EP3290585B1 - Method for processing of floor coverings, and self-propelled construction machine - Google Patents

Description

The invention relates to a method for processing floor coverings and to a self-propelled construction machine, in particular a road milling machine, soil stabilizer, recycler or surface miner according to the preamble of claims 1 and 10.

Self-propelled construction machines for processing floor coverings are from, for example DE 10 2006 024 123 B4 known. The self-propelled construction machine described therein has a machine frame and a height-adjustable milling drum for processing a floor covering. The milling drum is driven by a drive unit. Such a construction machine has a control device for monitoring and controlling the milling depth of the milling drum and the speed of the construction machine.

In construction machines of this type, it is known, for example, that the drive unit drives the milling drum via a traction mechanism transmission and the milling drum drive can be switched via a mechanical clutch, for example.

However, it can also be provided to drive the milling drum by means of hydraulic motors or electric motors.

However, there is now an increasing need to save energy and fuel when processing floor coverings and thus to enable more environmentally friendly operation.

The invention is therefore based on the object of providing a construction machine and a method for processing floor coverings with which the operation is optimized.

The features of claims 1 and 10 serve to achieve this object.

The invention advantageously provides that an interruption of the working mode is detected by means of a monitoring device and the drive of the milling drum is automatically interrupted when a detected, interrupted working mode, the milling drum being in working mode when the construction machine is moving forward and the milling drum is rotating and is engaged with the ground.

The detection of the interruption of the work operation and the interruption of the drive of the milling drum is carried out automatically.

The present invention has the advantage that the milling drum is not driven when it is not in the work mode and thus the energy consumption of the construction machine is reduced.

According to the present invention, the milling drum is operating when the construction machine is working the soil, i.e. when the construction machine moves forward and the milling drum rotates and engages the ground.

At least one operating parameter of the construction machine can be checked to detect the interruption of the working operation.

The at least one operating parameter of the construction machine, which can be checked to detect the interruption of the working operation, can in particular be an actual operating parameter of the construction machine. An actual operating parameter is an operating parameter that reflects the current state of the construction machine. The operating parameters that indicate whether the construction machine is at a standstill and / or the milling drum is in engagement with the floor covering are particularly relevant.

In engagement with the floor covering means that the milling drum is in contact with the floor covering and can work on it in this position.

When the interruption of the working operation is detected, the at least one operating parameter, in particular the at least one actual operating parameter, can be compared with at least one predetermined limit value.

The at least one operating parameter that can be checked to detect the interruption of the working operation can be the actual milling depth and / or the actual speed.

The actual milling depth can be used to check whether the milling drum is in contact with the floor covering. The actual milling depth has a positive value when the milling drum is in engagement with the floor covering, and when the milling drum is raised and thus at a distance from the floor covering, the milling depth has a negative amount.

If the actual speed of the construction machine is checked as an operating parameter, an interruption of the work operation can be determined if the actual speed of the construction machine is zero. This means that work is interrupted when the construction machine is at a standstill.

In order to check the actual speed of the construction machine, the speed input device of the construction machine and / or the movement of the driving devices and / or the hydraulic pressure of the chassis motors which drives the driving device can be checked.

The construction machine has driving devices with which the construction machine can drive over the floor covering. The travel devices can be wheels or chain drives which are connected to the machine frame via lifting columns. The driving devices are preferably driven by hydraulic motors.

The actual speed of the construction machine can be checked by checking the target speed on the speed input device.

If the target speed of the construction machine is zero, the actual speed is usually also zero, since the construction machine has no roll operation, so that the construction machine comes to a standstill as soon as the target speed is zero.

When the drive of the milling drum is interrupted, the milling drum can be decoupled from the drive unit and / or, in the case of an electrical or hydraulic drive unit, the drive unit can be switched off.

After the interruption of the work operation has been detected, the work operation of the milling drum can only be interrupted at a predetermined time delay.

