EP0321789A1 - Level compensation controlling device for a work implement, particularly for a mobile extensible fire service turntable ladder - Google Patents

Abstract

A device (1) for controlling level compensation, in particular on a mobile extensible fire service turntable ladder (2), is provided with an analogically operating inclination sensor (5) on the upper implement superstructure (4). In an operating position of an undercarriage (3), which is in particular positioned at an angle, of the fire service turntable ladder (2), the value of the inclination sensor (5) is stored before adjustment of the vertical of the implement superstructure (4). After a control process which moves the implement superstructure (4) into the vertical, the stored value is used again as return control variable in order to return the vertical implement superstructure (4) into its starting position parallel to the undercarriage (3). <IMAGE>

Description

The invention relates to a device for controlling the level compensation of an implement with a base frame and a device structure connected to it rotatably and pivotably for the purpose of setting a vertical of the device structure when the base frame comes into contact with the base in an inclined position, in particular a movable height-adjustable fire escape, according to the preamble of claim 1.

Known devices for level regulation of the vertical axis of the device structure of work equipment, in particular fire ladder ladders, work with inclination sensors for the vertical control of the structure and for position feedback with two switches for parallel placement or return with regard to the position of the base (see DE-AS 2 036 559 , EP 00 63 709). According to EP 00 63 709, practically after ongoing measurement of the vehicle inclination in two mutually perpendicular directions by means of sensors known per se, a theoretical prediction of the misalignment correction speed in combination with the swiveling speed of the ladder and then a corresponding implementation of the misalignment correction is carried out via known ones Proportional valves. Optionally, after the actual misalignment has been measured, a further correction of the misalignment correction speed can be carried out using a sensor which is obviously attached to the ladder and is known per se. Such a control device is evidently relatively complex and comparatively prone to failure.

Starting from the aforementioned prior art, it is an object of the invention to provide a device for controlling the level compensation of an implement of the type mentioned at the outset, which is of simple construction and can be operated with great operational reliability.

The object on which the invention is based is achieved by the features specified in the characterizing part of claim 1.

The subject of the invention is advantageously further developed by the features of subclaims 2 to 7.

In particular, the value of the inclination sensor is stored in a commissioning position of the implement, which is normally positioned at an angle, before setting the vertical of the implement, and after a control operation of the implement, the value of the incline is stored, in which the control device uses current values of the inclined sensor as compared to the zero value of the sensor Control variable works, for the purpose of returning the device structure from the vertical to its starting position, the stored value is used as the return control variable.

Appropriately, the inclination sensor detects the maximum inclined position of the implement that is proportional to the position and direction.

The start-up position of the implement can be determined by reaching a maximum ground support pressure value in hydraulic ground support cylinders of the implement, by which the point in time for storing the value of the inclination sensor is triggered.

Particularly when the implement is in an incorrect commissioning position, the time for storing the value of the inclination sensor can also be triggered by switching on the perpendicular control process of the implement structure, for example by engaging a power take-off to create a replacement variable for a feedback control variable.

A particularly simple construction and reliable control operation result if the inclination sensor is provided in the form of a hydraulically damped pendulum.

However, the inclination sensor can also be provided in the form of a curved electrolyte tube.

The inclination sensor is expediently arranged on the circuit board of an electronic control, for example a microcomputer. In a control program, the microcomputer records the value of the inclination sensor corresponding to the inclined position of the implement, executes the control of the implement structure in the vertical and then uses the stored value of the inclined sensor as a feedback control variable to reset the implement to the starting position (commissioning position) . Known analog or digital memories can be used for storing the values. Obviously, a simple and reliable control device can be created by the invention. In particular, the invention makes it possible to dispense with the switches of the position control provided that the signals for the correction of the misalignment or the feedback are recorded analogously. This simplifies and reduces the effort in terms of material and costs of a generic level compensation control device while at the same time improving operational reliability to a particular degree, if the inclination sensor is also built or mounted together on the electronic control card. In addition to the saving of switches according to the prior art, the invention also saves on cables.

• Fig. 1 in schematischer Heckansicht ein Arbeitsgerät in Form einer fahrbaren höhenverstellbaren Feuerwehr­drehleiter in einer Schräglage des Untergestells bei praktisch lotrechtem Geräteaufbau mit sche­matischer Darstellung des mechanisch hydraulischen Aufbaus der Steuereinrichtung, und
• Fig. 2 ein elektrisches Spannungs-Winkeldiagramm eines Neigungsfühlers gemäß Ausführungsbeispiel nach Fig. 1.

The invention is described below using an exemplary embodiment with reference to the accompanying drawings; show it:

• Fig. 1 shows a schematic rear view of a working device in the form of a mobile height-adjustable fire ladder in an inclined position of the base frame with a practically vertical device structure with a schematic representation of the mechanical-hydraulic structure of the control device, and
• FIG. 2 shows an electrical voltage-angle diagram of an inclination sensor according to the exemplary embodiment according to FIG. 1.

