DE965077C - Method and device for weight measurement and monitoring of a material flow - Google Patents

Description

Method and device for measuring and monitoring by weight of a flow of goods The invention uses the known device with a weighing conveyor belt (Belt scale) to determine the weight of a material flow flowing over this weighing belt and monitor.

Good can be understood to mean both bulk goods and liquids will.

A belt scale with an unchangeable belt speed is known, for determining the weight of the material flow flowing through the unit of time The tare weight is shifted until the belt scale is in its zero position plays in. This system has the disadvantage that the tare weight is only shifted by hand can be, provided you don't have cumbersome and costly electrical tracking systems (e.g. motor follow-up control with self-balancing bridge) for the control of the tare weight.

The invention avoids these disadvantages in that the belt speed is changed until the balance for the setting of the tare weight prescribed weight per meter of the goods to zero and thus indicates that the target equilibrium is reached. The compliance with this condition required belt speed is the measurand for that in the unit of time over the belt running good weight.

This means: If the material flow to be measured (kg / sec) is greater than specified, so the belt speed (m / sec) must increase accordingly and vice versa decrease so that the good weight per meter on the weighing belt (kg / m) remains constant. To the According to the invention, a direct current motor is used to regulate the belt speed Rotation speed controls a Leonard unit.

Further details of the invention are from the description of the illustrated embodiment.

The figure shows schematically, partly in section, a weighing or measuring tape I, which together with the drive; smotor2 with the swing frame 3 around the Axis of rotation 4 is pivotable. The pointer 19 indicates the input position of the belt scale on Counter-pointer 20. The tare weight 21 is known per se; Way, slidable arranged on the swing frame 3 to different measuring ranges of the weighing belt to be able to adjust. The feed hopper 5 with the adjustable delimitation plates 6 and 6 'direct the flow of material directly onto belt I.

The axis of rotation 4 should lie in the plane of the weighing belt and in the Be adjustable in a way that they each come under the center of gravity of the tape Gutkegels can be brought.

The center of gravity depends on the slope angle of the property and must must be taken into account in order to avoid incorrect measurements.

The invention can also be applied to belt scales with a built-on weighing belt.

The setting of the tape speed at which in the loading position a required weight lies on each unit of length of the tape is carried out by Regulation of the number of revolutions of the direct current drive motor 2. This motor is according to the invention Part of a Leonard unit; consisting of: drive generator G, drive motor M, exciter generator Gi and its drive motor Mi. In the field winding 8 of the motor 2 is the resistor 24 and in the field winding g of the generator G is the resistor 23. Both resistors are coupled in a suitable manner and expediently so switched so that they add up in their effect. The voltage divider 23 can the armature voltage increases from zero to the maximum value at maximum field excitation.

Then there is a further increase in speed through field weakening by means of the series resistor 24. This allows the number of revolutions of the motor 2 and thus increase the speed of belt I again by three times, d. H. the total measuring range includes a ratio of about 1: 24. By hanging of the tare weight 21, the regulation of about 1:24 can still be increased as required (Measuring range disconnection). A compensation resistor 25 in the field weight io of the exciter generator G1 keeps the excitation voltage unchanged and equals possible Network and temperature fluctuations from: The device according to the invention works so in such a way that first the measuring range of the balance with detn tare weight 2i to a belt load of z. B. Icr kg / m is set. By adjusting of the resistors 2j and 24, which are coupled in a suitable manner, for example rigidly; for example by hand, the speed will be so long when the scales deflect downwards increases, and vice versa, if the balance moves upwards, decreases until the Is reached again.

The speed change of the drive motor takes place in this way both by armature voltage as well as field changes. The resistor 24 can be calibrated with a Scale 22 be equipped, which from the position of the tap in the unit of time can read the incoming or outgoing quantity of material. The belt speed is appropriate to regulate and to open the Gutzufuhrbegrenzung 6, 6 'so far that the pointer 19 tends towards zero starting from below on the counter-pointer2I and plays in without that the product level in the funnel 5 rises.

Another advantage of the method and the device according to the The invention lies in the fact that it enables remote setting and display of the measured variables is.

Claims (1)

PATENT CLAIMS I. Methods for measuring and monitoring by weight a flow of material flowing over the weighing belt of a belt scale, characterized in that, that the speed of the weighing belt (I) is changed until the scales to the tare weight that can be set for variable measuring ranges (21) the prescribed weight. see method according to claim I, characterized in that that the regulated belt speed as a measured variable for that in the unit of time Good weight running over the weighing belt is used. 3. Belt scale, in particular to carry out the process according to the Claims I and 2, characterized by a Leonard unit as a control device for the speed control of the weighing belt drive (2). 4. Balance according to claim 3, characterized by a DC motor (2) for the weighing belt drive, in whose field winding (8) a control resistor (24) is switched. 5. Balance according to claim 4, characterized in that a resistor (23) in the field winding (9) of the Leonerd generator (G) with the variable resistor (24) for the field of the direct current drive motor (2) is coupled. 6: Balance according to one of Claims 1 to 5, characterized in that that in the field winding (Io) of the Léonàrtlerregergenerators (G1) a compensation resistor (2S) is switched on. 7. balance according to one of claims 3 to 6, characterized gelennzèiehnet, that the Dtehachse (4) of the Sihwingrahmens (3) in the plane of the weighing belt (I) and can be adjusted under the center of gravity of the cone of good tangent on the weighing belt.