After the drive of the milling drum has been interrupted, it can be detected whether the work operation is to be continued and the milling drum is driven again when the intended continuation of the work operation is detected.

Detection of the intended continuation of the work operation and driving the milling drum again takes place automatically.

It is crucial that the work operation has not yet started, but the continuation of the work operation is detected before it is started, since it must be ensured that the milling drum has reached the operating speed again before the work operation is continued.

At least one operating parameter of the construction machine can be checked to detect the intended continuation of the working operation. The at least one operating parameter, which is checked to detect the intended continuation of the working mode, can in particular be a target operating parameter of the construction machine. A target operating parameter is an operating parameter that reflects a state of the construction machine preset by the operator. Particularly preferably, the operating parameter that is checked to detect the intended continuation of the working operation can be the target speed of the construction machine and / or the target milling depth and / or the actual milling depth.

A planned continuation of the working operation can be detected if the target speed of the construction machine is greater than zero, no reversing is detected and the target milling depth exceeds a predetermined limit value.

The limit value for the target milling depth can be zero, for example. The limit value must be selected in such a way that it is ensured that the intended continuation of the working operation is detected when a desired milling depth is set, at which the milling drum can come into engagement with the ground when it reaches the desired milling depth. A certain level of security can also be taken into account when choosing the limit value.

If, when the milling drum is not driven, the milling drum is not in engagement with the ground, the intended continuation of the working operation can only be detected as a function of the desired milling depth, provided that no reversing is detected.

The movement of the construction machine and / or a lowering of the milling drum can be delayed until the milling drum has reached a predetermined operating speed. This ensures that if there is contact between the milling drum and the floor covering, the milling drum has reached an operating speed. Either the speed of the milling drum can be detected directly, for example via a sensor, or the resumption of milling operation can be delayed for a certain period of time after the milling drum has been driven again to ensure that the milling drum has again reached the operating speed.

The milling drum can be raised a predetermined amount after detection of an interruption in the working mode, in particular if the interruption of the working mode takes place because the actual speed is zero. This also ensures that when the milling drum is driven again, the milling drum is not in contact with the floor covering until the milling drum has reached an operating speed.

The milling drum can be driven again after detecting the continuation of the working operation and then lowered.

For example, while the milling drum is not being driven, an optical or acoustic signal can indicate that the milling operation has been interrupted automatically. This ensures that the operator and / or personnel in the vicinity of the construction machine are always aware that the milling drum can be switched on automatically if the work operation is to be continued.

Provision can be made for the construction machine to assume a defined position (or a position range) relative to the floor covering before the milling drum is driven again. If, for example, the machine frame is raised to the maximum above the lifting columns, parts of the milling drum can be exposed, which can result in material present in the milling drum box being thrown out of the milling drum box if the milling drum is driven at this moment. Therefore, for example, before the milling drum is driven again, a defined milling depth can be set automatically, at which the milling drum does not yet engage with the ground, but material cannot escape from the milling drum housing.

Alternatively / in addition, before driving the milling drum again, it can be checked whether the edge protection, hold-down device and scraper lie on the floor, i.e. that the milling drum housing is closed to the outside.

After the drive of the milling drum has been interrupted, the power output of the drive unit can e.g. the speed can be reduced in a motor used as a drive unit. Before the milling drum is driven again, it is raised accordingly.

After the drive of the milling drum has been interrupted, it can be provided that the latter continues to rotate due to the inertia. Alternatively, it can also be provided that it is braked, for example in order to recover the rotational energy for an energy store. The energy could be stored and then used when the milling drum is switched on again.

The automatic of the detection of the interruption of the work operation, the interruption of the drive of the milling drum, the detection of the continuation of the work operation and the driving of the milling drum again can be activated / deactivated by the operator.

