SU482633A1 - Digital encoder for scales - Google Patents

Description

one

The invention relates to the field of weighing technology.

Digital encoders for scales are known, comprising a scanner, a pulse generator connected to a pulse counter, the control inputs of which are connected to a pool sensor and an arrow position sensor, and an output to an information processing unit.

The purpose of the invention is to improve accuracy and reliability.

The proposed device is equipped with an additional pulse number counter connected to the pulse generator, a pulse weight calculation unit and a scaled sensor, the control inputs of an additional pulse counter connected to the zero sensor and a scoring sensor, and the output connected to the pulse weight calculating node, output which is connected to the information processing unit.

In addition, the scanner is made in the form of a rotating massive disk with a flywheel, ensuring uniform motion, on which the arrow position sensor is mounted.

The drawing shows the functional diagram of the device.

The device consists of a rotating disk 1, an electric motor 2, an arrow position sensor 3, a scaled sensor 4, a sensor 5 zero, a sensor 6 exciter 3, a sensor 4 exciter 4, and a sensor 5 zero exciter 8, a pulse frequency generator 9, a pulse counter 10, additional counter 11 pulses, computing node 12 and block 13 of information processing.

The output of the pulse generator is connected to the input of the pulse counter 10, which is turned on by the sensor 5 zero and turned off by the sensor 3, the position of the arrow. The pulse generator is also connected to the input of the pulse counter AND pulses, controlled by sensors 4 and 5.

The device works as follows. The disk 1 is driven into rotation by the electric motor 2. With the passage of the exciter

8, located on the rotating disk 1, relative to the sensor 5 zero stationary, the command "Start of counting of counters 10 and I" is issued. The counting of pulses by counter 10 stops when sensor 3 located on disk 1 past exciter 6 located on arrow 14 of index indicator passes weight measuring device. The counting of the pulses by the counter 11 stops when the driver 7 passes through

sensor 4 limit of the scale, located motionless. Fly time of disc 1 ensures uniform rotation.

To eliminate the effect of inconsistent rotational speed of disk 1 in time when measuring the number of pulses proportional to the angle of rotation of the arrow 14, the device provides for the calibration of the numerical value of the pulses in units of the measured mass. For this, the pulse counter 11 is controlled by sensors 4 and 5. The output of counter 11 is connected to the computing node 12, which determines the weight value of the pulse as a result of dividing the digital value of the scale limit by the number of pulses proportional to the scale limit. The measuring information processing unit determines the measured mass value as the result of multiplying the number of pulses proportional to the angle of rotation of the arrow 14 by the weight value of the pulse.

To improve accuracy, measurements can be made over several revolutions of a disk (e.g., 10, 100) and averaged.

Subject invention

1.Digital encoder for scales, containing a scanner, a pulse generator,

connected to a pulse counter, the control inputs of which are connected to a zero sensor and an arrow position sensor, and an output connected to an information processing unit, characterized in that

of increased accuracy and reliability, it is equipped with an additional pulse number counter connected to the pulse generator, a pulse weight calculation unit and a scale limit sensor,

The control inputs of the additional pulse counter are connected to the zero sensor and the scale limit sensor, and the output is connected to the impuls weight value computation node, the output of which is connected to the information processing unit.

2. The device on n. 1, characterized in that in it the scanner is made in the form of a rotating massive disk with a swinging moment ensuring uniform motion, on which the position sensor of the arrow is mounted.