SU1038855A1 - Electric psychmeter - Google Patents

Abstract

ELECTRIC PSYCHROMETER containing a temperature correction sensor and a differential thermoelectric sensor connected to the indicating device through a measuring circuit. On the wet junctions of which a porous coating is located, characterized in that, in order to improve measurement accuracy and simplify the device, the porous coating of the wet junctions of a thermoelectric sensor made in the form of a semiconductor micromodule is a pallet made of a semiconductor thermally conductive material included in the measuring module. circuit as a temperature correction sensor. M 00 00 ate

Description

The invention relates to a measurement technique and is intended to measure the humidity of the air. A device for measuring the humidity of air containing dry and wet thermometers is known. Air humidity is determined by the difference in readings of these thermometers f 1. However, this device is used to measure the humidity of air only in large volumes of gas and has low accuracy. The closest to the present invention is an electric psychrometer containing a temperature correction sensor and a differential thermoelectric sensor connected via a measuring circuit to a boron device with a boron, on which a porous coating is located on wet slots. The psychrometer contains a system of thermocouples, part of the junctions of which is cooled due to the evaporation of specially supplied water. The thermocouple system develops a power-to-force force, the value of which depends on the temperature difference between the dry and wetted joints. 23 However, the well-known instrument is complicated, since the sensitivity of the thermocouple is small (the differential thermo-emf coefficient ranges from 40-1СГ ° В / gram for copper-constantan to 63 for copper-constantan to 63-10 V / hail, for chromel-Kopelev thermocouples), and one has to use a thermo-emf amplifier and its power source. The presence of power sources reduces the performance of the device, since it is necessary to control their parameters (battery replacement, battery charge toro control pad) of the power supply meter). The purpose of the invention is to simplify the device, improve its performance, and improve measurement accuracy. This goal is achieved by the fact that in an electric psychrometer containing a connected measuring circuit to a temperature-correction sensor and a differential thermoelectric sensor showing the device, a porous coating is located on the wet slots, the porous coating of the wet junctions of the thermoelectric sensor as a semiconductor micromode, is a pallet made of a half-year water-heating heat conductor ryk, in; measured in an LB scheme as the tempo of the corrections of The drawing shows the principle on the circuit of an electric psychmeter; in fig. 2 - dependences of thermo-emf on humidity at different. medium temperatures. The device contains, via a measuring circuit 1, a sensor 3 of temperature correction and a differential thermoelectric sensor 4, which is a semiconductor micromodule with DRC14 and wet junctions, connected to the instrument 2. On wet junctions there is a porous coating, representing a pallet of semiconductor thermally conductive material. The pallet is connected to Measurement unit 1 as temperature correction sensor 3. Sensor 3 is wetted with dispenser 5. For precision and eliminating radiant heat transfer, sensors are placed in double shielded tubes. B. The air flow is provided by the aspirator 7. Measuring circuit 1 contains scaling blocks 8 and 9, block 10, summing up and block 11 of implementing the function f (t), where tc. Is the medium temperature, C block 8 and 11 is connected to block 12 of multiplying E (thermo) EMF) and functions f (tc). The device works as follows. Evaporation of water from the coating leads to a decrease in temperature on moistened pools, which leads to the appearance of a temperature difference, which corresponds to the generated thermal emf. The magnitude of the generated thermo-EMF, as well as the signal value of the sensor 3, is fed to the measuring cxei 1, where they are measured and scaled, then summed and implemented (t; -.). Then, the thermopower value and the nonlinear function f (t.) Are multiplied. The result of the multiplication is that the indication 2 of the instrument 2 is supplied with a signal depending only on the relative humidity. Experimental and theoretical dependences of thermo-EMF on humidity at various temperatures of the medium t, are with great precision fan of the lines of lines, which means that for thermal compensation one-parameter function F (t.) Is required. Quite important for the selected sensor 1C temperature compensation is that (Compensation is carried out on the basis of the temperature of the wet junctions ti and the thermo-emf E, which eliminates the error associated with equal inertial transducers, if the measured temperature of the medium. It should be noted that the thermo-EMF / developed by a micromodule, for example, of 32 thermoelements with a geometry of 4.9x4.9x2 mm in size is more than 300 times higher than the thermo-EMF of a copper-constantan thermoelectric cell. Ermo-emf doyta-.

Claims (1)

(573 ELECTRICAL PSYCHROMETER, containing a temperature correction sensor and a differential thermoelectric sensor connected through a measuring circuit to the instrument, on wet junctions κοτοροτ т there is a porous coating, which means that in order to increase the accuracy of measurement and simplify the device, the porous the coating of wet junctions of a thermoelectric sensor made in the form of a semiconductor micromodule is a tray made of a semiconductor heat-conducting material Hem temperature is included in the measuring sensor as correct.