AT526510A4 - Device for determining a bulk material quantity on a conveyor belt - Google Patents

Abstract

A device for determining a bulk material quantity on a conveyor belt (1) is described with a measuring device (2) for contactless detection of the surface profile (3) of the bulk material (4) in relation to a cross-sectional plane by triangulation, wherein the measuring device (2) comprises light transmitters (6) arranged on a carrier (5) and detectors (8) assigned to the light transmitters (6) for the light rays (7) reflected from the bulk material (4), as well as a control device (12) which individually controls the light transmitters (6). In order to avoid incorrect measurements, it is proposed that the detectors (8) have a device for measuring the intensity of the light received from the light rays (7) of the light transmitters (6) reflected from the bulk material (4), and that the control device (12) switches off the light transmitters (6) depending on whether the intensity of the received reflected light falls below a predeterminable threshold value for the measurement.

Description

The invention relates to a device for determining a bulk material quantity on a conveyor belt with a measuring device for contactless detection of the surface profile of the bulk material in relation to a cross-sectional plane by triangulation, wherein the measuring device has light transmitters arranged on a carrier and detectors associated with the light transmitters for the light rays reflected on the bulk material as well as a

which includes a control device that controls the light transmitters individually.

In order to optically record the quantity of bulk material conveyed by a conveyor belt using comparatively simple means, it is known (AT 5 728 U1) to provide a triangulation measuring device with the aid of which the surface profile of the bulk material can be determined in a cross-sectional plane. For this purpose, light transmitters for light beams running in a cross-sectional plane and distributed over the width of the conveyor belt are provided on a carrier on the one hand, and detectors assigned to the light transmitters at least in groups are provided on the other hand, with the aid of which the position of the images of the measuring points obtained by a receiving optics is determined, which result from the light points of the light beams striking the bulk material surface. However, it must be ensured that each measuring point determined by the individual light transmitters is recorded individually without being influenced by the light beams of the other light transmitters, which is ensured by a control device which controls the light transmitters one after the other, so that a detector can be assigned to the light transmitters at least in groups, via which the position of the image of the light beams obtained by the receiving optics is determined by the respective switched-on light transmitter.

The light point generated by the light transmitter is detected on the bulk material and

conveyor belt, this can lead to incorrect measurements.

The invention is therefore based on the object of preventing incorrect measurements due to

To avoid edge edging of the conveyor belt.

Starting from a device of the type described above, the invention solves the problem in that the detectors have a device for measuring the intensity of the light received from the light beams of the light transmitters reflected from the bulk material and in that the control device switches the light transmitters off depending on whether the light beams of the light transmitters fall below a predeterminable threshold value.

Intensity of the received reflected light for measurement.

The invention is based on the finding that the light rays of the light emitters that strike the usually metallic edge surrounds are reflected with less scattering than light rays that strike the bulk material. This means that the intensity of the light received by the detectors from the light points that are obtained by the light rays striking the edge surround is noticeably lower than the intensity of the light received by the detectors from the measuring points, i.e. the light points from the light rays striking the bulk material surface. Due to the lower scattering of the light rays reflected by the metallic edge surrounds and the fact that the detectors are only exposed to a portion of this scattered light, it can be judged from the intensity of the light received by the detectors whether the respective light beam strikes the edge surround or a bulk material surface. By comparing the measurement signals of the measuring device for the intensity of the light received by the detectors with a predetermined threshold value of the light intensity

The control device can thus use the light transmitters for a measurement

The measurement accuracy can thus be significantly increased by measuring the bulk material surface.

The drawing shows the subject matter of the invention by way of example. A device according to the invention for determining a bulk material quantity on

a conveyor belt is shown in a schematic block diagram.

A device according to the invention for detecting a quantity of bulk material on a conveyor belt 1 has a measuring device 2 which detects the respective surface profile 3 of the bulk material 4 related to a cross-sectional plane by triangulation. For this purpose, light transmitters 6, such as light-emitting diodes or laser transmitters, are provided on a carrier 5 arranged above the conveyor belt 1, which are grouped together, for example, in two groups, each belonging to one half of the conveyor belt 1, although this is by no means mandatory. The light beams 7 of the light transmitters 6, indicated by dash-dot lines, lie in a cross-sectional plane of the bulk material 4 and detect a part of the surface profile 3 of the bulk material 4 related to this cross-sectional plane in groups.

On the carrier 5, between the two groups of light transmitters 6, detectors 8 are arranged for the spatially resolving detection of the images of the light points 10 obtained via a receiving optics 9, which are formed when the

Light rays 7 on the surface of the bulk material 5.

The image of the light point 10 generated by a light beam 7, which is captured by the receiving optics 9 via the scattered light of the light beams 7 reflected on the bulk material 4, is captured by the detector 8 with regard to its position relative to the latter, whereby changes in the position of the image on the detector 8 due to the given geometric conditions of a change in the distance of the imaged

light point 10 from the associated light transmitter 6. This allows the

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Control device 14 is switched on and off one after the other.

Since the respective conveying speed of the conveyor belt 1 is determined by a corresponding speed sensor, the conveyed bulk material volume can be determined from the repeatedly recorded surface profiles 3 of the bulk material 4 in conjunction with the conveying speed and with the help of the

The respective bulk material weight can be calculated from the bulk material volume.

If the conveyor belt 1 is provided with edge borders 13 on both sides, which is often the case, light rays 7 that do not hit the bulk material but the edge border 13 can lead to incorrect measurements. In order to avoid such incorrect measurements, the detectors 8 are equipped with a device for measuring the intensity of the light rays 7 reflected from the bulk material 4.

Equipped with a light transmitter 6 to receive light.

Therefore, not only the position of the detector-side image of the light points 10 is recorded, but also the intensity of the scattered light of the light points 10 received by the detectors 8. Since the scattered light component of the light points on the edge surround 13 that impacts the detectors 8 is comparatively small, because the edge surrounds 13, which are usually made of sheet metal, reflect the incident light rays 7 with a considerably lower scattered light component than the bulk material surface and the detectors are not exposed to the reflected main beam but only to a scattered light component, it can be deduced from the intensity of the light impacting the detectors 8,

whether a light point 10 on the edge 13 or on the bulk material 4

can be easily avoided.

Claims (1)

(345119.8) II Patent claims Device for determining a bulk material quantity on a conveyor belt (1) with a measuring device (2) for contactless detection of the surface profile (3) of the bulk material (4) in each case related to a cross-sectional plane by triangulation, wherein the measuring device (2) comprises light transmitters (6) arranged on a carrier (5) and detectors (8) associated with the light transmitters (6) for the light rays (7) reflected on the bulk material (4) as well as a control device (12) controlling the light transmitters (6) individually, characterized in that the detectors (8) have a device for measuring the intensity of the light received by the light rays (7) of the light transmitters (6) reflected on the bulk material (4) and that the control device (12) controls the light transmitters (6) depending on whether the intensity of the light falls below a predeterminable threshold value. received reflected light for measurement. 778