EP1836400A1

EP1836400A1 - Device and method for on-condition maintenance of hydrostatic displacement units

Info

Publication number: EP1836400A1
Application number: EP06819023A
Authority: EP
Inventors: Wilfried Eichner
Original assignee: Brueninghaus Hydromatik GmbH
Current assignee: Bosch Rexroth AG
Priority date: 2005-12-13
Filing date: 2006-12-12
Publication date: 2007-09-26
Also published as: DE102005059566B4; US8082125B2; WO2007068447A1; DE102005059566A1; US20090229455A1

Abstract

The invention relates to a device (1) and a method for on-condition maintenance of hydrostatic displacement units (2), in particular of axial piston machines (3) operated as a pump or motor. Attached to the hydrostatic displacement unit (2) are acceleration sensors (4) and/or contamination-level sensors (5) which record vibration data or respectively contamination data of the hydrostatic displacement unit (2) and are connected to an evaluating unit (6) which temporarily stores the vibration data or contamination data. A communication unit (7) connected to the evaluating unit (6) relays these data.

Description

Device and method for condition-dependent maintenance of hydrostatic displacement units

The invention relates to an apparatus and a method for condition-dependent maintenance of hydrostatic displacement units.

When hydraulic equipment fails due to maintenance or malfunction, costly downtime occurs during which spare parts must be replaced. In addition, contamination of the entire hydraulic circuit can cause a down time, so that before restarting the entire system must be cleaned and the hydraulic oil and system components such. Filter inserts must be replaced. When hydraulic systems are not in operation, for example in a production line, not only result in reduced productivity, but also very high costs for shutting down and restarting the hydraulic system.

In order to reduce the failures is the state of the art according to equip a hydraulic system so that it can be controlled over long distances.

For example, from DE 100 18 866 Al a pump unit with a pump and an electric motor, which drives the pump known. For the electric motor, a digital motor control is provided, which is connected via a bus to a digital communication unit having an Internet protocol-based interface, so that ultimately the Pump unit via a digital network, an intranet or the Internet is controllable.

A disadvantage of the prior art resulting from DE 100 18 866 A1 is that the pump unit is not controlled directly, but via the motor control, which can be remote-controlled via the digital communication unit. The pump unit itself has at least one sensor, such as a pressure sensor, a differential pressure sensor or a temperature sensor whose output signal can be interrogated via the communication unit. However, directly related to the operation of the pump or the pump unit data such as surface vibrations of the housing and degree of contamination of the hydraulic fluid are not detected in the pump unit according to the document DE 100 18 866 Al. This results in the disadvantage that the acquired and transmitted data for determining service intervals are not sufficient because the relevant data such as the average amplitude of the surface vibrations of the housing or the abrasion contained in the hydraulic fluid in the pump unit according to the document DE 100 18 866 Al can not be detected.

The present invention has the object to overcome the disadvantages of the prior art and to provide an apparatus and a method for detecting failure phenomena, as well as for the establishment of service intervals and for the analysis of damage characteristics in hydrodynamically operated machines.

The object is with respect to the device according to the invention by the features of claim 1 and with respect to Method according to the invention by the features of claim 15.

Claim 1 or claim 15 relate to a device or a method for condition-dependent maintenance of hydrostatic displacement units, in particular operated as a pump or motor axial piston machines. For this purpose, acceleration sensors and / or contamination degree sensors are mounted on the hydrostatic displacement unit, which detect vibration data or contamination data of the hydrostatic displacement unit. The sensors are connected to an evaluation unit, which temporarily stores the vibration data or contamination data, wherein a communication unit connected to the evaluation unit is provided on the hydrostatic displacement unit and transports this data further.

The measures carried out in the dependent claims relate to advantageous developments of the invention.

In particular, it is advantageous for a first acceleration sensor to be provided in a bearing region of the hydrostatic displacement unit, so that vibrations on the surface of the housing in the area of the bearing are detected metrologically.

