DE2040682C3 - Inductive flow meter with a measuring tube made of insulating synthetic resin that is detachably held in a pipeline through which the medium flows between counter flanges of the adjacent pipeline parts - Google Patents

Description

40

The invention relates to an inductive flow meter with a medium through which the medium flows Pipeline between counter flanges whose adjacent pipeline parts are detachably held measuring tube Made of insulating synthetic resin, in which magnetic field generating excitation coils and an annular laminated magnetic yoke completely embedded and two the measuring tube and the yoke penetrating, electrodes arranged diametrically to one another and perpendicular to the direction of the magnetic field in contact with the Medium.

A flow meter of this type is known from US Pat. No. 06,569. It is in the aforementioned way designed and equipped measuring tube made of insulating synthetic resin from the pressure inside the pipeline relieved and for this purpose with its single face flange between the mating flanges of two adjacent ones metallic pipeline parts held clamped that have a larger inner diameter than that Have measuring tube and of which one pipeline part surrounds the measuring tube at a distance. the Pipeline parts can be used in the usual way as external support tubes made of ferromagnetic material exist and then take over together with the '' 5 Screw bolts on the said mating flanges take up an albeit smaller part of the magnetic return flux, which leads to the formation of eddy currents and these parts and thus to undesirable eddy current losses and results in a reaction on the magnetic field of the excitation coils

With only a relatively small impairment of the magnetic field strength, relatively small shape and Change in position of the magnetic field lines caused by these parts, which are caused in particular by scatter lines and transformer interference voltages balanced on the test bench are changed so much that Incorrect measurements occur or an adjustment of a connected compensation amplifier is no longer possible is possible

The invention is based on the object of using inductive flow meters without such support pipe pieces To enable flanges in which an impairment of the magnetic field of the excitation coil and the Occurrence of eddy currents is prevented and no constriction of the cross section in the measuring tube area must be accepted.

This object is achieved according to the invention in that the measuring tube is connected to both of its End faces unstressed by tie rods clamped between the counter flanges that the conclusion as a laminated core made of magnetic sheets in the axial direction is formed which is attached to the inner wall axially parallel longitudinal grooves is provided for the axially parallel parts of the excitation coils, and that the radial Outside the inner bore of the laminated core lying coil heads of the excitation coils circumferentially and on the end face of magnetic shielding arrangements adjoining the end faces of the laminated core are surrounded, which are cast in the measuring tube. The measuring tube with the laminated core, the excitation coils with the shielding arrangements and the electrodes is a structural unit between them protruding radially Counterflanges of the pipeline parts are introduced and continuous through the counterflange ° Tie rods are held tightly pressed against the mating flanges.

For easier fitting and alignment, the measuring tube can be provided with perforated flanges, which are penetrated without stress by the continuous tie rods.

The measuring tube made of insulating synthetic resin has a cylindrical passage with the inner diameter of the pipe corresponding diameter, whereas its outer contour is circular or angular can be designed according to the shape of the laminated core, the coil heads of the excitation coils and their shielding arrangements. The measuring tube is simple and quick to meet requirements can be produced accordingly in the casting process, adapted to the respective pipelines.

A particularly advantageous embodiment of the invention is that the two coil heads on the circumference of one wound tube core adjoining the laminated core and one on each end these adjoining layered toroidal core are bordered. Since the excitation coils are also connected to the Coil heads to the outside against magnetizable neighboring construction parts (pipeline, tie rod are shielded, the magnetic field remains dimensionally stable.

The invention is explained below in an exemplary embodiment with reference to the drawing.

A measuring tube 4 made of insulating synthetic resin is inserted between the mating flanges la and 2a of two pipeline parts 1 and 2 made of ferromagnetic material, against which the end face is made by tie rods 3

Steel the counter flanges la, 2a are pressed.

The measuring tube 4 has a cylindrical inner passage, from which the electrodes protrude and in which a layered tubular laminated core 5 is embedded The electrode shafts penetrate the ·: wall of the Laminated core and the surrounding synthetic resin to the outside. In longitudinal grooves of the sheet metal package 5 are Excitation coils with their parts parallel to the pipe axis are embedded. Their coil heads 6, 7, 8, 9 are radial Direction brought from the area of the inner bore and embedded in the measuring tube 4, which is an arbitrary outer May have contour.

In order to influence the shape of the magnetic field by the counter flanges la, 2a and the tie rods 3 to be excluded, the coil heads 6, 7, 8, 9 are magnetically shielded from the outside. The coil heads 6 and 7 are for this purpose on the circumference of a wound tubular core 11 adjoining the laminated core 5 and on the end face framed by a layered toroidal core 12 made of magnetizable material adjoining this and the entire arrangement is embedded in the measuring tube

It is particularly advantageous for spatial and shielding reasons the tube core 11 and the slotless, the same radial dimensions as the grooved laminated core 5 having toroidal core 12 am to let the outer circumference be flush with one another. Thus, the magnetic return flow to the Coil heads largely fixed in space and insensitive to external influences.

1 sheet of drawings

Claims (3)

Patent claims: 1. Inductive flow meter with a measuring tube made of insulating synthetic resin, which is detachably held in a pipe through which the medium flows, between> counter flanges whose adjacent pipe parts are completely embedded in the magnetic field generating excitation coils and a ring-shaped lamellar magnetic yoke and two ι η the measuring tube and the yoke penetrating, diametrically to each other and electrodes arranged perpendicular to the direction of the magnetic field are kept in contact with the medium, characterized in that the measuring tube (4) is clamped between the counter flanges (la, 2a) at its two end faces, unstressed by tie rods (3), that the yoke as an off Magnetic sheets in the axial direction layered laminated core (5) is formed, which is provided on the inner wall with axially parallel longitudinal grooves for the axially parallel parts of the excitation coils, and that the coil heads (6,7,8,9 ) the Erre gerspulen are surrounded circumferentially and at the end by magnetic shielding arrangements (11, 12) which are adjacent to the end faces of the laminated core (5) and which are cast in the measuring tube (4). 2. Flow meter according to claim 1, characterized in that each magnetic shielding order (11, 12) from a wound tube core adjoining the laminated core (5) on the end face (U) and a layered toroidal core (12) adjoining the respective tubular core 3. Flow meter according to claim 2, characterized in that the tubular core (11), the slotless The toroidal core (12) and the laminated core (5) have the same radial external dimensions.