DE3235818A1 - Device for controlling the working depth of a soil-cultivating appliance - Google Patents

Abstract

A device (31) for regulating the working depth of a mounted plough (15), allowing a combined slip and depth regulation, is proposed. A measurement transmitter (35) on a supporting-wheel arrangement (21) forms a position-dependent control variable for the depth regulation, whilst speed transmitters (33, 37) assigned to the sliplessly rotating supporting wheel (17) and the slipping rear wheel (38) of the tractor (10) and located in an electrical control unit (28) produce a slip signal which, when a predetermined desired slip value is exceeded, cuts off the position-dependent working-depth regulation and leads to a slip regulation, in which the slip is reduced by lifting the mounted plough (15). The device (31) of simple construction allows a constant working depth and prevents excessively high slip on the rear wheel (38) of the tractor (10). Changes of working depth during the slip regulation which are caused by the tractor travelling uphill or downhill are compensated by the superposed signals from an inclination sensor. <IMAGE>

Description

3.9.1982 My / Wj

ROBERT 30SCH GM3H, 7000 STUTTGART 1

Device for controlling the working depth of a tillage implement

State of the art

The invention is based on a device for controlling the working depth of a soil cultivation device according to the preamble of the main claim. Such a device is already known from DE-PS 20 Qö 051, in which a tractor pulls a multi-blade plow, at the rear end of which a support wheel is arranged. The operating device is designed as a semi-mounted plow, which can be raised and lowered at its front end with the aid of a hydraulic power lift via lower links and at its rear end via a hydraulic cylinder for the support wheel actuation, so that the plow is in its position parallel to the soil surface during traction control to guide and also to make it adjustable parallel to the floor surface. This device is only suitable for relatively long plows with many shares and is relatively complex. In addition, no slip control is provided here.

Furthermore, DE-OS 26 i + 7 077 is a device known for controlling the working depth of a plow, in which a speed sensor on a slip-prone Wheel and on a non-driven wheel of the tractor the slip is determined and dependent on this Slip signal the working depth of the plow is regulated. In addition, means are provided for this facility when a maximum puncture depth is exceeded of the plow generate signals in the device in terms of reducing the working depth are processed. Although such a slip control is relatively simple, it works on its own Application in practice to unequal working depth when plowing. Furthermore, with such a slip control the disadvantage arise that the working depth of the plow when driving up or down the tractor becomes unequal. No details are given here on the type of plow.

Furthermore, from DE-AS 23 15 ^ 08 a device for Control of the working depth of the plow is known when a tractor is attached to a plow with a rear Support wheel is hinged. With speed sensors on the support wheel and on the rear, driven tractor wheel, the slip is determined here and via electronic memory and processing devices, depending on the determined slip values of a previous operation the rearmost ploughshare may be lifted at the beginning of a new work pass and thus the working width to steer the plow. This device builds relatively complex and shows no depth control, but only teaches the regulation of the working width. Also finds no direct slip during an operation

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regulation takes place. Furthermore, with this device, the influence of uphill and downhill driving of the tractor on the working depth not be taken into account when plowing. Furthermore, with such a mounted plow with a support wheel each different sizes according to the setpoint adjustment from the support wheel Support loads added. This contradicts the sense of the actual regulation, leads to unnecessary relief of the tractor's drive axle and has a rolling resistance of the Stütsrades result.

Advantages of the invention

The device according to the invention for controlling the working depth of a tillage device with the characteristic Features of the main claim has the advantage that it has a relatively simple design as possible allows constant working depth and limits the slip of the drive wheels to a predetermined value. You united the advantages of the previously known solutions largely in itself and enables plowing with high efficiency and protects the tractor engine from overload.

