EP3259224A1

EP3259224A1 - Climbing system for a crane

Info

Publication number: EP3259224A1
Application number: EP16705429.5A
Authority: EP
Inventors: Markus Hofmeister; Andreas Hussong
Original assignee: Liebherr Werk Biberach GmbH
Current assignee: Liebherr Werk Biberach GmbH
Priority date: 2015-02-20
Filing date: 2016-02-19
Publication date: 2017-12-27
Anticipated expiration: 2036-02-19
Also published as: BR112017017570A2; EP3259224B1; RU2702213C2; DE102015002237A1; WO2016131550A1; US20180155161A1; WO2016131550A8; ES2734701T3; US10662034B2; CN107406241B; RU2017132679A; BR112017017570B1; CN107406241A; RU2017132679A3; EP3489187A1

Abstract

The invention relates to a climbing system (1) for a crane. The system comprises a climbing apparatus (2) for inserting a mast section (3) or for removing a mast section (3) from a tower structure (4) of a crane, and a control unit (5) for controlling the climbing apparatus (2). The system is furthermore characterized in that the system comprises a first sensor (51) for monitoring a state of a connection means of the climbing apparatus (2) and/or the tower structure (4), wherein the first sensor (51) is connected to the control unit (5). A climbing process of a crane can thus be simplified and the safety of the climbing process can be increased.

Description

Climbing system for a crane

The present invention relates to a climbing system for a crane.

The term "climbing", in the context of cranes, describes the insertion of mast elements into a crane tower to bring a crane to a desired hook height by means of a climbing device slidably connected to the tower construction which typically surrounds the crane tower and at one of its sides Having opening through which a mast shot (mast element) can be inserted or removed in the tower construction.

In the prior art, the climbing device is referred to inter alia as a climbing bell, climbing chair, climbing platform or telescopic carriage. However, this always means a displaceable construction associated with the crane tower which serves to insert or remove a mast shot from a tower construction. The climbing of a crane usually takes place in a fully assembled crane top, which typically includes main boom, counter-jib, counter ballast, crane cab and turntable. The climbing device is disposed below the crane top part and connected to it so that it can lift the crane top. Thus, a mast shot can be inserted into the tower construction or removed from the tower construction to bring the crane top to a desired height level.

When climbing a crane, the section of a tower construction located above the climbing device is lifted by means of a lifting device and a mast shot is inserted into the generated gap. The newly inserted mast shot is fixed to the tower construction with the help of technicians working on the tower construction. The climbing of a crane is laborious due to the labor-intensive work which must be carried out in the area of the mast shot to be inserted or taken. In addition, there is an increased risk of accident during the execution of a climbing operation for entrusted with the climbing personnel.

It is therefore the object of the present invention to simplify the climbing of a crane and to significantly reduce the risk of accident during a climbing operation.

This is achieved by the climbing system for a crane having the features of claim 1.

The system comprises a climbing device for introducing a mast shot into a tower construction of a crane or for taking a mast shot from a tower construction of a crane and a control unit for controlling the climbing device. The system is further characterized in that it comprises a first sensor for monitoring a condition of a connecting means of the climbing device and / or the tower construction, wherein the first sensor is connected to the control unit. The first sensor may be an electromechanical, an inductive, a capacitive, an optical or an ultrasonic sensor. Of course, it is also conceivable to provide a plurality of first sensors for monitoring connecting means of the climbing device and / or tower construction. Here, the first sensor may preferably detect the state of the connecting means in a closed position or in an open position. In addition, the first sensor can advantageously also determine a torque acting on the connecting means. A crane tower comprises several superimposed mast shots, which communicate with each other. As a rule, the individual mast shots are connected to one another with bolts or similar connecting means.

