EP2881358A1 - Industrial truck - Google Patents

Abstract

The invention relates to an industrial truck (1) with a mast (4), a load receiving means (6) and a moving device (15) for the load receiving means (6), wherein the moving device (15) together with the load receiving means (6) on the mast ( 4) can be raised and lowered and the load-receiving means (6) by means of the movement device (15) relative to the mast (4) is movable, wherein one of the movement device (15) generated movement of the load-receiving means (6) relative to the mast (4) by means of an actuator (35) can be generated, wherein the movement device (15) comprises: - A pushing device (16), with the movement as the load-receiving means (6) in a substantially horizontal transverse vehicle direction (Q) of the truck (1) is displaceable, and / or - A pivoting device (17), with the movement as the load receiving means (6) about a substantially vertical axis (V) is pivotable. An electronic control device (30) is provided which is operatively connected to a sensor device (31) with which the lateral vibrations and / or the lateral accelerations of the mast (4) in the vehicle transverse direction (Q) are detected. The electronic control device (30) controls the actuator (35) generating the movement of the load receiving means (6) as a function of the lateral vibrations and / or lateral accelerations of the mast (4) detected by means of the sensor device (31).

Description

• eine Schubvorrichtung, mit der als Bewegung das Lastaufnahmemittel in im Wesentlichen horizontaler Fahrzeugquerrichtung des Flurförderzeugs verschiebbar ist, und/oder
• eine Schwenkvorrichtung, mit der als Bewegung das Lastaufnahmemittel um eine im Wesentlichen vertikale Achse schwenkbar ist.

The invention relates to an industrial truck with a mast, a load receiving means and a moving device for the load receiving means, wherein the moving device is liftable and lowerable together with the load receiving means on the mast and the load receiving means by means of the moving device is movable relative to the mast, wherein one of the moving device generated movement of the lifting device relative to the mast is generated by means of an actuator, wherein the moving device comprises:

• a pushing device, with which the load-receiving means is displaceable in a substantially horizontal transverse direction of the vehicle as a movement, and / or
• a pivoting device with which, as a movement, the load-receiving means is pivotable about a substantially vertical axis.

Industrial trucks of the type mentioned are often designed as Hochregalstapler or Hochregalkommissionierer. The load-receiving means, which is generally designed as a load fork, can hereby be moved by means of a movement device in the vehicle transverse direction relative to the lifting frame. As a moving device, a pushing device for horizontal displacement of the load-receiving means in the vehicle transverse direction, a pivoting device with which the fork can be pivoted about a vertical pivot axis by 180 ° degrees, or a combined pivoting thrust device can be used, with the horizontal thrust movement in the vehicle transverse direction and the pivoting movement to the vertical axis can be executed simultaneously. Such trucks usually have a liftable on the mast and lowered liftable driver's stand on which the movement device and the load-receiving means are arranged. In general, an additional lifting device for the load-receiving means is provided with such trucks on the driver's cab, with which the load-receiving means relative to the driver's cab and the mast is raised or lowered.

Such trucks are used in racking systems, such as high-bay systems, for the storage and retrieval of pallets and loads in shelves. The truck moves in operation along a row of shelves in a corresponding operation of a rack system. For stacking a pallet with a load thereon, by means of the pusher, for example a telescopic fork, or the pivoting thruster, for example a pivoting push fork, the pallet with the load thereon is pushed out horizontally in the vehicle transverse direction and thus laterally into a shelf of the rack. The stacking of a pallet with a load thereon is carried out accordingly, by means of the pivoting push fork or the telescopic fork, a pallet in the vehicle transverse direction and thus pulled out of the shelf of the shelf. Such Hochregalstapler or Hochregalkommissionierer be used with masts, which have a height of more than 15 meters in the fully extended state.

