Motor vehicles – Steered by walking attendant – Handle movement controls vehicle drive
Reexamination Certificate
2002-06-07
2004-08-17
Morris, Lesley D. (Department: 3611)
Motor vehicles
Steered by walking attendant
Handle movement controls vehicle drive
Reexamination Certificate
active
06776249
ABSTRACT:
CROSS-REFERENCE TO RELATED APPLICATION
This application claims priority to German Application No. DE 101 27 905.1, filed Jun. 8, 2001, and herein incorporated by reference in its entirety.
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to an industrial truck with a tiller that can pivot around a horizontal axis and a traction drive motor that can be controlled by an operator by means of a traction drive switch, wherein the maximum speed of travel of the industrial truck can be set by means of an electrical control unit as a function of the pivot angle of the tiller.
2. Technical Considerations
Industrial trucks of the type described above are frequently in the form of electrically driven pallet trucks or high-lift trucks that are operated in the “walk-along” mode. A drive wheel on the industrial truck is connected with the tiller directly or indirectly, so that the industrial truck can be steered by rotating the tiller around a vertical axis.
To actuate the various functions of the industrial truck, in particular the traction drive, the tiller is pivoted downwardly, starting from an at least approximately vertical “off” position.
On known industrial trucks, the traction drive switches, which are generally located in the vicinity of the tiller head, are generally active only when the tiller is pivoted into a normal traction segment. When the tiller is above or below this normal traction segment in a braking segment, the traction drive motor cannot be operated and the industrial truck is braked automatically.
For example, DE 44 08 775 C2 describes a generic industrial truck in which the traction drive motor can be actuated when the tiller is outside the normal traction segment. Operation of the traction drive motor is thereby also possible when the tiller is approximately vertical, so that the operator can stand a very short distance from the industrial truck even when the traction drive motor is turned on. To avoid any excessive danger for the operator, the maximum speed of the industrial truck is reduced for traction operation with the tiller outside the normal traction segment. In the object of DE 44 08 775 C2, this reduction of the maximum speed occurs automatically, as soon as the tiller is pivoted upwardly beyond the normal traction segment.
In the object of DE 196 12 603 C1, the maximum speed of an industrial truck steered by a tiller can be reduced by actuating a special traction switch, whereby simultaneously travel becomes possible in those segments of the pivoting range of the tiller which form the braking segments when the special traction switch is not actuated.
In the two solutions described above, there are a normal value and a reduced value for the maximum speed of the industrial truck. When there is a transition from the normal value to the reduced value, this change in speed can result in a sudden and, therefore, undesirable deceleration of the industrial truck. In an analogous fashion, during the transition from the reduced value to the normal value, there is a sudden acceleration of the industrial truck, which can surprise the operator of the industrial truck and, thus, pose a hazard.
An object of the invention is, therefore, to provide an industrial truck of the general type described above but in which a sudden and jerky deceleration or acceleration as a result of a change of the maximum speed of travel can be avoided.
SUMMARY OF THE INVENTION
The invention teaches that this object can be achieved by making the maximum speed of travel of the industrial truck a function of the pivoting angle of the tiller. At least one segment of the pivoting range of the tiller can be provided with a variable maximum speed, in which the maximum speed of travel varies continuously with the pivoting angle. In the above-mentioned segment with variable maximum speed, the maximum speed can be continuously adjusted to the pivoting angle of the tiller. In one embodiment, the farther upward the tiller is pivoted, the more the maximum speed of travel is reduced. The change in the maximum speed, therefore, occurs continuously, so that there is no sudden or jerky acceleration or deceleration of the industrial truck. The continuous variation of the maximum speed of travel can thereby occur continuously or in small graduations.
In one configuration of the invention, the segment with variable maximum speed can be adjacent to an upper end of the pivoting range of the tiller. On the upper end of this segment, the maximum speed can be at least approximately zero, and increases continuously during a downward pivoting of the tiller. Traction operation is thereby possible, although at very low speed, even when the tiller is in an almost vertical extreme position.
It is, likewise, possible that the segment with variable maximum speed is adjacent on an upper end to an upper braking segment, whereby when the tiller is in the upper braking segment, a braking device of the industrial truck is actuated automatically. Between the segment with variable maximum speed and the extreme vertical position of the tiller, there is, therefore, an upper braking segment in which no traction operation is possible. The safety of the industrial truck can thereby be increased with respect to the configuration described above which does not have an upper braking segment. Compared to a generic industrial truck of the prior art, however, the upper braking segment can be made smaller, because the adjacent segment with variable maximum speed offers an additional safety margin.
On the other end of the pivoting range of the tiller, in which the tiller is at least approximately horizontal, the segment with variable maximum speed can be adjacent, in accordance with a first embodiment of the invention, to a lower end of the pivoting range of the tiller.
In a second embodiment, the segment with variable maximum speed can be adjacent on a lower end to a lower braking segment, whereby when the tiller is in the lower braking segment, a braking device of the industrial truck is actuated automatically.
It is further possible for the segment with variable maximum speed to be adjacent, e.g., on an upper end, to a normal traction segment, whereby when the tiller is in the normal traction segment, the maximum speed of travel is set to a constant maximum value. In the normal traction range, therefore, basically the maximum speed of travel that can be allowably achieved as a result of the design of the industrial truck is available and is not changed even by pivoting the tiller inside the normal traction segment.
In one advantageous embodiment of the invention, the pivot angle of the tiller is detected at least in the segment with variable maximum speed by means of at least one continuous or incremental sensor. The sensor can be connected on the output side with the electrical control unit of the industrial truck which automatically sets the maximum speed corresponding to the current angle of the tiller. To achieve a redundant signal, two sensors that are independent of each other can be provided, for example two potentiometers or one potentiometer and one incremental sensor.
In one particularly simple and flexible arrangement, the pivoting angle inside the normal traction segment can be detected by means of the same continuous or incremental sensor. The same sensor is, therefore, used for the segment with variable maximum speed and the normal traction segment.
It is, likewise, advantageous if the pivot angle is detected in at least one braking segment by means of the same continuous or incremental sensor as in the segment with variable maximum speed, and in the normal traction segment as necessary.
It is particularly advantageous if the division of the pivoting range of the tiller into the segment with variable maximum speed and at least one additional segment by means of the control unit is made exclusively as a function of the signal of the at least one continuous or incremental sensor. The division of the pivoting range of the tiller into different segments can be made in the control unit by correspondi
Morris Lesley D.
Still & Saxby S.A.R.L.
Webb Ziesenheim & Logsdon Orkin & Hanson, P.C.
Winner Tony
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