DE10054792A1 - Industrial truck with a device for detecting the lifting height - Google Patents

Abstract

The vehicle has a lifting device (3) whose height is detected by a measuring device designed so that at least two measured value transmitters constantly detect the lift height and supply output signals which are independent of each other. At least one measured value transmitter is formed by an incremental transmitter (11) and one can be formed by a potentiometer (12). The measured value transmitters are in active connection with the lift device through a common mechanical drive element such as cable pulley

Description

The invention relates to an industrial truck with at least one lifting device and one Device for detecting the lifting height of the lifting device.

In industrial trucks, especially in warehouse equipment such. B. It is reach trucks, high-bay stackers or high-bay order pickers known, the lifting height of the truck in stages by means of To detect lifting device arranged switches. Often become addicted from the step-shaped lift signal generated by the switches, the travel drive or affects the braking device of the industrial truck, for example the maximum permissible driving speed, the maximum driving acceleration or the maximum permissible braking deceleration depending on the lift signal be specified. Because of the step-shaped lift signal, it is in the known devices not possible, the safety-related maximum values for to fully utilize the above-mentioned operating parameters at every lifting height. Instead, after the exact lifting height cannot be measured, always Security reserves are provided.

From DE 197 31 687 A1 it is known to use the lifting height of an industrial truck of a friction wheel to be recorded continuously. The one described in this document Measuring device is designed to influence the above-mentioned operating parameters however not sufficiently secure. In particular, there should be a Homing with the lifting device is carried out to the measuring device to adjust based on defined measuring points and exclude incorrect measurements can.

The invention is therefore based on the object of an industrial truck with a To provide device for detecting the lifting height, according to the applicable machine guidelines is to be classified as "safe" and for reference runs can be avoided at the start of operation.  

This object is achieved in that the device for Detecting the lifting height is carried out in such a way that at least two sensors transmit the Record the lifting height continuously and deliver independent output signals. The lifting height is determined by two working independently Sensors recorded. There are therefore two redundant ones for determining the lifting height Measured values before, compared with each other or evaluated separately from each other can be.

It is useful if at least one sensor from an incremental encoder is formed. The pulse-shaped output signal of the incremental encoder is generated using evaluated by a counter circuit, the current result of the count Lifting height can be derived. It is advisable to use a two-channel Incremental encoder, which in addition to the pulse-shaped output signal, the length a stroke movement represents an unsigned amount, additionally enables to determine the direction of movement by means of a second pulse-shaped signal.

It is also advantageous if at least one transmitter from a potentiometer is formed. The resistance value of the potentiometer is directly from the lifting height dependent. When combining a potentiometer with an incremental encoder as Transmitters can take advantage of each transmitter and the benefits Disadvantages can be compensated. The advantage of the potentiometer is that it is direct Relationship between the lifting height and the output signal, so none downstream evaluation and storage is required during breaks. The Incremental encoder enables high accuracy of the measurement result and delivers a digital output signal, which is processed directly in a vehicle computer can be.

According to an expedient embodiment of the invention, the sensors are via a common mechanical drive element with the lifting device in Operatively connected. The mechanical drive element transmits the linear movement the lifting device into a rotary movement, to which both sensors are coupled are.

A possible embodiment is that the drive element by one Cable is formed. The cable comprises an automatically winding cable reel  and a rope that can be unwound from the pulley by an external force. The rope end is attached to a non-height-adjustable component while the pulley is on a component that can be raised with the lifting device, or vice versa. A vertical movement of the lifting device thus automatically leads to a rotation of the Rope pulley, directly or indirectly, e.g. B. via a gearbox with the sensors connected is.

According to another possible embodiment, the drive element is of one formed on a component rolling wheel. This component can be from one liftable part of the lifting device if the wheel is not is adjustable in height. Alternatively, the component cannot be moved vertically, the wheel being attached to a liftable part of the lifting device. In each The rotational movement of the wheel is applied directly or via a gearbox to the case Transfer transducer.

The measuring transducer, designed as an incremental encoder, is expediently of this type connected to an electronic memory that in the electronic memory a variable that is dependent on the current lifting height is continuously saved.

There are particular advantages if the electronic memory is of this type is that the stored size regardless of the supply of the Storage with electrical energy is preserved. It can thereby at any time, for. B. also immediately after starting up the truck on which the Incremental encoder generated measured value can be accessed. As Electronic memory that is independent of the power supply can be, for example so-called "flash memory" component can be used.

