CS219710B1 - Facility for measuring the permeability of loose materials under motion - Google Patents

Abstract

The invention solves the measurement of loose permeability materials, in particular agglomeration mixtures directly on conveyor belts or feeders under operating conditions. Continuous measurement of bulk flow rate materials without moving The sample material is made by a measuring probe It consists of a front straightening part (2) which it passes into the sliding part (3) in which it is formed a feed slot (4j which is the outlet) the measuring space (5) into which it is located from above the medium supply line (6) and a differential pressure sensing line (7). Attaching the probe to the drive belt (9) with a layer of bulk material (8) being with hinge (1).

Description

The invention provides a device for measuring the permeability of bulk materials, in particular agglomeration mixtures, directly on conveyor belts or feeders under operating conditions.

When measuring the breathability by known methods which require secondary sampling or sampling of the bulk material to be measured, there are considerable difficulties in sampling, especially in an agglomeration mixture which causes high wear and sticking of the sampling device.

The above-mentioned drawbacks are eliminated by the device for measuring the permeability of loose materials during the movement according to the invention, which is characterized in that the measuring probe consists of a front straightening part which passes into a sliding part in which a supply slot is formed. wherein a fluid supply line and a pressure differential sensing line are provided from above.

The advantage of the device according to the invention is that all sampling and sampling devices are eliminated, which has always been the most expensive and most disturbing, the measuring probe is very simple and can be mounted on any conveyor belt or feeder without modification.

The device according to the invention is shown in the drawing in an exemplary embodiment.

In the drawing 1, the measuring probe is composed of a front straightening part 2, which passes into a sliding part 3, in which a supply slot 4 is formed, which is the outlet of the measuring space 5 into which the medium supply line 6 and the pressure sensor 7 · The difference. The measuring probe is fastened to the carrier strip 9 with a layer of bulk material 8 by means of a hinge 1.

The function of the device is such that the measuring probe mounted on the hinge 1 slides and at the same time compares the moving bulk material layer 8, to which a constant amount of air is supplied through the supply line 6 through the measuring space 5 and the feeding slot 4. purged air, which depends on the breathability of the material, the speed of movement of the material and the height of the material layer.

If the speed of movement of the material is constant or sufficiently high so that, in the case of the best air permeability of the material, air does not penetrate to the carrier strip 9, the pressure inside the measuring space 5 varies inversely proportionally, 7 the pressure difference sensor is inversely proportional to the breathability of the material.

Another alternative application of the device according to the invention is to blow air through the supply line 6 while maintaining a constant pressure in the measuring space 5, then the permeability of the bulk material is directly proportional to the amount of blown air.

The device according to the invention can be applied to all kinds of bulk materials, other gas media, for example inert gas to the measured material, can be used as the measuring medium in addition to the compressed air.

Claims (1)

Subject Device for measuring the permeability of bulk materials in motion, characterized in that the measuring probe consists of a front straightening part (2j) which passes into a sliding part (3), in which a supply slot (4) is formed, which is a mouth of the measuring space (5j). into which the medium supply line (6j) and the pressure difference sensing line (7) exit from above.