The load-handling device of the truck is raised together with the at least one moving device and an optionally available liftable driver's station by means of the mast. In particular, in the case of a widely extended mast, lateral vibrations of the mast in the vehicle transverse direction can occur when the load in the transverse direction of the vehicle moves during a storage process or when a load is transferred to the rack. These lateral vibrations of the mast are due to the elasticities of the components of the mast. Forklift activities of the truck in the rack system during a storage process or a removal process of a load on the shelf occur especially at high lifting heights lateral vibrations of the mast in the direction of the shelf, which are caused by the pushing out of the load in the shelf or the withdrawal of the load from the shelf , Another cause of the lateral vibrations of the mast is the raising or lowering of the load on the shelf. In the case of a fully upwardly extended mast, in this case such high oscillation amplitudes of the lateral oscillations of the mast can occur that a prescribed minimum distance to the shelf is undershot. As long as the load-carrying means oscillates back and forth during a storage or retrieval process of a load on the shelf due to the lateral vibrations of the mast, no loads can be absorbed or stored and an operator of the truck has to wait in wait until the lateral vibrations are damped in the mast and decay. Only after the decay of the lateral oscillations of the mast, a further movement can be carried out on the conveyor, for example, a lifting or lowering operation of the lifting device or a driving movement of the truck. These waiting times lead to a reduction in the handling capacity of the truck during storage or retrieval operations of a load in a rack.

The invention is therefore an object of the invention to provide an industrial truck of the type mentioned, in which the handling capacity of the truck can be increased in storage or retrieval operations of a load in a shelf with low construction costs.

This object is achieved in that an electronic control device is provided which is operatively connected to a sensor device, with which the lateral vibrations and / or lateral acceleration of the mast are detected in the vehicle transverse direction, and the electronic control device which generates the movement of the lifting device Actuator in response to the detected by means of the sensor device lateral vibrations and / or lateral acceleration of the mast controls. As a result, an active vibration damping of the lateral vibrations of the mast in the vehicle transverse direction is possible during actuation of the actuator and thus during the movement of the lifting device generated by the movement device, so that no waiting times are waiting for storage and retrieval operations of a load in a shelf and This increases the handling capacity of the truck during storage or retrieval operations of a load on a shelf. The electronic control device acts to dampen vibration directly and directly on the actuator of the movement device, which generates the movement of the load-receiving means in the vehicle transverse direction or the pivoting movement of the load-receiving means about the vertical axis, so that with low construction costs an active vibration damping of the lateral oscillations of the mast when actuated of the actuator and a corresponding movement of the Lifting means is achieved during a storage or Auslagervorgangs a load on a shelf.

According to an advantageous embodiment of the invention, the electronic control device controls the movement of the lifting device generating actuator such that during the motion generated by the movement of the lifting device, the lateral vibrations of the mast are minimized and at the end of the movement of the lifting device generated by the movement of the lifting device Vibrations of the mast are substantially subsided. With the electronic control device is thus controlled by appropriate control of the actuator generated by the actuator movement of the load receiving means in response to the signal detected by the sensor device such that the smallest possible lateral vibrations of the mast during movement of the load receiving means in the vehicle transverse direction or a pivoting movement of the lifting device arise around the vertical axis and the lateral vibrations of the mast have subsided at the end of the pusher or pivoting operation of the load receiving means substantially. Waiting times are thus eliminated in the case of storage or retrieval operations of a load in a rack, and after completion of the pushing operation or the pivoting operation of the load receiving means, further movement of the load receiving means can be initiated immediately afterwards, for example a lifting or lowering operation for offloading or storing the load in the shelf or a driving movement of the truck.

The vibration behavior of the mast is further influenced by the load weight of a load received by the load-carrying means. According to one embodiment of the invention, it is provided that the electronic control device is in communication with a further sensor device detecting the load weight of a load on the load receiving device and the electronic control device controls the actuator producing the movement of the load receiving device as a function of the load weight detected by the further sensor device activated load. As a result, an effective active vibration damping of the mast is achieved in a lateral thrust movement or a pivoting movement of the lifting device.

According to an advantageous embodiment of the invention, the electronic control device controls the actuator so that counteracts in an identified by means of the sensor device lateral rocking of the mast by an active compensating movement of the load receiving means the swinging of the mast. In the electronic control device, a control algorithm is thus implemented with which an active compensation movement of the load receiving means with the load thereon is determined in a lateral oscillation of the mast, with which the actuator counteracts the lateral swing of the mast, so that achieved an active vibration damping of the mast becomes.