The measures listed in the subclaims are advantageous developments and improvements of the The facility specified in the main claim is possible. This device can be used particularly advantageously, when the soil cultivation device is designed as a mounted plow according to claim 2. In an expedient manner can by training according to claim ^ the influence of an uphill or downhill drive of the tractor on the working depth of the plow can be compensated. Further advantageous refinements result from the remaining claims, the description and the drawing.

drawing

Two embodiments of the invention are shown in the drawing shown and explained in more detail in the following description. FIG. 1 shows a side view Tractor with articulated mounted plow with the device for controlling the working depth of the plow and FIG. 2 shows a second exemplary embodiment in which the influence of uphill and downhill travel of the tractor is compensated for the working depth of the plow.

Description of the exemplary embodiments

FIG. 1 shows a tractor 10 with a three-point linkage 11 fastened to its housing, which can be actuated in the usual way by a hydraulic power lift 12. An attachment plow 15 designed as a reversible plow is connected to an upper link 13 and two lower links lh so that it can be raised and lowered. The mounted plow 15 has a frame 16, at the rear end of which a support wheel 17 is arranged. For this purpose, the support wheel IT is mounted on a pivot lever 18 fastened to the frame 16, which can be adjusted by a hydraulic cylinder 19 ″ connected between the pivot lever 18 and the frame 16. Support wheel 1T ₅ pivot lever 13 and hydraulic cylinder 19 together form the support wheel arrangement 21 A hydraulic motor 22 is arranged on the attachment plow 15 for plow rotation.

The power lift 12, the hydraulic cylinder 19 and the hydraulic motor 22 are connected via hydraulic lines 23, 2k and 25 to an electrohydraulic control device 2β, which is also part of a hydraulic system 27. Via the control system

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device 26, the connected hydraulic consumers 12, 19 »22 are individually controllable. The control device 26 in turn receives its commands from an electrical control unit 28, which in turn has a Control panel 29 is controlled.

The electrical control device 28 with the associated control unit 29 and the hydraulic system 27 form parts of a device 31 for controlling the working depth of the Pfluges 15 · For this purpose, the electrical control device 28 influences the electrohydraulic control device 26 in dependencies of signals from the control panel 29 and various Parameters of the device 3 ″, including a first input 32 of the control device 28 signals from a first Tachometer 33 receives which is assigned to the support wheel IT is. There is also a second input 3 ^ of the control unit 28 in connection with a measuring transducer 35, which is connected to the hydraulic cylinder 19 is arranged and delivers 15 dependent signals from the working depth of the mounted plow. A third Input 36 on control unit 28 receives signals from a second speed sensor 3Tj äer a driven, Slip-prone rear wheel 38 of the tractor 10 is assigned is.

The mode of operation of the device 31 for controlling the working depth of the mounted plow 15 is explained as follows, their function being discussed only insofar as is necessary for understanding the invention. It is assumed that the tractor 10 pulls the mounted plow 15, which is linked to the three-point linkage 11, with plowshares immersed in the ground, with the support wheel 1T rolling on the ground. The relative position of the support wheel 17 to the frame ¹ 6 of the attachment

pfluges 15 is a measure of the working depth of the ploughshare; the transducer 35 therefore reports actual value signals proportional to the working depth of the mounted plow 15 to the electrical control device 28. At the same time, an operator gives the control device via the operating part 29 28 a desired setpoint for the working depth. The control unit 28 compares the actual value and Setpoint signals with each other and controls via the electrohydraulic Control device 26, the power lift and the three-point linkage 11, the mounted plow 18 in such a way that that the control deviation becomes zero. The coulters of the mounted plow I5 are thus at a constant working depth held, so that even with different soil conditions large depth fluctuations can be avoided.

Simultaneously with the regulation of the working depth of the mounted plow 15, the first speed sensor 33 reports a speed s-dependent signal to the electrical control unit 28. These signals are dependent on the speed of the non-driven and therefore slip-free running support wheel 17. At the same time, the second speed sensor reports 37 sends a speed-dependent signal to the Control unit 28, these signals originating from the driven rear wheel 38, which is therefore subject to slippage. the end the signals at the first (32) and third input (36), the control unit 28 determines the respective slip of the driven rear wheel 38. This slip signal is constantly compared with a setpoint value for the slip given on the control panel 29. Now exceeds that continuously determined slip signal the specified value, 30 switches over the electrical control unit 28, with the position-dependent signals from the transducer being used as the control variable 35 the slip signal is used. With excessive

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Slippage causes the control device 2ό via the power lift 12 to lift the mounted plow 15 _5, which reduces the pulling force and thus the slip of the drive wheels is also reduced. The working depth of the mounted plow 15 is thus used as a control variable for keeping the limit slip constant. If the slip value falls below the specified, corresponding setpoint value by a certain amount when the mounted plow 15 is lifted, the electrical control unit 28 automatically switches over again from slip control to depth control depending on the signals from the transducer 35.