With the aid of the first sensor, the states of safety-relevant connecting means, in particular screw and / or bolt connections to the climbing device and the tower itself are monitored. This makes it possible to recognize incorrectly set connection means and to send a corresponding signal to the control unit. A danger due to an improperly placed connection means that could jeopardize the stability of the tower construction is therefore detected with the aid of the first sensor. Thus, the connection of each newly inserted mast shot is checked by the first sensor. The sensor is connected to the control unit via a cable or radio connection and sends corresponding signals about the condition of a connection means to the control unit.

According to a further advantageous variation of the invention, the control unit further comprises an interface for connection to a crane control of the crane, so that the crane and the Kletterein direction via a common control unit, preferably the control unit for controlling the climbing device, are controllable. This allows a particularly safe climbing process that can be implemented with little manpower. Thus, it is possible for a mast shot stored on the ground to be picked up from the ground by a jib of a crane whose hook height is to be increased and passed on to a climbing device, the control of the crane and of the climbing device using both the crane as well as the climbing device controlling control unit can be made. In addition, errors that may occur due to a divergent control in the transfer of elements controlled by the crane to the climbing device occur less frequently because a common control unit can be used. In addition, since the control is done from "one hand", the climbing process is simplified by the climbing system according to the invention and requires fewer operators.

The interface for connection to a crane control of the crane can be implemented by a cable or radio link. However, the interface is designed so that the control unit receives access to the crane control of the crane and can control the crane. Alternatively, it is also possible that the control of the climbing device can be done via the crane control. This ensures that the crane control and the control of the climbing device can be carried out with the aid of a common control unit.

Preferably, the climbing system comprises a second sensor for detecting a marking attached to a guide frame of the climbing device or the tower construction, which allows a conclusion about certain properties of the tower construction, wherein the second sensor is connected to the control unit.

With guide frame the outer frame of the climbing device is referred to, which typically encloses a mast shot from the outside and is in communication with it so that it can push the crane top up. The identifiable by the second sensor identification allows a conclusion on certain properties of the tower construction. This information will be sent to the Passed control unit, which can thereby perform a corresponding reduction in load torque during climbing or in crane operation.

Preferably, the control unit for controlling the climbing device is adapted to send control commands to a cat drive of a climbing device. With the help of this Katzantriebs a mast shot is moved horizontally into the gap created by means of the climbing device. The cat drive is also used to move a mast shot to be taken from the tower construction approximately horizontally and then to lower it to the ground with the help of the functional crane head.

According to a further optional advantageous feature of the invention, the system further comprises a third sensor for monitoring a lifting device of the climbing device, wherein the third sensor is connected to the control unit.

The lifting device of the climbing device lifts all above it arranged elements of a crane. In the gap created by the lifting device then a mast shot can be inserted. Of course, with the lifting device and a lifting of the above her arranged crane elements possible to remove a mast shot from the tower construction. The third sensor monitors in particular the position or the position of the lifting device in order to obtain information about a possible removal or insertion of a mast shot. In addition, the third sensor is in communication with the control unit via a wired or wireless connection so that the information obtained from the third sensor can be sent to the control unit.

In this case, the third sensor can also be designed to determine the position of the climbing device on the tower construction. Preferably, the third sensor is capable of detecting a jackpot used by the lifting device and / or detecting a correct seating of the lifting device on the crack. The climbing device is supported against at least one jackpot which supports the supporting forces delivered by the lifting device Tower construction initiates. In this case, a plurality of vertically spaced apart support cracks may be attached to a mast shot. After inserting a mast shot, the lifting device changes the support crack against which it rests on a higher-placed support crack. Then the insertion of a mast shot can be repeated and the crane climbs in height.

Preferably, the system further comprises a fourth sensor for detecting the orientation and the inclination angle of the climbing device and / or the crane, wherein the fourth sensor is connected to the control unit.

The fourth sensor is preferably designed to detect the exact position of the climbing device and of the crane. This simplifies balancing the crane. Also, the balancing of the crane can be done automatically via the crane control or via the control unit. Here are rotational, cat, hoist and boom movements controlled automatically.

