DE10164677C1 - Air pressure maintenance device for air pressure removal locations has an air pressure maintenance unit with pipes controlling air to be dealt with and air already dealt and an external unit for input/output of data on conditions. - Google Patents

Abstract

An air pressure maintenance unit (2) has two connectors for pipes controlling air to be dealt with and air already dealt with as well as a functional module (6) with a sensor (8) for recording data on conditions and/or an actuator (10) for controlling data on conditions. An external unit (4) has an input device (26) to preset data on conditions and/or an output device (28) to output this data. The air pressure maintenance unit has a first communications interface (18,20) with first transmitter and receiver devices and an external unit with a second communications interface (22,24) with second transmitter and receiver devices.

Description

The invention relates to a compressed air maintenance device the features of the preamble of claim 1.

Compressed air maintenance units with individual function modules are known from DE 198 26 642 A1 technology and are used for a Variety of use cases. Usually Compressed air generated by compressors and via the pipes Function modules supplied. Expediently, several Function modules for a compressed air maintenance unit summarized. For example, function modules for filtering the compressed air to be treated, condensate separator, Oil nebulizers, pressure regulators or shut-off modules can be used. The various function modules can use sensors for detection of status data and / or actuators for controlling Have status data. For example, the Degree of contamination of a filter by recording the Pressure difference between that fed to the filter and that from Filter discharged compressed air can be determined. In the Function modules can not only be used for sensors Acquisition of status data may be provided, but also Actuators for controlling status data. For example, a function module designed as an oil nebulizer both one Have a sensor for detecting the level of the oil nebulizer  as well as a dosing device with which to be treated A desired amount of oil can be added to compressed air.

DE 197 46 179 C2 is a compressed air maintenance unit known, in which the individual modules via a bus line are networked with each other. DE 199 42 509 A1 describes one Pneumatic device known in the data on a Pneumatic line or via infrared or radio between one electronic control and / or data receiving device and be transmitted to the pneumatic device.

There are also external units from the prior art known, with the help of which state data are specified can. Such input devices are available in a variety of technical objects are provided and are for example as a keyboard or touch-sensitive screens educated.

They are also dispensers for dispensing State data known with which data can be visualized or can be made acoustically perceptible. Such Output devices are, for example, by Computer screens or speakers are formed.

The known compressed air maintenance units are usually in Production plants or workshops corresponding compressed air Upstream sampling points. The compressed air maintenance units may be located on a variety of far from each other  distant places. Maintenance of the individual function modules a compressed air maintenance unit is therefore with a corresponding Effort associated with a review of whether individual Function modules require maintenance, only locally on one Compressed air maintenance unit can be done. Also controlling State variables, e.g. for pressure control, require either one Change of location of staff or at least one cable connection between the tapping point and the functional module. The relocation Such cable lines are complex and have also the disadvantage that not for a new removal location only the lines carrying compressed air, but also the Cable connections have to be relocated or adjusted.

The maintenance and control of the known compressed air maintenance units is therefore complex and requires extra great care on the part of the for the compressed air maintenance units of responsible personnel. If there is insufficient care or if a function module is checked late, errors in overlooked the compressed air maintenance unit or discovered too late become. It is conceivable that a filter insert is a pressure air maintenance unit is replaced too late when the Degree of contamination of the filter not carefully or not often checked enough.

It is therefore the object of the present invention, a Air maintenance unit to provide the above overcomes the disadvantages of the prior art and is easier to maintain and maintain.  

This task is done with a compressed air maintenance facility solved, which has the features of claim 1.

Both current Status data of the function modules transferred and on one external unit are shown as well as target state data from the external unit to the compressed air maintenance unit are transferred to actuators of the function modules in the Activate compressed air maintenance unit. The data transfer between the compressed air maintenance unit and the external unit wireless. So there are no cable lines for the transmission of Data required. The arranged in distant places Compressed air maintenance units with the function modules can be monitored and controlled centrally. It is special not necessary for monitoring or staff Control of the function modules of a compressed air maintenance unit must change his whereabouts. Rather, it can be one reliable and timely maintenance of each Function modules are made by using status data of the remote Function modules can be displayed by the external unit. Also a specification of target status data can be spatially spaced by entering target status data into the external unit and wireless transmission to individual actuators Function modules take place. Thus both Reliability of maintenance of the compressed air maintenance units significantly improved as well as the necessary for this Personnel expenses significantly reduced.  

