SU721726A1 - Device for determining soil humidity potential - Google Patents

Description

The drawing shows the design of the proposed device. The heating thermocouple of sensor 1 is placed inside the capillary-porous body 2, which is surrounded by a heat-permeable thermal screen 3 and absorbing a capillary-porous body 4, Screen 3 is connected to the radiator 5. The heating thermocouple of the compensator 6 is located inside the inertial body 7, which is surrounded screen, which also has thermal contact with the radiator 5. The entire device is placed in the measured medium 9. To determine the potential of moisture or soil moisture, the device is placed in the soil, it is kept The time to saturate the capillary body with moisture and equalize the temperatures of the soil, the sensor and the compensator. Thermal converters are heated indirectly or directly (with the current passing through thermal converters) by heat. The heat released in the thermal converters passes through the capillary-porous and inertial bodies to the heat shield and then passes through the radiator to the soil. The temperature of thermocouples depends on the power released on them, the thermal resistance of the thermocouple-medium, and the dynamic. ke - also from the mass and heat capacity of thermal converters and their surrounding bodies. The thermal resistance of capillary-porous bodies depends on moisture and soil. The design and thermophysical parameters of the inertial body are chosen so that the temperature rise (inertia) and maximum heating (thermal resistance) of both thermal converters would be the same with some specific soil moisture. This humidity is called the reference. If the humidity of the measured medium is greater (less) than the reference humidity, the thermal resistance of the capillary-porous body of the sensor will be correspondingly less (greater than the thermal resistance of the sensor with the reference humidity). Similarly, the temperature of the thermal converter of the sensor will be lower (more ) sensor temperature at the reference humidity, i.e. temperature of the compensator. The difference between the temperature of the sensor transducer and the temperature converter of the compensator will uniquely depend on the humidity soil, Investigator, and output signal of the differential circuit, which usually includes thermal converters, will unambiguously depend on the potential of moisture in the soil. Thermal resistors, thermal transistors and other elements can be used as thermal converters. temperature around the sensor, i.e., equal temperatures at all points of the screen. Structurally, the sensor screen can be, for example, a cylinder with holes to introduce moisture into the cylinder. It is also useful to place the compensator in a heat shield, which can be hermatized and even have thermal insulation from the soil. The heat shields of the sensor and compensator should have good thermal contact between themselves and the radiator. In order for the heat through the windows in the screen not to fit to the sensor-to-measured interface, the thermal resistance of which is unstable and irreproducible, the windows are made small. In addition, with the help of an additional layer of the capillary body, the sensor-measuring medium boundary is removed from the heat shield an distance greater than the size-determining branch; in the screen. The additional layer may have the same composition and structure as the main part of the capillary body, and in some cases may differ from it. In some cases, it is useful to cover the surface of a capillary-porous body with a hydrophobic, large-pore substance so that water gets to the capillary-porous body through the gas phase, and not the liquid phase. Sensors with this coating are less polluted by soil.

Claims (2)

 Claim 1. A device for determining the soil moisture potential, comprising a sensor with a thermal converter and a reference capillary-porous body and a compensator, which is so that, in order to increase the accuracy and stability of the determination, the reference capillary-porous body is surrounded moisture-permeable thermal leveling screen connected to a heat radiator. 2, The device according to claim 1, that is, that the thermal leveling screen of the sensor is covered with an additional layer of capillary-poristho body. 3. The device according to PP.1 and 2.0 tons is due to the fact that the compensator is placed in a moisture-insulated inertial body. Sources of information taken into account in the examination 1, Berliner M.A. Electrical measurements, automatic control and regulation of humidity, ML., 1965, p.363. 2.Avtorsk certificate of the USSR No. 436273, class 01 N 25/581, 1971 (prototype).