In addition, according to a further optional feature of the invention, it is possible to detect all travel movements as well as positions of mechanical components via route detection systems. As mechanical components here are the rotational movements of the crane, the movement of the trolley of the main boom, the movement of the cat drive the climbing device, which is used to insert a mast shot in the tower construction with a horizontal movement or trigger by means of a horizontal movement of the tower construction, the movement caused by the hoist of the lifting device, movement of the boom, a method of hook block of the main boom and / or a movement of the counter-jib ballast in question.

The path detection system is implemented using electromechanical, inductive, capacitive, optical, or ultrasonic based sensors. It is also conceivable to combine the different sensor types. The path detection system is capable of detecting the exact position of the mechanical components described in greater detail above. This is For example, a conclusion on the position of a fixed to the cat drive the climbing device mast shot possible. Preferably, this information is transmitted via a cable or radio link to the control unit.

Preferably, the climbing system comprises a fifth sensor for torque detection at at least one point of the climbing device, wherein the fifth sensor is connected to the control unit. The connection can be realized wirelessly or by wire. Advantageously, the fifth sensor is also provided on connection means, so that here applied moments can be detected.

Due to the data measured with the fifth sensor, an automatic assembly or disassembly of the tower construction is feasible. The information is sent to the control unit and evaluated there, resulting in a corresponding control of necessary for mounting or dismounting electrical, pneumatic or hydraulic devices.

According to a further advantageous development of the system according to the invention, this comprises a detection system for monitoring a region between tower construction and climbing device and a region in which the mast shot is inserted into or taken out of the tower construction, the monitoring preferably being effected by a light grid, laser -, Zugseil-, or camera system is made. Preferably, this detection system is in communication with the control unit.

The detection system serves to detect a possible dangerous situation early and to avoid a dangerous situation with a corresponding signal to the control unit. So it is preferable to stop the insertion of a mast shot in the tower construction, as long as assembly personnel resides in a danger zone. Further advantageously, the control unit of the system is designed to control the climbing device and / or the crane so that a Introducing the mast shot into the tower construction or removing the mast shot from the tower construction automatically runs without provoking an overload condition.

By securely monitoring all positions of moving parts on the climbing device, it is possible to automate the climbing operation of the crane. In this case, the moments applied to connecting means and to the guide frame of the climbing device are preferably detected via sensors. This information allows the implementation of an automatic assembly and disassembly of the connecting means (in particular screw and bolt connections) by means of electrical, pneumatic and / or hydraulic devices.

Preferably, the system comprises means for coupling and decoupling connection means connected to and controllable by the control unit.

According to a further advantageous embodiment of the invention, the system comprises an optical display element for reproducing various states of the system, wherein preferably to be performed activities are also displayed.

The visual display element can be mounted on a control panel and display via a display or display elements current states of the system as well as situation-dependent necessary activities. In particular, the control panel can be additionally provided with symbolism. Preferably, the control panel and optionally arranged thereon optical display elements are connected to the control unit of the system. It is also possible that operating elements and a touch-sensitive surface in a display of the control panel enable operation of the control unit.

In addition, the visualization with the aid of the optical display elements provides a diagnostic and error display. This makes it possible to the system, since the source of error is easier to locate. It is also possible to display a large number or all of the values recorded with the aid of sensors in the visualization so that different process sections of the climbing process can be visualized.

Preferably, the operation of the control unit via a cable remote control or via a radio remote control with range limitation. This makes it possible to flexibly operate the system from multiple locations. In addition, the control unit comprises a positioning mode, in which the speed of the lifting device can be significantly reduced, so that the insertion and removal of connecting means (screw and bolt connections) is easier to perform.

