Industrial truck with a tilt prevention mechanism

Data processing: vehicles – navigation – and relative location – Vehicle control – guidance – operation – or indication – Construction or agricultural-type vehicle

Reexamination Certificate

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Details

C340S440000

Reexamination Certificate

active

06385518

ABSTRACT:

CROSS-REFERENCE TO RELATED APPLICATIONS
Not Applicable
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH
Not Applicable
BACKGROUND OF THE INVENTION
The invention relates to an industrial truck, particularly a fork-lift truck.
When industrial trucks are operated, stability problems might occur depending on their load and design types, which are provoked by static and dynamic causes.
In fork-lift trucks, the centre of gravity is naturally outside the wheel contact surface. The position of the centre of gravity varies depending on the magnitude of load. In an extreme case, it will shift beyond the load-side tilting edge, which causes the vehicle to turn over. If the centre of gravity of the load being received is offset sidewards relative to the longitudinal axis of the vehicle the centre of gravity of the whole system will be displaced towards the lateral edge of the wheel contact surface and will pass beyond it in an extreme case. This will then result in the vehicle tilting sidewards.
Many industrial trucks are fitted with load manipulation means by which the position of the load may be varied after a load is received. Thus, telescopable, inclinable, displaceable, and pivotable lifting devices are known for industrial trucks. When such load positioning devices are actuated to position the load the position of the load centre and, hence, the position of the overall centre of gravity of the industrial truck may be shifted in any spatial direction. In an extreme case, this may cause the projection of the overall centre of gravity onto the wheel contact plane to pass beyond the limiting lines of the wheel contact surface of the vehicle at any places, which again will result in an instability of the vehicle.
In addition to an unintentional displacement of the centre of load, which implies the consequences described, a shift of the centre of gravity may also be caused by extreme deformations of vehicle components or the load manipulation means. Finally, a reason why static stability problems exist can be that the vehicle is on an inclined plane. Even here, the projection of the overall centre of gravity on the wheel contact plane will possibly leave the wheel contact surface at any limiting line in the direction of weight forces.
As a dynamic cause of stability problems in industrial trucks which requires to be mentioned first is that the industrial truck is strongly slowed down oder sped up. It is not the position of the centre of gravity relative to the wheel contact surface of the vehicle which is varied here, but the inertia forces acting on the mass centre of gravity of the system cause a tilting moment that counteracts the contact restoring moment by their lever arm of force towards the wheel contact surface of the vehicle. When the tilting moment exceeds the magnitude of the contact restoring moment this will result in instability again and cause the vehicle to tilt. According to the same mechanism, when the vehicle takes corners or bends an instability of the vehicle will occur due to the centrifugal force acting onto the system centre of gravity. Moreover, an instability of the industrial truck may also be caused by vertical acceleration bumps at the load masses.
Of course, efforts are being made to detect the instable conditions of the industrial truck which are described and to draw the operator's attention to the critical situation by means of an alarm. From the Disclosed Patent Specification DE 3203553, it is known to associate the hydraulic circuit of the lift cylinder in industrial trucks with a sensor which determines the pressure and the magnitude of load, via this pressure. Naturally, the centre of gravity depends upon the height of load. From Patent Specification DE 4021984, it has further become known, apart from including pressure sensors in the hydraulic circuit, to incorporate sensors for detecting the inclination of the lift frame and for detecting the height of the load-receiving means in a tilt prevention system.
It is further known from EP 0 465 838, which claims priority from DE 4021984 to sense the relative motion between a rear axle assembly and the vehicle frame of the industrial truck so as to detect, in this way, that the vehicle is beginning to tilt about its front axle. Although this involves that the chassis structure becomes expensive it is natural that only an instability with respect to one tilting edge may be detected.
An industrial truck having a supervision means for its load condition has become known from EP 0 483 493. A measuring device operating, for example, by means of strain gauges receives vertical bearing forces and horizontal bearing forces occurring parallel to the vehicle's longitudinal axis. The measuring device is in communication with a measured-data computing unit which is connected to a load condition indicator. The system which is known helps determine loads acting onto the industrial truck from outside, e.g. the mass of the load being lifted, the moment of the load being lifted etc. and the actual constellation of the vehicle, e.g. its lifting height, pole inclination etc., and helps establish the critical conditions by means of such data. Since, however, there are many causes which may be accountable as causes of vehicle instability the way of overload detection requires that a multiplicity of status data of the industrial truck should be sensed and supervised.
From EP 0 873 893, it is known to additionally detect dynamic conditions such as the running speed and the steering angle of the vehicle in order to identify dynamic instability situations as well. Even this requires that a multiplicity of date be acquired and processed with a view to obtaining the safety effect desired.
It is the object of the invention to provide an industrial truck having a tilt prevention device which is particularly simple in design and will reliably detect the various instable conditions of the vehicle.
BRIEF SUMMARY OF THE INVENTION
The invention relies on the finding that any kind of instability is characterized in that the vertical response forces of one or more wheels of the industrial truck become zero. Therefore, the invention associates at least one wheel with a wheel load sensor the signals of which are provided to a comparing device and which emits an alarm signal when the wheel loads measured fall below a preset lower limit.
It is completely insignificant for the invention which causes are decisive for a real or beginning instability. What is finally decisive for the invention is that such instability be identified and it be established in time that the vehicle is nearing an instable condition. The invention not only identifies static instabilities, but also dynamic ones and even those which are provoked by an inclination of the wheel contact surface.
The operator of the industrial truck may be warned in time because an alarm signal is emitted. However, it is also imaginable to act on one or more functions of the industrial truck, namely, the height of the load, the steering turn, the speed of the vehicle, the inclination of the pole, the displacement of the load-receiving means in the direction of the longitudinal axis and/or even transversely thereto, the height adjusted for one or more shock absorbers and the like. In some cases, the industrial trucks may also be provided with a stabilization device with the aid of which the instable condition is counteracted. This device may also be activated in an appropriate way to prevent the vehicle from tilting.
It may be insufficient sometimes to detect by a certain single value that the wheel load is getting close to zero because a shift of the centre of gravity is often very quick so that counteractions cannot be initiated any more or have no effect any more. Therefore, in an aspect of the invention, it is advantageous that the gradient of the wheel load values measured are compared to a stored setpoint to detect that there is an undesirable approach to the limit or the limit is exceeded or there is a drop below it. During a transient detection and evaluation of the vertical wh

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