SU411410A1 - Device for automatic registering of nuclear radiation counter characteristics - Google Patents

Description

one

The invention relates to the field of experimental nuclear physics and is intended to measure the activity and external radiation of radioactive sources.

A device for automatically recording the characteristics of radiation meters is known, in which the signal from the meter in the form of an alternating current voltage is fed to a converter amplifier, where it is amplified and converted to direct current voltage and across the link Noday to the galvanometer frame. The contour consisting of the resistance of the winding of the frame of the galvanometer and the capacitances forms an integrative chain. Depending on the average current flowing in this chain, the angle of rotation of the galvanometer frame changes. The frame of the galvanometer is connected with the pen of the recorder, which, on paper, crosses out the curve of the change in the number of pulses coming from the meter into the supervisor from the measuring instrument.

The drawbacks of such a device are the low accuracy of measurements of the characteristics of nuclear radiation counters, and consequently, the exclusion of the possibility of carrying out practical measurements and rapid radiation of radioactive sources due to the fact that aainicb characteristic of the counters is carried out on a self-written device, which can not be detected by the counters. 1%, as well as the inconvenience of its operation.

To increase the accuracy of measurements in the proposed device, the automatic control unit is made in the form of control circuits consisting of an ingram switch and a pulse number counter. The counter of the number of pulses of one of the control circuits is connected to the recording unit, and the counters of the number of pulses of the other control circuits through the control circuit of a motor that is electrically connected with all switches of the program. The registering unit is designed as a recalculating device and an automatic printing unit.

The drawing shows the structural scheme of the letter a and e. 1 o g () muster about fi C t in a.

) A govt.crcd bmoc 1 detector, amplifier fs)) cipher1) driver 2, register unit 13, which is in the form of a metering device 4 and automatic print unit 5, automatic control unit 6 and voltage source 7.

The circuit “Start 8 of the automatic operation unit is connected to the circuit 9 of the control 1 1 by the electric motor 10, one output of which is connected to the electric motor, and the other to the counter 11 of the number of pulses of the control 12” Step. The control circuit of the electric motor is connected to the outputs of the switches 13-15 of the program of circuits 12, 16 and 17 of the control, Step, Number of series and Number of measurements, respectively, and software device 18. Device 18 and voltage source 7 are mechanically connected by an electric motor 10. One output the device 18 through the circuit OR 19, the time relay 20 and the circuit OR 21 are connected to a counting device 4, and the other output is connected to the counter 22 of the number of pulses of the control circuit 16. The second input of the OR circuit 19 is connected to the output of the switch 13. One output of the automatic printing unit 5 is connected in parallel with the inputs of the AND 23 circuit and the counter 24 of the number of pulses of the control circuit 17, the output of which through the HE 25 circuit is connected to the second input of the AND 23 circuit.

The device works as follows.

When the start button is pressed, the electric motor 10 moves the voltage source switch 7 to the position caused by the program device 18 and corresponding to the beginning of the voltage change interval. When the switch is set to this position, the relay 20 starts the time required for the delay 1 of the trigger of the scaler for a time sufficient to set a normal stable in the counter, and then the counting meter 4, which registers the signals coming from its amplifier 2 during the exposure time . After stopping the scaling (The device starts the automatic printing block 5, which reads the scoring device readings, resets them and through the AND 23 and OR 21 circuits again starts the recalculating meter. At the same time, the synchronization pulse is fed to the control circuit 17 Number of measurements, counter 24 which counts the number of measurements made. After the number specified by the switch 15 of the measurement program is executed, the control pulse C of its output through the IE 25 circuit prevents the starting of the scaler and simultaneously starts the electric motor 10, which moves the voltage source switch 7 to the next position through the interval set on the switch 13 of the control circuit 12. Step. The control pulse from the switch 13 simultaneously with the motor 10 stopped through the circuit OR 19, the time relay 20 and the circuit OR 21 restarts counting device 4. The process to be acidified is repeated until

0 until the motor 10 sets the voltage switch to the position caused by software device 18 and corresponding to the end of the voltage change interval. Upon completion of the measurement process in this position, the electric motor moves the voltage source switch to its original position and simultaneously outputs a pulse to the counter 22 of the number of pulses of the circuit 16

0 Management Number of episodes.

Further, the characteristic investigation cycle is repeated as many times as specified by the program switch 14. When all the conditions specified

5 programs, the system generates a pulse of a full stop, which can also be used to start other systems, for example, a system for automatically changing the source of radioactive radiation.

Claims (1)

Invention Formula 5 Device for automatic recording of nuclear radiation meter characteristics, comprising: a sequentially connected detector, amplifier-driver, recorder, automatic unit 0 control and voltage source, characterized in that, in order to improve measurement accuracy, the automatic control unit is made in the form of control circuits consisting of a program switch 5 and the pulse number counter, the pulse number counter of one of the control circuits is connected to the registering unit, and the counters of the number of pulses of the other control circuits through the control circuit are connected to an electric motor, which is electrically connected to all program switches, the recording unit is designed as a recalculating Product and unit automatic printing.