DE102015109747A1 - Magnetic-inductive flowmeter - Google Patents

Abstract

Magnetic-inductive flowmeter comprising a measuring tube and a magnet system which is arranged on the measuring tube, wherein the magnet system comprises two magnetic coils, which are held by a field guide system and which are arranged on opposite sides of the measuring tube, characterized in that the field guidance system in a plane perpendicular the measuring tube axis is integrally formed from a plurality of segments, which segments are formed as a pole piece, a magnet coil core and a field feedback and wherein the field guidance system consists of a plurality of interconnected plates.

Description

The present invention relates to a magnetic-inductive flowmeter according to the preamble of claim 1.

The measuring principle and the basic structure of a magnetic-inductive flowmeter are well known. These flowmeters mostly magnet coils are used to generate a magnetic field. In such a solenoid coil metal wire is often wound on a bobbin made of plastic. This is then attached to a spool core. The spool core can be formed from a plurality of interconnected sheets.

The DE 10 2010 001 393 A1 discloses a generic magnetic-inductive flowmeter with a coil core formed from field plates and a coil body mounted thereon. The coil core has the shape of a pole piece in a terminal area. This flowmeter is a plug-in system which can be mounted perpendicular to the measuring tube axis on the measuring tube of the flowmeter.

Based on the aforementioned prior art, it is now an object of the present invention to further reduce the assembly costs for the production of a magnetic-inductive flow meter and to provide a flow meter with a compact design.

The present invention solves this problem by a magnetic-inductive flowmeter with the features of claim 1.

A magnetic-inductive flow meter according to the invention comprises a measuring tube and a magnet system which is arranged on the measuring tube.

The magnet system has two magnetic coils for field generation, which are arranged on opposite sides of the measuring tube.

In addition to the magnetic coils, the magnet system has a so-called field guidance system, which combines the function of the coil core, the pole piece and the field feedback in one component. The field is reinforced on the one hand by the coil core, on the other hand designed by the pole piece in the fluid advantageously in the spatial distribution and finally returned through the field feedback as lossless as possible.

The field guidance system is provided in one piece or in one piece. This one-piece refers to the structural design of this component in a sectional plane perpendicular to the longitudinal axis of the measuring tube. In contrast, in a sectional plane in which the measuring tube axis lies, the field guidance system has a plurality of interconnected metal sheets. These sheets are preferably electrically isolated from each other. A bobbin can advantageously be omitted if the function of fixing the magnetic coils is taken over by the field guidance system. In addition, however, electrical insulation, e.g. an insulating layer of plastic, to be provided between the magnetic coil and the field guide system. The corresponding modes of operation are predominantly used as separate components in a magnetic-inductive flowmeter. In the present case, the field-guiding system itself has corresponding segments or sections which are integrally formed so that the field-guiding system functions as the pole piece, the magnet coil core and the field feedback takes over.

The pole shoe segment serves for the optimal distribution of the magnetic field and is adapted to the shape of the measuring tube, that is to say predominantly circular. The coil core segment is passed through the magnetic coil and improves the magnetic conductivity .. The outer segment serves to return the magnetic flux.

Overall, the field guidance system consists of a plurality of interconnected sheets.

The construction of the field guidance system makes it possible to dispense with individual parts. The magnet system can also be easily attached by attaching from the axial direction forth on the measuring tube.

Advantageous embodiments of the invention are the subject of the dependent claims.

The sheets are advantageously connected to each other by stamping packages. As a result, mass production can be realized.

The sheets are preferably designed in the same shape in the field of magnetic coils.

For a particularly compact design, it is advantageous if the magnetic coils are designed as saddle coils.

The magnet system can advantageously be attached to the measuring tube and fixed, so that a quick installation can be realized. In a particularly preferred embodiment, this can be done such that by adhesion between Magnet system and housing parts without further fixing the fixing takes place.

In order to realize the plugging of the magnet system better, it is also advantageous if the measuring tube is formed at least in two parts with two measuring tube segments and that the two measuring tube segments are connected to each other by positive locking and / or material closure.

Furthermore, the assembly effort is reduced when the magnet system is surrounded by a housing, which is constructed substantially in two parts with a housing pot and a housing cover. The housing pot and a first measuring tube segment may be formed as a first one-piece component. The housing cover and a second measuring tube segment may also be formed as a second one-piece component.

