safety in crane operation is increased in that the processing device sets limits for the control commands which are still triggered by the crane operator and which, depending on the respective crane condition, are always safe

Control functions on the side.

In particular, z. B. influence the control functions with the system according to the invention as follows:

1. Slewing gear control

The maximum speed of rotation can be automatically limited to correspondingly reduced values with the increase in the utilization, boom length, boom angle and lifting height of the crane;

When the crane is at an angle, the rotary movement can be gently braked when approaching the overload, and the direction of rotation can be released to the safe side.

2. Hoist control The actuation of the hoist drive can be limited in such a way that the load is pulled back with a jerk after standstill;

it can make a load preselection by starting up the hoist up to a preselected load value, as z. B. is desirable when dismantling tower cranes;

A slack rope monitoring can be carried out.

3. Telescope control

A pressure gradation with reduced Realize hydraulic pressure when telescoping with light loads.

4. Luffing gear control The maximum luffing speed can be set with

Limit the increase in load, boom length, boom angle and lifting height of the crane automatically to correspondingly reduced values;

In the case of 2- or multi-stage rocker cylinders (telescopic cylinders), the transition area between the individual stages can be controlled;

In crane operation with rotating platform ballast (derrick operation), the switch from bottom to top pressure and vice versa can be controlled;

A load can be lifted at a constant radius, taking into account the deflection of the boom. This involves the boom swinging in at the same time as the load is being tightened.

5. Column monitoring

The extension status and the hydraulic pressure in the supports can be displayed and monitored, whereby a warning or switch-off of the crane is triggered when a support is relieved.

These options shown make it clear that, in addition to increasing security, previously unknown control functions can also be implemented with the system according to the invention. In addition, the usual control functions are optimized, which contributes to an increase not only in safety but also in the service life due to the protection of the crane and its components. The control device according to the invention remains functional even if the load torque limiter fails. In this case, the control functions can also be limited by the data previously supplied to the processing device, which were previously generated when the load torque was limited.

The data transmission device expediently includes a program memory for the coupling software and an interface module on the load torque limiter side and on the control device side.

According to a further embodiment of the invention, it is provided that the processing device has a central unit with a computer, a system program memory and a programmable data memory and that the inputs of the central unit are connected to outputs of switch and transmitter modules of the control device and of the load torque limiter.

The data transmission device can transmit digitized data, and in addition there can be a device for the data transmission of the data recorded analogously when the load torque is limited, which is particularly desirable for rapid regulation.

It is advantageous to connect a programming device to the data memory, so that a problem-free change in the control function can be brought about by a program change in the programming device. The programmer also enables that

Functions of the middle and higher performance range, such as arithmetic operations, sequence controls, time functions and regulations to be programmable.

The invention is explained in more detail below with the aid of a block diagram of a monitoring and control system for a jib crane.

The block diagram shows a load torque limiter 1 and a control device 2 for a jib crane, here a mobile telescopic crane.

The load torque limiter 1 is expanded by a data transmission device 10. This data transmission device includes a program memory 11 for the coupling software and an interface module 12 of a serial interface. In addition, a device part 13 for data transmission of the data acquired and pre-processed analogously in the case of the load torque limitation, such as the boom length, the boom angle, the radius or the radius of the

Cantilever, the actual load torque and, if applicable, the actual load. This device part 13 corresponds to a device part 23 in the control device 2. Correspondingly, the interface module 12 in the load torque limiter 1 corresponds to an interface module 22 in the control device 2.

Analog encoders for the length, the angle, the actual force applied by the luffing cylinder of the crane are designated by the reference numerals 30, 30 'and shown in the drawing between the load torque limiter 1 and the control device 2. The corresponding analog data acquisition modules in the device parts 13 and 23 are designated by the reference numerals 14 and 24.

The control device 2 contains a processing device in the form of a central unit 25 with a computer (CPU), a system program memory 26 and a programmable data memory 27.

Furthermore, an input module 20 with redundant diςital inputs in a conventional design, an output module 21 with monitored analog outputs and a computer monitor (watchdog) 25 'are provided.

The individual components are connected to one another via a bus coupling 24.

Each output monitored by the central unit 25 contains a power amplifier 28 which acts on a crane drive, in the illustrated case on a hydraulic valve 31, and enables a work check to be carried out via a feedback module with an alarm transmitter 29.

In the system according to the invention, the load torque limiter 1 and the control device 2 are in constant data traffic, be it via the interface modules 12, 22, via which digital data are transmitted, or via the device parts 13, 23, via which for fast control analog

Data are transmitted. The user program of the crane operator is stored in the system program memory 26, while the programming device is connected to the data memory 27 via a so-called "shadow" memory 27 'is linked to the program connection as an interface. The outside of switches, for. B. Bubend switches in the input module 20 signals are processed together with the signals supplied by the load torque limiter 1 in the central unit 25, which in turn provides the signals required to control the individual digital / analog outputs of the output module 21 for actuating the crane drives 31.

Claims

Monitoring and control system for boom crane claims

1. Monitoring and control system for jib cranes with a load torque limiter, a control device for the crane drives that can be influenced by the crane operator and a linking device that links the load torque limiter with the control device depending on the load, characterized in that the linking device is a data transmission device (10). to transmit the current crane data arising during operation, namely in addition to the load data such as the boom length, the boom angle or the outreach, the load on the crane hook and the set-up state, and that in a data processing device a computer (25) for generating reference variables for the Control device (2) from the data transmitted by the data transmission device (10) and from data from the control device is provided.

2. System according to claim 1, characterized in that the data transmission device (10) a program memory (11) and interface modules (12, 22) belong.

3. System according to claim 1 or 2, characterized in that the data processing device has a system program memory (26) and a programmable data memory (27) and that the inputs of the computer (25) with outputs of switch and encoder modules (21; 30, 30 ') of the control device (2) and the load torque limiter (1).

4. System according to claim 3, characterized in that a programming device (32) can be connected to the data memory (27).

System according to one of claims 1 to 4, characterized in that the data transmission device (10) is designed for the transmission of digitized data and that in addition a device (13, 23) is provided for the data transmission of the data recorded analogously when the load torque is limited.