CS233259B1 - Continuous hygrometer for biological tissues and loose porous materials - Google Patents

Abstract

The continuous moisture meter is designed for hot air dryers, for example for drying agricultural crops. The main transport path of the dried material is a sampling screw with a drive connected to a control, measuring and evaluation circuit. Under the sampling screw, on the side facing away from the direction of the dried material supply, there is a chute located, which opens into a chute connected to the probe feed pipe. In the probe discharge pipe, the discharge screw is located in the direction of its longitudinal axis. The discharge pipe can be connected to the probe either firmly or pivotably, in order to obtain easy access to the probe during cleaning.

Description

BACKGROUND OF THE INVENTION The invention relates to a continuous hygrometer for biological tissues and loose porous materials which is particularly suitable for hot-air driers, for example for drying agricultural crops.

The known continuous hygrometer is arranged parallel to the main conveying path and consists of a supply line with a transfer screw which is arranged in the direction of the longitudinal axis of the hygrometer. The supply line is connected to a probe »which at the other end is rigidly connected to a discharge line» in which the discharge screw is positioned perpendicular to the longitudinal axis of the hygrometer. The two electric motors for the drive of the screws and the electrodes and the thermometer of the probe are connected to a measuring and evaluation circuit, which is possibly also connected to a time controller.

In the described hygrometer, the feed worm is outside the conveying path »i.e. in the longitudinal axis of the hygrometer» and therefore it is assumed that the dried material falls spontaneously into the feed line on the feed worm. Such spontaneous sampling takes place only from one side of the conveying path, so that the sample may not represent the correct diameter of the entire pruning of the dried material. In addition, the spontaneous gradient of the sample does not guarantee a sufficient rate of fall in the sample and, if necessary, the supply pipe may become clogged when the fibrous material is conveyed.

Due to the rigid connection of the probe to the discharge pipe, mechanical movements and reactions from the discharge screw can be transmitted to the hygrometer probe and thereby increase the mechanical stress of the probe.

When cleaning the probe or removing congestion, the probe must be separated from the drain coupling.

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These disadvantages are overcome by the continuous biological tissue and bulk porous mass hygrometer of the present invention, which includes a probe with two electrodes and a thermometer connected to the driver, measuring and evaluation circuit. The inlet and outlet pipes with screws are connected to the probes and their drives are connected to the control, measuring and evaluation circuit. Said feed line opens into a conveying path for the dried material. The invention is characterized in that a chute is connected to the supply line, into which a trough with a take-off worm for receiving in a conveying path connected to the control, measuring and evaluation circuit opens. The discharge screw is mounted in the discharge line in the direction of the longitudinal axis of the probe.

In another alternative embodiment, the chute opens into the hopper of the feed line and the discharge pipe into the hopper.

An alternative improvement is that the discharge pipe with the discharge screw is pivotably mounted on the pin by means of the brackets.

Said continuous hygrometer is advantageous in that, by placing the sampling screw in the conveying path, it ensures forced sampling in a sufficient quantity and at any time. In addition, the sample taken in this way always represents the correct diameter over the entire cross-section of the conveying path, so that the sample represents the drying process of the conveying path always running. Since the discharge screw is also located in the direction of the longitudinal axis of the continuous hygrometer, the continuous hygrometer cannot clog and is therefore less malfunctioning. A separate advantage is the separate pivoting support of the discharge pipe. The swivel fit allows easy access to the probe for cleaning.

The continuous hygrometer solved according to this invention is schematically shown in the attached two drawings. Giant. 1 represents the overall arrangement of a continuous hygrometer with respect to the conveying path. Giant. 2 and 3 show the pivoting support of the discharge pipe.

In the exemplary embodiment, it is envisaged to use a continuous hygrometer in a hot-air dryer, where the dried material is transported by a vertical conveying path Perpendicular to the conveying path 1, a sampling screw 2 with a drive 11 is installed.

3 233 2S9 along the entire cross-section of the conveying path 1 'Under the sampling screw 2', i.e. on the side facing away from the feed direction of the dried material, there is a trough 2 which is connected to the chute. In the example shown in FIG. 1, the continuous hygrometer is arranged perpendicular to the conveying path 1 and therefore also slips into the hopper 2 located perpendicularly to the supply line 16. The feed worm 15 is connected to a probe 12 in which the electrodes 2β and the thermometer 21 are in the direction of its longitudinal axis. The opposite end of the probe 12 is connected to the discharge pipe 15 in which it is axis direction of a continuous moisture meter mounted discharge SNKK ² of actuator 12. the actuator 12 of the discharge auger £ BU3 can be connected coaxially and outside the axis of the discharge auger £. The drive 12 is electrically connected to a control, measuring and evaluation circuit If1. The transmission mechanism for the drive 12 is either a toothed wheel, a V-belt or a roller chain. The discharge line 15 can be connected to the probe 12 either firmly or in a pivotal manner. In the pivotal mounting, the discharge line 15 is mounted on holders 1 which are rotatably mounted on the pin 16. so that the discharge pipe 15 and the discharge screw 2 can be swiveled to a non-working position, in which they can possibly be locked. This provides easy access to the probe 12 for cleaning. In order to pivot the discharge pipe 15, it is advantageous to leave a gap of 12 mm between 2 and 5 mm between the discharge pipe 1.5 and the probe 17. Below the discharge line 15 is a hopper 2, which should be wide enough to cover the space below the gap 12.

From the hopper 2, the measured material falls into a non-drawn container, from where it returns to the drying process. All drives U, 12, 12 and both electrodes ^and thermometer 21 are soldered to a control, measuring and evaluation circuit 12, which is capable of connecting said portions either permanently or at intervals of time. The driver, the measuring and evaluation circuit 12 can be connected to a 2-pin device.

Continuous hygrometer L2e arrange also parallel to the transport path 1. In this case slip also £ sondalX one axis and a chute 4 opens directly into the inlet line 15 · Drive If the feed auger 5 ^{and 3} and P-located feed continuous moisture meter.

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Continuous vlbkoair can be connected to the automatic drying controller circuit via a suitable adapter.

Claims (3)

1. A continuous hygrometer for biological tissues and loose porous materials, comprising a probe with two electrodes and a temperature / temperature sensor connected to a control, measuring and evaluation circuit, wherein a feed and discharge line with screws is connected to the probe, the drives of which are connected to the control; measuring and evaluation circuit, characterized in that a chute (4), into which a trough (3) with a discharge screw (2) for receiving in the conveying path (1) connected to the control, measuring and evaluation circuit, (10), and the discharge screw (8) is mounted in the discharge line (16) in the direction of the longitudinal axis (probe). 2. Continuous hygrometer for biological tissues and loose porous materials according to claim 1, characterized in that the chute (4) flows into the hopper (5) of the feed line (15) and the discharge tube (16) opens into the hopper (9). 3. A continuous hygrometer for biological tissues and loose porous masses according to claim 2, characterized in that the discharge pipe (16) with the discharge screw (8) is supported by means of the brackets (7) in a pivotable manner on the beep (18).