RU198453U1 - Polarizing Moisture Gradient - Google Patents

Abstract

The utility model is intended to improve the metrological support of the process of chamber drying of wood and watering the soil. The technical task is to develop a polarization gradient meter of moisture content in the lumber dried in the chamber, the measurement result of which is formed in the form of a continuous electrical signal. The polarization moisture gradiometer consists of a needle sensor, in the lower plane of the housing of which a contact block is fixed, made of a dielectric material, on which a sensitive element is fixed, equipped with two pairs of power and measuring electrodes. At the same time, one more sensitive element of the same type to the first is installed in the needle sensor on the terminal block. Two sensitive elements of the same type are connected towards each other in such a way that the extreme power electrodes are connected in parallel, and the measuring electrodes of the sensitive elements are connected in series. In addition, the gradiometer is configured to connect the sensor through the contact panel to a measuring device calibrated in units of humidity drop, operating in continuous mode and connected to a non-switchable power source. 2 ill.

Description

The proposed device relates to metrological support of technological processes for the processing of capillary-porous materials, such as wood drying, watering the soil.

Industrial chamber drying of sawn timber and watering the soil are costly energy-intensive processes, which largely determine the quality and cost of production. Improving the level of automation and improving metrological support in these areas of technology is an urgent technical and economic task.

In the submitted application, the object of measuring the moisture difference is the lumber dried in the chamber. The analysis of FIPS information resources, standards, scientific and technical literature and other information sources on lumber drying devices shows that at present the moisture difference in the thickness of the dried lumber, which is the main indicator of the volume-stress state of lumber, is determined in the laboratory by the weight method.

Well-known electric moisture meters that measure the relative humidity of a sample by a contact method as a function of electrical resistance do not allow measuring the moisture gradient (gradient) over the thickness of the timber being dried, as they have low measurement accuracy, especially at the initial stage of the process. So when the moisture content of lumber more than 12%, the accuracy of the measurements does not exceed 30% [1].

At present, quite accurately during mass industrial drying of lumber, the moisture difference is determined by the weight method from the selected samples in laboratory conditions [2]. This method is manual, accurate enough, but cannot be used in automatic control systems.

Developed prototypes of remote electric means of measuring this parameter, which could be used in automatic control systems for the industrial process of drying lumber, are difficult to manufacture and operate and are not currently used in industrial conditions.

So, in an automated line for drying lumber [3] in a system for automatically controlling the moisture drop, it is proposed to use a polarizing needle gradient meter with one sensitive element. In the transducer of the gradiometer, the dependence of the emf caused by polarization (E _VP ) on the moisture difference across the thickness of the lumber is realized. The polarity of the voltage of the power source at the power electrodes is periodically switched at intervals equal to the polarization time of the sample, and a signal ΔU is generated in the pulse mode by the difference between the measured voltages of different polarities (U ^{+ -} - U ^{- +} ), which is proportional to the moisture difference across the thickness of the dried lumber.

The conversion function of the needle gradient meter has the following form:

where: R ₂ is the electrical resistance of the measuring section;

(R ₁ + R ₂ + R ₃ ) is the electrical resistance of the entire plot.

To switch the polarities and summarize the measured voltages, the gradiometer is equipped with a software controller connected to a control device.

Such a gradiometer at the output generates a discrete electrical signal, which correlates quite well with the moisture drop across the thickness of the dried lumber. Its disadvantages include the discreteness of the measurement mode and the functionally complex algorithm of the program for generating the measuring signal, which requires a polarity switch, a timer, and an integrator as part of the controller.

According to the number of common features and the achieved result, a needle gradient meter of an automated lumber drying line with one sensitive element [3], which is the closest technical solution to the claimed utility model, was selected as a prototype.

The technical task is to develop a polarizing moisture gradient gauge of the lumber being dried in the chamber, the measurement result of which is formed in the form of a continuous electrical signal.

The proposed polarization gradiometer consists of a sensor, a measuring device and a power source. The sensor consists of two sensors of the same type, each of which has four needle electrodes. When the sensor is installed, needle electrodes are pressed into the sample parallel to its face using guide stops.

Extreme power electrodes are connected in a parallel circuit so that the polarization voltage vectors are directed towards each other. The measuring electrodes of the sensitive elements are also connected towards each other, but in a sequential manner. The distance between the rows of electrodes of the sensitive elements is selected taking into account the possible mutual influence of the fields caused by polarizations.

The presence of two sensitive elements in the sensor and the proposed counter circuit for connecting the measuring electrodes, unlike the prototype, allows us to schematically implement a method for measuring the difference in polarization voltages as emf caused by polarization, which is determined by the conversion function of the polarizing moisture gradient meter. With this switching scheme, a voltage is continuously applied to the measuring device, the value of which is determined by the humidity gradient dW / dx and is proportional to the moisture transfer intensity over the thickness of the dried lumber.

