SU393657A1 - Moisture Sensor of Large-Grain Bulk Materials - Google Patents

Description

one

The invention relates to measuring instruments of agriculture and forestry and is intended to determine the moisture content of woody fruits (in particular, conifer seed cones) that are stored or processed.

The known humidity sensor, the state of the needle electrode electrodes and electrode holders, is used to determine the moisture content of flat-shaped materials (materials, cardboard, etc.). To determine the moisture content of large bulk materials (round or oval with a diameter of up to 50 mm), it not only makes it difficult, but in some cases (with high hardness of materials) makes the implantation operation of the electrodes into such a body impossible.

In the measurement process, the operator requires great effort both for inserting the electrodes into the body and for keeping it from turning. These reasons lead to an increase in the time it takes to determine the moisture content of a given material.

The purpose of the present invention is to eliminate the indicated drawbacks of the humidity sensor, i.e., provide convenience and safety of use and reduce the time required to measure the moisture of coarse-grained bulk materials of round or oval shape.

This is achieved by the fact that needle electrodes are fastened to articulated double-arm electrodermal dermis, equipped with control contacts mounted on both electrode holders with the ability to close them at a given gap between the electrodes, and an adjustable clamp mounted on one of the electrode holders that can move relative to the latter.

FIG. Figure 1 shows schematically the proposed humidity sensor (the dotted lines here indicate the switching wires), the general view; in fig. 2 is a section along L-A in FIG. one; in fig. 3 is a view along arrow B in FIG. 2

The humidity sensor includes needle electrodes 1 and 2 mounted in pivotally connected double-arm electrode holders 3 and 4, a sliding clamp 5 mounted on the electrode holder 3 so that it can be moved relative to it, supporting elements 6 and 7 mounted in guide slots 8 to 9 clamps 5 allowing the supporting elements to move along them, locking screws 10 and //, control contacts 12 and 13 mounted on the electrode holders 2 H 3, connecting terminals 14 and 15 VI switching wires 16.

To measure the moisture content of this material.

two shoulders electrode holders are diluted by the operator sideways, a sample of material G / (for example, a cone of coniferous breeds) is fixed in support elements b and 7 of clamp 5 and the needle pins 1 and 2 are set in the desired position relative to that. shift) and shift in the desired direction relative to the electrode holders 3 and 4 (the selected position of the clamp is fixed by locking screws 10 and 11).

After the sample 17 is fixed, the two shoulders electrode holders by pressing on the long shoulders turn on the hinge and come down until the control contacts 12 and J3 are closed. At this time, the needle electrodes 1 and 2 are inserted from two opposite sides into the test sample 17.

The movable support elements 6 and 7 thus provide the same conditions for the introduction of the electrodes into the sample body. By the time the monitoring contacts 12 and 13 are closed, the electrodes are close in the body of the sample 17 to a predetermined distance between them. If the closure of the contacts 12 and 13 does not occur, the sensor will not work, and thus the errors of the resistance electro-meter readings associated with the uneven position of the electrodes relative to each other will be excluded.

Needle electrodes /, 2 are made bent along the trajectory of their ends. This is done in order to eliminate the adverse effect of the rotational movement of the electrodes during their introduction into the body of the test sample on the density of their mutual contact.

The electrical connection of the electrodes 1, 2, the test contacts 12 and 13 to the connecting terminals is carried out by means of switching wires 16. The humidity sensor is connected to an electrohydrometer by means of terminals 14 and 15.

Subject invention

A moisture sensor for coarse-grained bulk materials containing needle electrodes and electrode holders, characterized in that, in order to reduce the measurement time and increase accuracy, it is equipped with test contacts mounted on the electrode holders with the possibility of their closure

at a given gap between the needle electrodes, and an adjustable clamp mounted on one of the electrode holders with the possibility of movement relative to the latter. FIG. f (ig.Z