The truck malfunctions due to incorrect measurements of the truck can be excluded if the sensor is equipped with an electronic Control are in operative connection, which is designed such that the measured values of the the two sensors are continuously compared.

In addition, at least one reference switch can be provided which, when reached a certain lifting height changes its switching position. The reference switch is in the Usually designed as a mechanical switch that when special is reached  Positions of the lifting device is actuated. For example, the lower one End position and / or the upper end position of the lifting device with one Reference switch must be provided, since special intervention in the Control of the truck, e.g. B. an automatic shutdown of the linear drive, occur. The output signal of a reference switch can be used simultaneously with the Output signals of the continuously working sensors are compared. Incorrect measurements or faults, for an arrangement with a pulley z. B. a broken rope, can be recognized immediately.

For this purpose, the reference switch is operatively connected to the electronic control, which is designed in such a way that the measured value of at least one sensor with the Switch position of the reference switch is continuously compared.

It is useful if the device for detecting the lifting height with a Indicator for the lifting height is in operative connection. With the Display device the operator is adjusting certain lifting heights, the z. B. are given by shelves, facilitated.

It is also appropriate if the device for detecting the lifting height with a Drive control of the truck is operatively connected. The lift signal can be recorded, evaluated and / or saved by the drive control. In addition, certain operating parameters of the truck in Depending on the lifting height can be changed by the drive control.

It is possible that the drive control Acceleration behavior and / or the braking behavior of a thrust device for the load can be influenced depending on the current lifting height. The Pushing device enables a load to be moved in the horizontal direction, relative to a vehicle frame of the industrial truck. The function of the The thrust device is influenced in such a way that the maximum Acceleration and the maximum deceleration of the load can be reduced. hereby can swing an extended mast due to inertia forces Load and the load suspension device are at least approximately avoided.  

The same advantage is achieved if the Acceleration behavior and / or the braking behavior of a swivel device for the load can be influenced depending on the current lifting height. With the Swivel device can transfer the load relative to a mast around a vertical axis be pivoted. By reducing the maximum acceleration and the maximum deceleration of the swivel device can increase with increasing lifting height the mass forces that occur are also reduced.

If at least two lifting devices can be operated independently of one another are provided, there are special advantages if one for each lifting device Device for detecting the lifting height is provided. Two from each other independent hoists are often available on high rack trucks, with a so-called additional hoist by means of a side thruster and one Swivel device is fastened to a lifting frame. For the display of the absolute lifting height can be that of the two independent devices for Record the lifting height of the mast and the additional lifting unit be added.

Further advantages and details of the invention are based on the in the schematic figures illustrated embodiment explained in more detail. It shows

Fig. 1 shows an inventive industrial truck,

Fig. 2 is a block diagram of the device for determining the lifting height.

Fig. 1 shows a schematically illustrated according to the invention the truck, which stands up with four wheels 1 on a pavement 2. The industrial truck has a lifting frame 3 , on which a driver's cab 4 is movably guided in the vertical direction 5 . At the driver's stand 4 is a Zusatzhubvorrichtung 6 is attached on which a load-receiving means is mounted movable in the vertical direction 8. 7

In the present exemplary embodiment, a device for detecting the lifting height comprises a rope 10 that can be wound on a rope pulley 9 . In the present exemplary embodiment, the rope pulley 9 is arranged on the driver's station 4 , while the other end of the rope is fastened to a part of the industrial truck that cannot move in height. However, a reverse arrangement is also possible. The rope pulley 9 is equipped with a return spring which always holds the rope 10 in a tensioned state. Two independent sensors are driven by the pulley 9 . A first sensor is formed by an incremental sensor 11 which is coupled directly to the pulley 9 . The second transmitter is a potentiometer 12 , which is connected to the cable pulley 9 by means of an intermediate gear 13 . The gear 13 ensures that the maximum angle of rotation of the potentiometer 12 corresponds to the maximum travel distance of the driver's cab 4 . The lift height of the driver's cab 4 can be measured practically infinitely with both sensors. A malfunction of one of the two sensors can be determined at any time by comparing the output signals.

In addition, a reference switch 14 is provided which can be actuated by a switching cam 15 which is not adjustable in height. The reference switch 14 , which is actuated when the driver's cab 4 is in the lowest position, is required before the truck is started up for the first time in order to adjust the continuously measuring device for detecting the lifting height. Furthermore, the reference switch 14 can be used, for example, to detect a break in the rope 10 when the rope 10 is completely wound on the rope pulley 9 , but the reference switch 14 is not actuated due to the raised driver's cab 4 .