The conversion functions of polarizing gradiometers with one and two sensitive elements are identical, but the methods for implementing the difference measurement method are fundamentally different. With a single-element gradient meter, the resulting measuring signal is generated instrumentally using a polarity switch, a time relay and an integrator. When using the proposed two-element gradient meter, a continuous measuring signal is generated schematically due to the on-switching of the polarities of the measuring electrodes of the sensitive elements. The gradiometer is calibrated in units of the moisture difference ΔW,% as a function of the difference in polarization stresses ΔU by the laboratory weight measurement method as the most accurate.

It should be noted that the various devices considered for implementing the difference method of measuring the induced polarization of the dried lumber to the main metrological characteristics of the gradient gauges, such as the scale range and accuracy class, subject to standard technical requirements for sensor designs and circuit devices, have a significant effect on.

In the proposed gradiometer, a millivoltmeter of direct current calibrated in units of humidity drop ΔW,% is used as a measuring device. The power source is a DC battery with a voltage of 1.5V, which corresponds to the optimal value of the polarization voltage of the lumber.

In general, the totality of the signs of the restrictive and distinctive parts of the proposed utility model is necessary and sufficient to solve the task and has not been fully used anywhere in the past to solve the set or other equivalent tasks. Therefore, the proposed technical solution meets the criteria of significant novelty and usefulness.

The sensor device of the proposed lumber moisture meter and the circuit diagram are illustrated by the drawings shown in FIG. 12.

FIG. 1 - sensor polarizing moisture gradient meter.

FIG. 2 is a circuit diagram of a polarizing moisture gradient meter.

The proposed polarization moisture gradient meter consists of a sensor 2 with two sensitive elements, a measuring device for measuring small DC voltages and a power supply voltage of 1.5 V.

The sensor housing 2 (Fig. 1) is made in the form of a rectangular parallelepiped, in the lower plane of which a contact block is made of dielectric material. Two parallel rows of needle electrodes are installed on the terminal block, which are the sensitive elements of CHE1 and CHE2 (Fig. 2). On the side wall of the sensor for connecting it to a power source and to the measuring device, a contact panel 4 is installed in the through hole.

Before loading the pile of lumber into the drying chamber, the needle electrodes of the sensor are pressed into the edge of the board 1. The specified position of the housing in the zone of the maximum moisture gradient dW / dx from the center to the board edge is provided by stops 3 (Fig. 1), which are guides and are tightly pressed when installed to the face.

Each sensing element has four needle electrodes: two power and two measuring. The power electrodes of the sensitive elements A1, B1 and A2, B2 (Fig. 1) are connected to a power source so that the voltage vectors are parallel to the moisture gradient and are directed in opposite directions.

The measuring electrodes of the sensing elements M1, N1 and M2, N2 (Fig. 1) are connected counter-wise in a sequential circuit, as a result of which a continuous signal ΔU is proportional to the moisture drop across the thickness of the lumber ΔW %

The presence of two sensitive elements in the gradiometer sensor and the proposed counter circuit for connecting the measuring electrodes allows with the required accuracy and continuous operation to implement a method for measuring the moisture difference in the thickness of the dried lumber and to send signals to the measuring device and control device of the automatic control system.

The experimental sample of the proposed gradient gauge was tested in the experimental-technological laboratory of the Tomsk Agricultural Institute of Novosibirsk State Agrarian University. In the working range of the scale, its error amounted to 5-7.8%. The industrial applicability of the developed measuring instrument is determined by its low cost in comparison with the prototype, sufficiently high accuracy and additional technical and economic effect when it is included in the automatic control system of the moisture difference as the main technological parameter for drying lumber.

The proposed polarization gradient meter can be used in systems for automatically controlling the moisture drop in the processing of various capillary-porous materials, for example, when watering the soil. To do this, it is enough to change the design of the sensor in accordance with the direction of the induced polarization vector. Sources of information

1. Electronics for wood drying, https://esd70.ru/articles/2007-09-15/2-upravlenie-processom-sushki-drevesiny.html

2. Industrial automation. Monitoring the moisture difference in the thickness of lumber (blanks), http://sushka.kiev.ua/en/bibliot/48-ukovadyashie-tekhnicheskie-materialy

3. Bandaevsky G.I. and others. Automated line for drying lumber. RF patent for utility model No. 152363. Priority 07.07.2014

Claims (1)

A polarizing moisture gradient gauge, consisting of a needle sensor, in the lower plane of the body of which a contact block is made, made of dielectric material, on which a sensing element is provided, equipped with two pairs of power and measuring electrodes, characterized in that one more sensor is mounted on the contact block the sensor is the same type as the first, while two sensors of the same type are connected towards each other in such a way that the extreme power electrodes are connected in parallel, and the measuring electrodes of the sensitive elements are connected in series, while the gradiometer is configured to connect the sensor through the contact panel to the measuring a device graduated in units of humidity difference, operating in continuous mode and connected to a non-switching power supply.

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