The function modules to be monitored or controlled can be used as a filter, especially with two pressure sensors Oil nebulizer with level sensor and dosing device, as Condensate separator with level sensor, as a pressure control valve with a pressure sensor and a valve actuator or as Shut-off module with a valve actuator. There are other elements conceivable with which the state of the to treating or treated compressed air recorded or can be influenced.

The input device on the external unit and / or on the Air maintenance unit is as real keypad, as touch-sensitive screen with a virtual Keyboard or for handwriting recognition, as Multifunction button or as a voice input device educated. The selection of the input device should be one of them depending on the environmental conditions in which the Compressed air maintenance unit and the external unit used become. For example. it proves itself in a production environment relatively high noise level as beneficial, a robust designed keypad on the compressed air maintenance unit and / or to provide the external unit. For example, the external unit in a noise-protected environment, so can these can be designed as a voice input device. For the corresponding selection of the input device are also ergonomic considerations.  

A device for data technology is advantageous Processing of the status data provided. The device can be designed as a data processing device or comparator his. The task of the device can be one Comparison between actual status data of individual function modules with target status data. For example. can for a Filter function module a maximum pressure drop on Filter insert can be specified. This maximum value is in time intervals with the actual state value of the Pressure drop across the filter insert compared. exceeds the measured pressure drop is the specified, maximum permissible Pressure drop can be a suitable output device Warning. The frequency with which corresponding comparisons between actual state data and maximum permissible status data can be made for each Applications can be determined. For example. can be a daily or hourly query of the pressure drop at the filter insert makes sense be while the query of the actual state data of a Pressure regulator can be performed much more often. If Compressed air at an extraction point from a compressed air line is removed, this can lead to a rapid decrease in the Lead pressure levels in the compressed air lines. Will the Query of the pressure level through short polling intervals promptly detected, a compressed air generating unit such. B. a Compressor or a compressed air reservoir, correspondingly quickly can be controlled to raise the pressure level again.  

The data processing can also consist of that for a functional module or multiple functional modules Protocol can be created by which the temporal History of status data is traceable.

According to a first embodiment of the invention Device for data processing of the state data integrated in the compressed air maintenance unit. This Arrangement has the advantage that the compressed air maintenance unit not integrated into external data processing structures must become. Such a compressed air maintenance unit is, for example. known from DE 295 09 073 U1.

According to an alternative embodiment of the invention Device for data processing of the state data integrated in the external unit. This arrangement has the main advantage that the status data of several spatially distributed compressed air maintenance units with each at least one function module can be processed. A appropriate computer architecture with processors and Memory modules only need to be used once, i.e. in the external one Unit.

The function modules can be horizontal or vertical in the Maintenance unit can be arranged. The horizontal arrangement of the Function modules correspond to the conventional arrangement type. The vertical arrangement of the function modules has the advantage that functional modules are added to a compressed air maintenance unit  can be without the connected compressed air leading lines must be adjusted. Such vertical maintenance unit is known from DE 198 26 642 A1.

According to a preferred embodiment of the present Invention is proposed that the Communication interfaces as infrared interfaces, in particular according to the IrDA standard. Send- and receiving components for realizing a Infrared connections are already in large quantities today and manufactured in almost any embodiment. This Components can be adapted to the respective application become. The use of a is also conceivable Ultrasound interface as a communication interface.

Alternatively, it is suggested that the Communication interfaces as radio interfaces are trained. A radio link has optical or acoustic connections the advantage that no direct visual contact between the Communication interfaces of the compressed air maintenance unit and the external unit must exist.

Any communication connection can be made when establishing a connection between the compressed air maintenance unit and the external unit own frequency range or own Data transmission frame (CDMA, Code Division Multiple Access  and / or TDMA, Time Division Multiple Access) within one Frequency range can be assigned. The radio link between the compressed air maintenance unit and the external unit can be done via one or more channels.

The connection can be established automatically or manually. If a suitable one on the external unit Installation software is executable, the device can e.g. support a manual connection and after the Establishing a connection a function test of the newly built Make the connection.

According to another advantageous development of the The present invention proposes that the Communication interfaces radio signals in one Receive or transmit frequency range between 2 and 3 GHz. The radio connection is preferably carried out in one Frequency range of around 2.45 GHz. This frequency range is for use in industrial, scientific and medical applications have been reserved (so-called ISM band for industrial, scientific and medical devices). In this Frequency range there are therefore relatively few disturbances.

