DE3711239A1 - Device for securing movable loading devices (chargers) - Google Patents

Abstract

In order to detect impermissible operating states of movable loading devices, pressure- or strain-measuring devices (18) which are arranged on a carriageway and describe the loading of the wheels (17) or the chassis are arranged near the support points of the movable device. The measured values are fed to a programmable processor or microprocessor (12) which determines the centroid of the point of action of the load. If, in addition, for example via an angular position transmitter (21), the pivoting position of a jib arm (20) is known, the centroid can be adjusted into an operationally reliable position directly by raising or lowering such a jib arm (20). An impermissible loading which could cause tilting can be displayed by a display device (15) (Fig. 3). <IMAGE>

Description

The invention relates to a device for Securing mobile chargers, such as wheel loaders, Caterpillar transporters, forklifts or the like, against tipping when Loading and / or moving the load.

Such mobile chargers or vehicles as they for example, of excavators, cranes, bucket wheel excavators and heavy goods vehicles are formed at Procedures as well as when lifting and lowering loads by no means always with the same load and moreover in Depending on the inclination of the support surface or the Position of the load relative to the chassis with different Tipping moments claimed. It is already known the weight a load directly on such a charger record, but by recording the weight the load alone, nothing about the tilt stabilization activity of the vehicle can be stated. From experience In such cases, especially with tower cranes, Although it can be assumed that as long as a maximum permissible weight is not exceeded, the risk of Tilting can be largely excluded. With ver mobile vehicles which are used in the field and even in their respective working positions to the horizontal are positioned at different inclinations, one is sufficient such knowledge of the weight by no means about the danger exclude a tipping.

The invention now aims to get one in time impermissible loading of a vehicle of the type mentioned Kind to recognize in time before tipping the drive appropriate countermeasures, such as a ver push the load onto the bearing surface for the load or To be able to change the position of the vehicle. To  This object is achieved by the device according to the invention tion essentially in that at least three, preferably four pressure and / or strain gauges on the chassis near a support point on the road, especially one Wheel and / or a caterpillar are provided that the Signallei lines of the measuring devices with a freely programmable Switchgear are connected, which consists of the measured values and the previously known distances of the measuring devices the focus position of the vehicle determined with the load and with a specified target value or target value field for the permissible Compares the center of gravity and if one is exceeded maximum permissible deviation of the actual value of the gravity Point position from the target value or leaving the target value field generates a signal. The invention assumes that the evaluation of the measured values of the load at predetermined Points the mathematical determination of the location of the center of gravity enables. The location of the center of gravity plays a role essential role for the stability of the vehicle and a the inadmissible center of gravity determined in this way can immediately for triggering appropriate countermeasures be evaluated. For example, due to Signals from such a freely programmable Rear derailleur when leaving the target value field for the correct Center of gravity are generated, actuators, for example Hydraulic cylinders, servomotors or the like, are operated to the position of the theoretical load application point in the Bring target area. For this purpose, for example in such cases the load can be tilted or shifted.

In a particularly simple manner, the training at Wheeled vehicles must be hit so that the Suspension on the axles of the wheels near the wheels stretching has measuring strips. The signals of such strain gauges can streak over signal lines in a freipro programmable switchgear, for example a micropro processor, are evaluated and inadmissible for the display  Operating states or the immediate rectification of one of the like impermissible operating state.

Vehicles of the type mentioned can one or have multiple chassis, in these cases with Preference is the training so that the or Chassis, especially the crawler chassis, under Interposition of pressure sensors or strain gauges is (are) connected to the base frame of the vehicle. The In these cases, the outlay on equipment is limited to simple setups that exist with existing chargers of the type mentioned can be easily retrofitted can.

For vehicles with abge on the base frame of the vehicle supported hydraulic or pneumatic cylinder pistons units such as those used for mobile lifting platforms or also in the case of hydropneumatic suspensions from Such vehicles can be used for training be taken in a particularly simple manner so that the Base frame of the vehicle via hydraulic or pneuma tables cylinder piston units connected to the chassis is and that to the working spaces of the cylinder piston units Pressure measuring devices are connected. Even in these Cases are retrofitting existing vehicles unproblematic.