Furthermore, it is advantageous that a second acceleration sensor is provided in a Umsteuerbereich the hydrostatic displacer unit, so that occurring cavitation is reliably detected when changing from the high pressure region to the low pressure region. It is also advantageous that a first degree of contamination sensor, which may be a particle sensor, is provided in the hydraulic circuit, so that abrasion can already be detected in the circulated hydraulic fluid. A second pollution degree sensor in the leak oil line is advantageous when the first pollution degree sensor fails. This ensures that despite a failure of a contamination level sensor, the abrasion in the hydraulic fluid can still be determined.

Advantageously, an evaluation unit is provided in the device according to the invention, which can also be interrogated remotely via an intranet or an internet connection via a communication unit connected to it. In the communication unit, a web server is advantageously installed, which enables convenient and user-friendly access to the stored data, in particular to the contamination data and the evaluation of the surface vibrations.

It is advantageous that the evaluated data with respect to the surface vibrations and the degree of soiling characterize the state of the hydrostatic displacer unit and the hydraulic fluid, and thus a necessary maintenance even before their due date, and especially displayed before a claim or from outside the web server can be queried so that any necessary downtime can be well agreed with the production process, as this can be made known with a certain lead time. Furthermore, it is advantageous that at least two acceleration sensors are mounted on the housing of the hydrostatic displacement unit, so that surface vibrations of the housing can be detected in two directions.

Due to the fact that the communication unit has a web server, it is possible to communicate with the web server from any internet-capable PC and thus also to query data from the hydrostatic displacement unit. Furthermore, all data stored in the evaluation unit and present in the web server can be visualized and further processed via the browser. In addition, it is advantageous that the web server can also be configured via the browser of the external, Internet-enabled PC.

A preferred embodiment of the state-dependent maintenance device according to the invention of hydrostatic displacement units is shown in the drawing and will be explained in more detail in the following description. Show it:

Fig. 1 is a sectional view of a conventional axial piston machine for explaining the measured parameters and

Fig. 2 is a schematic representation of the device according to the invention with an axial piston machine, which is connected via a web server with an external PC.

The axial piston machine 3 shown in FIG. 1 is in swash plate design with adjustable Displacement volume and a current direction and includes in a known manner as essential components a substantially hollow cylindrical housing 11 having an end open end (lower end in Fig. 1), a housing 11 attached to the open end occlusive housing cover 16, one also as a Hubscheibe designated swash plate 17, a control plate 18, a shaft 19 and a cylinder drum 20. By means of a suitable sensor, which is not shown in this illustration, a swivel angle of the swash plate 17 is determined and to an evaluation unit 6 of the state-dependent maintenance of hydrostatic device 1 according to the invention Displacer 2 transmitted.

The shaft 19 is rotatably mounted in the housing 11 and engages centered through the cylinder barrel 20, wherein in a storage area 8 of the hydrostatic displacer unit 2, a first acceleration sensor 4 is provided on the housing 11 of the axial piston machine 3. The cylinder drum 20 is non-rotatable with the shaft 19, but axially movable and thereby detachably connected by the shaft 19. The shaft 19 is mounted on both sides of the cylindrical drum 20 in each case a rolling bearing 21. On the shaft 19, a speed sensor is mounted, which is not visible in this illustration and determines the instantaneous speed of the shaft 19 and forwards to the evaluation unit 6.

In the cylinder drum 20 distributed over the circumference a plurality of cylinder bores 22 are formed. In each cylinder bore 22, a piston 23 is inserted axially movable in each case. The pistons 23 each have a side facing away from the housing cover 16 side spherical head 24 which cooperates with a corresponding recess of a sliding shoe 25 to a hinge connection. By means of the slide shoe 25, the piston 23 is supported on the swash plate 17. Upon rotation of the cylinder drum 20, therefore, the pistons 23 perform a stroke movement in the cylinder bores 22. The height of the stroke is determined by the position of the swash plate 17, wherein the position of the swash plate 17 in the embodiment by an adjusting device 26 is adjustable.

