SU1475509A1 - Shf-treating installation - Google Patents

Abstract

The invention relates to agriculture, in particular, to seed treatment plants. The aim of the invention is to increase the reliability of the installation. The installation for microwave processing includes a microwave generator 1 on a magnetron, the anode circuit of which is connected to the input of the active filter 4, a control signal generating unit 5 whose output is connected to the coil winding of the relay 6, and normally closed contacts 7 are included in the power supply circuit. Microwave Generator 1. In addition, a temperature sensor 8 is installed on the magnetron by means of preamplifier 9 and a buffer stage 10 connected to the second input of the control signal forming unit 5. The output signal of the active filter 4 in the forming unit control signal is compared in amplitude with the converted signal of the temperature sensor 8. In case of emergency operation, i.e. If the last signal exceeds the output of the active filter 4, the relay 6 is activated and the normally-closed contacts 7 open, the microwave generator 1 is disconnected from the power supply circuit. 3 il.

Description

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when the voltage at the output of the filter 4 exceeds the voltage at the output of the buffer stage 10. In the cold condition of the microwave generator 1, the voltage at the output of the temperature sensor 8 is 0.28 V. This voltage is amplified by the preamplifier 9 and supplied to The input of the buffer stage 10, which serves to match the output characteristics of the preamplifier 9 with the output characteristics. The invention relates to agriculture, in particular, to seed treatment plants in an electromagnetic field.

The purpose of the invention is to increase the reliability of the installation.

FIG. Figure 1 shows the dependence of the voltage of the fifth harmonic component on the temperature of the magnetron during normal operation of the microwave generator; in fig. 2 is a block diagram of the installation for

Microwave processing; in fig. 3-principle 10 block 5. characteristics of the electrical circuit.

In the cold state of the microwave generator 1, the voltage at the output of the buffer cascade 10 is 1.4 V.

camera 2, the power supply circuit and the associated voltage at the output of the filter 4, the protection device 3 associated with it 15. The protection device 3 is lower than the voltage at the buffer output

cascade 10 and the signal at the output of block 5 is missing. The coil of the relay 6 is de-energized, its contacts 7 remain in a closed state, providing power to the

The microwave processing apparatus comprises a microwave generator 1 on a VL magnetron, the operating

contains an active filter 4 assembled on VT1, VT4 semiconductor triodes and a DA1 chip, a control signal generating unit 5 connected to the active filter 4 output and made in the form of a comparator on the DA2 semiconductor trio and VT3 semiconductor triodes connected to the output of the block 5 and having a normal microwave generator 1.

During the subsequent operation of the installation, the magnetron of the microwave generator 1 is heated up for 20 minutes, the voltage of the closed contacts 7 increases, set in 25 at the output of the filter 4 to a value of 7.1 V. The power supply of the installation, sensor 8 tends to increase simultaneously on

tours implemented through the semi-output temperature sensor 8 to 1.46 V,

of the VT5 triod in diode switching on, preamplifier 9 assembled on a DAZ chip and connected

and at the output of the buffer stage 10 - up to 7.3 V. At the same time, the difference in voltage at the output of the filter 4 and the buffer

The temperature sensor 8, as well as the buffer-30 cascade, is still 0.2 V, signaling stage 10 performed on VT6 and VT7 semiconductor triodes, whose input is connected to the output of the preamplifier 9, and the output to the second input the reference voltage of the block 5 through the pass-through at the output of the block 5 will be absent and the false response of the relay 6 will not occur.

resistor R24.

The installation works as follows.

During normal operation, the microwave generator 1 generates microwave electromagnetic oscillations, which fall into the working chamber 2, affect the processed objects in it. The shape of the current curve in the anode power circuit of the magnetron is close to sinusoidal. In the case where the microwave generator

In the event of an emergency mode, the current curve in the anode supply circuit of the magnetron of the microwave generator 1 is distorted and, when it is cold, the voltage at the output of filter 4 will increase to an average of 1.68 V, while the voltage at the output of temperature sensor 8 will be 0.296 B. Now the voltage at the output of the filter 4 is greater than the voltage at the output of the buffer stage 10 by 0.2 V, which is enough to produce a signal at the output of block 5. The relay coil 6 is under

is in a cold state (immediately by voltage, relay 6 is activated, after switching on the installation), the voltage at the output of filter 4 is on average 1.2 V. The signal generated is fed to the first input of unit 5. One 7 is open and the power supply circuit The microwave generator 1 is de-energized.

