EP4335981A1 - Construction machine with hydraulic system - Google Patents

Abstract

The invention relates to a construction machine with a hydraulic system with at least one hydraulic control, which comprises at least one joystick, at least one hydraulic pressure source and two hydraulic drives, which are connected to each pressure source by means of hydraulic connections, in which main control valves that can be controlled by a joystick are provided, the Construction machine comprises several movable components, each of which is assigned a hydraulic drive for movement. For improved work processes, at least one hydraulic control comprises at least one electrically actuable priority valve, designed as a proportional valve and provided in the hydraulic connection of a drive, which is electrically connected to the electronic control unit and for Effect of an additional hydraulic resistance can be controlled, the hydraulic control further comprising sensors provided on the movable components for indirectly or directly detecting their respective position, which are each connected to the control unit in order to pass on the detected sensor values to the control unit, with at least one in the control unit Trajectory can be stored and a control mode can be activated, in which each priority valve can be controlled using the current sensor values when the joystick is actuated in such a way that the stored trajectory is driven by controlling the drives.

Description

The invention relates to a construction machine with a hydraulic system with at least one hydraulic control, which includes at least one joystick, at least one hydraulic pressure source and two hydraulic drives, wherein the pressure level of each hydraulic drive can be different depending on the selected operating point of the drive, each hydraulic drive with Each pressure source is connected by means of a hydraulic connection, in which a main control valve is provided, which can be controlled by the one joystick or at least one of the joysticks, the construction machine comprising a plurality of components that can be moved at least relative to one another, each of which has a hydraulic drive for moving it component is assigned.

Such construction machines are known from practice in various forms. The disadvantage here is that when such construction machines are actually used, recurring work processes occur, the exact repetition of which is difficult with manual control, so that deviations from the desired work process are unavoidable and can lead to a poor or even unsatisfactory work result.

The object of the invention is to avoid the aforementioned disadvantages and to provide an improved construction machine with which an improved possibility for the execution of work processes, especially recurring work processes.

This object is achieved in a generic construction machine in that at least one hydraulic control comprises at least one electrically actuable priority valve designed as a proportional valve, which is assigned to a drive and is provided in its hydraulic connection, each priority valve being electrically connected to the electronic control unit and used to effect a additional hydraulic resistance can be controlled, the hydraulic control further comprising sensors provided on the movable components for the indirect or direct detection of their respective position, which are each connected to the control unit in order to pass on the detected sensor values to the control unit, with at least one trajectory in the control unit on the one hand can be stored and, on the other hand, a control mode can be activated, in which each priority valve can be controlled by the control unit using the values currently recorded by the sensors when the at least one joystick is actuated in such a way that the stored trajectory is driven by appropriate control of the drives.

Thus, when the control mode is activated, at least one priority valve is actuated depending on the requirement to achieve the stored trajectory, so that either the hydraulic drive with the higher load is prioritized over the hydraulic drive with the lower load or, conversely, the hydraulic drive with the lower load is prioritized over the hydraulic drive with the higher load. As a result, the drive with the lower load is subjected to more resistance, so that it is actually operated less than is actually specified by the operator of the construction machine by operating the joystick.

This enables speed and position control of the hydraulic drives through the priority valve(s), since this changes the respective hydraulic resistance in a hydraulic connection and thus the hydraulic flow to the respective drive the default on the joystick is changed. This means that when the control mode is activated, any actuation of the joystick can automatically follow the trajectory stored in the control unit as long as the joystick continues to be actuated.

Preferably, at least two hydraulic pressure sources can be provided, each hydraulic drive being connected to each pressure source by means of a hydraulic connection, and at least two hydraulic pressure sources having different pressure levels.

According to the invention, in at least one hydraulic control, the priority valve can be arranged in the corresponding hydraulic connection or the priority valves can be arranged in the corresponding hydraulic connections between the corresponding hydraulic pressure source and the main control valve connected to it, so that the respective priority valve is in front of the when viewed from the pressure source corresponding main control valve is provided.

The main control valves are each provided in the connection of a single pressure source with a single hydraulic drive. A branch can initially be provided for each pressure source, from which two separate connections, each with a main control valve, lead to the two hydraulic drives. The priority valve is or are preferably provided between the branch and the corresponding main control valve.

If two priority valves are provided, then one of the two separate connections from each pressure source can be provided with a priority valve after the branching and lead to one drive, whereas the other of the two separate connections is not provided with a priority valve and leads to the other drive leads. The two separate connections of the two pressure sources, each of which is provided with a priority valve, can either lead to the same drive or each lead to different drives.