• zumindest einem Maschinenrahmen,
• zumindest einer höhenverstellbaren von zumindest einer Antriebseinheit angetriebenen Fräswalze zum Bearbeiten des Bodenbelags in einem Arbeitsbetrieb,
• zumindest einer Steuereinrichtung zum Überwachen und Steuern der Frästiefe der Fräswalze und der Geschwindigkeit der Baumaschine,

vorgesehen, bei der eine Überwachungseinrichtung eine Unterbrechung des Arbeitsbetriebs detektiert und bei Detektion der Unterbrechung des Arbeitsbetriebs ein Signal zum Unterbrechen des Antriebs der Fräswalze abgibt, wobei die Fräswalze sich im Arbeitsbetrieb befindet, wenn die Baumaschine sich vorwärts bewegt und die Fräswalze rotiert und mit dem Boden in Eingriff ist.According to the present invention, a self-propelled construction machine for processing floor coverings is provided with

• at least one machine frame,
• at least one height-adjustable milling drum driven by at least one drive unit for processing the floor covering in a work operation,
• at least one control device for monitoring and controlling the milling depth of the milling drum and the speed of the construction machine,

provided, in which a monitoring device detects an interruption of the working mode and emits a signal to interrupt the drive of the milling drum upon detection of the interruption of the working mode, the milling drum being in the working mode when the construction machine moves forward and the milling drum rotates and with the ground is engaged.

The self-propelled construction machine can also have driving devices, wherein the driving devices can have wheels or chain drives which can be connected to the machine frame in a height-adjustable manner by means of lifting columns. The height of the lifting columns can be adjusted, for example, using hydraulic piston-cylinder units. Furthermore, the drive unit can in particular be a drive motor.

Furthermore, the self-propelled construction machine can have one or more operating devices which have at least one speed input device and one milling depth input device.

The milling drum can be accommodated in a milling drum housing. The milling drum housing can be left and right on the end faces Edge protection, have a hold-down device on the front and a scraper on the rear, which is the working area of the milling drum lock to the outside. The construction machine can also have front and rear roller flaps to seal the work area.

The milling drum can be mounted in the machine frame. The milling drum can be connected directly to the machine frame. The milling depth can then be regulated by adjusting the height of the lifting columns with which the chassis of the construction machine are connected to the machine frame. Alternatively or additionally, the milling drum can be height-adjustable relative to the machine frame.

The function that the monitoring device detects the interruption of the working mode and emits a signal to interrupt the drive of the milling drum when the interruption is detected can be an additional function that can be activated and deactivated.

In order to detect the interruption of the working operation, the monitoring device can check at least one operating parameter of the construction machine.

The at least one operating parameter of the construction machine, which is checked to detect the interruption of work, can be an actual operating parameter, in particular the actual speed of the construction machine and / or the actual milling depth.

To check the at least one operating parameter of the construction machine, the monitoring device can query the at least one operating parameter of the construction machine from the control device and / or from sensors and compare the at least one queried operating parameter with at least one predetermined limit value. The at least one predetermined limit value can be stored in the monitoring device. The at least one predetermined limit value can be determined by tests.

The monitoring device can detect an interruption in the working operation and emit a signal to interrupt the drive of the milling drum when the actual speed of the construction machine is zero.

This means that when the construction machine is at a standstill, work is interrupted.

The construction machine can have a power transmission device for transmitting drive power from a drive unit to the milling drum. The monitoring device can emit the signal for interrupting the drive of the milling drum to the force transmission device or the control device and the force transmission device can interrupt the drive of the milling drum.

For this purpose, the power transmission device can have a clutch, so that the milling drum is decoupled from the drive unit when a signal for interrupting the drive is sent to the power transmission device.

The monitoring device can detect an interruption in the working mode and emit the signal to interrupt the drive of the milling drum if the actual milling depth of the construction machine falls below a limit value.

The monitoring device can detect an interruption in the operating mode and can only emit the signal for interrupting the drive of the milling drum after a predetermined time delay.

After the drive of the milling drum has been interrupted, the monitoring device can detect whether the work operation is to be continued and, when the intended continuation of the work operation is detected, emit a second signal for driving the milling drum again.

