CS247700B1 - Humidity measurement equipment - Google Patents

Abstract

The humidity measuring device is intended for hot air dryers, for example for drying agricultural crops. The device is designed so that the probe is shaped into a conical surface on the inner side, to the narrowing side of which a feed pipe with a filling screw is connected. To the other side of the probe is connected a discharge pipe with a selection screw, which is equipped with a selection blade. The selection screw is mounted on an axially movable shaft, which is mounted in a bearing housing with a return element and is equipped with a limit switch at the end. The limit switch and the drive units of the screws are connected to a control circuit, which is also connected to the evaluation device.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a moisture measuring device which solves a probe shape suitable for hot-air driers, for example, for drying agricultural crops.

Hygrometers produced so far based on the principle of changing the electrical conductivity of the material depending on the water content of the measured material are equipped with probes of different volume, where the measured material is compressed between two electrodes · One electrode is the bottom of the container and the other is a movable piston, · Since the conductivity of the test material is dependent not only on the water content but also on the amount of its compression, this measurement is subjectively influenced by the operator. 2 of these reasons have been developed several types of automatic probes equipped with feeding and withdrawing worms to fill and empty the probe «All these probes are cylindrical with a constant internal diameter over their entire length · Disadvantage of these of probes is that due to constant inner diameter of probes most types of measured materials are seized when passing through the probe · The result of this seizing is uneven compression of material between electrodes and thus inaccuracy of measurement · completely clogging this probe and disabling the entire hygrometer · For this reason, existing automatic hygrometer probes cannot be used to automatically control a technological process, such as drying ·

These disadvantages of the prior art are eliminated by the moisture measuring device according to the invention, which is characterized in that the probe is provided on the inside with a conical surface to which the supply line with the feeding screw is connected to the tapered side. discharge manifold with withdrawal worm · The withdrawal worm is mounted on an axially movable shaft, which is housed in a bearing housing with a return element · The limit switch is located at the end of the axially movable shaft. The end of the collection screw in the discharge pipe is preferably provided with a collection blade.

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- 2 The advantage of a moisture measuring device with a probe with an internal tapered bore is that it does not become trapped in the probe during the flushing phase after compression of the measured material. The reverse sense of the auger during the filling and compression phase ensures constant resistance of the bearing housing during axial movement. This, together with the tapered bore of the probe, ensures constant material compression between the electrodes and thus eliminates measurement errors due to different compression that the humidity measuring device can be integrated into the production process to control, for example, the operation of the dryer or the filling of the tanks according to the moisture content of the material being processed.

The attached drawing shows schematically an example of a moisture measuring device according to the invention.

The moisture measuring device consists of a probe J, the inner side of which is arranged in a conical surface. A feed line 2 with a filling screw 16 is connected to the smaller diameter of the probe J · The filling screw 16 is connected to the first drive unit 11 via a first chain transmission 13. To the larger diameter of the probe J is connected a discharge pipe J with a withdrawal worm 17 which is mounted on an axially displaceable shaft J · The axial displacement shaft J is mounted in a bearing housing J with a return element 8, in this case a return spring. At the end of the pick-up screw J in the outflow line J there is a picking blade 6 of triangular shape. The measuring electrodes J located in the probe J are connected to the evaluation device JJ. , which is also associated with the control The first drive unit 11, the reverse drive unit 12 and the limit switch J are simultaneously connected to the control circuit 10. The function of the moisture measuring device is divided into three time phases. In the first phase the filling screw 16 and the picking screw 17 rotate in agreement so that the material is led through the supply line 2 to the probe J and is immediately discharged through a picking screw 17 and a discharge line J. The limit switch J is switched on and is

- 3 247 700 counting down the flushing time of the probe 1 with the material · In the second phase, the sense of rotation of the reverse drive unit 12 is changed and thus the picking screw 17 stops taking material from the probe 1. The probe 1 fills and compresses given by the return element 8, the pick-up worm 17 is removed towards the probes 1 and the limit switch 2 ^is opened. Both drive units 11.12 are stopped and the measurement time is counted by the evaluation device 15.

At the end of the measurement phase, the reverse drive unit 12 is started in the original sense of rotation, so that the picking screw 17 starts to disrupt the material by the picking blade 6 and discharges it through the discharge line 2 ^{from the} probe 1. back to the probe 1 and the limit switch 2 closes • the first drive unit 11 ^is switched on and the rinse phase time starts to count down and the whole cycle is repeated.

Claims (2)

SUBJECT OF THE INVENTION Moisture measuring device comprising a probe with two electrodes connected to an evaluation and control circuit, the supply and discharge piping having screws connected to the probe, the drives of which are connected to the control circuit, characterized in that the probe (1) is on the internal the supply pipe (2) with the filling screw (16) is connected to the tapered side and the discharge pipe (3) with the picking screw (17) is attached to the other side of the probe (1), which is fixed on an axially sliding a shaft (5) mounted in the bearing housing (7) with a return element (8), the end switch (9) being located at the end of the axially displaceable shaft (5). Device according to claim 1, characterized in that the end of the pick-up screw (1.7) in the discharge pipe (3) is provided with a pick-up blade (6).