The present invention will be explained in more detail with reference to drawings. Show it:

1: the climbing system according to the invention in a side view of a tower construction,

2: a stylized representation of the climbing system according to the invention,

Fig. 3: a control panel with optical display elements for operating the

Control unit of the system according to the invention,

4 (a) shows a display of a control panel for a particular state of the

Climbing system, and

Fig. 4 (b) shows another display of a control panel for a particular state of the climbing system.

Fig. 1 shows a portion of a crane tower, in which a climbing system 1 is arranged. The climbing system comprises a climbing device 2, which the tower construction tion 4 surrounds. The climbing device 2 is connected to a crane tower section arranged above and below it. In addition, it has a lifting device 10 which can push away the portion of the crane arranged above the climbing device 2 from the section of the crane arranged below the climbing device 2 upwards. Here, the lifting device 10 is supported on so-called support crack 14, which project outside of a mast shot 3.

It also recognizes an inserted mast shot 3, which depends on a cat drive 16 of the climbing device 2. The cat drive 16 ensures substantially horizontal operation of the mast shot, so that it can be introduced into a gap created by the lifting device 10. The mast shot 3 is transferred with the help of the finished crane top part to the mounted at a certain height climbing device. In addition, near the connection means of the individual mast shots 3 there is a first sensor 51 which monitors a condition of a connection means. Thus, it can be determined whether the connecting means between the individual mast shots 3 are in their intended position. Furthermore, two third sensors 53 are arranged on the guide frame 7 of the climbing device 2. These are able to determine the position of the lifting mechanism of the lifting device 10 and can determine the currently used support crack 14 on which the lifting device is supported. At the top and bottom arranged struts of the guide frame 7, two fourth sensors are placed, which can determine the inclination of the guide frame 7 and the tower construction 4.

In addition, a plurality of fifth sensors 55 are attached to the guide frame 7, which can each determine a torque applied to the guide frame at its mounting location. As a result, exceeding of a permissible maximum stress of the guide frame 7 can be detected and can be achieved by suitable countermeasures the stress can be attributed to a normal state.

All sensors are connected to the control unit 5. The connection can be wired or wireless. The information collected by the plurality of sensors is processed in the control unit 5, so that an automatic climbing with the climbing system according to the invention is feasible.

Fig. 2 shows a crane having a climbing system 1. It can be seen a arranged below the crane shell climbing device 2 and a mast shot 3, which is retractable by means of a Katzantriebs in the created by the lifting device 10 gap. In order to reach this position, the mast shot 3 is picked up by means of the main boom of the crane from the ground and passed to the climbing device 2.

The climbing device 2 is in operative connection with the tower construction 4, thus supporting itself therefrom to form a gap between the tower construction 4 and the crane elements arranged above the climbing device 2.

Furthermore, one recognizes the control unit 5, which communicates with a control panel 12 for controlling the control unit 5. It also recognizes the interface of the control unit 5, via which a connection with the crane control is made. Furthermore, the control unit has a connection to a second sensor 52, which can detect an attached to the tower construction 4 or attached to a guide frame of the climbing device 2 label, whereby the control unit 5 is informed of certain properties of the tower construction 4. It is thus possible with the help of this information to adapt the crane control to the specific properties during a climbing operation. For example, it is conceivable the maximum load of the crane to be lifted restrict and / or reduce the maximum boom length while the crane is climbing.

The interface 6 of the control unit 5, serves for connection to a crane control. When performing this connection, the control of the crane and the climbing device is possible via a common control. In this case, a coordinated control of the crane and the climbing device is possible. Thus, even without inputting an operation command, the control unit 5 can operate the crane. This is advantageous, for example, if one of the sensors shown in FIG. 1 detects a condition deviating from the standard. With an inclination of the guide frame 7 or the tower construction 4, a method of the counter ballast can be carried out automatically to compensate for the inclination of the guide frame or the crane tower. FIG. 3 shows a control panel 9 for the control unit 5. A display 8 as well as status displays and control buttons arranged next to the display 8 can be seen for interacting with the control unit 5.

