DE1928361A1 - Method for measuring the flow rates of powder and granular materials and instruments for it - Google Patents

Description

Method of measuring flow rates for powder and granular materials and tools for it.

The invention relates to a method of measuring flow rates with powdery and granular materials and on the instruments for them.

A primary purpose of the invention is to provide the time to make flow measurements to be carried out with extremely high accuracy0 Another important purpose is Creation of instruments of this type which can be easily incorporated and which work accurately and reliably.

Further features and advantages of the invention emerge from the following Description of an exemplary embodiment shown in the accompanying schematic drawings FIG. 1 is a diagrammatic view of a pressure flow meter such as that shown in FIG Prior art is known for measuring flow rates of powdery and granular materials; Figure 2 is a diagrammatic view of one embodiment of the invention, where A is a side view and B is a plan view, and FIG FIG. 13 is a diagrammatic front elevation according to a second embodiment of FIG Invention.

The invention is characterized in that the horizontal thrust load instead of the vertical component of the load of a normally falling mass against a Detector plate is tapped and established.

Conventional pressure flow meters of Fig. 1 are designed so that the normally falling powdery or granular material that comes from a feeder i comes, butts against a detector plate 2 before it flows further downwards and the resulting impact load be vertical load is converted into the displacement of a carrier 9 ,, that of a lever carrier-4 is carried by a spring 5 and a differential converter 6, and by displacement value is converted into an electrical signal, which is then converted by an amplifier 7 is reinforced for easier measurement. As a result, every bit of it would be powdery or granular material; that hit the detector plate and remained there has the same effect as if the load had increased, creating an error would occur at the measured value.

In view of this, the method and instrument for flow measurement are according to of the invention designed so that it eliminates the possibility of any solid deposit that could be mistakenly measured as part of the flow rate.

Two are preferred for practicing the invention Exemplary embodiments are described below.

Reference is made to describe the first exemplary embodiment on the drawings, in particular on Figo 2, wherein a carrier 9, the a detector plate 2 carries, is carried by a lever carrier 8 and the detector plate 2 is with provided a slope parallel to the beam and the horizontal force component the engagement against the detector plate 2 can be converted into a displacement which in turn are converted into an electrical signal via a spring 5 and a differential converter 6, both of which are arranged horizontally, and then the electrical nal passed into an amplifier 7.

In this arrangement, only the horizontal component of the Load measured against the detector plate. Because any deposit of powdery and granular material on the detector plate does not cause any erroneous reading, the flow rate of the material can be measured with a very high degree of accuracy, the second Embodiment of the invention is intended to measure the force component, in the longitudinal direction of the carrier in front of a powdery or granular mass is caused, which impinges on the detector plate by gravity, which is on the carrier is arranged with an inclination with respect to the carrier. With particular reference to Fig. 3, the carrier c is plate with the detector b equipped diagonally at one end thereof and is horizontally movable via a spring d, which is arranged at the other end, and pin g, which is in the Are arranged in the middle of its length. When a flow of powdery or granular Material naturally falls out of a feed device a due to gravity, the material is taken up by the detector plate b and the carrier is in the the direction indicated by the arrow shifted while the spring d is compressed, namely the axial Kraf4 component that is exerted on the carrier c, which in turn depends on the moment of impact against the detector plate. This movement of the The carrier becomes an amplifier via the spring and a differential converter e f, where it is converted into an electrical signal, which in turn is a Ability to read off the measured value of the flow rate.

With this embodiment there is an extremely accurate measurement of the flux amount possible, because here again every stagnation and every deposit of powdery material or granular material on the detector plate in no way give rise to a measurement error,

Claims (1)

Claims: 9 method for measuring the flow rate of a pulverföralgen or granular material, characterized in that a powdery or granular Material under the effect of gravity from a certain height onto a detector plate falls and deflects it, the horizontal component of the said Plate is measured as a load exerted force 0 20 The method according to claim 1, characterized in that the longitudinal force component is measured on the Carrier is exercised when the falling material against the force of gravity against the Detector plate abuts, which is arranged on the carrier diagonally to this. 30 device for performing the Verf alirens according to claim 1 or 2 gekennzeiclinet that a carrier with a detector plate on a Bearing rests, is inclined parallel to the beam and is mounted so that it can move horizontally is that the horizontal force component of the load force on the 3) detector plate can be converted into a displacement, and that a spring and a flifferentialumformer is provided, both of which are arranged horizontally so that they can accommodate the displacement uniwuideln into an electrical signal. 4. Apparatus according to claim 3, characterized in that a carrier at one end a diet, ontll arranged on it I) detector plate and at the other end a spring and a pin in its middle part carries that the carrier is mounted horizontally displaceably and that the horizontal force component is measured on the carrier based on the force exerted on the detector plate, passed through said spring and a flifferentialumfornier into an amplifier where the force component is converted into an electrical signal. Blank page