With the present support wheel arrangement 21 is thus through the first speed sensor 33 the speed and through the transducer 35 the position of the support wheel 1J relative to the Frame i6 detected and thus determined the speed of the mounted plow 15 and its working depth, whereby a combined slip-depth control is made possible.

As a second exemplary embodiment, FIG. 2 shows part of a second device 50 ₅ which differs from that according to FIG. 1 as follows, the same reference symbols being used for the same parts. An inclination sensor 51 is also arranged on the tractor 10 and reports its signals to a fourth input 52 of the electrical control device 28. The inclination sensor 51 measures the incline in the direction of travel when the tractor 10 travels up and downhill and sends a signal proportional to this to the control unit 28. In the electrical control unit 28, this incline-dependent signal for correcting the setpoint is switched on by the operating part 29 during the slip control. Does the working depth control work depending on the slip of the rear wheel 3Ö,

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so when the tractor 10 is traveling uphill or downhill, the influence of the slope in the direction of travel on the working depth of the mounted plow 15 compensated. The signals from the inclination sensor 51 are therefore only available during the slip control effective, but not during the regulation of the working depth depending on the signals of the transducer 35-

Changes to the exemplary embodiments shown are of course also possible possible without deviating from the concept of the invention. So the position-dependent signal for the working depth of the mounted plow 15 can also be obtained in another way from the support wheel attachment 21 by e.g. the angle between the frame 16 and the pivot lever 18 is determined. It is also possible to use the slip depth control shown with additional control types combine. For example, the support wheel load can be kept constant by regulating the pressure in the hydraulic cylinder 19 Value can be controlled. The inclination sensor can be compensating influence on fluctuations in the working depth when the tractor 10 travels uphill and downhill Exercise well if the Torque of the tractor engine is also used.

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Claims (2)

η. χ Π 3.9 · 1932 My / Wl ROBERT BOSCH GMBH, 7OOO STUTTGART 1 claims 1. Device for controlling the working depth of a soil cultivation device, which has a hydraulic
The height of the power lift is articulated to a tractor and has a rear support wheel, the position of which in relation to the frame of the soil cultivation device can be adjusted in height by means of a hydraulic cylinder, the power lift and hydraulic cylinder being in operative connection with a hydraulic system, characterized in that the support wheel arrangement (21) a transducer to form a control variable for regulating the working depth of the device (15)
(35) and the support wheel (17) a first speed sensor (33) and a driven, slip-prone
Wheel (38) of the tractor (10) are assigned a second "speed sensor (37), which together form a slip signal, and that a control unit (28) is arranged, which when a predetermined size of the slip signal is reached by the working depth control depending on signals of the Transmitter (35) switches to a slip control. 2. Device according to claim 1, characterized in that the soil cultivation device is in particular designed as a reversible plow attachment plow (15) which has a
Three-point linkage (11) is connected to a tractor (10) so that it can be raised and lowered. η η --ι ■ Out 3. Device according to claim 1 or 2, characterized in that that the signals from the speed sensor (33, 37) and the transducer (35) an electrical control device (28), which is in operative connection with an electrohydraulic control device (26) 3-th. k. Device according to one of Claims 1 to 3, characterized in that an inclination sensor (51) is arranged in the tractor (10), the signals of which are dependent on the incline in the direction of travel during slip control in one of the influences of uphill and downhill travel on the working depth of the soil cultivation device (15) become effective in a compensating manner in the device (50) (FIG. 2). BATH ORIGINAL