Advantageously, in at least one hydraulic control, at least one main control valve can be designed as a hydraulically controlled main control valve, preferably each main control valve, can be designed as a hydraulically controlled main control valve, and on the other hand, the corresponding joystick provided for the hydraulic control can be designed as an at least partially hydraulic joystick, preferably as a fully hydraulic joystick can be designed, with which at least one of the existing hydraulically controlled main control valves, preferably each hydraulically controlled main control valve, can be controlled. This means that the main control valves can still be controlled compared to a hydraulic circuit with an electric joystick and electrically operated main control valves, even if the electrical components fail.

Preferably, in at least one hydraulic control, at least one electric motion sensor can be assigned to each hydraulic drive for detecting movements of the relevant hydraulic drive, so that in real time there is a corresponding control and also regulation of the priority valves in accordance with the respective movement of the relevant hydraulic drive, which is also dependent on external circumstances such as B. load, resistances etc. can be, is possible.

In this respect, even with at least one hydraulic control, at least one electrical motion sensor can be assigned to each hydraulic drive for detecting movements of the relevant component that can be moved by the respective hydraulic drive.

Alternatively or additionally, in at least one hydraulic control, at least one sensor for detecting the position of a movable component of the construction machine can be designed for the indirect or direct detection of the absolute position in space.

Furthermore, in at least one hydraulic control, at least one sensor for detecting the position of a movable component of the construction machine for Detection of the relative position of this component in relation to the construction machine and / or another component of the construction machine can be designed.

In the case of at least one hydraulic control, at least one hydraulic drive, preferably each hydraulic drive, can be assigned a pressure sensor connected to the control unit, which detects the hydraulic pressure acting on this hydraulic drive and passes it on to the control unit.

In a preferred embodiment of the invention, in at least one hydraulic control, at least one main control valve can be designed as an electrically controlled main control valve, preferably each main control valve can be designed as an electrically controlled main control valve, with at least one joystick as an at least partially electric, preferably as a fully electric joystick for control is formed by at least one, preferably every, existing electrically controlled main control valve.

Advantageously, with at least one hydraulic connection, this can be formed by two partial connections in the partial area after the main control valve in order to be able to effect different directions of movement of the drive.

According to the invention, the construction machine can be designed as a hydraulic excavator and comprise an undercarriage, a superstructure rotatably arranged thereon and a boom arm which is pivotably arranged on the superstructure.

The boom arm can be designed as an articulated arm with a first arm segment pivotably arranged on the superstructure and with a second arm segment pivotably arranged on the first arm segment, wherein a spoon can be pivotably arranged on the second arm segment.

Advantageously, the construction machine can be designed in such a way that with at least one hydraulic control, the two drives can cause different maximum forces and the hydraulic drive with the higher maximum force is assigned to the first arm segment for its pivoting, the hydraulic drive with the lower maximum force being assigned to the second arm segment the pivoting of which is assigned to the first arm segment.

Preferably, in at least one hydraulic control, at least one hydraulic drive can be designed as at least one hydraulic cylinder, preferably as a plurality of hydraulic cylinders provided in parallel, preferably each hydraulic drive can each be designed as at least one hydraulic cylinder, preferably as a plurality of hydraulic cylinders provided in parallel.

In addition, with at least one hydraulic control, the control mode can be activated at least manually.

Furthermore, in at least one hydraulic control, sensor values can be stored in the control unit, for example in the form of a sensor value combination and / or a sensor value sequence, in which the control mode is to be activated, and an algorithm for evaluating the sensor values currently recorded by the sensors and, if there is a corresponding match with the sensor values and/or sensor value combination(s) and/or sensor value sequence(s) stored in the control unit, automatic activation of the control mode can be integrated.

According to the invention, an automatic mode can be activated in at least one hydraulic control in the control unit, in which the algorithm for automatically activating the control mode is active.

Fig. 1

ein erstes Ausführungsbeispiel einer erfindungsgemäßen Baumaschine,

Fig. 2

ein zweites Ausführungsbeispiel einer erfindungsgemäßen Baumaschine und

Fig. 3

ein drittes Ausführungsbeispiel einer erfindungsgemäßen Baumaschine,

Exemplary embodiments of the invention shown in the drawing are explained below. Show it:

Fig. 1

a first exemplary embodiment of a construction machine according to the invention,

Fig. 2

a second embodiment of a construction machine according to the invention and

Fig. 3

a third exemplary embodiment of a construction machine according to the invention,

In all figures, identical reference symbols are used for identical or similar components.

