DE19624308A1 - Method for operating an industrial truck and industrial truck for carrying out the method - Google Patents

Description

The invention relates to a method for operating an industrial truck at least one brakeable axle and at least one non-brakeable axle, and a control unit for a drive of the industrial truck, the Control unit a variable, the permissible maximum speed of the Truck generating control signal generated. However, the invention also relates to a Industrial truck provided with at least one for carrying out the method brakeable axle and at least one non-brakeable axle and one Control unit for generating a variable, the permissible Maximum speed of the control signal defining the truck.

When designing brakes for industrial trucks there are a number of regulations and standards to be observed, in which minimum requirements for the effectiveness of the Brakes are set. The braking distance achievable with maximum braking force is at Industrial trucks, especially for trucks with masts such. B. High-bay stackers, the current driving speed and numerous depending on other factors.

In the case of industrial trucks of the prior art, it is known the maximum permissible Driving speed depending on one or more of these factors by means of a control unit at any time to the current operating conditions adapt. Currently known control devices are able, for example, the steering angle, the weight of a raised load and / or the position of one vertically movable load suspension device in determining the moment allowable maximum speed. It is aimed at The greatest possible compliance with the applicable standards and regulations at all times allow maximum driving speed.

Measurements and tests have shown that the braking distance from Generic industrial trucks, apart from the factors mentioned above, too from the current direction of travel, d. H. Forward or backward travel, depending is.  

The present invention has for its object a method for operating of an industrial truck and an industrial truck for carrying out the method for To provide what the influence of the current direction of travel at Determination of the permissible driving speed is taken into account.

This object is achieved with respect to the method in that the control signal by means of the control unit as a function of the direction of travel of the Truck is changed so that when driving in the direction of the braked Axis a higher maximum speed is permitted than when traveling in the direction the unstoppable axle.

The maximum achievable braking acceleration is usually for industrial trucks reached when the arranged on the braked wheels wheels due to applied brakes at least approximately sliding over the surface of the road move. The braking acceleration is directly proportional to that via the wheels normal force acting on the road surface of the braked axle. By the center of gravity of the truck spaced from the road surface and the inertia force that arises when the truck brakes is changed the magnitude of the normal force acting on the braked axle during the Braking. It is during a braking from a drive in the direction of braked axle puts additional load on the braked axle. The same applies to braking from a drive in the direction of the non-brakeable axis Brake axle relieved.

For this reason, there is a larger one when driving in the direction of the brakeable axis Braking acceleration achievable than when driving in the direction of the non-braked Axis. Accordingly, according to the invention when driving in the direction of the brakeable axis a higher maximum speed is permitted than when driving in the direction of not brakeable axle, whereby previously required safety reserves have been exhausted will.

In this way, the permissible for forward travel and for reverse travel Maximum speed set as high as possible. It is ensured that a braking effect corresponding to the standards is guaranteed at all times.

An advantageous development of the invention is that the control signal in Dependence on the mass of one with a load suspension device  load is changed. The mass of the load taken up represents one another important variable that is used in determining the maximum Driving speed must be taken into account. It also changes through the Load the center of gravity of the entire industrial truck. Depends on the mass of the load on the one hand the achievable braking effect, on the other hand also the driving stability of the Truck.

Furthermore, it is expedient if the control signal is dependent on the position a load lifting device that can be moved up and down on a lifting device is changed. The difference in braking effect described above Forward and backward travel increases with increasing center of gravity of the Industrial truck and thus when lifting the load suspension device with or without load.

A particularly advantageous development of the invention is that Control signal depending on the between the wheels of the braked Axis and the road surface prevailing coefficient of friction is influenced. If the currently existing coefficient of friction in the calculation of the permissible Up to now, maximum speed is also possible with regard to this aspect Existing safety reserves are exhausted and the speed limit values as high as possible. The expected coefficient of friction can be the Control unit taking into account the condition of the road by hand be specified. It is also possible to analyze the coefficient of friction to determine empirically from previous braking.

With regard to the industrial truck provided for carrying out the method Carrying out the method, the object set is achieved in that the control unit with the current direction of travel of the industrial truck reproducing signal transmitter is so operatively connected that when driving in the direction the braked axle has a higher maximum speed than that of Travel in the direction of the non-brakeable axis.