It is crucial that the planned start of work is detected when the milling drum is driven again. It must be ensured that the milling drum is already driven before the work operation is started.

The monitoring device can detect the at least one operating parameter of the construction machine from the control device and / or an operating device and / or from to detect the intended continuation of the working operation Sensors that measure the at least one operating parameter, query and compare the at least one operating parameter with at least one predetermined limit value. The at least one predetermined limit value can be stored in the monitoring device or the control device. The at least one predetermined limit value can be determined by tests.

The at least one operating parameter, which the monitoring device checks to detect the intended continuation of the working mode, is in particular a target operating parameter, since the intended continuation of the working mode should already be detected. The target operating parameters are intended operating parameters of the construction machine. These can be, for example, the operating parameters entered on the operating device.

The at least one operating parameter, which is to be monitored in order to detect the intended continuation of the working operation, can in particular be the target speed and / or target milling depth and / or the actual milling depth.

The target speed and / or the target milling depth can in particular be the values entered in the speed input device and / or milling depth input device of the operating device.

The actual speed can be measured by sensors that measure the movement and / or the position of the travel devices and / or the hydraulic pressure of the chassis motors that drive the travel device.

The actual milling depth can be determined using sensors that are arranged in or on the height adjustment. The height adjustment can be the lifting columns of the construction machine. Furthermore, the sensors for measuring the actual milling depth can also measure the distance between the machine frame and the floor surface. The sensors can also be arranged on a scraper plate arranged behind the milling drum or on side plates surrounding the milling drum. Any other sensors that can determine the milling depth can also be provided.

The monitoring device can be part of the control device. The operating device can also be part of the control device.

Exemplary embodiments of the invention are explained in more detail below with reference to the drawings.

Fig. 1

eine selbstfahrende Baumaschine zur Bearbeitung von Bodenbelägen,

Fig. 2

die Baumaschine gemäß Fig. 1 mit angehobener Fräswalze,

Fig. 3

einen Antriebsstrang der Baumaschine,

Fig. 4

ein Schaubild mit Steuereinrichtung und Überwachungseinrichtung,

Fig. 5

ein alternatives Schaubild,

Fig. 6

zeigt ein Flussdiagramm zur Detektion der Unterbrechung und des geplanten Fortsetzens des Arbeitsbetriebs,

Fig. 7

eine weitere selbstfahrende Baumaschine.

They show schematically:

Fig. 1

a self-propelled construction machine for processing floor coverings,

Fig. 2

the construction machine according to Fig. 1 with raised milling drum,

Fig. 3

a drive train of the construction machine,

Fig. 4

a diagram with control device and monitoring device,

Fig. 5

an alternative graph,

Fig. 6

shows a flowchart for the detection of the interruption and the planned continuation of the work operation,

Fig. 7

another self-propelled construction machine.

Fig. 1 shows a self-propelled construction machine 1 for processing floor coverings 2. The construction machine 1 has at least one machine frame 4. Furthermore, the construction machine has a height-adjustable milling drum 12 for processing the floor covering 2, the milling drum 12 processing the floor covering 2 in one working operation. The milling drum 12 can be accommodated in a milling drum housing. The milling drum housing can have left and right edge protectors 24 on the end faces, a hold-down device on the front and a scraper 22 on the rear side, these closing off the working space of the milling drum 12 from the outside.