FIG. 4 (a) shows a possible display of the display 8. Here, a cross section of the tower construction 4 can be seen schematically, in a region in which the climbing device 2 engages around the crane tower. Evident are also the individual states of the connecting means 13 which can be inserted into counterparts provided for this purpose. In the particular illustration, the connecting means 13 are bolts which are insertable into their respective receiving holes. None of the connecting means 13 is in operative connection with the tower construction 4, since it is indicated that the corresponding bolts are not in contact therewith.

In addition, the status of the lifting device 10 is represented by the graphical representation 15. It can be seen that the lifting cylinder of the lifting device 1 is in a non-extended state. In addition, a view of a mast shot 3 can be seen, in which one recognizes the several vertically stacked support crack 14 on which the climbing device can be supported. Also, on the right next to the stylized mast section 3, the state of the lifting device 10 is displayed, which corresponds to a retracted state in FIG. 4 (a).

Fig. 4 (b) shows substantially the same symbols as Fig. 4 (a). Only their condition has been changed. Thus, in the cross-sectional view of the tower construction 4, two connecting means 13 are now in communication with the tower. This stands for an inserted bolt. Also, the middle of the three superimposed support crack 14 is shown in a different color. This means that the lifting device 10 is in connection with this support crack and is supported on this. The state of the lifting device per se is also changed in contrast to Fig. 4 (a) and indicated by an extended cylinder.

With the help of this visualization, it is possible for an operator of the climbing system according to the invention in a short time to obtain an overview of all important parameters of the system. Also, any errors can be detected quickly.

Claims

claims

A climbing system (1) for a crane comprising:

a climbing device (2) for introducing a mast shot (3) or for removing a mast shot (3) from a tower construction (4) of a crane, and

a control unit (5) for controlling the climbing device (2),

marked by

a first sensor (51) for monitoring a condition of a connecting means (13) of the climbing device (2) and / or the tower construction (4), the first sensor (51) being connected to the control unit (5).

2. System (1) according to claim 1, wherein the control unit (5) has an interface (6) for connection to a crane control of the crane, so that the crane and the climbing device (2) via a common control unit, preferably the control unit (5 ), are controllable.

3. System (1) according to any one of the preceding claims, further comprising a second sensor (52) for detecting a on a guide frame (7) of the climbing device (2) or the tower construction (4) attached label, the inference to certain properties of Tower construction (4) permits, wherein the second sensor (52) is connected to the control unit (5).

4. System (1) according to one of the preceding claims, further comprising a third sensor (53) for monitoring a lifting device (10) of the climbing device (2), wherein the third sensor (53) is connected to the control unit (5).

5. System (1) according to any one of the preceding claims, further comprising a fourth sensor (54) for detecting the orientation and the inclination angle of the Kletterein device (2) and / or the crane, wherein the fourth sensor (54) with the control unit ( 5) is connected.

6. System (1) according to any one of the preceding claims, further comprising a fifth sensor (55) for torque detection at least one point of the climbing device (2), wherein the fifth sensor (55) is connected to the control unit (5).

A system (1) according to any one of the preceding claims, further comprising a detection system for monitoring an area between tower construction (4) and climbing device (2) and a region in which the mast shot (3) is inserted into or out of the tower structure (4) this is taken, wherein the monitoring is preferably carried out by a light grid, a laser, a Zugseil- and / or a camera system.

8. System (1) according to one of the preceding claims, wherein the control unit (5) is adapted to the climbing device (2) and / or the

To control the crane in such a way that it is necessary to insert the mast shot (3) into or out of the mast Removal of the mast shot (3) from the tower construction (4) runs automatically.

The system (1) of claim 8, further comprising at least one means for coupling and decoupling connection means (13) connected to and controllable by the control unit (5).

10. System (1) according to one of the preceding claims, further comprising optical display elements (8) for displaying various states of the system (1), and preferably for displaying activities to be performed.