The sensor device can be formed according to an advantageous embodiment of the invention of a arranged on the mast strain gauges. With one or more strain gauges on the mast, the lateral acceleration or the lateral vibrations of the mast can be detected with low construction costs.

According to a particularly advantageous embodiment of the invention, the sensor device is formed by an acceleration sensor arranged in the region of the liftable and lowerable load-receiving means. With a acceleration sensor detecting the accelerations of the mast in the vehicle transverse direction, a particularly effective vibration damping can be achieved since the accelerations stimulating the mast for lateral swinging are already detected and can be evaluated for controlling the actuator producing the movement of the load receiving means.

Particular advantages can be achieved if, according to a further development, the industrial truck has a driver's station that can be raised and lowered on the mast and on which the movement device and the load receiving means are arranged, and the sensor device is arranged on the driver's station. With the arrangement of the sensor device on the liftable or lowerable driver's cab an arrangement of the sensor device in the region of the load receiving means is achieved with low construction costs. The inventive active vibration damping of the lateral oscillations of the mast continues to lead to an improvement in such a truck with a liftable or lowerable driver's cab the ride comfort, as perceived by the operator located in the raised operator of the truck lateral vibrations of the mast and thus the driver's station as unpleasant and disturbing.

With regard to a low construction cost, there are particular advantages if the actuator is designed as a hydraulic drive which is actuated by means of an electrically controllable control valve, wherein the electronic control device, the control valve in response to the detected by means of the sensor device lateral vibrations and / or lateral acceleration of the Mast and / or depending on the detected by means of the further sensor device load weight of the recorded load that the lateral vibrations of the mast are damped when the drive is actuated. The control valve controlling the hydraulic drive is thus further used for the active vibration damping of the lateral oscillations of the mast, so that the inventive active vibration damping of the mast can be implemented with low construction costs.

The invention further relates to a method for damping or avoiding lateral vibrations of a mast of a truck in the vehicle transverse direction, wherein on the mast, a load-receiving means is arranged, which is movable relative to the mast by means of a moving device, wherein the moving device as movement, the load-receiving means in a Substantially horizontal transverse vehicle direction of the truck directed thrust movement and / or a pivoting movement of the load receiving means is generated about a substantially vertical axis. The above object is achieved in that, depending on the lateral accelerations or lateral vibrations of the mast in the vehicle transverse direction, the movement of the lifting device generated by the movement device is controlled such that the lateral vibrations of the mast are minimized and at the end of the movement device generated movement of the lifting device, the lateral vibrations of the mast are substantially subsided. With such a method can be achieved with low construction costs, an active vibration damping of the mast, wherein during the operation of the moving device and thus during the motion generated by the movement of the device Lifting means, the lateral vibrations of the mast are damped or avoided in the vehicle transverse direction. This eliminates waiting for storage and retrieval operations of a load in a shelf waiting times and after completion of the pusher or the pivoting operation of the lifting device may be immediately afterwards another movement of the lifting device initiated, for example, a lifting or lowering operation for retrieving or storing the load in the shelf or a driving movement of the truck. As a result, the handling line of the truck is increased.

According to one embodiment of the invention, the mass of a load received by the load receiving means is taken into account in the regulation of the movement of the load receiving means generated by the movement device. If, in a lateral swinging of the mast an active compensating movement of the lifting device for vibration damping of the mast is performed, with which the lateral swinging of the mast is counteracted, taking into account the mass of the load receiving device recorded load effective vibration damping of the lateral vibrations of the mast can be achieved ,

Figur 1

ein erfindungsgemäßes Flurförderzeug in einer Seitenansicht,

Figur 2

das Flurförderzeug der Figur 1 in einer perspektivischen Darstellung mit nach oben ausgefahrenem Hubgerüst,

Figur 3

einen Ausschnitt der Figur 2 in einer vergrößerten Darstellung und

Figur 4

einen schematischen Schaltplan der Erfindung.

Further advantages and details of the invention will be explained in more detail with reference to the embodiment shown in the schematic figures. This shows

FIG. 1

an inventive truck in a side view,

FIG. 2

the truck of the FIG. 1 in a perspective view with upwardly extended mast,

FIG. 3

a section of the FIG. 2 in an enlarged view and

FIG. 4

a schematic circuit diagram of the invention.

