METROLOGY AND AUTOMATION FIELD DEVICE

Abstract

The invention relates to a field device of measurement- and automation technology, comprising: a measuring transducer which is adapted to register at least one measured variable and, at any one time, to output at least a first measured value representing the measured variable; a display unit which is adapted to display measuring- and/or operating parameters; and an electronic measuring/operating circuit which is adapted to operate the measuring transducer and/or the display unit, as well as to calculate from the first measured value a derived, second measured value. The display unit has a screen that has a first region with a first display technology and a second region with a second display technology. The first region is embodied reflectively or transreflectively and the second region is embodied transmissively.

Claims

1-15. (canceled)

16. A field device of measurement- and automation technology, comprising: a measuring transducer adapted to register at least one measured variable and, at any one time, to output at least a first measured value representing the measured variable; a display unit adapted to display measuring- and/or operating parameters; and an electronic measuring/operating circuit adapted to operate the measuring transducer and/or the display unit, as well as to calculate from the first measured value a derived, second measured value, wherein the field device includes a housing having a housing wall and a housing chamber formed by the housing wall, in which housing at least the measuring/operating circuit is arranged, wherein the display unit has a screen having a first region with a first display technology and having a second region with a second display technology, and wherein the first region is embodied reflectively or transreflectively and the second region is embodied transmissively.

17. The field device as claimed in claim 16, wherein the first region is adapted to be operated steadily, and wherein the second region is adapted to be activated by event control when required.

18. The field device as claimed in claim 16, wherein the first region is, at least sectionally, contact sensitive or a contact sensitivity of the first region is, at least sectionally, activatable.

19. The field device as claimed in claim 16, further comprising: an energy storer adapted to supply the field device with energy; and an energy supply connection by which an external energy supply is connectable, wherein the second region is adapted to be activated upon connection of an external energy supply.

20. The field device as claimed in claim 16, wherein the second region is adapted to display at least one element of the following list: at least one measured value, at least one operating parameter, at least one time-dependence of at least one measured value and/or at least one operating parameter, and a processed time dependence of the previous element.

21. The field device as claimed in claim 17, wherein the first region has at least two operating modes, wherein the first region is adapted to work in a first operating mode in the case of non-activated second region and in a second operating mode in the case of activated second region.

22. The field device as claimed in claim 21, wherein the first operating mode includes display of at least one operating parameter and/or at least one measured value and the second operating mode comprises provision of at least one contact sensitive section.

23. The field device as claimed in claim 22, wherein the second operating mode includes a provision of a plurality of contact sensitive sections, and wherein at least one section of the plurality of contact sensitive sections displays an operating key or a jump function or a scrollbar or is part of a scrollbar.

24. The field device as claimed in claim 16, wherein the first display technology is a single color display technology.

25. The field device as claimed in claim 24, wherein the second display technology is a multicolor display technology and is based on one of the following principles: TFT, OLED.

26. The field device as claimed in claim 22, wherein the second region is, at least sectionally, contact sensitive or a contact sensitivity of the second region is, at least sectionally, activatable.

27. The field device as claimed in claim 16, wherein the first region operates at a power of less than 10 mW, and/or wherein the second region operates at a power of less than 1000 mW.

28. The field device as claimed in claim 16, wherein the first region has in a first breadth and/or in a first height at least 50 pixels, and wherein the second region has in a second breadth and/or in a second height at least 150 pixels.

29. The field device as claimed in claim 16, wherein the screen has in a breadth and/or height an expanse of at most 12 cm.

30. The field device as claimed in claim 16, wherein the field device is a flow measuring device and has at least one measuring tube for conveying a medium, wherein the field device is a magnetically inductive flow measuring device and its measuring transducer includes: a magnet system for producing a magnetic field extending perpendicularly to a measuring tube axis, and at least one pair of measuring electrodes for sensing a flow dependent voltage induced in the medium by the magnetic field.

Description

[0046] The invention will now be described based on examples of embodiments presented in the appended drawing, the figures of which show as follows:

[0047] FIG. 1 by way of example, in a first operating mode, a display unit of the invention for a field device of the invention.

[0048] FIG. 2 the display unit of FIG. 1 in a second operating mode.

[0049] FIG. 3 by way of example, a field device of the invention.

[0050] FIG. 4 by way of example, a field device of the invention.

[0051] FIG. 5 by way of example, a field device of the invention.

[0052] FIG. 1 shows, by way of example, a display unit 120 of the invention in a first operating mode, wherein the display unit has a screen 121 with a first region 122 and a second region 123. The first region 122 uses, in such case, a first energy-saving display technology, such as, for example, a liquid crystal technology, and the second region 123 uses a second display technology, which has a higher power requirement and can, for example, display contents with multiple colors and/or highly resolved. The second region is turned off in the first operating mode of the display unit, and turned on in a second operating mode, wherein the turning on of the second region can be according to need, i.e. event-controlled. Thus, the second region can, for example, be turned on upon the connecting of an external energy supply to the field device.

