CS244180B1 - Equipment for continuous weight measurement - Google Patents

Abstract

A device for continuous measurement of the mass of a material, provided with an inclined measuring plate suspended in a weighing device, the location of the suspension point and the point of attachment of the measuring plate being related to its shape. The measuring plate is formed by an inclined impact part and a concavely curved sliding part connected thereto, which meet at the point of impact of the material. The pivot point on which the measuring plate is suspended by a suspension is located above this measuring plate on the line of the resultant of the friction forces from both parts of the measuring plate and the measuring plate is firmly attached to the suspension at the point of impact of the material.

Description

BACKGROUND OF THE INVENTION The present invention relates to an apparatus for continuously measuring the weight of a material provided with an inclined measuring plate suspended in a weighing device, and to the location of the hinge point and the connection point of the measuring plate in connection with its shape.

Continuous mass measurement devices are known in which the measuring section is formed by a curved wall of the hopper to which the material is supplied without impact, the measuring curved wall being separated from the inlet oblique wall by a narrow gap. Also known are devices in which the measuring section is formed by an inclined impact plate on which the material falls from a constant height. The impact plate is clamped into the device so that it is possible to measure the horizontal component of the force induced by the incident material.

The disadvantage of the first group of devices is that they only operate with satisfactory accuracy at high power. At low throughputs, the effects of friction, material sticking and the effects of the separation gap function are adversely affected. The disadvantage of the second group of devices, on the other hand, is that they operate reliably only at low and very low power, at which the conditions of ideal impact and reflection of the material from the measuring impact plate can be more closely approximated. With the larger dimension of the material flow required for the high power of the device, some particles impinge on the layer previously impacted, so the impact coefficient is different. After bouncing, the reflected particles collide with those that have not yet occurred and create a chaotic stream of both measured and unmeasured particles, thereby distorting the measurement results.

These disadvantages are eliminated by the device according to the invention, which consists in that the measuring plate consists of a higher inclined impact section and a concave curved sliding section which are adjacent to each other at the point of material impact so that the tangent of the sliding section is inclined from the impactor to the angle of reflection of the material, taking the pivot point at which

-2244 180 the measuring plate is suspended by a hinge, it is placed above this measuring plate on the slope of the resultant of frictional forces from both parts of the measuring plate and the measuring plate is firmly attached to the hinge at the material impact point ·

The advantage of this arrangement is that the shape of the measuring plate makes it possible to capture the impact of the material for measuring the impact of the material and converts the reflection of the material into a sliding movement, with the resulting centrifugal force acting as a measured quantity. Due to the location of the pivot point, the impact, which entails an impact coefficient error, results in less torque, while the centrifugal force induced by the steady flow of material causes more moment to the pivot point of the hinge. By positioning the pivot point according to one of the features of the solution, the effect of passive forces is also effectively eliminated.

An exemplary embodiment of the invention is shown schematically in the accompanying drawing.

The continuous weight measuring device has a measuring plate suspended by a hinge 7 at a pivot point 6 in the weighing device. The measuring plate consists of a lowered inclined impact section and a concave curved slide section 3, which are connected at the point of impact of the material stream 1 so that at the point of impact 4 the tangent t of the slide section 4 is deflected by an angle material reflection. Preferably, the sliding portion 6 of the measuring plate is provided with a circular curvature of radius R. The measuring plate is suspended by means of a hinge 6 at a pivot point 6 which is located above the measuring plate in the weighing device. measuring boards. The metering plate is fixedly attached to the hinge 4 at the material impact point 4.

By feeding the material, for example by means of a conveyor, the material flow 1 impinges on the measuring plate at the impact point 4 at the impact point 4, where its impact part 2 and the sliding part 6 meet. In this case, the impact part 2 is acted upon by the impact force F1, usually expressed in relation

F ^ = m * v / / l + k /, where m is the mass v is the velocity of the material flow k is the impact coefficient.

-3244 180

Due to its curvature, the sliding part 3 is subjected to a centrifugal force F ₂ , usually expressed in relation

Fg = | · 5 · v ² , where R is the radius of curvature m is the mass v is the flow rate of the material.

The impact force and the centrifugal force F ₂ exert a force moment with respect to the pivot point “6, whereby due to their position the effect of the impact force F menší is less than the effect of a more precisely defined centrifugal force F g. The passive forces are compensated by placing the pivot point 6 on the slope of the friction force resultant and fixing the measuring plate at the material impact point 4.

Equipping the weighing device 5 with metal tensiometric force transducers makes it possible to connect the weighing device to the known integration evaluation devices used in belt weighers.

Claims (1)

Continuous weight measuring device with an inclined measuring plate rotatably mounted in a weighing device, characterized in that the measuring plate consists of a higher inclined impact part (2) and a concave curved sliding part (3) lowered adjacent to each other in place of the material impact (4) so that the tangent (t) of the sliding portion (3) is diverted from the impact part (4) by the material reflection angle (4), the pivot point (6) at which the measuring plate is hinged (7) is placed above this measuring plate on the slope of the resultant of frictional forces from both parts (2, 3) of the measuring plate and the measuring plate is firmly attached to the hinge (7) at the impact point (4) of the material.