Fig. 1 relates to a construction machine, not shown in the drawing, with a hydraulic system with a hydraulic control 1, which includes a joystick, not shown in the drawing, a hydraulic pressure source 2 and two hydraulic drives 3, which are provided for moving components of the construction machine that are at least movable relative to one another and to that extent are each assigned to such a component.

Each hydraulic drive 3 is connected to the pressure source 2 by means of a hydraulic connection 4. A main control valve 6 is provided in each of these hydraulic connections 4, which can be controlled by the joystick. The hydraulic drives 3 shown are designed either as a single hydraulic cylinder 5 or as two hydraulic cylinders 5 provided in parallel.

Furthermore, an electrically actuated priority valve 7 designed as a proportional valve is included. The priority valve 7 is assigned to one of the two drives 3 and is provided in its hydraulic connection 4, namely between the hydraulic pressure source 2 and the main control valve 6 connected to it, so that the priority valve 7 is provided in front of the corresponding main control valve 6 when viewed from the pressure source 2 is. In the in the Figure 1 In the example shown, the priority valve 7 is assigned to that drive 3, which is designed as a single hydraulic cylinder 5.

The main control valves 6 are each provided in the connection 4 of the pressure source 2 with a single hydraulic drive 3. Unless - as in Fig. 1 shown - in the pressure source 2 a branch 8 is initially provided, from then on two separate connections 4, each with a main control valve 6, lead to one of the two hydraulic drives 3. The priority valve 7 is provided between the branch 8 and the corresponding main control valve 6.

In the hydraulic control 1 shown, all main control valves 6 are each designed as hydraulically controlled main control valves 6, which can be controlled by the joystick designed as an at least partially hydraulic joystick, preferably a fully hydraulic joystick. This means that the main control valves 6 can still be controlled even if the electrical components fail.

The priority valve 7 is electrically connected to an electronic control unit, not shown in the drawing, and can be controlled by this control unit to produce additional hydraulic resistance.

The hydraulic control 1 also includes sensors, not shown in the drawing, which are provided on the movable components for the indirect or direct detection of their respective position, which are each connected to the control unit in order to pass on the detected sensor values to the control unit. On the one hand, at least one trajectory can be stored in the control unit and, on the other hand, a control mode can be activated in which the priority valve 7 can be controlled by the control unit using the values currently recorded by the sensors when the joystick is actuated in such a way that the stored trajectory is activated by appropriate Control of the drives 3 is driven.

Thus, when the control mode is activated, the priority valve 7 is actuated depending on the requirement to achieve the stored trajectory, so that either the hydraulic drive 3 with the higher load is prioritized over the hydraulic drive 3 with the lower load or vice versa hydraulic drive 3 with the lower load is prioritized over the hydraulic drive 3 with the higher load. Consequently, the drive 3 with the lower load is loaded with more resistance, so that it is actually operated less than is actually specified by the operator of the construction machine by operating the joystick.

This enables speed and position control of the hydraulic drives 3 through the priority valve 7, since this changes the hydraulic resistance in the hydraulic connections 4 and thus changes the hydraulic flow to the respective drive 3 contrary to the specification on the joystick. This means that when the control mode is activated, any actuation of the joystick can automatically follow the trajectory stored in the control unit as long as the joystick continues to be actuated.

In Fig. 2 a second embodiment of the invention is shown. There are different from that in Fig. 1 shown object two hydraulic pressure sources 2 are provided with different pressure levels. Each hydraulic drive 3 is connected to both pressure sources 2 by means of a hydraulic connection 4, in each of which a main control valve 6 that can be controlled by the joystick is provided.

This exemplary embodiment also includes two electrically actuated priority valves 7 designed as proportional valves, both of which are assigned to one of the two drives 3 and are provided in its two hydraulic connections 4. The two priority valves 7 are each arranged between the corresponding hydraulic pressure source 2 and the main control valve 6 connected thereto, so that the respective priority valve 7, viewed from the pressure source 2, is provided in front of the corresponding main control valve 6, namely between the branch 8 and the corresponding respective one Main control valve 6. A branch 8 is initially provided for each pressure source 2, from which two separate connections 4, each with a main control valve 6, lead to one of the two hydraulic drives 3.

The priority valves 7 are each electrically connected to an electronic control unit, not shown in the drawing, and they can be controlled by this control unit to produce additional hydraulic resistance.