The construction machine 1 also has a control device 14 for monitoring and controlling the milling depth of the milling drum 12 and the speed of the construction machine 1. The milling drum 12 is driven by a drive unit 6. The drive unit 6 is preferably a drive motor, in particular an internal combustion engine. Alternatively, the drive unit can also be an electric or hydraulic motor. The construction machine 1 also has front and rear driving devices 8, 9. These driving devices 8, 9 can be wheels or chain drives. The rear driving devices 9 are connected to the machine frame 4 in a height-adjustable manner via lifting columns 20, for example by means of piston-cylinder units. The front driving device 8 is also connected to the machine frame 4. The front driving devices 8 can also be connected to the machine frame in a different way than shown via lifting columns. With the help of the lifting columns 20, the construction machine 1 or the machine frame 4 can be adjusted in height relative to the floor covering. By adjusting the lifting columns 20, the machine frame 4 is adjusted in height and thus the milling drum 12 mounted in the machine frame 4 is also adjusted in height. In Fig. 2 the construction machine 1 is shown with the milling drum 12 raised. Alternatively or additionally, the milling drum can be height-adjustable relative to the machine frame.

In a method for processing the floor covering 2, an interruption in the working mode will be detected and the drive of the milling drum 12 will be interrupted in the case of a detected, interrupted working mode. The monitoring device 15 detects an interruption of the working mode and the monitoring device 15 emits a signal to interrupt the drive of the milling drum 12 when the interruption of the working mode is detected.

In order to detect the interruption of the working operation, the monitoring device 15 checks operating parameters of the construction machine 1. The operating parameters are compared with predetermined limit values, which can be stored in the monitoring device.

The operating parameters, which are checked to detect the interruption of the working operation, can in particular be the actual speed of the construction machine 1 and / or the actual milling depth.

If the actual speed of the construction machine 1 is zero, the working mode is interrupted. Furthermore, the working mode is also interrupted when the milling drum 12 is no longer in engagement with the floor covering 2. This is for example in Fig. 2 the case. There, the milling drum 12 is no longer in engagement with the floor covering 2. In this case, the work operation is interrupted.

When the interruption in the working mode is detected, the drive of the milling drum 12 is interrupted.

In Fig. 3 the drive train of the construction machine 1 is shown. In this case, the drive power is transmitted to the milling drum 12 via a drive unit 6, which is preferably a drive motor, in particular an internal combustion engine. The power transmission device has a clutch 7 and a roller drive 10. The roller drive 10 drives the milling drum 12 with the aid of a belt drive 11.

When work is interrupted, a signal is sent to the power transmission device, which interrupts the drive of the milling drum 12. The drive unit 6 is decoupled from the milling drum 12 by means of the coupling 7.

In Fig. 4 a diagram is shown which shows the signal curves between control device 14, monitoring device 15, operating device 16, travel drive, height adjustment, drive unit 6 and milling drum 12. In order to detect the interruption of the working operation, the monitoring device 15 checks operating parameters of the construction machine.

In Fig. 4 it is shown that the monitoring device queries the operating parameters from the control device 14. In the exemplary embodiment shown, the operating parameters that can be queried by the control device 14 include the actual speed, the target speed, the target milling depth and the actual milling depth.

The monitoring device 15 compares the queried operating parameters with predetermined limit values. To detect the interruption of work the actual operating parameters are queried in particular. Therefore, the monitoring device 15 in particular queries the actual speed, which is referred to as the actual feed rate, and / or the actual milling depth and compares it with predetermined limit values.

The control unit receives measurement data from sensors about the actual speed and the actual milling depth. The sensors for determining the actual speed can be arranged on parts of the travel drive. The travel drive comprises the travel devices and chassis motors for driving the travel devices, with each travel device preferably being assigned a chassis motor. The chassis motors can be hydraulic motors and are fed by a common hydraulic variable pump.

However, any other sensors that can determine the actual speed of the construction machine 1 can also be used.

The actual milling depth is recorded by sensors which are arranged on the height adjustment, for example on the lifting columns or on the piston-cylinder units. However, the sensors can also be arranged at any other location, provided that they can determine the actual milling depth. For example, they can be arranged on the scraper plate 22 and / or the side plates 24. Those skilled in the art are other sensors for determining the milling depth such. B. known ultrasonic sensors. The exact procedure for determining the milling depth is not important for the invention, it only has to be ensured that one can be reliably recognized when the milling drum is out of engagement with the ground surface in order to detect an interruption in the work operation.