[0053] In the first operating mode, the first region can, for example, be adapted, such as shown, to display operating buttons 122.1, measured values 122.4 and operating parameters 122.5, wherein at least in the region of the operating buttons a contact sensitivity is provided. The illustrated embodiment is purely by way of example and is not to be construed as limiting.

[0054] The screen 121 has a breadth B and/or height H of at most 12 cm and, especially, at most 8 cm, in order that the display unit can be embodied compactly.

[0055] The first region 122 has in a first breadth and/or in a first height at least 50 pixels and preferably at least 100 pixels and preferably at least 200 pixels, and wherein the second region has in a second breadth and/or in a second height at least 150 pixels and preferably at least 250 pixels and preferably at least 350 pixels. Thus, by means of the higher pixel count of the second region, information can be displayed with more detail.

[0056] The geometric embodiment of the screen as well as of the first region and the second region, such as shown in FIG. 1, is, by way of example, and is not to be construed as limiting.

[0057] FIG. 2 shows the display unit in the second operating mode with second region 123 turned on. Displayed in the second region is a time dependence 122.6, or an upgraded time dependence 122.7, of a measured variable or an operating mode. An upgrading of a curve can involve, for example, a smoothing or filtering or a general signal processing. Instead of a curve, also other items can be displayed, such as, for example, operating instructions, settable parameters, at least one menu structure, at least one graph, such as, for example, a bar chart. Such graphs are, for example, of limit values or historical minimum- or maximum values of, for example, measured values. These enumerations are not to be construed as limiting.

[0058] As indicated, in the second operating mode, such as shown, the first region can have, for example, a different layout than in the first operating mode. For example, the first region can now have operating buttons 122.1, jump functions 122.2 and at least one scrollbar 122.3. Also in this case, the shown layout of the first region is by way of example,

[0059] FIG. 3 shows, by way of example, a generalized field device 100 of the invention having a housing 180 with a housing wall 181, which surrounds a housing chamber 182. The field device includes a measuring transducer 110, by means of which a measured variable is registrable and, at any one time, at least a first measured value representing the measured variable can be output. Such a measuring transducer can comprise, for example, at least one ultrasonic transducer, at least one thermometer or other sensors based on other physical principles. The field device includes, furthermore, an energy storer 140 for energy supply, an energy supply connection 150 for connecting an external energy source and an electronic measuring/operating circuit 130 for operating the field device. The display unit 120 can, such as shown in FIG. 3, be set in the housing wall. Alternatively, the display unit can also be secured on an outer side of the housing wall or be spaced from the housing. Communication between display unit and electronic operating circuit 130 can occur by means of an electrical connection or per radio. The electronic measuring/operating circuit 130 is connected by means of electrical connections with the measuring transducer 110, the energy storer 140 as well as energy supply connection 150.

[0060] FIG. 4 shows a flow measuring device for measuring a mass flow or a flow velocity of a medium flowing through a measuring tube, comprising the measuring tube 160, a measuring transducer 110 arranged on the measuring tube, and an electronic measuring/operating circuit 130. Other elements shown in FIG. 3 are, for reasons of perspicuity, not shown. Depending on measuring principle, the measuring transducer can also be arranged partially or completely in the measuring tube.

[0061] FIG. 5 shows a magnetically inductive flow measuring device comprising a measuring tube 160, a measuring transducer comprising a magnet system 111, a pair of measuring electrodes 112 (due to the viewing direction, only one measuring electrode is shown) and an electronic measuring/operating circuit 130. Other elements shown in FIG. 3 are, for reasons of perspicuity, not shown. The magnet system is adapted to produce a magnetic field extending perpendicularly to a measuring tube axis. By means of the measuring electrodes 112, a flow dependent electrical voltage produced by the magnetic field and the flow of the medium can be registered and taken into consideration for deriving measured values of flow.

LIST OF REFERENCE CHARACTERS

[0062] 100 field device [0063] 101 flow measuring device [0064] 102 magnetically inductive flow measuring device [0065] 110 measuring transducer [0066] 111 magnet system [0067] 112 measuring electrode [0068] 120 display unit [0069] 121 screen [0070] 122 first region [0071] 122.1 operating key [0072] 122.2 jump function [0073] 122.3 scrollbar [0074] 122.4 measured value [0075] 122.5 operating parameters [0076] 122.6 time dependence [0077] 122.7 upgraded time dependence [0078] 123 second region [0079] 130 electronic measuring/operating circuit [0080] 140 energy storer [0081] 150 energy supply connection [0082] 160 measuring tube [0083] 180 housing [0084] 181 housing wall [0085] 182 housing chamber [0086] B breadth [0087] H height