NL1003585C2 - Measurement of `fluidity' of powdered or granulated foodstuffs - Google Patents

Abstract

The container (1) holds powdered or granular material (4). Reciprocating motion (3) of the serve (2) permits material (9) to fall from the open base (8) of the container. The perforations in the serve are chosen (in the range 5-100 mesh) to permit material to flow only when there is relative motion between serve and container. Rate of flow is dependent on the rate of relative motion (3). This is measured, together with volumetric information derived from the sensors (5, 6), to enable the `fluidity' of the material to be determined (7). The weight of deposited material (9) can also be measured.

Description

Device for measuring the flowability properties of a powdery or granular material

The invention relates to a device for measuring the flowability properties of a powdery or granular material. Such devices are known and are used to determine the manner in which such products behave in their processing. Consideration can be given to determining the flow behavior of powdered flavors such as paprika, nutrients such as flour and the like.

When determining flowability, it is important that the results obtained are reproducible, that is, independent of the skills of the operating personnel or the capacity of the device. Some known devices have the drawback that certain powdery or granular materials lead to blockages through bridging; sometimes mixing of mixtures also occurs in such a way that reliable measuring results cannot be obtained.

The object of the invention is therefore to provide a device of the above-mentioned type which is more satisfactory. That object is achieved by means of a device comprising a container for the material with a discharge which is bounded by a sieve, the discharge and the sieve being movable along each other, the sieve having sieve openings with dimensions such that the openings have the material particles at stationary sieve element. and, when the discharge and the screen member are moved past each other, the material particles pass through for the purpose of discharging the material from the holder through the screen openings.

The advantage of the device according to the invention is that, due to the relative movement between the holder and the screen member, the material particles are passed through the screen openings, so that the screen member is not blocked, so that it is always possible to carry out a measurement. For material particles of smaller or larger dimensions, correspondingly different sieves with corresponding sieve openings can be used.

Good results are obtained when using a screen member which has a rough surface at least on its side facing the discharge. In that regard, the screener may have a fabric of 1003585.

2 wires, which fabric determines the surface roughness of the screen member.

Depending on the speed at which the container and the screen member are moved relative to each other, a certain material flow exits from the container. If the device has measuring means for measuring the amount of material discharged, it can be determined which movement distance is required for discharging a certain standard amount of material. To this end, the screen member can be coupled to recording means for measuring its movement distance. The measuring means for measuring the quantity of material discharged can for instance consist of measuring points or a scale on the container of the material or a weighing device under the sieve.

The screen member may be movable along the discharge opening by reciprocating movement; it is also possible to move the screen member in a continuous movement, for example by twisting. The latter is also possible if the screen member is an endless belt. With material that cannot be properly flowed, it is preferable to vary the relative movement of the screen member, for example by applying said reciprocating movement. It is also possible to vary only the speed of the screen member.

The device can be operated fully automatically if a control device is provided which is supplied with signals regarding the displacement distance of the screen member along the discharge opening, the amount of material discharged from the holder via the screen member and which gives signals for controlling that displacement.

The invention will be explained in more detail below with reference to the figures.

The figure shows a holder 1, which is designed as a glass tube. Under the holder 1 is the grid 2, which can be moved back and forth according to the arrows 3. The powder to be measured in tube 1 is indicated by 4.

Measuring points 5, 6 are provided on the tube, with which a certain amount of powder material 4 can be accurately measured. The measuring points give signals to the measuring and regulating device indicated in its entirety by 7. The total displacement distance of the grid 3 is also measured and supplied to the unit 7 · 1003585.

3

When the sieve 3 is slid back and forth along the discharge opening 8 of the tube 1, a certain amount of granular material 9 exits from the tube 1. The relative discharge distance of the sieve 2 discharged along the discharge opening 8 amount of material 9 is a measure of its flowability. This depends on the size of the meshes in the screen 2. The mesh size may be in the range of 2.5-120 mesh; preferably in the range of 5-100 mesh, and more preferably in the range of 10-30 mesh.

10 If the amount of powder already determined by the measuring points 5 and 6 has already been discharged with a small number of reciprocating movements of the sieve, or a small displacement distance of the sieve along the discharge opening 8, it can be stated that the flowability of the powder is good. For example, in order to obtain a large number for a powder with good flowability properties, the number of times the sieve 2 is moved back and forth over a predetermined distance according to the arrow 3 can be converted into a "flow number", by the number 100 divide by that number of times. It is also possible to express the flowability properties as the amount of material removed per standard displacement distance of the screen.

1003585.

Claims (16)

Device for measuring the flowability properties of a powdery or granular material, comprising a container 5 (1) for the material with an outlet (8) delimited by a sieve member (2), which outlet (8) and sieve member (2) movable along each other and the sieve (2) has sieve openings with dimensions such that said openings retain the material particles at stationary sieve (2), and when the discharge (8) and the sieve (2) are moved together allow the material particles (9) to pass through the sieve openings of the material from the holder (1). Device according to claim 1, wherein the screen member (2) has a rough surface at least on its side facing the outlet (8). The device of claim 2, wherein the screen member (2) comprises a web of threads, which web determines the surface roughness of the screen member (2). Device as claimed in any of the foregoing claims, wherein 20 measuring means (5, 6) are provided for measuring the amount of discharged material (9). Device as claimed in claim 4, wherein the measuring means (5, 6) are arranged on the holder. 6. Device as claimed in claim 4, wherein the measuring means comprise a weighing member. Device as claimed in any of the foregoing claims, wherein the screen member (2) and / or the holder (8) are coupled to recording means for measuring their relative displacement. 8. Device as claimed in any of the foregoing claims, wherein the screen member is slidable to and fro along the discharge opening. Device as claimed in any of the claims 1-7, wherein the screen member is rotatable along the discharge opening. The device of any preceding claim, wherein the screen member is an endless belt. Device according to any one of the preceding claims, wherein a control device (7) is provided which is supplied with signals regarding the displacement distance of the screen member (2) with respect to 1003585.. the discharge opening (8) and the amount of material discharged from the holder (1) via the sieve member (2). 12. Device according to claim 11, wherein the control device issues signals for controlling the displacement of the screen element (2) relative to the discharge opening (8). Device as claimed in claim 11 or 12, wherein the control device has a measure for the flow from the signals concerning the displacement distance of the sieve member (2) with respect to the discharge opening (8), and the amount of material discharged from the holder (1) - 10 calculates the material's suitability. The device according to any of the preceding claims, wherein the mesh size of the screen member is in the range of 2.5-120 mesh. Device according to any of the preceding claims, wherein the mesh size of the screen member is in the range of 5 ~ 100 mesh. The device of any preceding claim, wherein the mesh size of the screen member is in the range of 10-30 mesh. 1003585.