According to a further preferred embodiment of the The present invention proposes that the Communication interfaces radio signals with a bandwidth of at least 64,000 bits / s with bidirectional Send out data transmission. With the bidirectional  Data transmission, also known as "synchronous communication" is called, the data transmission over the Radio connection in both directions made simultaneously. in the In contrast, the data transmission takes place at a unidirectional data transfer, also known as "asynchronous communication "is referred to only in one direction over the Radio link. With unidirectional data transmission can transmit data using the radio link, preferably with up to 721 kbits / s in one direction and 57.6 kbits / s in the other direction. If the same size Data transfer rates in both directions are required, the data can be transmitted with up to 432.6 kbits / s over the Radio connection can be transmitted.

In a particularly preferred embodiment of the The present invention proposes that the Communication interfaces as radio interfaces are trained in the BlueTooth standard. Broadcast and Reception components to implement a BlueTooth Radio connections are already in large quantities for the most diverse applications are manufactured and are very inexpensive. The components are extremely small and can easily in the compressed air maintenance unit or in the external unit can be integrated. The connection establishment takes place fully automatically at BlueTooth, so that the Querying status data or specifying target Condition data made very simple. After installing one Air maintenance unit with a BlueTooth  Communication interface sends out these signals and will recognized by the external unit. It will be a radio link between the compressed air maintenance unit and the external unit fully automatic and the radio connection on certain frequency range or a certain Data transmission frames within a frequency range assigned.

The compressed air maintenance unit has one Input device for specifying status data and / or a Output device for outputting data. Thus a Status data can also be read directly from the compressed air maintenance unit without using an external unit respectively. The input can, for example, via a keypad and the Output via a display. Such Compressed air maintenance unit is known from DE 295 09 073 U1.

It proves to be advantageous that the input device on the external unit part of a palmtop, laptop, PC or Cellphone is. In particular, it turns out to be advantageous that the external unit is a mobile device is. This is the case, for example, with a palm top, which is also available as a Personal Digital Assistant (PDA) is called. Such a Palm top with integrated infrared interface is, for example. under the name "Palm Pilot" from 3com, USA distributed. On an integrated screen of the palm top the current status data of the function modules of the Air maintenance units are issued. Over a  virtual keyboard of the palmtop or above Handwriting recognition can target data of the state Function modules of the compressed air maintenance units entered become. In the palmtop you can also compare operations current status data and maximum permissible status data be performed. The target status data are via the wireless communication link from the palmtop to the Function modules of the compressed air maintenance unit transmitted. The described operations are also with others Input devices such as B. a laptop, a PC or can be displayed on a mobile phone. The single ones Input devices differ, for example, in terms of Size and usability.

The output device is advantageously on the external Unit and / or on the compressed air maintenance unit as a display, Screen, speaker or light source trained. Displays and screens are suitable for the visualization of Data or warnings that, for example, when a maximum permissible status are output. It can too Speakers or other sounding devices are used, to acoustically indicate certain operating states. It is  it is also conceivable that light sources, for example warning lamps are provided to prevent impermissible operating states of the Display function modules.

Some advantageous configurations and details of the Invention are the dependent claims and the following To see description in which the invention based on the in the embodiments shown in the drawing is described and explained. Show it:

FIG. 1 shows a structure of a compressed air maintenance device with internal data processing schematically represented;

FIG. 2 shows a structure of a compressed air maintenance device with external data processing schematically represented; and

Fig. 3 is a Fig. 2 corresponding representation in an alternate embodiment.

1 shows a compressed air maintenance device which consists of a compressed air maintenance unit 2 and an external unit 4 . The compressed air maintenance unit 2 consists of a function module 6 with a sensor 8 and an actuator 10 . The compressed air maintenance unit 2 further comprises a computer 12 with a data input device 14 and a data output device 16 . Furthermore, the compressed air maintenance unit 2 has a communication interface, which consists of a receiving device 18 and a transmitting device 20 . The communication interface of the compressed air maintenance unit 2 can be in a wireless communication connection with a communication interface of the external unit 4 . The communication interface of the external unit 4 consists of a sending device 22 and a receiving device 24 . The external unit 4 also has a data input device 26 and a data output device 28 .

A computer 12 is provided as the central element in the compressed air maintenance unit 2 and has a plurality of data inputs and outputs. For example. The computer 12 can process state data of the function module 6 acquired by the sensor 8 . The computer 12 can also be supplied with data via the data input device 14 of the compressed air maintenance unit 2 or via the receiving device 18 . The computer 12 also has data outputs for the actuator 10 of the function module 6 , for the data output device 16 of the compressed air maintenance unit 2 and for the transmitting device 20 of the compressed air maintenance unit 2 .