The control openings 18 of the control plate 18, which are not visible in the section of FIG. 1 of the axial piston machine 3, are in permanent contact with at least one high-pressure or low-pressure connection, not shown in this figure, on their side facing away from the cylinder drum 20. This area of the axial piston pump 3 is also referred to as a reversing area 9. In the Umsteuerbereich 9 of the hydrostatic displacer unit 2, a second accelerometer 4 is provided according to the invention.

The cylinder bores 22 are open via openings to the end face of the cylinder drum 20. The

Openings sweep in a rotation of the

Cylinder drum 20 a sealing environment of

Control plate 18 and are connected during a rotation alternately with the unrecognizable control openings.

The function of the axial piston machine 3 described above is well known and in below description when used as a pump to the essential.

The axial piston machine 3 is provided, for example, for operation with oil as a hydraulic fluid in a hydraulic circuit 10. In the hydraulic circuit 10 of a hydrostatic displacement unit 2, the hydraulic fluid is circulated. In the state-dependent maintenance apparatus 1 of the invention, a first pollution degree sensor 5, which may be a particle sensor, is provided inside the hydraulic circuit 10 to detect the concentration of the abrasion therein. Further, a second pollution degree sensor 5 is provided within a leak oil line, said leak oil line is not shown in the present Figure 1 of the axial piston machine.

About the shaft 19, the cylinder drum 20 is rotated together with the piston 23 in rotation. If the swashplate 17 is pivoted into an inclined position relative to the cylinder drum 20 by actuation of the adjusting device 26, all pistons 23 perform strokes. Upon rotation of the cylinder drum 360 ° through each piston 23 passes through a suction and a compression stroke, with corresponding oil flows are generated, the supply and discharge via the openings, the unrecognizable control openings of the control plate 18 and the high pressure or low pressure connection, not shown ,

2 shows a schematic representation of a device 1 according to the invention for condition-dependent maintenance of hydrostatic displacement units 2, in particular of a pump or motor Axial piston machines 3. At the hydrostatic displacement unit 2 acceleration sensors 4 and / or pollution degree sensors 5 are mounted, the vibration data or pollution data of the hydrostatic displacer unit 2 detect. The sensors are connected to an evaluation unit 6, which evaluates and temporarily stores the vibration data or contamination data, wherein a communication unit 7 connected to the evaluation unit 6 is provided, which transports this data further.

The communication unit 7 connected to the evaluation unit 6 is preferably integrated in an on-board electronic unit 12 or screwed thereto. Alternatively, it may also be attached to the housing 11 of the hydrostatic displacement unit 2 or be integrated in the evaluation unit 6 itself.

The inventively provided communication unit 7 is a digital communication unit in which a web server 13 is installed, which provides the evaluated data attached to the hydrostatic displacer unit 2 sensors, so that this either automatically or on request to one with the Internet 27 or a Intranet connected external PC 28 are transported, wherein this further transport takes place via an intranet or an Internet connection. For this purpose, the web server 13 of the communication unit 7 is wired, connected to the Internet 27 by means of a LAN connection or wirelessly by means of a GSM modem or WLAN. The evaluation unit 6 is connected to the communication unit 7 by means of a data bus or by means of a wireless connection, such as infrared or RFID connected. Also a transmission over the Ethernet is possible.

In the method according to the invention for condition-dependent maintenance of hydrostatic displacement units 2, in particular of axial piston machines 3 operated as pump or motor, acceleration sensors 4 and / or contamination degree sensors 5 are attached to the hydrostatic displacement unit 2, whereby vibration data or contamination data of the hydrostatic displacement unit 2 are detected. These data are buffered in an evaluation unit 6. At the hydrostatic displacer unit 2, a communication unit 7 is attached, which is connected to the evaluation unit 6 and further transports the detected vibration data or contamination data. In a further embodiment of the present invention, the communication unit 7 is integrated into a mechanical or electrical controller 14, 15.