The use of a freely programmable rear derailleur allows additional measured values for the Detection of impermissible operating states, which the tipping would increase driving, evaluate and use for controls move. For example, the training for mobile Chargers with swiveling and lifting over cantilever arms cash loads can be taken in a simple manner so that Angular position sensors are connected to the extension arm, whose signal lines with the freely programmable switching mechanism are connected. In addition to the current Be load situation on the pressure sensors and / or strain gauges it is more streaking based on the measured values  Angle position transmitter easily possible, quickly know in which direction a measure appears to make sense, which serves to remedy the impermissible operating state. For example, when swinging a boom upwards poor the overall focus is raised, and the The machine itself stands on an inclined surface In the course of lifting, a point is reached at which the Center of gravity to the outside edge of the vehicle enough, or goes beyond the outer edge of the vehicle. In this case, the projection of the Center of gravity in the vertical direction and with knowledge of exact angular position of the cantilever arm, for example are quickly recognized that the impermissible operating state easily remedied by lowering the loading arm can be.

In addition, the configuration can be such that arranged on the chassis and / or on the base frame inclinometer are, whose signal lines with the freely programmable Rear derailleur are connected. With this additional information tion about the inclination of the chassis or the base frame of the vehicle itself can be seen whether the permissible load range narrows or, if applicable, he continues, this depending on the respective inclination of the ground depends on the frame.

A fully automatic control or elimination is not necessary casual operating conditions becomes easy achieved that the freely programmable switching mechanism via control cables with the lifting or lowering drive for an off low-arm and / or the rotary drive for turning the Cantilever arm around a cutting or the base frame crossing axis is connected.

The invention is described below in the Drawing schematically illustrated embodiments explained in more detail. In this show

Fig. 1 shows a wheel loader on sloping ground in front view,

Fig. 2 shows an arrangement of pressure sensors in hydraulically supported stages of a transport device and

Fig. 3 shows the arrangement of strain gauges on a wheel loader according to FIG. 1.

In Fig. 1, a wheel loader is shown, the wheels of which are designated 1 and the loading shovel of 2 . After the load has been picked up and the extension arms 3 have been lifted, the projection of the center of gravity 5 is located outside the footprint of the wheels 1 due to the sloping terrain shown in FIG. 1, the upper edge of which is designated by 4 . Depending on the extent of the increase, an operating state can be achieved here in which the vehicle is on a heavily inclined roadway with too much load, whereby the resultant vehicle, weight and load exert a tilting moment which either overloads axis 6 or leads to a tipping.

In the case of a transport device with a hydraulically liftable and lowerable platform, as shown in FIG. 2, loads are raised or lowered on a platform 7 via lifting cylinders 8 . Each of these lifting cylinders 8 has a pressure sensor 10 in its pressure medium line 9 , the signals of which are fed via a signal line 11 to a freely programmable switching mechanism or microprocessor 12 . By measuring the pressures in the hydraulic cylinders and evaluating the measured pressures using a suitable algorithm, the position of the load application point can be determined by calculation. Suitable control information for controlling the hydraulic cylinders can be derived from the determined values for the actual position of the center of gravity.

The signals from the pressure sensors 10 can be evaluated in a simple manner, for example, in such a way that the desired pressures of four lifting cylinders arranged at the corners of a square are defined as follows.

P 1 target = · (3 · P 1 + P 2 - P 3 + P 4 )

P 2 target = · (P 1 + 3 · P 2 + P 3 - P 4 )

P 3 target = (- P 1 + P 2 + 3P 3 + P 4 )

P 4 target = · (P 1 - P 2 + P 3 + 3 · P 4 )

Pressures to be used in this algorithm on the right-hand side of the equations accordingly correspond to the actual values, this algorithm assuming that the sum P 1 + P 2 + P 3 + P 4 corresponds to the weight of the load. Of course, with correspondingly heavy support platforms, appropriate compensation must be made with regard to the weight of the plate supported on the lifting cylinder.

The calculation of the actual position of the center of gravity can be carried out in a simple manner so that an essentially square support surface is divided into four quadrants by the diagonals connecting the lifting cylinders arranged at the corners of the square. Starting from the center of a Cartesian coordinate system spanned in this way and under the condition that the half diagonal, which connects two opposing punches or lifting cylinders, is designated with a , the following relationship results with the intersection of the diagonals as the origin of the coordinate system the x and y values of the position of the center of gravity.