The functional module 6 , the sensor 8 and the actuator 10 can be designed, for example, as a pulse oiler 6 with a fill level sensor 8 and a metering device 10 . Possible data paths for this exemplary embodiment are described below. The pulse oiler 6 has a reservoir, not shown, with oil. The fill level of this storage container is detected by the sensor 8 and sent to the computer 12 as data information. The data on the fill level of the pulse oiler 6 can be output via a data output device 16 in the compressed air maintenance unit 2 . For example. The data output device 16 is designed as a display and is arranged on a visible side of the compressed air maintenance unit 2 . The data can also be output from the computer 12 via the transmitting device 20 of the compressed air maintenance unit 2 , via a receiving device 24 of the external unit 4 to a data output device of the external unit 4 . There is a wireless communication link between the transmitting device 20 and the receiving device 24 . This communication connection can be designed as a radio connection, for example. The external unit can, for example, as a mobile display unit. B. as a palm top. For this example, the data output device 28 consists of a liquid crystal display (LCD).

It is possible to influence the state of the function module 6, for example, designed as a pulse oiler, via the actuator 10, for example, designed as a metering device. For this purpose, data are supplied to the computer 12 . The data can optionally be input via a data input device 14 in the compressed air maintenance unit 2 or via a data input device 26 in the external unit 4 . For example. The data input device 14 of the compressed air maintenance unit 2 consists of a keypad which is arranged at an easily accessible location on the compressed air maintenance unit. When entering data via the external unit, which is designed, for example, as a palm top, z. B. can be used a touch-sensitive screen that displays a virtual keyboard, via which the desired status data of the function module are entered. These target status data are then transmitted to the computer 12 via the transmitting device 22 of the external unit 4 and the receiving device 18 of the compressed air maintenance unit 2 . The computer 12 controls the actuator 10 , which is designed, for example, as a metering device, as a result of which the oil supply rate is adjusted.

FIG. 2 shows an alternative construction of a compressed air maintenance device, which consists of a compressed air maintenance unit 2 and an external unit 4 . The compressed air maintenance unit 2 has a function module 6 , a sensor 8 , an actuator 10 and a data input device 14 , a data output device 16 and a communication interface, which consists of a receiving device 18 and a transmitting device 20 . The communication interface in the compressed air maintenance unit 2 is in communication connection with a communication interface of the external unit 4 .

This communication interface is formed from a sending device 22 and a receiving device 24 . The external unit 4 also has a computer 30 and a data input device 26 and a data output device 28 .

The actual status data of the function module 6 can be recorded via the sensor 8 and transmitted to the sending device 20 of the compressed air maintenance unit 2 . Via the communication link between the transmitting device 20 and the receiving device 24 of the external unit 4 , the status data of the function module 6 detected by the sensor 8 can be transmitted to the external unit 4 and processed there by the computer 30 or output by the data output device 28 . The data output device 28 consists, for example, of a screen of a laptop. The data can also be output via the computer 30 , the transmitting device 22 of the external unit 4 , via the communication link to the receiving device 18 of the compressed air maintenance unit 2 to the data output device 16 of the compressed air maintenance unit 2 . The data output device 16 is designed, for example, as a display.

With the construction of a compressed air maintenance device shown in FIG. 2, target status data of the function module 6 can also be specified. This data can alternatively be entered via the data entry device 26 of the external unit 4 or via the data entry device 14 of the compressed air maintenance unit 2 . When the data is entered via the data input device 26 of the external unit 4, it is transferred to the computer 30 , the transmission device 22 of the external unit 4 , via the communication link to the receiving device 18 of the compressed air maintenance unit 2 to the actuator 10 , which controls the function module 6 . The function module 6 is designed, for example, as a shut-off module and the actuator 10 as a valve actuator. The data can also be input via the data input device 14 of the compressed air maintenance unit 2 , the transmission device 20 , the communication connection to the reception device 24 to the computer 30 and via the transmission device 22 , the communication connection to the reception device 18 , to the actuator 10 , which controls the function module 6 .