In the FIG. 1 is an inventive, designed as a high-shelf order picking truck 1 illustrated.

The truck 1 has a vehicle body with a vehicle frame 2, in which a battery compartment for receiving a trained example as a drive battery power supply unit 3 of a battery-electric drive system of the truck is formed. The industrial truck 1 has a lifting mechanism formed by a mast 4, on which a driver's cab 5 designed as a car or driver's cab, which forms a driver's workplace F for an operator, is arranged movable up and down by means of a lifting drive (not shown). The producible by means of the mast 4 lifting movement is illustrated by an arrow H.

The truck 1 is supported by means of two non-steered and non-driven load wheels 8, which is arranged at a load-part-side end of the vehicle frame 2, and a steerable drive wheel 9, which is arranged at a drive part-side end of the vehicle frame 2, on a carriageway FB.

On the liftable and lowerable operator's platform 5, a movement device 15 is attached to a load-receiving means 6. The load-receiving means 6 is movable relative to the mast 4 by means of the movement device 15. The movement device 15 can be raised and lowered together with the load-receiving means 6 on the mast 4.

The movement device 15 comprises a pushing device 16, for example a side pushing device, with which the load-receiving means 6 in the vehicle transverse direction Q of the industrial truck 1 can be moved horizontally. Coupled to the pusher 16 is a pivoting device 17, with which the load-receiving means 6 can be pivoted about a vertical axis V. An additional lifting device 7 is in turn coupled to the swiveling device 17, with which the load-receiving device 6 can be raised or lowered relative to the driver's seat 5 and relative to the mast 4.

The movement device 15 is thus formed in the illustrated embodiment as a pivoting thrust fork, with the movement of the load-receiving means. 6 a horizontal thrust movement in the vehicle transverse direction Q and a pivoting movement about the vertical axis V can be generated. Alternatively, the movement device 15 can be formed by a telescopic fork displaceably arranged in the vehicle transverse direction Q, with which only a horizontal pushing movement in the vehicle transverse direction Q can be generated as the movement of the load-receiving means 6.

In the driver's station 5, the control and operating elements required for the operation of the picking truck 1 are arranged, for example in the form of an operating device designed as a control panel B. The control panel B is provided to control the traction drive and the load handling functions of the picking truck 1 with appropriate controls and a steering actuator for controlling a steering.

In the drive part side end of the vehicle frame 2, a non-illustrated electrical drive system is further arranged, comprising an electric traction motor and a steering drive, such as an electric steering motor for the steerable drive wheel 9 and an electrically operated hydraulic pump unit, which is provided to supply the working hydraulics are formed by the lifting drive of the hoist 4 and a lifting drive of Zusatzhubvorrichtung 7 and hydraulic drives for the provided in the illustrated embodiment pivoting thrust fork as a load-bearing means 6.

The drive part of the truck 1 is located in the vehicle longitudinal direction in front of the battery compartment. The drive part is covered by a hood 10. The load part of the truck 1 is located in the vehicle longitudinal direction behind the battery compartment and includes the load-receiving means. 6

The mast 4 of the truck 1 according to the invention is designed as mehrschüssiges mast. In the illustrated embodiment and according to the FIG. 2 is the mast 4 as a so-called triplex mast running with a arranged on the vehicle frame 2 stand mast 4a, in the stationary mast 4a upwardly extendable first Ausfahrmast 4b and in the first Ausfahrmast 4b upwardly extendable second Ausfahrmast 4c, in which the driver's cab 5 after is arranged extendable above. In the FIG. 2 is the truck 1 with completely after pulled-up mast 4 and fully raised driver's seat 5 shown. On the load-carrying means 6 is a pallet with a load 20. In the FIG. 2 the movement device 15 is arranged such that the load 20 is located centrally to the vehicle longitudinal axis L.

For stacking the load 20 in a not-shown shelf, the load 20 is moved by means of the moving device 15 in the horizontal vehicle transverse direction Q. In the FIG. 3 the movement device 15 is shown in a position in which the load 20 is in a laterally pushed-out position in the shelf.