Because of such simple relationships, the Determine the actual position of the center of gravity, and in the case of the over matching this actual position with a predetermined setpoint field, for the center of gravity target pressures for the define individual lifting cylinders, as in the ge above named four relationships for the target pressures of each Lift cylinder is specified.

It follows that, if the load application point is outside a predetermined range, the platform can be tilted about a suitable axis by a certain value, after which the new position is checked. If the load application point is still outside the target range in these cases, another tilt axis is selected again and this process is continued until the load application point is in the target range. If the load application point is within a predetermined range, the uniform or permitted loading of the device is achieved in that the pressures in the individual cylinders are measured, that the pressures are compared with minimum and maximum values, and one of the cylinders has a minimum pressure falls below, this is applied until a predetermined load-dependent target value is reached. If a lifting cylinder 8 has exceeded a maximum pressure, it can be reduced until a predetermined, also load-dependent, setpoint value is reached.

To control this correct setting of the platform 7 , control lines 13 are connected to solenoid valves 14 in the hydraulic lines of the cylinders 8 . In addition, a display device 15 can be provided, which makes an inadmissible operating state clearly visible.

For monitoring the operational safety or tipping stability of a wheel loader according to FIG. 3, strain gauges 18 are arranged on the axles 16 near the wheels 17 , the signals of which are supplied via signal lines 19 to the freely programmable switching mechanism or the microprocessor 12 . In addition, the position of the cantilever arm 20 can be detected via an angular position transmitter 21 and a signal line 22 can be provided, which is connected to the microprocessor 12 . With 15 , the display device is again designated. Based on the measured values of the individual strain gauges 18 , the load on the wheels can be determined and, in turn, the position of the load application point can be calculated. Again, the general relationships given for the evaluation of the pressure measurements in a hydraulically raised and lowered platform according to FIG. 2 essentially apply.

Claims (7)

1. A device for securing movable Ladegerä th, such as wheel loaders, caterpillar transporters, forklifts or the like, against tipping when loading and / or moving the load, characterized in that at least three, preferably four, pressure and / or strain gauges ( 10 , 18 ) on the chassis near a support point on the road, in particular a wheel ( 1 , 17 ) and / or a caterpillar, are easily seen that the signal lines ( 11 , 19 ) of the measuring devices with a freely programmable switching mechanism ( 12 ) ver are bound, which determines the center of gravity ( 5 ) of the vehicle with the load from the measured values and the known distances between the measuring devices ( 10 , 18 ) and compares it with a predetermined target value or target value field for the permissible center of gravity and if a maximum is exceeded permissible deviation of the actual value of the center of gravity from the target value or leaving the target value field generates a signal. 2. Device according to claim 1, characterized in that the chassis on the axes ( 16 ) of the wheels ( 17 ) near the wheels strain gauges ( 18 ). 3. Device according to claim 1 or 2, characterized in that the or the chassis, in particular the crawler chassis, with the interposition of pressure sensors ( 10 ) or strain gauges ( 18 ) is (are) connected to the base frame of the vehicle. 4. Device according to claim 1, 2 or 3, characterized in that the base frame of the vehicle via hydraulic or pneumatic cylinder piston units ( 8 ) is connected to the chassis and that pressure measuring devices ( 10 ) are connected to the working spaces of the cylinder piston units ( 8 ). 5. Device according to one of claims 1 to 4, characterized in that, when mobile chargers with about from casual arms (20) pivotable and liftable loads angle position transmitter (21) connected to the cantilever arm (20) whose signal lines (22) with the freely programmable switchgear are connected. 6. Device according to one of claims 1 to 5, characterized characterized in that on the chassis and / or on the base frame Inclinometers are arranged, the signal lines with the freely programmable switchgear are connected. 7. Device according to one of claims 1 to 6, characterized in that the freely programmable switching mechanism ( 12 ) via control lines ( 13 ) with the lifting or lowering drive ( 8 ) for a cantilever arm and / or the rotary drive for rotating the cantilever arm an axis intersecting or crossing the base frame is connected.