Diagnosis Unit

Abstract

A diagnosis unit (1) for detection, analysis, and data management of sensor data detected on an actuator (20), has at least one sensor (14, 15), a data processing unit (10), a data manager (11), and an interface unit (12). The at least one sensor (14, 15), the interface unit (12), and the data manager (11) are respectively, connected to the data processing unit (10), enabling data exchange. The diagnosis unit (1) is built into a module with the actuator (20).

Claims

1.-12. (canceled)

13. A diagnosis unit for the detection, analysis, and data management of sensor data detected on an actuator comprising: the diagnosis unit having at least one sensor, a data processing unit, a data manager, and an interface unit; the at least one sensor, the interface unit, and the data manager are respectively connected to the data processing unit, enabling data exchange; and the diagnosis unit is built into a module.

14. The diagnosis unit according to claim 13, further comprising a supply unit for power supply.

15. The diagnosis unit according to claim 14, wherein the supply unit is a battery or a battery pack.

16. The diagnosis unit according to claim 13, wherein the interface unit is designed to transmit data wirelessly to a control of the actuator and/or to receive data wirelessly from the control.

17. The diagnosis unit according to claim 13, wherein the diagnosis unit is further connected to a display unit and the interface unit is designed to transmit data wirelessly to the display unit and/or to receive data wirelessly from the display unit.

18. The diagnosis unit according to claim 13, wherein the data processing unit is designed to receive sensor data from the at least one sensor, to store the data in the data manager, and to generate diagnostic data from the sensor data received and/or stored in the data manager by a diagnostic method, wherein the data processing unit stores the diagnostic data in the data manager and transmits the data to the interface unit.

19. The diagnosis unit according to claim 18, wherein the data processing unit is designed to carry out an interpolation, extrapolation, Fourier analysis, and/or vibration diagnosis on the sensor data.

20. The diagnosis unit according to claim 13, wherein the interface unit is directly connected to the data manager enabling direct exchange of data, and/or the at least one sensor is directly connected to the data manager enabling direct exchange of data.

21. The diagnosis unit according to claim 13, wherein the diagnosis unit is integrated into a universal interface.

22. A system comprising a plurality of modules, wherein each module has an actuator and a respective diagnosis unit according to claim 13 that detects sensor data on the actuator.

23. A method for analyzing data detected on an actuator with a diagnosis unit according to claim 13, wherein the at least one sensor generates sensor data from physical variables measured on the actuator and transmits the data to the data manager and/or the data processing unit, and the sensor data is stored in the data manager, the data processing unit determines a current and/or future actuator state from the transmitted and/or stored sensor data and stores the actuator state in the data manager, the data processing unit compares the actuator state to predetermined hazard states, and when the actuator state corresponds to a hazard state, a hazard source is determined from the sensor data and/or stored characteristic maps and stored in the data manager.

24. The method according to claim 23, wherein the data processing unit determines a procedure for eliminating or preventing the hazard state from the hazard source and the sensor data by a plurality of predetermined procedures, and at least the procedure, the actuator state, and the hazard state are transmitted to the control or the display unit via the interface unit.

Description

DRAWINGS

[0023] The drawings described herein are for illustrative purposes only of selected embodiments and not all possible implementations, and are not intended to limit the scope of the present disclosure.

[0024] Other advantageous embodiments of the disclosure are in the dependent claims and/or are shown in more detail in the following by the FIGURE, along with the description of the preferred embodiment of the disclosure.

[0025] FIG. 1 is a schematic view.

DETAILED DESCRIPTION

[0026] FIG. 1 schematically shows the topological structure of a module 2 comprising an actuator 20 and a diagnosis unit 1. The diagnosis unit 1 has two sensors 14, 15. Each sensor determines a physical variable on the actuator 20. Furthermore, the diagnosis unit 1 has a data processing unit 10, a data manager 11, an interface unit 12, and a supply unit, implemented as a battery 13. They are arranged in a common housing 1. The sensors 14, 15, the battery 13, the data manager 11, and the interface unit 12 are respectively connected to the data processing unit 10 via a wired line 16, 17, 18.

[0027] In the embodiment shown in FIG. 1, the actuator 20 is a hydraulic cylinder, where an interior pressure is established by a fluid. The sensor 14 detects an interior pressure generated in the cylinder by the fluid. It transmits information regarding the detected interior pressure to the data processing unit 10 in the form of sensor data, via the line 16. The data processing unit 10, compares, at intervals, the sensor data transmitted by the sensor 14. A maximum value is stored in the data manager 11 and determines whether the interior pressure exceeds the maximum value. In addition, the transmitted sensor data, along with the time of transfer and time of measurement are preferably stored on the data manager 11 at regular intervals to the extent that a history and/or a progression of the sensor data is stored on the data manager 11. The data processing unit 10 retrieves at least a portion of the stored sensor data at regular intervals. It determines when the interior pressure exceeds the predetermined maximum value by extrapolation of the sensor data.

[0028] The interior pressure in the cylinder corresponds to the actuator state. If the interior pressure is below the maximum value, this is considered to be a safe actuator state where no further action is necessary. If the interior pressure exceeds the maximum value or if it is determined, by the extrapolation of the data, that the maximum value has been exceeded within a predetermined time span, of 24 hours for example, this is considered a hazard state. Depending on further sensor data such as, for example, ambient temperature, cylinder temperature, position of the cylinder, and data stored in the data manager 11 regarding the actuator such as, for example, age, design type, or operating parameters, the data processing unit 10 selects an instruction and/or procedure, that correlates with the data available, from a group of potential instruction alternatives for remedying the hazard state, that is stored in the data manager 11.

[0029] Once a procedure has been selected, the data processing unit 10 stores the presence of a hazard state, together with all of the corresponding sensor data and the procedure. Thus, by means of a flag, it transmits the procedure, along with the respective sensor data, to a display unit 3 via the interface unit 12 and the wireless connection 19. If the transmission fails, the interface unit 12 attempts to transfer the procedure, along with the corresponding sensor data, to the display unit at regular intervals, as long as the flag is set.

[0030] If the hazard state has been eliminated, this is detected by the sensors 14, 15, and the set flag is deleted.

[0031] The disclosure is not limited in its design to the aforementioned preferred exemplary embodiments. Rather, a number of variants is conceivable, which would make use of the solution shown even with essentially different designs.

[0032] The foregoing description of the embodiments has been provided for purposes of illustration and description. It is not intended to be exhaustive or to limit the disclosure. Individual elements or features of a particular embodiment are generally not limited to that particular embodiment, but, where applicable, are interchangeable and can be used in a selected embodiment, even if not specifically shown or described. The same may also be varied in many ways. Such variations are not to be regarded as a departure from the disclosure, and all such modifications are intended to be included within the scope of the disclosure.