If the monitoring device determines by comparing the operating parameters with predetermined limit values that the working mode is interrupted, the monitoring device emits a signal to the power transmission device 13. The power transmission device 13 has means for interrupting the power flow.

The means for interrupting the flow of force is preferably a clutch as shown in Fig. 3 is shown.

With the help of the means for interrupting the flow of force, the drive of the milling drum is interrupted. If the means for interrupting the power flow is a clutch 7, the milling drum 12 is decoupled from the drive unit 6 when work is interrupted.

After the drive of the milling drum 12 has been interrupted, it is detected whether the work operation should be continued. When the intended continuation of the working operation is detected, the milling drum 12 is driven again. For this purpose, the monitoring device 15 detects, after the drive of the milling drum 12 has been interrupted, whether the work operation is to be continued and, when the intended continuation of the work operation is detected, emits a second signal for driving the milling drum 12 again. The monitoring device 15 emits the second signal for driving the milling drum 12 again, in particular to the power transmission device 13.

The monitoring device 15 queries operating parameters from the control device 14 to detect the intended continuation of the working mode and compares the queried operating parameters with predetermined limit values, which can be stored in the monitoring device 15. In particular, the target operating parameters are queried in order to detect the intended continuation of the working mode. The set speed and the set milling depth are preferably queried. These can be queried by the control device and / or the operating device.

In Fig. 5 It is shown that the monitoring device 15 can also query the operating parameters directly from the sensors or directly from the operating device 16.

The monitoring device 15 can detect an interruption in the working mode and can only emit the signal for interrupting the drive of the milling drum after a predetermined time delay.

The monitoring device 15 can also delay the movement of the construction machine 1 and / or the lowering of the milling drum 12 until the milling drum 12 has reached a predetermined operating speed again. In Fig. 5 it is also shown that sensors can also be arranged on the milling drum 12, which measure the speed of the milling drum 12. For this purpose, the monitoring device 15 can query the operating speed determined by a sensor from the control unit or directly from the sensors.

The milling drum 12 can also be raised after detection of an interruption in the work operation.

The milling drum 12 can then be driven again after detection of the intended continuation of the work operation and then lowered. This ensures that the milling drum 12 is only in contact with the floor covering 2 when the milling drum 12 has reached an operating speed.

Fig. 6 shows a flowchart for the detection of the interruption of the work operation and the planned continuation of the work operation.

In order to detect the interruption of the working operation, the actual speed of the milling machine, which is queried from the control device 14 or from sensors, is compared with a limit value in block 100, in particular to determine whether the feed i.e. the speed of the construction machine 1 is greater than 0.

If the speed is greater than zero, in a subsequent step in block 110 the actual milling depth determined by the control device 14 or by sensors is compared with a limit value, in particular it is determined whether the milling drum 12 is in engagement with the ground at the set milling depth .

If it is determined in block 100 that the actual speed is zero, an interruption in the working mode is detected. After the detection of the interruption of the work operation, as shown in block 101, the milling drum can be raised by a predetermined amount. Then in block 102 the drive of the milling drum is interrupted.
In the following, the target milling depth, which can also be queried by the control unit 14 or by the operating unit 16, is monitored in block 103, it being checked whether this falls below a preset limit value.

It is therefore monitored whether, in addition to the machine being at a standstill, the milling drum 12 is also out of engagement with the ground. If the target milling depth is still greater than the limit value, the next step in block 104 is to check whether a target speed greater than zero has been set again, that is, whether the machine operator wants to resume work by increasing the speed. Steps 103 and 104 run continuously while the machine is at a standstill, until either the milling depth is changed or the feed is increased again.

In addition, it can also be checked in step 104 whether the machine operator has increased the target milling depth, that is to say whether the milling depth should be increased when the machine is stopped.