According to the invention, the truck 1 is provided with an active vibration damping, damped in the generated by the moving device 15 movement of the load receiving means 6 with the load thereon 20 in the vehicle transverse direction Q or about the vertical axis V, the lateral vibrations of the mast 4 in the vehicle transverse direction Q can be.

This is - as in the FIG. 4 an electronic control device 30 is provided, which is in operative connection with a sensor device 31, with which the lateral vibrations and / or the lateral accelerations of the mast 4 in the region of the load-receiving means 6 in the vehicle transverse direction Q are detected. Furthermore, electronic control device 30 is connected to a load weight of the load 20 located on the load receiving means 20 further sensing device 32 in connection.

The electronic control device 30 controls an actuator 35 of the movement device 15, with which the movement of the load-receiving means 6 can be generated. With the actuator 35, the movement of the load-receiving means 6 generated in the vehicle transverse direction Q and / or the pivoting movement of the load-receiving means 6 about the vertical axis V can be generated by the movement device 15.

In the illustrated embodiment, the actuator 35 is formed as a hydraulic drive 36 which is controllable by means of an electrically controllable control valve 37, preferably a throttling in intermediate positions proportional valve. For this purpose, the control valve 37 is connected to a delivery line 38 of a pump 39 and to one A container 40 guided container line 41 in conjunction and is connected by means of consumer lines 42 a, 42 b to the hydraulic drive 36. The pump 39 is part of the electrically operated hydraulic pump assembly 45, which has as an additional component a pump 39 driving electric motor 46. The control valve 37 is connected to the control with the electronic control device 30 in connection.

Furthermore, an operable by the operator of the truck 1 control element 33 is provided, with which the actuator 35 and thus the movement device 15 is actuated. The control element 33 is in communication with the electronic control device 30.

The sensor device 31 is formed in the illustrated embodiment as an acceleration sensor 50, which detects the accelerations of the mast 4 in the vehicle transverse direction Q and is preferably arranged in the driver's cab 5. The acceleration sensor 50 is preferably arranged in the driver's cab 5 in the middle of the vehicle's longitudinal axis L. The further sensor device 32 may be formed by a sensor which detects the pressure in a lifting cylinder of the additional lifting device 7.

The electronic control device 30 is designed in such a way that, depending on the signal of the acceleration sensor 50 and in dependence on the mass of the picked-up load 20 detected by the sensor device 32, the actuator 35 controlling the movement of the load-receiving means 6 is actuated in such a way that that of the movement device 15 generated movement of the load-receiving means 6 is controlled such that during the motion generated by the movement device 15 of the load receiving means 6, ie the movement of the load receiving means 6 in the vehicle transverse direction Q and / or the pivoting movement of the load receiving means 6 about the vertical axis V, the lateral vibrations of the Mast 4 are minimized in the vehicle transverse direction Q and at the end of the movement of the lifting device 15 generated by the movement of the load receiving means 6, the lateral vibrations of the mast 4 are substantially subsided. For this purpose, the control valve 37 is preferably controlled such that by an active compensating movement of the actuator 35 and thus of the load receiving means 6 the swing of the mast 4 in the vehicle transverse direction is counteracted and thus the lateral swinging of the mast 4 is compensated.

When stacking and stacking a load 20 in a shelf 4 waiting times can be avoided with the active vibration damping of the mast according to the invention and immediately subsequent to the movement of the lifting device 6 in the vehicle transverse direction Q a lifting or lowering process of the lifting device or a driving operation of the truck. 1 be made.

Trained as a pivoting fork movement device 15 is used in addition to the function for stacking and unstacking of the load 20 in the shelf also outside of the operation, the recorded load 20 to rotate about the vertical axis V by 180 ° degrees to an opposite shelf side. In this case takes place synchronously a movement of the load-receiving means 6 in the vehicle transverse direction Q and a pivoting movement of the load-receiving means 6 about the vertical axis V. In this process, lateral vibrations can be introduced into the mast 4 by acceleration operations. With the active vibration damping according to the invention, the lateral vibrations of the mast 4 in the vehicle transverse direction Q can also be compensated in this process.