At least one first acceleration sensor 4 is mounted in a bearing area 8 of the hydrostatic displacement unit 2 and a second acceleration sensor 4 is mounted in a reversing area 9 of the hydrostatic displacement unit.

In addition to the acceleration sensors 4, a first pollution degree sensor 5 is placed in a hydraulic circuit 10 of the hydrostatic displacement unit 2 and a second pollution degree sensor 5 is placed within a leak oil conduit. The communication unit 7 connected to the evaluation unit 6 is fixed to a housing 11 of the hydrostatic displacement unit 2 or screwed to an on-board electronics 12 of the hydrostatic displacement unit 2.

The invention is not limited to axial piston machines in swash plate design and is also applicable, for example, for axial piston machines in bent-axis design or other hydrostatic displacement units with a closed or open hydraulic circuit applicable.

Claims

claims

1. Device (1) for condition-dependent maintenance of hydrostatic displacement units (2), in particular operated as a pump or motor axial piston machines (3), wherein at the hydrostatic displacement unit (2) at least one acceleration sensor (4) and / or at least one pollution degree sensor ( 5) is mounted, the vibration data or

Pollution data of the hydrostatic displacement unit

(2) is detected and connected to an evaluation unit (6), which evaluates the vibration data or contamination data, wherein a communication unit (7) connected to the evaluation unit (6) is provided which further transports this data.

2. Apparatus according to claim 1, characterized in that at least one first acceleration sensor (4) in a storage area (8) of the hydrostatic displacer unit (2) is provided.

3. Device according to claim 1 or 2, characterized in that at least one second acceleration sensor (4) in a Umsteuerbereich (9) of the hydrostatic displacer unit (2) is provided.

4. Device according to one of claims 1 to 3, characterized in that at least one first contamination degree sensor (5) is provided in a hydraulic circuit (10) of the hydrostatic displacement unit (2).

5. Device according to one of claims 1 to 4, characterized in that a second pollution degree sensor (5) is provided within a leak oil line.

6. Device according to one of claims 1 to 5, characterized in that the contamination degree sensor (5) is a particle sensor.

7. Device according to one of claims 1 to 6, characterized in that the evaluation unit (6) connected to the communication unit (7) on a housing of the hydrostatic displacer unit (2) is provided.

8. Device according to one of claims 1 to 7, characterized in that the evaluation unit (6) connected to the communication unit (7) on an on-board electronics (12) of the hydrostatic displacer unit (2) is arranged.

9. Device according to one of claims 1 to 8, characterized in that the evaluation unit (6) connected to the communication unit (7) in the on-board electronics (12) of the hydrostatic displacer unit (2) is integrated.

10. Device according to one of claims 1 to 9, characterized in that the communication unit (7) is integrated in the evaluation unit (6).

11. Device according to one of claims 1 to 10, characterized in that the evaluation unit (6) connected to the communication unit (7) is a digital communication unit.

12. Device according to one of claims 1 to 11, characterized in that in the communication unit (7), a web server (13) is installed.

13. Device according to one of claims 1 to 12, characterized in that the communication unit (7) with the evaluation unit (6) is connected by means of a data bus.

14. Device according to one of claims 1 to 13, characterized in that the communication unit (7) with the evaluation unit (6) is connected by means of a wireless connection.

15. Method for state-dependent maintenance of hydrostatic displacement units (2), in particular operated as a pump or as a motor axial piston machines

(3), wherein on the hydrostatic displacement unit (2) at least one acceleration sensor (4) and / or at least one pollution degree sensor (5) are mounted, whereby vibration data or pollution data of Hydrostatic displacer unit (2) are detected and evaluated in an evaluation unit (6), wherein on the hydrostatic displacer unit (2) a communication unit (7) is mounted, which is connected to the evaluation unit (6) and further transports the detected vibration data or contamination data ,