FIG. 3 shows a structure of a compressed air maintenance device which essentially corresponds to the structure from FIG. 2. The compressed air maintenance device shown in FIG. 3 also consists of a compressed air maintenance unit 2 and an external unit 4 . In contrast to the compressed air maintenance device shown in FIG. 2, the data input device 14 of the compressed air maintenance unit 2 is not connected to the transmitting device 20 of the compressed air maintenance unit 2 , but rather directly to the actuator 10 of the compressed air maintenance unit 2 . The data output device 16 is not connected to the receiving device 18 of the compressed air maintenance unit 2 , but to the sensor 8 of the compressed air maintenance unit 2 . Actual status data of the function module 6 is output via the sensor 8 directly to the data output device 16 of the compressed air maintenance unit 2 . Alternatively, the data is output via the transmitting device 20 , the communication link to the receiving device 24 of the external unit 4 , to the computer 30 and to the data output device 28 of the external unit 4 . A data input, ie a specification of the target status data of the function module 6 alternatively takes place via the data input device 14 of the compressed air maintenance unit 2 to the actuator 10 , which controls the function module 6 . Alternatively, target status data is input via the input device 26 of the external unit 4 , the computer 30 , the transmission device 22 of the external unit 4 , the communication interface to the receiving device 18 of the compressed air maintenance unit 2 to the actuator 10 , which controls the function module 6 .

Claims (13)

1. A compressed air monitoring device with a compressed air maintenance device (2) and with an external unit (4), wherein the air service unit (2) at least two terminals for leading compressed air to be treated line and for the treated air pressure carrying line and at least one functional module (6 ) with at least one sensor ( 8 ) for recording status data and / or with at least one actuator ( 10 ) for controlling status data, the function module ( 6 ) z. B. is designed as a filter, in particular with two pressure sensors or as an oil nebulizer with level sensor and metering device or as a condensate separator with level sensor or as a pressure control valve with a pressure sensor and valve actuator or as a shut-off module with valve actuator, and wherein the external unit ( 4 ) is an input device ( 26 ) for specifying status data and / or an output device ( 28 ) for outputting status data, characterized in that the compressed air maintenance unit ( 2 ) has a first communication interface ( 18 , 20 ) with a first transmission and a first Receiving device and the external unit with a second communication interface ( 22 , 24 ) is provided with a second transmitting and a second receiving device and that the compressed air maintenance unit ( 2 ) and the external unit ( 4 ) via the first and second communication interfaces ( 18 , 20 ; 22 , 24 ) in a wireless communication are connected, an input device ( 14 , 26 ) on the external unit ( 4 ) and / or on the compressed air maintenance unit ( 2 ) being designed as a real keypad, as a touch-sensitive screen with a virtual keyboard or for handwriting recognition, as a multifunction button or as a voice input device is. 2. Compressed air maintenance device according to claim 1, characterized in that a device ( 30 ) is provided for data processing of the status data. 3. The compressed air maintenance device according to claim 2, characterized in that the device ( 30 ) for data processing of the status data is integrated in the compressed air maintenance unit ( 2 ). 4. The compressed air maintenance device according to claim 2, characterized in that the device ( 30 ) for data processing of the status data is integrated in the external unit ( 4 ). 5. compressed air maintenance device according to at least one of the preceding claims, characterized in that the functional modules ( 6 ) are arranged horizontally or vertically in the compressed air maintenance unit ( 2 ). 6. Air pressure maintenance device according to at least one of the preceding claims, characterized in that the communication interfaces ( 18 , 20 ; 22 , 24 ) are designed as infrared interfaces, in particular according to the IrDA standard. 7. compressed air maintenance device according to at least one of claims 1 to 5, characterized in that the communication interfaces ( 18 , 20 ; 22 , 24 ) are designed as radio interfaces. 8. compressed air maintenance device according to claim 7, characterized in that the communication interfaces ( 18 , 20 ; 22 , 24 ) receive or transmit radio signals in a frequency range between 2 and 3 GHz. 9. compressed air maintenance device according to claim 7 or 8, characterized in that the communication interfaces ( 18 , 20 ; 22 , 24 ) transmit radio signals with a bandwidth of at least 64,000 bits per second with bidirectional data transmission. 10. Compressed air maintenance device according to one of claims 7 to 9, characterized in that the communication interfaces ( 18 , 20 ; 22 , 24 ) are designed as radio interfaces according to the BlueTooth standard. 11. Compressed air maintenance device according to at least one of the preceding claims, characterized in that the input device ( 26 ) on the external unit ( 4 ) is part of a palm top, laptop, PC or cell phone. 12. Compressed air maintenance device according to at least one of the preceding claims, characterized in that an output device ( 28 ) on the external unit ( 4 ) and / or on the compressed air maintenance unit ( 2 ) is designed as a display, screen, loudspeaker or light source. 13. Compressed air maintenance device according to one of the preceding claims, characterized in that the external unit ( 4 ) is a mobile device.