Claims (10)

Truck (1) with a mast (4), a load receiving means (6) and a moving device (15) for the load receiving means (6), wherein the moving device (15) together with the load receiving means (6) on the mast (4) can be raised and is lowerable and the load-receiving means (6) by means of the moving device (15) relative to the mast (4) is movable, wherein a movement of the lifting device (15) generated by the movement of the load receiving means (6) relative to the mast (4) by means of an actuator ( 35), the movement device (15) comprising: - A pushing device (16), with the movement as the load-receiving means (6) in a substantially horizontal transverse vehicle direction (Q) of the truck (1) is displaceable, and / or - A pivoting device (17), with the movement as the load-receiving means (6) about a substantially vertical axis (V) is pivotable,
characterized in that an electronic control device (30) is provided which is operatively connected to a sensor device (31), with which the lateral vibrations and / or the lateral acceleration of the mast (4) in the vehicle transverse direction (Q) are detected, and electronic control device (30) which controls the movement of the load-receiving means (6) generating actuator (35) in response to the means of the sensor device (31) detected lateral vibrations and / or lateral acceleration of the mast (4). Truck according to claim 1, characterized in that the electronic control device (30) controls the movement of the load receiving means (6) generating actuator (35) such that during the movement of the device (15) generated by the movement of the load receiving means (6), the lateral vibrations of the mast (4) are minimized and at the end of the movement of the device (15) generated movement of the load receiving means (6), the lateral vibrations of the mast (4) are substantially subsided. Truck according to claim 1 or 2, characterized in that the electronic control device (30) with a load weight of a on the Load sensing means (6) located load (20) detecting further sensor device (32) is in communication and the electronic control device (30) the movement of the load receiving means (6) generating actuator (35) in dependence on the means of the further sensor device (32) detected Load weight of the recorded load (20) drives. Truck according to one of claims 1 to 3, characterized in that the electronic control device (30) controls the actuator (35) such that when detected by means of the sensor device (31) lateral rocking of the mast (4) by an active compensating movement of the load receiving means (6) the swinging of the mast (4) is counteracted. Truck according to one of claims 1 to 4, characterized in that the sensor device (31) is formed by a on the mast (4) arranged strain gauges. Truck according to one of claims 1 to 4, characterized in that the sensor device (31) is formed by a in the region of the liftable and lowerable load-receiving means (6) arranged acceleration sensor (50). Truck according to one of claims 1 to 6, characterized in that the truck (1) on the mast (4) can be raised and lowered driver's cab (5) on which the moving device (15) and the load-receiving means (6) is arranged, wherein the sensor device (31) is arranged on the driver's station (5). Truck according to one of claims 1 to 7, characterized in that the actuator (35) as a hydraulic drive (36) is formed, which is actuated by means of an electrically controllable control valve (37), wherein the electronic control device (30), the control valve (37 ) in dependence on the lateral oscillations and / or lateral accelerations of the mast (4) detected by means of the sensor device (31) and / or as a function of the load weight of the received load (20) detected by means of the further sensor device (32) controls that the lateral vibrations of the mast (4) are damped when the drive (36) is actuated. A method for damping or avoiding lateral vibrations of a mast (4) of a truck (1) in the vehicle transverse direction (Q), wherein on the mast (4) a load-receiving means (6) is arranged by means of a moving device (15) relative to the mast (4) is movable, wherein the movement device (15) as movement, the load receiving means (6) in a substantially horizontal vehicle transverse direction (Q) of the truck (1) directed thrusting movement and / or a pivoting movement of the load receiving means (6) about a substantially vertical Axis (V) generated, depending on the lateral acceleration or lateral vibrations of the mast (4) in the vehicle transverse direction (Q) of the movement device (15) generated movement of the load-receiving means (6) is controlled such that the lateral vibrations of the mast (4) are minimized and at the end of the movement of the Lastaufna generated by the movement device (15) hmemittels (6) the lateral oscillations of the mast (4) have decayed substantially. A method according to claim 9, characterized in that in the control of the motion of the device (15) generated movement of the load receiving means (6), the mass of the load receiving means (6) recorded load (20) is taken into account.

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