DD273241A1 - METHOD AND DEVICE FOR INFLUENCING THE BUNKER REGIME - Google Patents

Abstract

The invention relates to a method and a device for influencing the bunker regime. It can be used anywhere where bulk goods have to be bunkered using the advantages of the mass flow state. The aim of the invention is to monitor the operating state of the mass flow in a Schuettgutbunker with little expenditure on equipment, if necessary to restore and at the same time to capture the current Bunkerfuellstand. The object of the invention is the development of a method and a device for simultaneous monitoring of the mass flow state and the filling level in a Schuettgutbunker. According to the invention, this object is achieved in that, with at least one two-component voltage measuring cell, the normal and tangential voltages bored from the bulk material to the bunker inner wall are measured in such a way that, in addition to the monitoring of the mass flow state of the bulk material, the filling level measurement takes place simultaneously from the measuring signals. The measuring device used is at least one voltage measuring cell provided with a measuring ring and eight strain gauges.

Description

For this 1 page drawing

Field of application of the invention

The invention relates to a method and a device for influencing the bunker regime of mass flow bunkers. It can be used everywhere where flow-passive zones or unequal residence times of bulk materials have to be avoided, preferably in the vital oil industry, the animal feed industry, the chemical and pharmaceutical industry as well as in the storage of fuel dust.

Characteristic of the known technical solutions

There are no methods and devices for detecting the flow state, especially the mass flow of bulk bunkers known.

Despite proper dimensioning of a mass flow bunker, it may be due to altered bulk properties oihr environmental conditions to disrupt this flow state.

The disturbance must be recognized and eliminated immediately for technological and economic reasons. Flow-passive zones or unequal residence times can lead to spoilage of certain parts of the Bunkerinhaltes example in the food industry and feed industry, cause unwanted side reactions in the chemical industry or in the storage of certain materials, such as brown coal dust, have a self-ignition. The mass flow in the bunker is also a prerequisite for the fact that possibly resulting from the filling demixing be compensated again and thus a constant material quality is ensured at the sampling. Also, mass flow bunkers exclude the so-called "shooting" of the material.

The level measurement in bulk bunkers is currently in levels or directly using a variety of methods.

Known are level probes, mechanical scanning of the surface, touch plates, weight-actuated electrical indicators, electrodes, radiation, Torsionsschwingelemente, electrodes, capacitive transducer, rotary blades, height-adjustable pendulum, contact plates with microswitches and rope probes with weight.

There are two descriptions of the invention for the use of pressure measuring doses in connection with level measurement. In the Austrian PS 312955 a device for controlling the level in a continuously refillable memory with continuous Guten'nahme is described, wherein the entire Junker is mounted on a load cell or a capacitive probe. In DD-PS 204684 pressure cells are used in conjunction with the control of the level in the pressure relief installation ventilated bulk silos.

The disadvantages of these measuring boxes are that they only measure normal pressures or forces and the measurement does not take place directly in the bunker. Statements about existing mass flow in the bulk material bunker can not be made. Thus, there are Ko-ne methods and no devices with which it is possible to weekly the mass flow state in a bulk bunker while measuring the level.

Object of the invention

It is the object of the invention to monitor and, if necessary, restore the operating state of the mass flow in a bulk material bunker that is technically necessary and economically advantageous in many applications while at the same time detecting the current bunker filling point.

Presentation of the wading invention

OBJECT OF THE INVENTION The development of a method and an apparatus whereby it is possible to simultaneously continuously monitor both the mass flow state in a bulk bunker and, if necessary, initiate measures to maintain it as well as to measure the level to respond to the filling or deflation process To be able to influence.

According to the invention, this object is achieved in that with at least one two-component voltage jmeßzelle parallel and independently of each other exerted by the bulk material on the bunker inner wall normal · and

Tangential voltages are measured so that at the same time the level measurement takes place from the measurement signals in addition to monitoring the mass flow state of the bulk material. Used as a measuring device and at least one provided with a measuring ring and eight strain gauges Spannungsmeßzelle.

It is characteristic that the Tangentialapannungs- and normal voltage measurement is used to monitor the flow condition and the normal voltage measurement for level indicator, at least one meter close or clear

below the transition from the vertical part of the bunker is located in the conical part of the bunker directly in the bunker wall.

By triggered by the meter signals, it is possible to operate suitable devices, such as a vibrator and / or Bunkerbeschickung, whereby flow passive zones encountered in the bunker and mass flow for the bulk material again guaranteed or the level is controlled.

The invention will be explained in more detail with reference to an embodiment.

Ausführungsbelsplel

The Massenflußbunker shown in Figure 1 consists of a vertical part of the bunker 2 and a conical part of the bunker 3. The voltage measuring cell 1 is installed in the vertical part of the bunker 2 directly into the bunker wall 8, as in the vertical part of the bunker 2 during filling and Emptying in each case the same state of tension prevails. The calibration of the normal voltage 6 is done by filling the bunker with bulk material. The dependence of the normal voltage of the level y is entered into the microprocessor 4, which controls the Bunkerbeschickung 7. Upon reaching the maximum Bunkerfüllstandes the Bunkerbeschickung 7 is turned off. When the ratio of tangential · to normal stress

- - φ * assumes a certain constant value, is present in the bunker mass flow. Occurs a disturbance of the mass flow

due to bridge formation or core flux, the ratio of tangential to normal voltage changes and the vibrator 6 is put into operation by a signal from the microprocessor 4, thereby eliminating the disturbance of the mass flow. From the obturator 5, a signal can be supplied to the microprocessor 4, which provides information about whether bulk material is removed from the bunker or not.

The advantages of the invention are the simultaneous measurement and influence on the flow state and level of the bulk material in a Massenflußbunker so that passive zones are prevented during emptying and results in a consistent quality of the stored bulk material.

Claims (6)

1. A method for influencing the bunker regime, characterized in that with at least one two-component voltage measuring cell parallel and independently of the bulk material exerted on the bunker inner wall normal and tangential voltages are measured so that from the measurement signals in addition to monitoring the Massenflußzustandes the bulk material at the same time Level measurement takes place, 2. The method according to item 1, characterized in that the tangential and normal voltage measurement of the monitoring of the flow state and the normal voltage measurement of the level indicator is used. 3. The method according to item 1 and 2, characterized in that signals are triggered by the meter, which turn on devices that are suitable both to restore the mass flow state in the bulk bunker and to influence the level. 4. A device for influencing the bunker regime, characterized in that as a measuring device at least one provided with a measuring ring and eight strain gauges Spannungsmeßzelle (1) is used. 5. The device according to item 4, characterized in that at least one meter is located just above or well below the transition from the vertical part of the bunker (2) in the conical part of the bunker (3). 6. Device according to items 4 and 5, characterized in that the measuring device is arranged directly in the bunker wall (8).