If it is detected in block 104 that the target speed has now returned to a value greater than zero or that the target milling depth has been increased, i.e. the machine operator would like to move the construction machine forward again and / or increase the milling depth, then a planned continuation of the Working mode is detected and the milling drum is driven again in block 120. After the predetermined milling drum speed has been reached, the milling drum is lowered to the set desired milling depth in block 121 and the machine is driven via the carriages 8, 9 in block 122 until the actual speed coincides with the set desired speed. Then the monitoring is carried out again according to Blocks 101 and 110 whether the actual speed and / or the actual milling depth change beyond the predetermined limit values.

If it is determined in block 110 that the milling depth is reduced below a predetermined limit value, an interruption in the working mode is also detected.

In block 112, the drive of the milling drum is therefore interrupted. In the following, it is monitored in block 113 whether a target milling depth has been set which is greater than the predetermined limit value.

The actual and target speeds are not important during this check, since the road milling machine can be moved freely in shunting mode, for example can while the milling drum is out of engagement with the ground. If it was detected in block 103 described above that if the milling drum drive was already interrupted, the milling depth was lowered below the limit value, and consequently the milling drum was brought out of engagement with the ground, the process jumps to block 113, since in this case too, and actual speed have no influence on the detection of the continuation of work.

If it is detected in block 113 that a target milling depth above the limit value has been set, i. H. the milling drum is to be brought back into engagement with the ground, a check is made in block 114 as to whether the machine is reversing. If there is no backward movement, a planned continuation of the working mode is detected and the steps of blocks 120, 121, 122 are carried out in accordance with the description above. If a reverse drive of the machine is detected in block 114, steps 120-122 are not carried out until the machine can no longer be reversed.

Fig. 7 shows a construction machine 1 as a so-called large milling machine, which differs from the construction machine according to Fig. 1 distinguishes, among other things, that the front and rear travel devices 40 are chain drives and the front and rear travel devices 40 are connected to the machine frame 4 via lifting columns. The interruption of the working mode or the intended continuation of the working mode is detected in an analogous manner by monitoring the operating parameters.

The terms control device 14 and monitoring device 15 can mean a general-purpose processor, a digital signal processor (DSP), an application-specific integrated circuit (ASIC), a field programmable gate array (FPGA) or other programmable logic circuits, discrete gate or transistor logic, discrete Hardware components or a combination thereof or be or be part of them, provided that they are programmable to carry out the features described above.

A multipurpose processor can be a microprocessor, microcontroller, state machine, or a combination of computer devices, for example a combination a DSP and a microprocessor, a variety of microprocessors, or any other known configuration.

The method steps of the method described above can be implemented directly by hardware components or by a software module that is executed by a processor, or a combination thereof. The software module can be located on a RAM memory, a flash memory, a ROM memory, an EPROM memory, an EEPROM memory, a register, a hard disk, a removable hard disk, a CD-ROM or on any other form of a computer-readable storage medium.

The computer-readable storage medium can be coupled to the control device and / or monitoring device, so that the control device and / or the monitoring device can call up the information from the computer-readable storage medium and can store information on the computer-readable storage medium. The computer-readable storage medium can alternatively also be an integral part of the control device and / or monitoring device. The control device and / or monitoring device and the computer-readable storage medium can be located in an ASIC. The ASIC can be located in a user terminal. Alternatively, the control device and / or monitoring device and / or the computer-readable storage medium can be located as discrete components in a user terminal.

