SU991275A1 - Device for measuring humidity of grain - Google Patents

Description

one

The invention relates to the field of measuring the moisture content of a bulk material and, in particular, is intended to measure the moisture content of a grain, etc. (the products of its processing ..

A device for measuring the moisture content of a bulk material is known, comprising a sinusoidal signal generator connected to a resonant circuit consisting of a power supply coil to a capacitive humidity sensor l

The known device has a simple construction, however, it does not allow to ensure sufficient simplicity in measuring the moisture content of the bulk material, since the reading of the moisture value is associated with the rotation of the slider knobs using Sheyle in the tabsho.

The closest to the invention in technical terms is a device for measuring the moisture content of a bulk material, containing a sine signal generator with an output transformer, the secondary cell of which is connected to the first input of a synchronous detector jt to a resonant circuit consisting of a power coil, capacitive sensor, wet component, setting element and a parametric modulator, the output of which is connected to the second input of the detector, and the device; / display readings. As epe-; A variable capacitor is used in the setup. A strepchaya indicator 2 is used as a display device.

The known device provides for relative simplicity of prodass and inamera, however, its disadvantage is a significant counting error.

The aim of the invention is to reduce the error of the sentences.

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Claims (2)

 The goal is achieved by the fact that a device containing a sinusoidal signal with an output transducer has a secondary current which is supplied to the first input of the synchronous detector and to a resonant circuit consisting of an inductance capacitor, a humidity sensor, a tuner element and a parametric modulator , the output of which is connected to the second input of the synchronous detector, and a display device of indications, and / an analogue of a digital converter, a grain temperature sensor, an electronic key, two li hy Their element is And, two delay elements and a pulse counter, and the setting element is made as varicaps turned towards each other, the display device is filled in the digital output controller, the electronic key is connected to the input of the first element, the output of which is connected to the input the second element of the zadderdzhi and the first logical element And, the second input of which is connected to the output of the synchroar detector, and the output with the inputs of the analog-digital conversion of the bodies and the second logical element And, the output of which It is connected via a pulse counting device to a read-out device, the output of the second delay element is connected to the input of the second logic element I, the output of the analog-to-digital converter is connected to the setting element, and the output connected to the third input by a capacitive humidity sensor synchronous detector. The drawing shows a device for measuring the moisture content of a grain. The device contains a sinusdal signal generator 1, which is output with an output transformer 2, the secondary winding of which is connected to the first input of the synchroar detector 3 and to the resonant circuit. The resonant circuit consists of a causal 4 inductance, a capacitive humidity sensor 5, a tuning element 6 and a parametric modulator 7, the output of which is connected to the second input of the synchronous detector 3, the device containing an analog converter 8, the outputs of which are connected to the tuning element 6, vvsplennym vvde varikalov. 9, connected up to each other, and the first logic element AND 10 connected to the output of the synchronous detector 3. The setting element 6 also contains the necessary organs and nodes for correcting the characteristics of the transition from one grain size to another. In addition, the device contains an electronic key 11 connected to the bunker 12 of grain loading, and the first delay element 13, which determines the time of operation of the grain temperature sensor 14, connected to the synchronous detector 3, as well as the second delayed element 15 connected in series, the second logical the element 16 and the pulse counter 17, the output of which is connected to the display device 18, performed as a digital indicator. The output of the first delay element 13 is connected to the input of the second element 15 backwardly and to the first logic element AND 10, the output of which is connected to the input of the analog-digital converter 8 and the second pulse by the logic element AND 16 In the device parametrically, the modulator 7 periodically mixes and increases the tuning frequency of the resonant symmetry is symmetri on both sides of the resonant frequency. A change in the resonant frequency of the circuit, which may arise as a result of the influence of many interfering factors, causes the modulus of the sine of the sinus-modal voltage. Pulses with a modulation frequency, which are output at the output