DE3703117A1 - Magnetic flow meter for fluid media - Google Patents

Abstract

The invention relates to a magnetic flow meter for fluid media, preferably for service hot water measurement in residential, industrial and business buildings with a fan wheel with axial admission. The aim of the invention is to create a magnetic flow meter that can be produced inexpensively and is distinguished by a low electronic expenditure as well as a low energy requirement. The object of the invention is to develop a magnetic flow meter which can be installed in every pipeline, presents a low flow resistance to the fluid medium, permits only low pressure losses and does not raise any sealing problems. According to the invention, the object is achieved in that a fan wheel is supported axially symmetrically in a piece of pipe consisting of nonmagnetic material without axial lead-throughs and upon rotation produces a periodic change in a magnetic field, which is detected by a magnetic sensor installed outside the piece of pipe, and a measurement signal correlated with the rotation frequency is generated, which is counted electronically, stored or displayed by a counter subassembly. The magnetic field is generated by a permanent magnet attached to the fan wheel. <IMAGE>

Description

Field of application of the invention

The invention relates to a magnetic flow meter for fluid media, preferably for measuring hot water in the Housing, industrial and social building with one wing wheel with axial loading.

Characteristic of the known technical solutions

A large number of are for measuring the flow of liquid media Facilities known.

In DD-WP 2 20 401 there is a device for flow measurement described with central or decentralized measured value display. This device is based on a volumetric measuring method. It is characterized in that the from a transmitter coming pulses depending on the temperature of the measured the media are revalued and centralized or decentralized via an electronic counter can be displayed.

The disadvantage of this solution is that the fluid medium is deflected must be in order to be fed to the measuring device. This leads to pressure losses on the one hand and sealing on the other problems with themselves. The electronic effort also seems to be relatively high.

Devices for impellers are also generally known measurements with axial loading, which are used to avoid a Carrying out the power transmission from the impeller to the mecha realize the meter using a complex magnetic coupling. In addition, the fluid medium must also be redirected here be taken.

A method described in U.S. Patent 4,262,542 includes a registration of the magnetic field change via the generation an induction voltage in a coil. The disadvantage here the insensitivity and the relatively high power consumption.  

In US patent 43 45 480 the measurement of the fluid medium realized by means of a light barrier counter. Particularly disadvantageous here is the high effort for the lighting source.

Aim of the invention

The aim of the invention is to provide a magnetic flow meter to create for fluid media that can be produced inexpensively is and low electronic effort and low energy needs.

Presentation of the nature of the invention

The object of the invention is a magnetic flow meter for fluid media to develop that in every pipeline buildable, the fluid medium has a low flow resistance opposed, allows only slight pressure drops and no Ab problems in sealing.

According to the invention the object is achieved in that a wing wheel in a straight line made of non-magnetic material Pipe section without axis bushings mounted axially symmetrically and a periodic change of a magnetic field during rotation causes that from an outside of the pipe section magnetic sensor detected and one with rotation frequency Correlated measurement signal is generated, which via a counter component is counted, stored or displayed electronically. The magnetic field is generated by a on the ferromagnetic Material existing impeller attached permanent magnets generated.

Embodiment

The invention is based on an exemplary embodiment are explained in more detail:

In the accompanying drawing:

Fig. 1: a section of the device according to the invention

In a pipe section 1 made of non-magnetic material, for example glass or plastic, holders 2 are attached with the central bearing for the axis 3 . The brackets 2 are designed so that the medium flowing through the pipe section 1 , preferably against water, only a very small flow resistance is opposed by expediently only three, each by 120 ° staggered aerodynamically designed webs between the pipe section 1 and the center Bearing for axis 3 run. On the axis 3 , an aerodynamically designed impeller 4 is mounted axially symmetrically, so that no axle bushings occur to the outside and thus also no sealing problems. The flowing medium sets the impeller 4 in rotation. A permanent magnet 5 made of ceramic is applied to a vane of the impeller 4 , the magnetic field of which changes periodically during rotation, which detects a magnetic sensor 6 attached outside the pipe section 1 and thus generates a measurement signal correlated with the rotation frequency, which is generated in an electronic counter module 7 processed, saved or displayed. The magnetic sensor 6 , the electronic counter module 7 and the backup battery 8 are on a piece of pipe 1 enclose the and thus external magnetic interference shielding Ge housing 9 attached.

The power consumption of the electronics is very low. To improve the life of the backup battery 8 , an external power source in the form of a pair of thermocouples is provided that takes advantage of the temperature difference between the liquid and the environment and constantly recharges the power source.

It is particularly advantageous about this solution that the fluid Medium does not have to be redirected for the measurement, that none Bushings through the pipe are necessary and that the elec tronic effort for the measuring device is relatively low.  

• List of the reference numerals used 1 piece of pipe
  2 bracket
  3 axis
  4 impeller
  5 permanent magnet
  6 magnetic sensor
  7 counter module
  8 backup battery
  9 housing

Claims (2)

1. Magnetic flow meter for fluid media, preferably for use hot water measurement in residential, industrial and social buildings with an impeller with axial loading, characterized in that an impeller ( 4 ) in a straight pipe section ( 1 ) made of non-magnetic material without Axle bushings is axially symmetrical and causes a periodic change in a magnetic field during rotation, which detects magnetic sensor ( 6 ) attached from outside the pipe section ( 1 ) and generates a measurement signal correlated with the rotation frequency, which is electronically counted via a counter module ( 7 ) , saved or displayed. 2. Magnetic flow meter according to claim 1, characterized in that the magnetic field is generated by a permanent magnet ( 5 ) attached to the impeller made of ferro-magnetic material ( 4 ).