Claims (17)

1. Method for working ground pavements (2) with a construction machine (1) self-propelled by means of travelling devices (8), in which a milling drum (12) is driven by a drive unit (6), where the milling drum (12) works the ground pavement (2) in a working operation,
   characterized in that
   an interruption of the working operation is detected by means of a monitoring device (15), and the drive of the milling drum (12) is interrupted automatically in the event of a detected interruption of the working operation, the milling drum being in a working operation, if the construction machine moves forward and the milling drum rotates and is in engagement with the ground.
2. Method in accordance with claim 1, characterized in that at least one operating parameter of the construction machine (1) is monitored to detect the interruption of the working operation.
3. Method in accordance with claim 2, characterized in that, when monitoring the operating parameter, the at least one operating parameter is compared with at least one specified limit value.
4. Method in accordance with claim 2 or 3, characterized in that the at least one operating parameter which is monitored to detect the interruption of the working operation is the actual speed and/or the actual milling depth.
5. Method in accordance with one of the claims 1 to 4, characterized in that, in order to interrupt the drive of the milling drum (12), the milling drum (12) is decoupled from the drive unit (6) and/or the drive unit (6) is switched off.
6. Method in accordance with one of the claims 1 to 5, characterized in that, after the drive of the milling drum (12) has been interrupted, it is detected as to whether the working operation is to be continued, in which case, when detecting the intended continuation of the working operation, the milling drum (12) is driven again.
7. Method in accordance with claim 6, characterized in that at least one operating parameter of the construction machine (1) is monitored to detect the intended continuation of the working operation.
8. Method in accordance with claim 6 or 7, characterized in that the at least one operating parameter which is monitored to detect the intended continuation of the working operation is the nominal speed and/or the nominal milling depth and/or the actual milling depth.
9. Method in accordance with one of the claims 6 to 8, characterized in that the movement of the construction machine and/or a lowering of the milling drum (12) is delayed until the milling drum (12) has reached a specified operating speed of revolution.
10. Self-propelled construction machine (1) for working ground pavements (2), comprising

    - at least one machine frame (4),

    - at least one height-adjustable milling drum (12) for working the ground pavement (2) in a working operation, driven by at least one drive unit (6),

    - at least one control device (14) for monitoring and controlling the milling depth of the milling drum and the speed of the construction machine,

    characterized in that
    a monitoring device (15) detects an interruption of the working operation, and when detecting the interruption of the working operation emits a signal to interrupt the drive of the milling drum (12), the milling drum being in a working operation, if the construction machine moves forward and the milling drum rotates and is in engagement with the ground.
11. Construction machine (1) in accordance with claim 10, characterized in that the monitoring device (15) monitors at least one operating parameter of the construction machine (1) to detect the interruption of the working operation.
12. Construction machine (1) in accordance with claim 11, characterized in that, to monitor the at least one operating parameter, the monitoring device (15) retrieves the operating parameter of the construction machine (1) from the control device (14) and/or from sensors which measure the operating parameter, and compares the at least one retrieved operating parameter with at least one specified limit value.
13. Construction machine (1) in accordance with one of the claims 10 to 12, characterized in that a power transmission device (13) for transmitting a driving power from the drive unit (6) to the milling drum (12) is specified, where the monitoring device (15) emits the signal to interrupt the drive of the milling drum (12) to the power transmission device (13) or the control device (14), and the power transmission device (13) interrupts the drive of the milling drum (12).
14. Construction machine (1) in accordance with one of the claims 10 to 13, characterized in that the monitoring device (15) detects an interruption of the working operation and emits the signal to interrupt the drive of the milling drum (12) only after a specified time delay.
15. Construction machine (1) in accordance with one of the claims 10 to 14, characterized in that the monitoring device (15), following the interruption of the drive of the milling drum (12), detects as to whether the working operation is to be continued, and when detecting the intended continuation of the working operation emits a second signal for the renewed driving of the milling drum (12).
16. Construction machine (1) in accordance with claim 15, characterized in that the monitoring device (15), to detect the intended continuation of the working operation, queries at least one operating parameter of the construction machine (1) from the control device (14) and/or an operating device (16) and/or from sensors, and compares the at least one operating parameter with at least one specified limit value.
17. Construction machine (1) in accordance with one of the claims 10 to 16, characterized in that the control device (14) delays the movement of the construction machine (1) and/or a lowering of the milling drum (12) until the milling drum (12) has reached a specified operating speed of revolution.

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