DE202005020808U1 - Inductive mass flow meter for process control and pipeline systems has a measurement pipe with a central section that is coated with an insulating layer and end sections that are uncoated to enable its flangeless connection - Google Patents

Abstract

Inductive mass flow meter has a measurement pipe (1). The measurement pipe is coated with an insulating coating solely in its central section (8) where measurement electrode (5) and magnetic units (4a, 4b) are mounted. Outside (9a, 9b) this area the measurement pipe is uncoated to permit its flangeless connection in the pipe system (6) in which it is to make measurements.

Description

The The present invention relates to a magnetic-inductive flowmeter with a measuring tube, which can be used in a pipeline system, with at least two opposite each other in the wall of the Measuring tube electrically inserted measuring electrodes used for detection a measuring voltage, wherein a likewise arranged outside the measuring tube Magnet unit a substantially perpendicular to the flow direction of the conductive to be measured flow medium generated magnetic field, and wherein the inner surface of the measuring tube with an electrical insulation coating or lining is provided for isolation of the measuring electrodes relative to the measuring tube.

One electromagnetic flowmeter is preferably used as a flowmeter for liquids, Slurries and pastes are used which have a certain minimum electrical conductivity exhibit. This type of flowmeter is characterized by right accurate measurement results, where in the piping system by the Measurement no pressure loss is caused. In addition, magnetic-inductive Flowmeters no moving or protruding into the measuring tube Components that are particularly prone to wear. The application area The flow meter of interest here extends primarily on applications in the chemical industry, pharmacy as well the cosmetics industry, and also the municipal water and wastewater industry as well as the food industry.

The Faraday's law of induction forms the physical basis of the measuring process of a magnetic-inductive Flow meter (IDM). This natural law states that in a In a magnetic field moving conductor, a voltage is induced. In the metrological exploitation of this law of nature flows through the electric conductive Medium a measuring tube in which a magnetic field is generated perpendicular to the flow direction. The voltage induced in the medium is from an electrode arrangement tapped. Since the measurement voltage obtained in this way is proportional to the mean flow rate of the streaming Medium, the volume flow of the medium can be determined from this become. Considering the density of the flowing medium can be determine its mass flow.

The EP 0 869 336 A2 discloses a generic magnetic-inductive flow meter with a measuring tube having double-sided connection flanges for detachable mounting in a piping system. An electrode arrangement cooperates with two opposite electric magnetic coils, which generate the required magnetic field perpendicular to the flow direction in the measuring tube. Within this magnetic field, each volume element of the flowing medium moving through the magnetic field, with the field strength present in this volume element, makes a contribution to the measuring voltage tapped off via the measuring electrodes. The measuring voltage is fed to a downstream transmitter on the input side. Within the transmitter, a signal amplification is initially carried out via an electronic differential amplifier, wherein the differential amplifier operates here with respect to the reference potential, which usually corresponds to the ground potential. Starting from the measuring voltage, the evaluation electronics provide a value for the volume flow of the medium flowing through the measuring tube.

Usually is the measuring tube of such a magnetic-inductive flowmeter, as far as this one of a conductive Material consists of one of a non-conductive material existing hollow cylinder-like body lined. The lining mainly used for electrical insulation of the through Wall of the measuring tube through extending measuring electrodes relative to the conductive Measuring tube.

When Lining is usually used in practice so-called liners, so thin-walled plastic pipes, which are drawn into the mostly metallic measuring tube.

Besides It is also known from the general state of the art, the inner surface of the measuring tube with an electrical insulation coating for insulation of the Opposite measuring electrodes to provide the measuring tube.

The electrical insulation coating or lining extends usually over the total axial length of the measuring tube, from one connecting flange to the other Connection flange. The user must fit the one piece with the measuring tube process connections To fall back on, to mount the electromagnetic flowmeter in the piping system. Often, however, they are for each other provided connections not compatible.

It is therefore the object of the present invention, a magnetic-inductive Flow meter of the type described above to that effect to improve that its measuring tube flexible in different Integrate piping systems.

