SU705431A1 - Humidity regulator - Google Patents

Description

The invention relates to the field of instrumentation and automation of production processes, in particular, to the field of automatic control ... The relative humidity of a WAILER (f) is a function of two dependent variable parameters: ./ Tei rioratura (t °) and moisture content Unambiguously determined dew point temperature (). In general, this functional dependency is represented by the expression V F (t °, C).

A conventional device for controlling relative air humidity is known, which provides simultaneous regulation of the temperature of the dew point H and the temperature t of air by two independent regulators and. . A disadvantage of this device for controlling relative humidity is the poor quality of regulation, due to the fact that the regulation of the dew point temperature (t) and temperature (t) is carried out independently, without taking into account their mutual influence. With this regulation, relative humidity

as an adjustable parameter, it does not change with the input device of the controller, which results in the absence of a regulating effect on the deviation of relative humidity.

Much free from these drawbacks is the wet air parameter controller, which contains two input measuring bridges, the shoulders of which include sensors and setters for dew point temperature (tr) and air temperature (t) 2.

five

The input of the amplifying element of the regulator receives a signal proportional to the relative humidity directly, which is achieved by appropriate connections of the input measuring bridge and the choice of the ratio of their sensitivity.

The disadvantage of this controller is the difficulty of the measuring circuit, due to the use of two input measuring bridges.

Claims (2)

The closest technical solution to the invention is a humidity regulator containing temp1erat sensors: 91) 1Ch: air sprays included in the first spacing of the shoulders of the measuring bridge connected to the control unit and the relative humidity generator, and successively with sensors The tfe ° p eK®RW6ro voltage sources are in the same mode, in the diagonal, the bridge is switched on via the additional # 6e Const. and the third source of alternating nair sony, is the current source, and the other two lines are connected to the bridge. Shoulders (mi), pggyontsyometrysogb dilitel for straightening, performing the function of the gauge of humidity. From the output of the bridge, a signal proportional to the deviation of the relative humidity (f) from the task is sent to --- 5-5 5 units and then to the regular control device. AI 1 The disadvantages of the prototype should be attributed. - ;; a) the influence of the supply voltage fluctuations on the accuracy of the measurement of H, as included in the shoulders of the bridge, the sources of alternating voltage are not Sedimash in magnitude and, the investigator BUT, the same relative change in their values leads to unequal absolute voltage variations - sources that This determines the presence of an additional error, V, from fluctuations in the supply voltage; b). technologically very difficult. to manufacture precision sources .eKtiorb; . c) stabilization of the current in the Power diagonal by switching on successively with a source of additional resistance tie can provide stability to half the value, since the possibilities of increasing the value of the additive; 1% resistance IRR are limited by the requirements of providing the sensitivity of the circuit. The aim of the invention is to create a moisture barrier with a high accuracy of adjustment and a better designed measurement pattern of a bridge bridge. Delivered goal is achieved by testing the relative humidity controller in the form of repetitive -; STEO POWELS INSIDE-LINK SIOCT EADATORS TEMPERATURE 1 DY DOOM POINT AND AIR TEMPERATURE. In this case, there is no need for the Miika source of current to be applied in the diagonal of the power supply (a) of the Ghanyö bridge from the source of the voltage, which is much simpler. The drawing shows xjMa of the proposed humidity controller, which contains the dew point temperature sensor 1, the air temperature sensor 2, the air temperature setpoint 3, the sensor of the dew point temperature 4, the control unit 5.; Sensors 1 and 2 are included in the adjacent shoulders of the measuring bridge. The other two bridges include controllers 3 and 4. The power supply is included in the diagonal of the cd bridge. The measuring diagonal bridge is connected to the input of the control unit 5, the output of which is connected to the input of the regulating element 6. . "- -. .. -...- .., The regulator works as follows. The equilibrium condition of the input measure of the MoShaSype1Lydayy expression: T. V. 3 iv 4 where a is the resistance value of the dew point temperature sensor; R is the resistance of the air temperature sensor; . R J- value of resistance to air temperature gauges; R is the resistance of the dew point temperature adjuster. From the above expression it is obvious that with R / f K4I R2. Rj, THAT corresponds to a given value of relative humidity at a given temperature, the signal to the bridge (for example; {deyo in Dmayali av) is zero. In case of imbalance of the bridge in the diagonal av, a voltage appears, for which the expression where K is a coefficient of proportionality is true. Let's transform, this expression as follows:, U4 {Ti -Ti, v, b .., Denoting K .R4. 2. get the expression for the output voltage of the measuring bridge. . . . Analbgicnoyo .. of a well-known approximation of airborne moisture. It should be noted that in our case, the value of ctgrf, equal to the ratio of the outliers of the Units at a point, the trough which corresponds to the required value of the total moisture is a variable, which makes it more accurate to approximate the dependences; ° .C. . Consequently, the voltage at the output of the measuring bridge is proportional to the relative sensitivity of the value of the value given by the SPC at the target and t (Rg and R4). Among the advantages of the proposed regulator should be attributed to; “-; In addition to the relative humidity of the air, dew point or air temperature is regulated. This possibility is realized by switching on, instead of one of the sensors, a constant resistance and in a boron equal to it the resistance value of the corresponding unit. The implementation of the proposed humidity controller and the use of the serial adjustable device RP2 and the heating of the DV-1K chloride-lithium humidity sensor allows to obtain the accuracy of maintaining relative air humidity + 1% in the range of 30% 98% relative humidity at 5 -. Claims i Voltage regulator containing dew point temperature and air temperature sensors included in the first adjacent shoulders of the measuring bridge connected to the control unit and the relative humidity setting device, which, in order to simplify the controller and increase it accuracy, the setting device relative to the humidity g is made in the form of the setting devices for dew point temperature and air temperature included in the second adjacent shoulders of the measuring bridge. , Sources of information, accepted in viimaye during examination 1. M. B. halameser. Automatic installation of artificial climate Moscow, Mashinostroenie, 1969, p. 139., 2. Chetverukhin B.M., et al. IJHHBepal regulator of humid air parameters - Water Supply Journal 5, Build up sanitary engineering published, Moscow, 1973. 3, Patent PNR 56478, cl. F 24 F 1/00, HiOJ 36 d 1/14, 1968 (prototype).