In the drawing, an implement (2) in the form of a mobile fire ladder is shown schematically from behind, which has a base frame (3) which is pivotally and pivotally connected to a device structure (4) in the form of the actual extendable aerial ladder. The device structure (4) can therefore with respect to an obliquely positioned base frame (3), which is supported by lateral floor support cylinders (6), in a commissioning position of the working device (2) by a device (1) for controlling the level compensation in a horizontal position or in a plumb line is set and returned to the starting position. The hydraulic floor support cylinders (6) are connected to a hydraulic pressure switch (7) in the base frame (3). The hydraulic adjusting means for adjusting the vertical of the device structure (4) or the actual fire brigade aerial ladder are, in particular, hydraulic actuating cylinders (8) which enable the device structure (4) to be pivoted with respect to the base frame (3) about the horizontal pivot axis (9).

An inclination sensor (5), for example in the form of a hydraulically damped pendulum, for detecting the value of an inclined position of the implement structure (4) in the commissioning position of the implement (4) is located on the side of the implement structure (4) which is pivotally and pivotably connected to the base frame (3). 2) and in order to carry out the control process of the device structure (2) in and out of the vertical.

The hydraulic control further comprises a hydraulic valve (10) in the form of a proportional valve which is known per se and which allows the control device (1) to be steplessly regulated. The hydraulic valve (10) is hydraulically connected to the hydraulic actuating cylinders (8), which is connected to the floor support cylinder (6) via a control line. The hydraulic valve (10) can also be designed as a simple three / four-way valve that works more or less black and white with a defined dead zone.

1, the normally slanted base (3) is fixed in its inclined position by extending the floor support cylinder (6), namely by actuating the hydraulic pressure switch (7) of the base. If a maximum support pressure value is reached, the value of the inclined position displayed in the inclination sensor (5) is stored in a microcomputer (11), in particular in known analog or digital memory modules (12) as a feedback variable. The inclination sensor (5) is able to record the maximum possible inclined position of the vehicle.

After the value for the inclined position has been stored, the control device (1) works in permissible working ranges for the plumb control with current values of the inclination sensor (5) in comparison with the zero value of the sensor as a control variable.

If the working device (2) or the vertically positioned device structure (4) is to be returned to its starting position parallel to the base frame (3), which is done automatically or by command by known sensors of the rotating and erecting position when the sensor is brought into operation. the stored feedback value of the inclination sensor (5) delivers the setpoint of the control.

2 shows the electrical voltage angle diagram of an inclination sensor (5) or pendulum. The required output signal must allow a distinction to be made between the two possible swivel directions. With suitable measures, e.g. Feeding the sensor with a positive voltage u₀⁺ and a negative voltage u₀- or by evaluation using a bridge circuit, each side is assigned a polarity. In the diagram of FIG. 2, positive and negative voltages u₀ + and u₀- are plotted over the angular range -α - + α of an inclination sensor.

All new features mentioned in the description and / or shown in the drawing, alone or in a meaningful combination, are essential to the invention, even if they are not expressly claimed in the claims.

Claims (7)

1. Device (1) for controlling the level compensation of a working device (2) with a base frame (3) and a device structure (4) rotatably and pivotably connected thereto for the purpose of setting a vertical of the device structure (4) when the base frame (3) comes into contact with the floor in an inclined position, in particular a working device in the form of a mobile height-adjustable fire brigade ladder, with an analog working inclination sensor (5) attached to the device structure (4),
characterized,
that the value of the inclination sensor (5) is stored in a commissioning position of the working device (2), in particular at an angle, before setting the vertical of the device structure (4), and that after a control process of the device structure (4) into the vertical position, in which the control device (1) works with the current values of the inclination sensor (5) as a control variable in comparison to the zero value of the sensor, for the purpose of returning the device structure (4) from the vertical to its starting position, the stored value is used as a feedback control variable. 2. Control device according to claim 1,
characterized,
that the inclination sensor (5) detects the maximum inclination of the implement (2) proportional to the position and direction. 3. Control device according to claim 1 or 2,
characterized,
that the commissioning position of the implement (2) is determined by reaching a maximum ground support pressure value in hydraulic ground support cylinders (6) of the implement, by which the time for storing the value of the inclination sensor (5) is triggered. 4. Control device according to claim 1 or 2,
characterized,
that the time for storing the value of the inclination sensor (5) is triggered by switching on the perpendicular control process of the device structure (4). 5. Control device according to one of claims 1 to 4,
characterized,
that the inclination sensor (5) is provided in the form of a hydraulically damped pendulum. 6. Control device according to one of claims 1 to 4,
characterized,
that the inclination sensor (5) is provided in the form of a bent electrolyte tube. 7. Control device according to one of claims 1 to 6,
characterized,
that the inclination sensor (5) is arranged on the board of an electronic control.

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