On the other hand, with the in Fig. 3 shown embodiment also includes two hydraulic pressure sources 2 with different pressure levels as well as two electrically actuated priority valves 7 designed as a proportional valve. Different from that in Fig. 3 However, in the object shown, the two priority valves 7 are assigned to a single one of the two drives 3 and are provided in its two hydraulic connections 4.

They are each arranged between the corresponding hydraulic pressure source 2 and the main control valve 6 connected to it, so that the respective priority valve 7 is provided in front of the corresponding main control valve 6 when viewed from the pressure source 2. In the in the Fig. 3 In the example shown, the two priority valves 7 are assigned to the drive 3, which is designed as a single hydraulic cylinder 5.

The main control valves 6 are each provided in the connection 4 of a single pressure source 2 with a single hydraulic drive 3. Unless - as in Fig. 3 shown - a branch 8 is initially provided for each pressure source 2, from then on two separate connections 4, each with a main control valve 6, lead to one of the two hydraulic drives 3.

The priority valves 7 are each provided between the branch 8 and the corresponding main control valve 6.

In the hydraulic control 1 shown, all main control valves 6 are each designed as a hydraulically controlled main control valve 6, which can be controlled by the at least partially hydraulic joystick, preferably fully hydraulic joystick. This means that the main control valves can still be controlled even if the electrical components fail.

The priority valves 7 are each electrically connected to an electronic control unit, not shown in the drawing, and they can be controlled by this control unit to produce additional hydraulic resistance.

The hydraulic control 1 further comprises sensors provided on the movable components for the indirect or direct detection of their respective position, which are each connected to the control unit in order to pass on the detected sensor values. On the one hand, at least one trajectory can be stored in the control unit and, on the other hand, a control mode can be activated in which the priority valves 7 can be controlled by the control unit using the values currently recorded by the sensors when the joystick is actuated in such a way that the stored trajectory can be activated by corresponding Control of the drives 3 is driven.

Thus, when the control mode is activated, the priority valves 7 are actuated depending on the requirement to achieve the stored trajectory, so that either the hydraulic drive 3 with the higher load is prioritized over the hydraulic drive 3 with the lower load or, conversely, the hydraulic drive 3 the lower load is prioritized over the hydraulic drive 3 with the higher load. Consequently, the drive 3 with the lower load is loaded with more resistance, so that it is actually operated less than is actually specified by the operator of the construction machine by operating the joystick.

This enables speed and position control of the hydraulic drives 3 through the priority valves 7, since these change the respective hydraulic resistance in the hydraulic connections 4 and thus change the hydraulic flow to the respective drives 3 contrary to the specification on the joystick. This means that when the control mode is activated, any actuation of the joystick can automatically follow the trajectory stored in the control unit as long as the joystick continues to be actuated.

Claims (18)