The housing pot or the first one-piece component can advantageously be pressed with the housing cover or the second one-piece component, and preferably additionally welded. This also reduces the assembly time per flowmeter considerably.

In a particularly preferred embodiment, the field guidance system may consist exclusively of electrically magnetized metal sheets which are insulated against one another.

The invention will be explained in more detail with reference to the accompanying figures. Show it

1 shows a partially sectioned side view of an embodiment of a magnetic-inductive flowmeter according to the invention 1 ; and

2 shows the aforementioned magnetic-inductive flowmeter 1 in a sectional view perpendicular to the measuring tube axis L. The measuring tube axis L serves as an orientation aid for specifying the longitudinal direction, which runs along the measuring tube axis.

The illustrated flow meter is characterized by its compact design and its cost-effective mass production suitable production.

It includes a housing 2 , This case 2 is constructed in several parts and includes in the embodiment of the 1 and 2 a housing pot 6 and a housing cover 5 , The housing pot 6 has a measuring tube segment 19 and an outer wall segment bounding the flowmeter to the outside 20 on. The measuring tube segment 19 is in 1 cylindrically shaped, but it can also assume any other known tube shape. For example, it is conceivable to produce a measuring tube segment with a reduced cross section in the region of the measuring electrodes for realizing a lower flow profile sensitivity or a stronger measuring signal.

The measuring tube segment 19 serves to support a medium-contacting liner 4 , so a plastic lining, along the inner wall of the measuring tube segment 19 , Means contacting in this context means that the liner 4 is in contact with the measuring medium on a side facing away from the measuring tube. The housing pot 6 also has a connection flange on one side already 3 on. The housing pot 6 can be produced for example by a casting process or by a deep-drawing process. It is also possible the outer wall segment 20 and the measuring tube segment 19 individually produce and by a welding process, such as laser welding, to connect with each other or to press the two parts together, in order in this way the illustrated housing pot 6 to realize.

The housing cover 5 also has a connection flange 3 and a measuring tube segment 18 on. It is parallel to the measuring tube axis L on the housing cover 5 attached and then connected to this. This will be the measuring tube 11 educated. This can be done eg via a fit. Additionally or alternatively, a pressing process or a welding process, such as laser welding, for connecting housing pot 6 and housing cover 5 be applied.

Through the connection of the housing pot 6 with the housing cover 5 an outwardly closed housing space is created in which the components of the magnetic-inductive flowmeter are arranged. In addition, a measuring tube is created, which is located between the two connecting flanges 3 extends.

The measuring tube segment 19 of the housing pot 6 can also serve as a guide element in the manufacture of the magnetic-inductive measuring device, on which a magnet system can be plugged.

This magnet system comprises two magnetic coils 7 , a field return 17 , each magnet coil adapted to the lateral surface of the measuring tube segment pole piece 15 as well as a coil core 14 which segmentally from a stanzpaketierten field guidance system 8th are formed.

The field feedback, the coil core and the pole piece together with the coil commonly referred to as a field system. The field guidance system is made of a variety of metal sheets 16 composed, wherein the stacking direction of the stanzpaketierten metal sheets runs parallel to the measuring tube axis L.

The field is primarily through the magnetic coils 7 generated. These solenoids 7 are in the embodiment of the 1 and 2 designed as so-called saddle coils.

How out 2 recognizable, the laminated core has a pole piece segment 15 , a coil core segment 14 and a field feedback segment 17 on. The field feedback segment 17 is preferably formed as a hollow cylinder, which, however, recesses, such as cable penetrations in the range of measuring electrodes 13 , may have.

Starting from this hollow cylindrical shape extend radially to the measuring tube axis L out two on the side facing the measuring tube circular arc-shaped projections whose circular chord increases towards the measuring tube axis L out. The width of the circular arc-shaped projection preferably increases by at least 5%, particularly preferably by at least 10%. This projection forms the magnetic core segment and the pole shoe segment, which merge into one another.

Overall, the field guidance system of the magnet system comprising the field feedback, the magnetic core and the pole piece is thus realized by the contour of the laminated core. It only needs the magnetic coil to complete the magnet system 7 be supplemented. This can then be plugged onto the measuring tube segment in a simple manufacturing step.

