DE1022162B - Device for monitoring the conveyor flow of continuously acting conveyors, e.g. Vibratory conveyor troughs or tubes - Google Patents

Description

Device for monitoring the flow rate of continuously acting conveyors, z. B. Vibratory conveyor troughs or tubes Addition to patent 958 189 The main patent has a device for monitoring the flow rate of continuously acting conveyors, z. B. vibratory conveyor troughs or pipes, the object in which at least one movable mounted construction element provided in the form of a wheel or a roller which is set in motion by the current flow and to the optical or acoustic display of the flow rate can be used. The invention relates to a development of the device according to the main patent and consists in the fact that the Movement of the movably mounted construction element (wheel, roller) impulses triggered are used to charge a storage capacitor that has an optical relay via a relay or the acoustic signal generator switches on or off. The device according to the invention is advantageous in that the switch-on capacitor direct current pulses, which for Serve the supply of the signal relay, so that when using a lamp as Signal transmitter no flashing light is generated, but a constant light signal Brightness.

An embodiment according to the invention is based on the drawing explained.

As Fig. 1 shows, is with the flow of a steadily acting Conveyor, e.g. B. a vibrating conveyor trough or a vibrating conveyor pipe, in revolutions offset paddle wheel 1 is connected to a collector 2 which rotates with the paddle wheel 1. The impeller 1 and the collector 2 can be arranged on a common axis 3 be. The collector 2 is used to generate pulses, specifically to generate positive ones and negative power surges. The collector 2 has z. B. sixteen, twenty or twenty four Slats, a number of which are picked out and connected to each other. To the Example is used in the embodiment of FIG. 2, a collector in which the Slats2, 6, 10, etc. are connected to each other. To connect these slats the ring line 4 is provided.

During the rotation of the collector caused by the paddle wheel 1 2 alternating positive and negative pulses arise at the brushes 6 and 7, the Continue their way via brushes 5 and 8 that slide on the collector. The result is the following current curve: At the network 9 that feeds the signal lamp 10, the transformer 11 is located with the center tap 12 of its secondary side. Of the Transformer 11 feeds the rectifier 13 arranged in Graetz circuit, its DC output with the brush 8 and its DC input with the brush 5 connected is. The middle two brushes 6 and 7 spaced two Have slats against each other. are via the capacitor 14 and the relay 15 with the Älittelanzapfung 12 of the transformer 11 connected. When the collector rotates 2, the circuit in which the relay 15 and the capacitor 14 are located alternately via the brush 8 - this case is shown in the drawing - or via the Brush 5 closed. The capacitor 14 receives alternating voltage pulses in this way opposite direction. Each of these impulses causes the relay to respond 15. Every time the relay 15 responds, the storage capacitor 16 receives one negative impulse. The storage capacitor 16 is charged as a result and brings that Switch-on relay 17 to respond, which controls the signal lamp 10. The lamp 10 remains switched on as long as the paddle wheel 1 and thus the collector 2 are turns. This creates a permanent optical signal. that indicates to the operator that a conveying flow is present in the conveying pipe or in the conveying trough. If the Flow interrupts. the paddle wheel 1 and thus the collector 2 stop. The storage capacitor 16 is then no longer charged, whereby the switch-on relay 17 is de-energized and the signal lamp 10 goes out.

The monitoring device is used to control the flow rate and shows stowage, sticking of the conveyed material and failure to load a channel certainly on. For large and long conveyor systems as well as systems with remote control This offers a desirable control option.

Uni to avoid that the device responds in the event of brief malfunctions, the storage capacitor 16 can be dimensioned so that its discharge time is sufficient long will. You can reduce the discharge time that resistors 18 and 19 to the Storage capacitor 16 can be connected in parallel.

To adapt the delay time to the respective conditions can, the resistor 19 is designed to be adjustable.

The device according to the invention can except for displaying a missing Flow rate also to switch off the drive continuously acting conveyor. for example for switching off the vibrator of a vibrating conveyor trough or a vibrating conveyor pipe to be used. For this purpose, the rube contact of the switch-on relay 17 in the feed line of the drive element is laid. If the flow stops, for example due to a jam, the paddle wheel 1 comes to a standstill, which means that the Drive causes.

Claims (5)

PATENT CLAIMS: 1. Device for monitoring the flow rate of continuous acting conveyors, e.g. B. vibratory conveyor troughs or tubes, according to patent 958 189, characterized in that by the movement of the movably mounted construction element (Wheel 1, roller) pulses are triggered. those for charging a storage capacitor serve and a switching element such as relay (17), an optical or acoustic Switch the signal transmitter (10) on or off. 2. Apparatus according to claim 1 characterized gekennzeichtlet that the one Collector (2) generated pulses are fed to a relay (15), which with each Impulse is activated and a circuit for a storage capacitor (16) closes, with sufficient charge a switching relay (17) for the optical or acoustic Beeper (10) switches on. 3. Apparatus according to claim 2, characterized in that in series with the relay (15) eiii capacitor (14) is located alternately by the collector (2) positive and negative voltage pulses are supplied. 4. Apparatus according to claim 3, characterized. that a transformer (11) is provided. the secondary side of which has a center tap (12) which Via the capacitor (14) and the relay (15) with the two middle brushes (6 and 7) is connected, which is located at a distance of two fins on the collector (2) grind, and that the transformer (11) feeds a sliding rectifier (13) whose DC input and output is connected to two brushes (5 and 8). which in a certain way Distance left and right of the middle brushes (6 and 7) are arranged. 5. Apparatus according to claim 1 or the following. marked by this, that to control the discharge time of the storage capacitor (16) in parallel with the capacitor a variable resistor (18, 19) is connected.