DE961312C - Humidistat - Google Patents

Description

Humidity controller addendum to patent 957888 The invention relates to a lithium chloride based humidity regulator according to patent 957 888. The lithium chloride sensor mentioned in this patent works on the principle that the Li Cl solution by means of two electrodes, which are generally two parallel and spaced apart windings made of noble metal wire or -band, a voltage is supplied. The one generated by the current flowing through it Joule heat increases the temperature of the Li Cl solution and thus its vapor pressure until the equilibrium between the vapor pressure of the Li Cl solution and adjusted to the partial pressure of the water vapor in the surrounding atmosphere. In the case of direct current, however, disruptive effects due to electrolysis occur very quickly that make the sensor in question unusable and its application on a one-off basis limit short measurements. One therefore generally works with alternating current.

The electrical power consumed is used after equilibrium has been reached to maintain the equilibrium temperature, d. H. to cover the current Heat losses if the existing dynamic equilibrium does not exist, e.g. B. by changes in humidity in the Environment, disturbed or shifted to other temperatures will. The power consumption is therefore different depending on the construction and use, because the ongoing heat losses in addition to the heat dissipation through the bracket and supply wires take place by free or forced convection, i.e. from the surface and possibly can be determined by the flow velocity of the surrounding medium.

Electrolysis also occurs when using low frequency alternating currents on what changes after some time with heavier use by changing the Electrodes, i.e. an attack, shows if they are not made of platinum or Palladium exist, which is not the case with most technical designs is. When there is a high current through the moist lithium chloride, there is a noticeable amount of chlorine Quantities and should also be used for the electrode attack in silver or gold electrodes to be responsible. The coating of precious metal chloride and metal occurs mainly at the contact points of the wires on the electrolyte carrier, usually glass fabric or -braid, and it can be assumed that in this way conductive bridges of The contact points grow into the electrolyte, which after some time give rise to break down and thus render the device unusable.

According to the present invention it is provided that the per se known AC-fed sensors from such controllers, which after what has been said have a higher power consumption, not with the usual mains frequency of 50 or 60 Hz, but with a multiple of this frequency.

For example, a frequency of around 3 to 5 kHz has been used Avoiding these disadvantages has proven to be useful in continuous operation. To the generation any alternator, e.g. B. an oscillating circuit, which is of a Electron tube. is excited, a chopper, a converter or the like., since no great demands are placed on the frequency constancy. The one for one Lithium chloride sensors required performances are generally at most a few Watt.

The power consumption of the device during operation is still there significantly lower than the power consumption during the heating process.

The subject of the invention is not limited to the application with humidity controllers, but can also be used with all humidity meters, that work with lithium chloride are used.

Claims (1)

PATENT CLAIM: Lithium chloride based humidity regulator with a sensor heated by alternating current according to patent 957 888, characterized in that, that the frequency of the alternating current supplied to the lithium chloride sensor is a multiple the usual mains frequency, preferably more than 1 kHz. ~~~~~~~~ Considered printed publications: "Refrigerating Engineering", October 1947, pp. 35I to 354; F. Kohlrausch, "Practical Physics", Vol. II, 3, pp. 63 to 68.