CS242206B1 - Device for measuring the amount of leaf paper stored in a container - Google Patents

Abstract

The object of the invention is a device for remote measurement of the amount of leaf tobacco stored in a container. The amount of stored tobacco is determined by measuring the electric current, which is the sum of the electric currents of the individual branches of the evaluation circuit, which are controlled by photoelectric sensors with light sources installed in the diagonal of the effective length of the side wall of the container. By choosing the number of sensors, the accuracy of the measurement can be changed. The device according to the invention can also be used in industrial sectors processing similar material as leaf tobacco.

Description

in the tray

The object of the invention is a device for remote measurement of the amount of leaf tobacco stored in a container. The amount of stored tobacco is determined by measuring the electrical current, which is the sum of the electrical currents of the individual branches of the evaluation circuit, which are controlled by photoelectric sensors with light sources installed at a diagonal of the effective length of the side wall of the container. By selecting the number of sensors it is possible to change the measurement accuracy.

The device according to the invention can also be used in industries processing a material similar to leaf tobacco.

The invention relates to a device for measuring the amount of leaf tobacco stored in a container.

In the manufacturing process, leaf tobacco is stored in a leaf tobacco container. The bottom of the container is a belt conveyor. The container is filled with leaf tobacco by a conveyor assembly such that it is evenly distributed throughout the flat container. The container is emptied through an opening at the bottom of the container by moving the conveyor belt.

A common method of detecting the amount of leaf tobacco stored in a container is that the operator ascertains the quantity visually during the manufacturing process, while stepping onto the container. Such a method of determining the amount of cut tobacco stored in a container is disadvantageous in terms of estimation inaccuracy and estimation laboriousness.

The aforementioned drawbacks are overcome by a device for measuring the amount of leaf tobacco stored in a container according to the invention, which is based on the diagonal of the effective length of the side wall of the leaf tobacco container having light sources installed on the same side of the container. On the opposite wall of the cartridge, photoelectric sensors are installed opposite it, indicating the presence of material at the appropriate location. The sensor contacts are connected in an evaluation circuit, which is composed of individual partial parallel connected branches, the number of which corresponds to the number of installed sensors. The sub-branch is made up of one transistor in connection with a common emitter connected to the positive pole of the source. The base of the transistor is connected to the negative pole of the source through the resistance and contact of the respective sensor. The collector of the transistor is connected via the respective adjustable resistor to the first terminal of the measuring instrument and to the common adjustable resistor, the other side of which is connected to the positive pole of the source. The other terminal of the meter is connected to the negative pole of the power supply.

An advantage of the device for measuring the amount of leaf tobacco stored in the container according to the invention is that it allows automatic remote measurement of the instantaneous amount of tobacco stored in the container with a measurement accuracy depending on the number of sensors used.

In the accompanying drawings, an example of an apparatus for measuring the amount of leaf tobacco stored in a container using ten sensors is shown in FIG. 1 is a functional diagram of a leaf tobacco container, FIG. 2 is a block diagram of the electrical wiring; and FIG. 3 is a circuit diagram of the evaluation circuit.

At the diagonal of the effective length of the leaf tobacco reservoir 1, light sources 16 to 25 are installed at equal distances from one another, and photoelectric sensors 6 to 15 are installed on the opposite side to indicate the presence of tobacco 5 at the respective location. The tray 1 is filled with leaf tobacco 5 by uniformly stratifying the entire tray 1 by the conveyor assembly 3 and emptied through the outlet opening by moving the conveyor belt 2. The sensors 6 to 15 are connected in their evaluation circuit 27 with their contacts 61 to 70. 50, ten fixed resistors 51 to 60, eleven adjustable resistors 30 to 40, and a measuring device 29. The evaluation circuit is powered by a DC power supply 26 of unidirectional stabilized voltage.

The function of the device for measuring the amount of leaf tobacco stored in the container according to the invention is as follows: The presence of material at the locations of the built-in light sources 16 to 25 causes the light beam from the respective light source 16 to 25 to strike the opposite photoelectric sensor 6 to 15. contact 61 to 70 of the sensor. Closing this contact will cause a current to flow through the resistor 51 to 60 and bring the respective transistor 41 to 50 to the on state. Transistor 41 to 50 starts to flow through an electric current, the magnitude of which is set at an adjustable resistor 31 to 40. The total electric current measured by the meter 29, calibrated as a percentage of cartridge 1 leaf fill 5, is the sum of currents 50. The adjustable resistance 30 is the zero deflection of the meter 29.

The number of photoelectric sensors 6 to 15 is selectable depending on the measurement accuracy of the amount of stored material required. In the example, ten reading points are considered and the measurement accuracy is 10%.

The apparatus for measuring the amount of leaf tobacco stored in a container according to the invention can also be used to measure other materials similar to leaf tobacco stored in containers of a similar kind.

Claims (1)

SUBJECT Apparatus for measuring the amount of leaf tobacco stored in a container, characterized in that light sources (16 to 25) are installed on one side of the container (1) at the diagonal of the effective length of the side wall of the leaf tobacco container (1). on the opposite side are installed photoelectric sensors (6 to 15) indicating the presence of material at the appropriate location, whose contacts (61 to 70) are connected in the evaluation circuit (27), which is composed of individual partial parallel connected branches, the number of OF THE INVENTION the branch consists of one transistor (41 to 50) in connection with a common emitter, which is connected to the positive pole of the source, the base of the transistor (41 to 50) is through the respective resistor of the resistors (51). to 60) and the corresponding sensor contact (61 to 70) connected to the negative pole 1 of the source, the collector of the transistor (41 to 50) is connected via the respective adjustable resistor (21 to 30) to the fixed terminal of the measuring device (29) and to the common adjustable resistor (30), the other side of which is connected to the positive pole of the source; wherein the second terminal of the meter (29) is connected to the negative pole of the source.