SU1276976A1 - Dew-point hygrometer - Google Patents

Abstract

The device belongs to the field of meteorology and is intended to measure the humidity of the atmosphere. The aim of the invention is to increase the sensitivity and accuracy of measurements. The dew point hygrometer contains two identical photoelectric tracking systems (FSS) for condensate with a common mirror. The first FSS contains two photocells (PV), one of which is connected through an amplifier to a light source of the second FSS. The gain factor K is selected according to the ratio K, where df is the tempo sig nal with the PV of the second FSS, ot is the sensitivity of the PV to condensate growth, S is beyond (L is the thickness of the condensate on the mirror at which the dark signal is received from the PV. 1 Il .

Description

Yu

05 CD

05 The invention relates to meteorology, in particular to meteorological measurements of air humidity, and is intended to measure air humidity in an open atmosphere, test chambers, rooms, can be used when calibrating air humidity measurement means. making it possible to set automatically maintained condensate thickness, increasing measurement accuracy. The drawing shows cxeMci dew point hygrometer. The hygrometer contains the first photovoltaic tracking system for the co1-c; ensat, consisting of a light source 1 with a directed light flux on a cooled mirror 2 and reflected on a photocell 3. This photo element is connected through an amplifier 4 to a light source 5 of the second photovoltaic system. From the light source of the second photovoltaic system, the luminous flux enters the same mirror 2 and is reflected to the photocell 6. Dual isolated photocell of the first photovoltaic system and the photocell of the second photovoltaic system are differentially connected and the signal goes to the control circuit 7 by the cooler 8. The temperature of the condensate is indicated by the device 9. The gain of the signal of the amplifier 4 is chosen from the ratio iF 75 of the gain of the signal; the dark signal from the photocell of the second photovoltaic system; the sensitivity of the photocell to condensate growth; the given condensate thickness on the cooled mirror, at which a dark signal comes from the photocell of the second photovoltaic system. Thus, in the proposed gyro, an increase in sensitivity is achieved by the fact that the first photoelectric system with an amplifier 62 serves to proportionally control the light flux of the second photoelectric system, i.e. In addition, an imitation of the absorption of the light flux in proportion to the thickness of the condensate is created. To obtain an automatically maintained specific thickness of the condensate, the hygrometer is tuned using the following ratio in the following order. Set the required thickness of the condensate S. The sensitivity of the photocell to condensate growth K is determined as the ratio of the magnitude of the signal increment of the first photovoltaic system to the corresponding increment of condensate thickness, the dark signal from the photo cell of the second photovoltaic system jf is determined, which is equal to the signal increment when the light flux from the light source changes from maximum to zero. But the obtained data determines the gain of the signal K, But since the product is (& is equal to the increment of the signal of the first photovoltaic system DF, when the thickness of condensate 8 is reached, the hygrometer is adjusted by changing the gain of the amplifier until it reaches -5 K LF, the hygrometer works as follows In the absence of condensation on the mirror 2, the photocell 3 receives an unabated light flux from the light source 1, in this case the output transistor of the amplifier 4 is open and the light source 5 creates a light flux k, equal to the light flux of the light source 1. The photocells 3 and 6 are balanced, and using control circuit 7, the cooler 8 receives excess n. Apr. When the condensate on the mirror 2 grows, the light flux from the light source 1 begins to diffuse, and from the photo cell 3. A signal proportional to the thickness of the condensate begins to flow to amplifier 4. The output transistor of amplifier 4 begins to close, and the light output from light source 5 decreases. The luminous flux reduced by amplifier 4 is further diffused by condensate. Photocell 6 receives a signal K times the signal from the photocell.

Claims (1)

Invention Formula t f A dew point hygrometer containing a light source, a cooled mirror and a photocell, components of a condensate tracking photovoltaic system, and a chiller control circuit associated with a photocell, a second photocell dual with the first, characterized in that, in order to increase sensitivity and improve measurement accuracy the second photoelectric Each system is identical to the first one with one cooled mirror for both photovoltaic systems whose photovoltaic cells are differentially connected, the second photocell of the first photovoltaic system is connected through an amplifier to a light source of the second photovoltaic system, and the signal gain is selected from the ratio V -  - de K signal gain factor-, iF is the dark signal from the photocell of the second photovoltaic system oi is the photocell sensitivity to condensate growth; given the thickness of the condensate on the cooled mirror, in which a dark signal comes from the photocell of the second photovoltaic system. eight Editor V.Kovtun Compiled by V.Ekaev Tehred M. Khodanich Proofreader S. Shekmar Order 6660/36 Circulation 778 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4