The aforementioned laminated core can by punching the individual metal sheets 16 and realized by packaging these sheets. This can be done particularly effective and automated by punching packetization. Punching is known as a production method itself and is for example in the book Chipless production: stamping, by W.Hellwig et al., Friedrich Vieweg & Sohn Verlagsgesellschaft mbH Braunschweig / Wiesbaden 1996 described. Here, for example, individually punched sheet metal parts can be packaged by introducing so-called enforcements to a sheet metal package. Such a packaging variant can also be used preferably in the present case.

By such a stanzpaketierte design, a magnet system can thus be made particularly time-saving and automated. The stanzpaketierte magnet system can then be easily attached to a measuring tube.

In the housing pot 6 is also a display and evaluation unit 9 integrated, which has a display 10 features. The housing 2 also has a power and / or signal cable connection 12 on which cables can be connected for power supply and / or signal exchange.

LIST OF REFERENCE NUMBERS

1

 Magnetic-inductive flowmeter

2

 casing

3

 flange

4

 liner

5

 housing cover

6

 housing pot

7

 solenoid

8th

 Field guidance system

9

 Display and evaluation unit

10

 display

11

 measuring tube

12

 Power and / or signal cable connection

13

 measuring electrode

14

 Core segment

15

 Polschuhsegment

16

 metal sheet

17

 Field recirculation segment

18

 Measuring tube segment of the housing cover

19

 Measuring tube segment of the housing pot

20

 Außenwandungssegment

L

 Measuring tube axis

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102010001393 A1 [0003]

Cited non-patent literature

• Chipless production: stamping, by W. Hellwig et al., Friedrich Vieweg & Sohn Verlagsgesellschaft mbH Braunschweig / Wiesbaden 1996 [0037]

Claims (10)

Magnetic-inductive flowmeter ( 1 ) comprising a measuring tube ( 11 ) and a magnet system which on the measuring tube ( 11 ), wherein the magnet system comprises two magnetic coils ( 7 ), which of a field guidance system ( 8th ) and which on opposite sides of the measuring tube ( 11 ), characterized in that the field guidance system ( 8th ) is formed integrally in a section perpendicular to the measuring tube axis of a plurality of segments, which segments as a pole piece ( 15 ), a magnetic coil core ( 14 ) and a field return ( 17 ) and wherein the field guidance system ( 8th ) of a plurality of interconnected, in the direction of the measuring tube axis L layered sheets ( 16 ) consists. Magnetic-inductive flowmeter according to claim 1, characterized in that the sheets ( 16 ) are stanzpaketiert interconnected. Magnetic-inductive flowmeter according to one of claims 1 or 2, characterized in that the sheets ( 16 ) in the area of the magnetic coils ( 7 ) are designed the same shape. Magnetic-inductive flowmeter according to one of the preceding claims, characterized in that the magnetic coils ( 7 ) are designed as saddle coils. Magnetic-inductive flowmeter according to one of the preceding claims, characterized in that the magnet system on the measuring tube ( 11 ) is attached and fixed. Magnetic-inductive flowmeter according to one of the preceding claims, characterized in that the measuring tube ( 11 ) at least in two parts with two measuring tube segments ( 18 . 19 ) is formed and that the two measuring tube segments ( 18 . 19 ) Are connected to each other by positive locking and / or material closure. Magnetic-inductive flowmeter according to one of the preceding claims, characterized in that the magnet system of a housing ( 2 ) is surrounded, which is constructed substantially in two parts with a housing pot ( 6 ) and a housing cover ( 5 ). Magnetic-inductive flowmeter according to one of the preceding claims, characterized in that the housing pot ( 6 ) and a first measuring tube segment ( 19 ) are formed as a first one-piece component. Magnetic-inductive flowmeter according to one of the preceding claims, characterized in that the housing cover ( 5 ) and a second measuring tube segment ( 18 ) are formed as a second one-piece component. Magnetic-inductive flowmeter according to one of the preceding claims, characterized in that the housing pot ( 6 ) or the first one-piece component with the housing cover ( 5 ) or the second one-piece component, and preferably additionally welded, is.

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