Advantageous further developments for this go from the subordinate claims forth.

Further advantages and refinements of the invention are shown in the schematic figure illustrated embodiment explained in more detail.  

The figure shows an industrial truck according to the invention High rack order picker.

In a drive part 1 there are, for example, drive units and batteries for driving the industrial truck. The industrial truck has a brakeable drive axle 2 and two non-brakeable axles 3 . A lifting device 4 is arranged on the drive part 1 of the industrial truck, on which a driver's station 5 is fastened with a load suspension device 6 so that it can be moved up and down. The load suspension device is fastened to the driver's cab 5 in a vertically movable manner with an initial lifting frame 7 .

The position of the center of gravity S _{m of} the industrial truck including the load changes continuously during the operation of the industrial truck and is particularly dependent on the position of the load handler on the lifting frame and the mass of the load taken up by the load handler. The center of gravity S _m shown in the figure is reached during operation of the industrial truck with a raised load.

When the industrial truck is braked with a braking acceleration a while traveling in direction v, an inertial force F opposing the direction of braking acceleration a acts on the center of gravity S _m . As a result of this inertial force, which is supported on the road surface 8 via the wheel base y, the normal force A _R between the braked axle 2 and the road surface 8 increases in this exemplary embodiment. In the other case, the normal force A _R acting on the braked axle 2 decreases when the truck is braked from driving in the opposite direction to v.

The maximum achievable braking acceleration a is calculated depending on the direction of travel as follows:
A _RO : normal force between the road and the brakeable axle when the truck is stationary
µ: coefficient of friction
m: total mass of the truck including load
(-): when the truck brakes while driving in the direction of v
(+): When the truck brakes while driving in the opposite direction to v.

Proceeding from this, a control unit (not shown) is used to travel in Direction v a larger limit value for the maximum driving speed is given, than for a trip in the opposite direction. Thus, if the Standards and regulations achieve the greatest possible driving speed.

Claims (8)

1. A method of operating an industrial truck having at least one brakeable axle (2) and at least one non-brakeable axle (3), and a control unit for a traction drive of the industrial truck, wherein the control unit generates a variable, the maximum permissible speed of the industrial truck fixed Understanding control signal, characterized characterized in that the control signal is changed by the control unit as a function of the direction of travel of the industrial truck in such a way that a higher maximum speed is permitted when traveling in the direction of the brakeable axis ( 2 ) than when traveling in the direction of the non-brakeable axis ( 3 ). 2. A method of operating an industrial truck according to claim 1, characterized in that the control signal is changed as a function of the mass of a load picked up by a load suspension device ( 6 ). 3. A method of operating an industrial truck according to claim 1 or 2, characterized in that the control signal in dependence on the position a up to a lifting device (4) and down movable load bearing device (6) is changed. 4. A method for operating an industrial truck according to one of claims 1 to 3, characterized in that the control signal is influenced as a function of the friction coefficient (µ) prevailing between the wheels of the brakeable axle ( 2 ) and the road surface ( 8 ). 5. industrial truck with at least one braked axle ( 2 ) and at least one non-braked axle ( 3 ) and a control unit for generating a variable control signal which determines the maximum permissible speed of the industrial truck, characterized in that the control unit with a reflecting the current driving direction of the industrial truck The signal transmitter is operatively connected in such a way that a higher maximum speed is permitted when traveling in the direction of the braked axle ( 2 ) than when traveling in the direction of the non-braked axle ( 3 ). 6. Industrial truck according to claim 5, characterized in that the control unit is in operative connection with a signal reproducing the mass of a load pickup device ( 6 ) received load. 7. Industrial truck according to claim 5 or 6, characterized in that the control unit is in operative connection with a position sensor on a lifting device ( 4 ) that can be moved up and down by the load receiving device ( 6 ). 8. Industrial truck according to one of claims 5 to 7, characterized in that the control unit with a prevailing between the wheels of the braked axle ( 2 ) and the road surface ( 8 ) prevailing coefficient of friction (µ) reproducing signal transmitter is in operative connection.