The object is achieved on the basis of a magnetic-inductive flow meter according to the preamble of claim 1 in conjunction with its characterizing features. The backward genen claims give advantageous developments of the invention again.

The Invention includes the technical teaching that for flangeless insertion of the measuring tube in the piping system which is arranged in the interior of the measuring tube electrical insulation coating or lining only the axial center region of the measuring electrodes and the magnet unit of the Measuring tube occupies, whereas axial edge regions to both ends of the measuring tube remain free for fastening purposes thereof.

Of the Advantage of the invention is solution in particular, that it is due to the local limitation of the insulation coating or lining possible is, for example, the measuring tube ends directly and without flanges in welding a pipeline system. Such an extra Flange-less device variant can be represented by the solution according to the invention, without the installation length of the magnetically inductive flow meter is thereby increased. With it opened the opportunity Flow meter without the otherwise necessary process connections to manufacture and on customized connection configurations in a simple manner adapt. Therefor can be a common one Joining process, such as welding or a socket connection or the like.

Preferably the electrical insulation coating or lining is materially bonded by sputtering or steaming with an electrically insulating material on the limited interior surface of the Applied measuring tube. This makes particularly thin coatings feasible, which does not continue the flow of the measuring medium through the measuring tube to disturb. In addition, however, it is also conceivable the insulation coating by Spraying of electrically insulating ceramic and / or coating materials or with the electrically insulating plastic PTFE, PEEK or Apply the same to the limited inner surface of the measuring tube. Finally is it is also conceivable, an insulation lining in the manner of a liner to realize which, for example, from a matching plastic pipe section consists. However, such a plastic pipe section must be suitable Way - for example by gluing - on the inner surface the preferably made of a metal measuring tube fixed become.

One Metallic measuring tube can be made of steel, titanium, tantalum, platinum-eridium or alloys thereof or of a light metal, if the latter the desired Pressure resistance ensured.

The formed according to the invention Measuring tube of the electromagnetic flowmeter forms the Prerequisite for at least one of the ends of the measuring tube through a process connection Joining to install.

One such process connection, for example, a connection flange be, with which the magnetic-inductive flowmeter on a corresponding connection flange on the part of the piping system can be fastened by screws. Type and size of the connection flange can be advantageously to the connection flange on the part of the piping system be flexibly adapted.

Of the Process connection is preferably by welding to the end of the measuring tube appropriate. Hereby, the advantage of the solution according to the invention is that in this used edge region of the measuring tube an insulation coating or -Lining is not present, so that thereby the weldability not impaired is and the while of welding heat does not occur can destroy the inner coating or lining.

Of course you can too both ends of the measuring tube each with one to the adjacent piping system appropriate process connection equipped in the manner described above become. Therefor Forms on both sides of the insulation coating or lining remaining axial edge area of the measuring tube is the prerequisite for one easy connection.

Further the invention improving measures will be described below together with the description of an embodiment of the invention with reference to the single figure shown in more detail.

The Figure shows a schematic representation of a magnetic-inductive Flowmeter.

The magnetic-inductive flowmeter according to FIG has a measuring tube 1 , in a - here only hinted - piping system 6 can be used.

Outside on the measuring tube 1 is a magnet unit 4a and 4b arranged. The magnet unit 4a . 4b creates a substantially perpendicular to the flow direction 2 of the conductive flow medium to be measured 3 aligned magnetic field. The magnet unit 4a . 4b acts with electrical opposite the measuring tube 1 isolated measuring electrodes used herein 5 (only one example shown) together. The measuring electrodes 5 attack by induction in the conductive flow medium 3 generated measuring voltage, from which a - not shown - trailing evaluation unit the volume stream of the flow medium 3 through the measuring tube 1 and thus through this point of the piping system 6 determined.