Construction machine with a hydraulic system with at least one hydraulic control (1), which comprises at least one joystick, at least one hydraulic pressure source (2) and two hydraulic drives (3), the pressure level of each hydraulic drive (3) depending on the selected operating point of the drive ( 3) can be different, each hydraulic drive (3) being connected to each pressure source (2) by means of a hydraulic connection (4), in each of which a main control valve (6) is provided, which is operated by a joystick or at least one of the Joysticks can be controlled, the construction machine comprising a plurality of components that can be moved at least relative to one another, each of which is assigned a hydraulic drive (3) for moving this component, characterized in that at least one hydraulic control (1) has at least one electrically actuable priority valve designed as a proportional valve ( 7), which is assigned to a drive (3) and is provided in its hydraulic connection (4), each priority valve (7) being electrically connected to the electronic control unit and can be controlled to produce additional hydraulic resistance, the hydraulic control (1) further comprises sensors provided on the movable components for the indirect or direct detection of their respective position, which are each connected to the control unit in order to pass on the detected sensor values to the control unit, with at least one trajectory being able to be stored in the control unit on the one hand and a control mode being activated on the other hand is, in which each priority valve (7) can be controlled by the control unit using the values currently recorded by the sensors when the at least one joystick is actuated in such a way that the stored trajectory is driven by appropriately controlling the drives (3). Construction machine according to the preceding claim, characterized in that at least two hydraulic pressure sources (2) are provided, each hydraulic drive (3) being connected to each pressure source (2) by means of a respective hydraulic connection (4), and at least two hydraulic pressure sources ( 2) have different pressure levels. Construction machine according to one of the preceding claims, characterized in that in at least one hydraulic control (1), the priority valve (7) in the corresponding hydraulic connection (4) or the priority valves (7) in the corresponding hydraulic connections (4) are each between the corresponding hydraulic pressure source (2) and the associated main control valve (6) is/are arranged. Construction machine according to one of the preceding claims, characterized in that in at least one hydraulic control (1), at least one main control valve (6) is designed as a hydraulically controlled main control valve (6), preferably each main control valve (6), as a hydraulically controlled main control valve (6 ) is designed, and on the other hand, each corresponding joystick provided for the hydraulic control is designed as an at least partially hydraulic joystick, preferably as a fully hydraulic joystick, with which at least one of the existing hydraulically controlled main control valves (6), preferably each hydraulically controlled main control valve ( 6), can be controlled. Construction machine according to one of the preceding claims, characterized in that in at least one hydraulic control (1), each hydraulic drive (3) is assigned at least one electric motion sensor for detecting movements of the relevant hydraulic drive (3). Construction machine according to one of the preceding claims, characterized in that in at least one hydraulic control (1), each hydraulic drive (3) is assigned at least one electric motion sensor for detecting movements of the relevant component that can be moved by the respective hydraulic drive (3). Construction machine according to one of the preceding claims, characterized in that in at least one hydraulic control (1) at least one sensor for detecting the position of a movable component of the construction machine is designed for the indirect or direct detection of the absolute position in space. Construction machine according to one of the preceding claims, characterized in that at least one hydraulic control (1) has at least one sensor for detecting the position of a movable component of the construction machine for detecting the relative position of this component in relation to the construction machine and / or another component of the Construction machine is designed. Construction machine according to one of the preceding claims, characterized in that in at least one hydraulic control (1), at least one hydraulic drive (3), preferably each hydraulic drive (3), is assigned a pressure sensor connected to the control unit, which controls the hydraulic drive on this (3) the hydraulic pressure acting is recorded and passed on to the control unit. Construction machine according to one of the preceding claims, characterized in that in at least one hydraulic control (1) at least one main control valve (6) is designed as an electrically controlled main control valve (6), preferably each main control valve (6) is designed as an electrically controlled main control valve (6). is, wherein at least one joystick is designed as an at least partially electric, preferably as a fully electric joystick, for controlling at least one, preferably every, existing electrically controlled main control valve (6). Construction machine according to one of the preceding claims, characterized in that in the case of at least one hydraulic connection (4), this is formed by two partial connections in the partial area after the main control valve (6). Construction machine according to one of the preceding claims, characterized in that the construction machine is designed as a hydraulic excavator and comprises an undercarriage, a superstructure rotatably arranged thereon and a boom arm pivotably arranged on the superstructure. Construction machine according to the preceding claim, characterized in that the boom arm is designed as an articulated arm with a first arm segment pivotably arranged on the superstructure and with a second arm segment pivotably arranged on the first arm segment, a spoon being pivotally arranged on the second arm segment. Construction machine according to the preceding claim, characterized in that with at least one hydraulic control (1), the two drives (3) can cause different maximum forces and the hydraulic drive (3) with the higher maximum force is assigned to the first arm segment for its pivoting, the hydraulic drive (3) with the lower maximum force is assigned to the second arm segment for its pivoting relative to the first arm segment. Construction machine according to one of the preceding claims, characterized in that in at least one hydraulic control (1), at least one hydraulic drive (3) is designed as at least one hydraulic cylinder (5), preferably as a plurality of hydraulic cylinders (5) provided in parallel, preferably each hydraulic drive (3) is each designed as at least one hydraulic cylinder (5), preferably as a plurality of hydraulic cylinders (5) provided in parallel. Construction machine according to one of the preceding claims, characterized in that in at least one hydraulic control (1), the control mode can be activated at least manually. Construction machine according to one of the preceding claims, characterized in that at least one hydraulic control (1) in the control unit Sensor values, for example in the form of a sensor value combination and/or a sensor value sequence, are stored for which the control mode is to be activated, and that an algorithm for evaluating the sensor values currently recorded by the sensors and in the event of a corresponding match is incorporated into the control unit automatic activation of the control mode is integrated with the sensor values and/or sensor value combination(s) and/or sensor value sequence(s) stored in the control unit. Construction machine according to the preceding claim, characterized in that with at least one hydraulic control (1) in the control unit, an automatic mode can be activated, in which the algorithm for automatically activating the control mode is active.

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