Emergency mode at the heated state of the microwave generator 1 is characterized by rising to the second input of the reference voltage of the voltage at the output of the filter 4 to s in the output of the scram 8 temperature

to 2, 028 V, at the output of the buffer cascade 10 to 10.14 V and the constant voltage difference at the output of the filter 4 and the buffer cascade 10, which is 0.2 V. At the output of block 5, a signal appears that causes the relay to operate 6, the opening of the contacts 7 and the de-energization of the power supply circuit of the microwave generator 1.

Neither unit 5 is supplied with voltage from the output of buffer cascade 10, amplified by preamplifier 9 and formed by temperature sensor 8. The presence of a signal at the output of block 5 is determined by the comparison of two voltages: voltage at 55 output of filter 4 and voltage at the output of the buffer stage 10. The signal at output of block 5 appears only in

when the voltage at the output of the filter 4 exceeds the voltage at the output of the buffer stage 10. In the cold condition of the microwave generator 1, the voltage at the output of the temperature sensor 8 is 0.28 V. This voltage is amplified by the preamplifier 9 and is fed to the input a buffer stage 10, which serves to match the output characteristics of the preamplifier 9 with the output characteristics 10 and no signal. The coil is de-energized, its closed state is

Microwave generator 1.

the cascade u will still be 0.2 V, the signal

There will be no flow at the output of block 5 and the false triggering of relay 6 will not occur.

the cascade u will still be 0.2 V, the signal

In the event of an emergency mode, the current curve in the anode supply circuit of the magnetron of the microwave generator 1 is distorted and, when it is cold, the voltage at the output of filter 4 will increase to an average of 1.68 V, while the voltage at the output of temperature sensor 8 will be 0.296 B. Now the voltage at the output of the filter 4 is greater than the voltage at the output of the buffer stage 10 by 0.2 V, which is enough to produce a signal at the output of block 5. The relay coil 6 is under

 voltage, the relay 6 is activated, the contacts 7 are opened and the power supply circuit of the microwave generator 1 is de-energized.

Emergency mode in the heated state of the microwave generator 1 is characterized by the formula of the invention A microwave processing apparatus comprising a microwave generator on the magnetron communicated with a working chamber and a protection device including an active filter, a control signal generating unit and a relay, closed contacts which are included in the power supply circuit of the microwave generator, and the input of the bandpass filter is connected to the anode circuit of the magnetron, and the output of the control signal, while it is connected to the winding to the difference that During the operation of the protection unit, there is a serial temperature sensor, an amplifier and a buffer to which the temperature sensor is located in the magnetron, and the output buffer is connected to the second input

chen-to the first input of the control signal forming unit 10.

Heat transfer rate,% of the set value at the raking

20 30 40 50 60 70 80 90 100

1

control signal, while the output of the latter is connected to a relay winding, characterized in that, in order to increase the reliability of the installation, the protection device is equipped with a series-connected temperature sensor, a pre-amplifier and a buffer stage, and the temperature sensor is located on the magnetron, connected to the second input of the control signal generation unit.

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Claims (1)

Claim Installation for microwave processing, comprising a microwave generator on a magnetron in communication with the working chamber, and a protection device including an active filter, a control signal generation unit and a relay, normally closed contacts of which are included in the power supply circuit of the microwave generator, the input of the bandpass filter connected to the anode circuit of the magnetron, and the output is connected to the first input of the control signal generating unit 10, while the output of the latter is connected to the relay coil winding, characterized in that, in order to increase the reliability of the installation, troystvo protection provided by series connected temperature sensor pre-amplifier and buffer stage, wherein the temperature sensor is located on the magnetron and the output buffer stage is connected to the second input unit generating a control signal. FIG. 3