The inner surface of the measuring tube 1 is with an electrical insulation coating 7 Mistake. The insulation coating 7 consists in this embodiment of the electrically insulating plastic PTFE and is on the inner surface of the measuring tube 1 in the axial center region 8th sprayed. The insulation coating 7 serves to insulate the measuring electrodes 5 opposite the electrically conductive measuring tube 1 , The electrical insulation coating 7 only takes the axial center area 8th inside the measuring tube 1 one. In the axial center region 8th are the measuring electrodes 5 as well as the magnet unit 4a . 4b (seen in axial extension) placed. By contrast, they remain on both sides of the axial center region 8th arranged axial edge areas 9a . 9b to both ends of the measuring tube 1 from an insulation coating 7 free.

This makes it possible to use the measuring tube 1 directly and without flanges in the piping system 6 by welding (left figure).

At the measuring tube 1 is at the opposite end (right figure part) a process connection 10 welded to the measuring tube 1 with one in the piping system 6 existing corresponding process connection 10 ' releasably connect.

The Restricted invention not to the preferred embodiment described above. On the contrary, modifications of this are conceivable which correspond to the scope of protection the following claims fall under.

So For example, it is also conceivable that inventively embodied Measuring tube on both sides with one each to the connection of the adjacent piping system adapted process connection to provide. In addition, it is also possible that formed according to the invention To integrate measuring tube into an existing pipeline system by doing this needed axial space separated from a continuous piping system and instead the meter tube is made by welding or via a detachable sleeve joint herein is used.

1

measuring tube

2

flow direction

3

flow medium

4

magnet unit

5

measuring electrodes

6

Piping

7

insulation coating or lining

8th

axial the central region

9

axial border area

10

process connection

Claims (7)

Electromagnetic flowmeter with a measuring tube ( 1 ) inserted into a pipeline system ( 6 ) can be used, with at least two opposite each other in the wall of the measuring tube ( 1 ) electrically inserted measuring electrodes ( 5 ) for detecting a measuring voltage, wherein a likewise outside of the measuring tube ( 1 ) arranged magnet unit ( 4a . 4b ) is substantially perpendicular to the flow direction ( 2 ) of the conductive flow medium to be measured ( 3 ) is generated aligned magnetic field, and wherein the inner surface of the measuring tube ( 1 ) with an electrical insulation coating or lining ( 7 ) for the isolation of the measuring electrodes ( 5 ) opposite the measuring tube ( 1 ), characterized in that for flangeless insertion of the measuring tube ( 1 ) into the pipeline system ( 6 ) inside the measuring tube ( 1 ) arranged electrical insulation coating or lining ( 7 ) only the axial middle region ( 8th ) of the measuring electrodes ( 5 ) and the magnet unit ( 4a . 4b ) of the measuring tube ( 1 ), whereas axial edge areas ( 9a . 9b ) to both ends of the measuring tube ( 1 ) remain free for attachment purposes thereof, at least at one end of the measuring tube ( 1 ) a process connection ( 10 ) is attached by joining to the measuring tube ( 1 ) with one in the piping system ( 6 ) existing corresponding process connection ( 10 ' ) releasably connect. Electromagnetic flowmeter according to claim 1, characterized in that the measuring tube ( 1 ) directly into the piping system ( 6 ) is welded. Electromagnetic flowmeter according to claim 1 or 2, characterized in that the electrical insulation coating or lining ( 7 ) cohesively by sputtering or vapor deposition with an electrically insulating material on the limited inner surface of the measuring tube ( 1 ) is applied. Electromagnetic flowmeter according to claim 1 or 2, characterized in that the insulation coating or lining ( 7 ) by spraying electrically insulating ceramic and / or coating materials or with the electrically insulating plastic PTFE or PEEK on the limited inner surface of the measuring tube ( 1 ) is applied. Electromagnetic flowmeter according to claim 1, characterized in that the measuring tube ( 1 ) consists of a metal. Electromagnetic flowmeter according to claim 5, characterized in that the metallic measuring tube ( 1 ) consists of steel, titanium, tantalum, platinum-iridium or alloys thereof or of a light metal. Electromagnetic flowmeter according to claim 1, characterized in that at both ends of the measuring tube ( 1 ) one process connection each ( 10 ) is attached.