Fig. 2 shows a block diagram of the device for detecting the lifting height of the industrial truck. Shown is the first incremental encoder 11 for detecting the lifting height of the driver's cab 4 , and a second incremental encoder 16 with which the lifting height of the additional lifting device 6 (see FIG. 1) is measured. Both incremental encoders 11 , 16 are connected to a programmable controller 17 . The potentiometer 12 and the reference switch 14 are also connected to the controller 17 . The output signals of the incremental encoder 11 , the potentiometer 12 and the reference switch 14 are checked by the controller 17 for mutual plausibility. If the output signals do not match, an error is signaled by the control and appropriate safety measures are initiated. The control 17 comprises an electronic memory in which the pulse numbers generated by the incremental encoders 11 , 16 remain stored even after an interruption in the power supply. As a result, no reference runs are required to adjust the incremental encoders 11 , 16 after the truck is switched on.

A first output signal of the control 17 is fed to a display device 18 , the lift heights for the mast 3 and the additional lift device 6 determined with the incremental sensors 11 and 16 being added for the display device. A second output signal from the control 17 is fed to a drive control 19 of the industrial truck, in the present exemplary embodiment this second output signal exclusively representing the lifting height of the mast 3 . However, it would also be possible to supply the drive control 19 with the sum of the lifting heights of several lifting devices.

The drive control 19 and possibly also a feed drive and / or a swivel drive for the load suspension device 7 ( FIG. 1) can be influenced as a function of the lifting height with the drive control 19 . Basically, the acceleration and deceleration values of the industrial truck or the load handling device 7 are reduced as the lifting height increases.

Claims (16)

1. Industrial truck with at least one lifting device and a device for detecting the lifting height of the lifting device, characterized in that the device for detecting the lifting height is designed such that at least two sensors continuously record the lifting height and deliver independent output signals. 2. Industrial truck according to claim 1, characterized in that at least one transducer is formed by an incremental encoder ( 11 ). 3. Industrial truck according to claim 1 or 2, characterized in that at least one transmitter is formed by a potentiometer ( 12 ). 4. Industrial truck according to one of claims 1 to 3, characterized in that the sensors via a common mechanical drive element with the Operate the lifting device. 5. Industrial truck according to claim 4, characterized in that the Drive element is formed by a cable. 6. Industrial truck according to claim 4, characterized in that the Drive element is formed by a wheel rolling on a component. 7. Industrial truck according to one of claims 2 to 6, characterized in that the measuring transducer designed as an incremental encoder ( 11 ) is connected to an electronic memory in such a way that a variable which is dependent on the instantaneous lifting height is continuously stored in the electronic memory. 8. Industrial truck according to claim 7, characterized in that the electronic Memory is designed so that the stored size regardless of the Supply of the memory with electrical energy is maintained.   9. Industrial truck according to one of claims 1 to 8, characterized in that the sensors are in active connection with an electronic control, which is designed such that the measured values of the two sensors be continuously compared. 10. Industrial truck according to one of claims 1 to 9, characterized in that at least one reference switch ( 14 ) is provided which changes its switching position when a certain lifting height is reached. 11. Industrial truck according to claim 10, characterized in that the reference switch ( 14 ) is in operative connection with the electronic control, which is designed such that the measured value of at least one transmitter is continuously compared with the switching position of the reference switch ( 14 ). 12. Industrial truck according to one of claims 1 to 11, characterized in that the device for detecting the lifting height is operatively connected to a display device ( 18 ) for the lifting height. 13. Industrial truck according to one of claims 1 to 12, characterized in that the device for detecting the lifting height is operatively connected to a drive control ( 19 ) of the industrial truck. 14. Industrial truck according to claim 13, characterized in that the acceleration behavior and / or the braking behavior of a pushing device for the load can be influenced as a function of the current lifting height by means of the drive control ( 19 ). 15. Industrial truck according to claim 13 or 14, characterized in that the acceleration behavior and / or the braking behavior of a swiveling device for the load can be influenced as a function of the instantaneous lifting height by means of the drive control ( 19 ). 16. Industrial truck according to one of claims 1 to 15, characterized in that at least two lifting devices which can be actuated independently of one another  are provided and for each lifting device a device for detecting the Lifting height is provided.