of the sync-string detector 3, pass through the first AND 10 logic element to the input of the analog-to-digital converter 8, and from its outputs the voltages 9 decrease, their capacitance decreases. In this case, the post-impulse pulse corresponds to a certain change in the varicap capacitance 9. The varicap capacitance variation continues until the onset of resonance, as a result of which the resistance of the contour at the points of the alignment is equalized. is modulated and the device remains SUSTAINABLE. M. nos1X) I1pp1 until the next outrage. TaraiM way, the initial state with the configuration of the circuit in resonance all the time, is maintained in the zamshguty system resonant circuit with a parametric modulator - synchronous detector - the first element And - analog-digital converter - setting element - resonant circuit. To measure the moisture, the grain is pushed into the loading device 12 and the electric key 11 is closed, simultaneously opening a damper that transmits the grain to the capacitive sensor 5. At the time when the key 11 is closed, the delay element 13 triggers, the output of which is removed from the voltage And 10 The grain, entering the capacitive sensor 5, acts on the temperature sensor 14, changing its resistance, and it, in turn, changes the mode of the synchronous detector 3, in connection with & what moves with the moment of the equilibrium of the system. Sensor 14 has thermal inertia and this causes the introduction of a delay element 13 in order to increase the accuracy of the device for compensating the effect of grain temperature on the measured value. In addition, the grain, after filling into the capacitive sensor 5, is still self-sealing, therefore it is sampled. humidity values after the delay time is more accurate. After testing the delay element 13, a signal appears at its output that opens the AND 10 logic element and, through it, impulses begin to arrive at the input of the analog-digital converter 8, the number of which is proportional to the amount of detuning of the resonant circuit caused by a change in the capacitance of the sensor 5. the output of the element 13 is caused by the operation of the element 15 of the delay and the interruption of the logical element AND 16, through which the same pulses will pass to the input of the counter 17 and then to the digital indicator 18. It will indicate the number of pulses proportional to Changing the capacitances of the sensor 5, caused by placing him in wet grain, and due to a certain setting the analog-digital converter 8. This number corresponds to the measured humidity. The maximum possible number of these pulses determines the magnitude of the time delay of element 15. After it has completed the second logic element, AND 16 is closed and the indicator 18 remains unchanged until the next measurement. Thus, due to the fact that the instrument readings do not depend on the change in the initial tuning of the resonant circuit, related to the instability of the elements of the instrument and external factors. (. TeMnepaiypa, contamination of the plates of the capacitive sensor, etc.) and, in addition, decrease The influence of the thermal inertia of the thermal sensor and the self-compacting of the grain of the mind results in a total error in the readout of humidity and simplifies the maintenance of the device, or the absence of elements of manual adjustment of the zero composition. Claims The device for elevating the grain moisture, comprising a sinusoidal signal generator with an output transformer, the secondary winding of which is connected to the first input of the sysphon detector and to the resonant circuit, I consisting of an inductance coil, a capacitive humidity sensor, element; settings and a parametric modulator, the output of which is connected to the second input of the synchronous detector, and a display device, characterized in that, in order to improve measurement accuracy, an analog-to-digital device, a grain temperature sensor, an electronic switch, two of the logical element And, two elements of delay and pulse counter, and the setting element is produced in the form of disconnections towards each other of the varicaps, the device from 6 |} another indication is made in the form of a digital indicator, and the electronic key h is connected to the input of the first delay element whose output is connected to inputs of the second delay element per- n. And, the second input of which is connected to the output of the synchronous detector, and the output is connected to the inputs of the analog-digital converter and the second logical element AND, the output of which is connected through an impulse counter to the device displaying readings, the output of the second delay element And, the output of the analog-digital converter is connected to the setting element, and the output of the capacitive humidity sensor through the grain temperature sensor is connected. Dknen with the third input of the synchronous detector. Sources of information taken into account prn examination 1. Copyright svdedelsteo USSR № 214514, cl. GOlhJ 27/22, 1966. 2. Copyright USSR Certificate No. 617711, cl. G01N 27/22, 1977 (prototype).