CHAPTER III.ANEROID BAROMETERS:THEIR CONSTRUCTION.
The general principle of construction of all aneroids is the same. A box with flexible sides, hermetically sealed, the air having been first exhausted, changes its form as the pressure of the atmosphere varies.
The chief differences in the various kinds lie in the mechanical devices, by which the motions of the box are rendered apparent to the eye, and also measured in such a manner as to allow the corresponding pressures to be expressed in inches of mercury.
Fig. 1.
Fig. 1.
The aneroid was invented about the beginning of this century, but was first made of a serviceable form by Vidi, in 1848. It is substantially the form most used to-day. The vacuum box is a thin low cylinder, and the motion of the thin flexible head of the cylinder is conveyed by suitable mechanism to the index hand. Vidi’s aneroid is shown inFig. 1. D is the vacuum box, supporting the upright pillar M upon its center. As M rises or falls, a corresponding motion is given to theplate C. A counter-pressure is afforded by the spiral spring S. The motion of C is conveyed by the links 1 and 2 to a little rocker shaft, shown in thefigure. An arm, 3, attached to this shaft is connected by a minute chain with the shaft which carries the index pointer. It is kept wound to the proper tension about this shaft by a fine spiral hair spring.
Fig. 2.
Fig. 2.
Fig. 3.
Fig. 3.
A modification of this is shown inFigs. 2and3. (See, also, frontispiece). This is Naudet’s aneroid, and is the one chiefly employed now. It differs from Vidi’s in the substitution of the thinlaminated spring (B in frontispiece) for the spiral spring (Sin Fig. 1).
Fig. 4.
Fig. 4.
One of the oldest forms ofboxbarometer and the one to which the nameaneroidis restricted by some writers, is represented inFig. 4. A rectangular tube, from which the air has been perfectlyexhausted, is sealed hermetically, and, having been bent into the form represented in the figure bycbd, is made fast at the middle pointb. The varying pressure of the atmosphere causes the extremitiescanddto approach or recede from each other. This motion is converted into a to-and-fro traverse of the index, by a mechanism sufficiently well exhibited by the diagram.
This is known as Bourdon’s form. It is not now employed for delicate work. The forms of Vidi and Naudet are, by some writers, designated theholostericbarometers.
The graduation of these instruments is made to correspond with the height of the mercurial barometer, and is expressed as inches or millimeters.
The difficulties to be met by the maker, in securing accuracy of working, are those which arise chiefly from the varying elasticity of the several metallic elements under change of temperature. Greater simplicity of construction might be presumed to be attended with asmaller liability to a kind of error, for which it is exceedingly difficult to compensate. This is the theory of the Goldschmid Aneroid.
The instrument designed for ordinary engineering use is represented byFig. 5. The size recommended by the present makers for this service is 3⅛ inches in diameter and 2½ inches high.
Fig. 5.
Fig. 5.
Fig. 6.Fig. 7.
Fig. 6.
Fig. 6.
Fig. 7.
Fig. 7.
The construction is exhibited byFig. 6. The vacuum box, constructed as before described, is shown ataa. The motions of the box, caused by variations of atmospheric pressure, are conveyed directly to the lever, whose fulcrum is ate″, and whose free end is ate. This end, projecting through the side of the casing and working freely through a slot, is observed with a magnifying lens, and the reading on the indexfftaken. But it is evident that the lever, working with proper ease on its fulcrum, must be supplied with a certain amount of counter-pressure. This is ingeniously done by aid of the delicate springe', which is attached to the lever near the fulcrum. Bearing on the spring is the point of the micrometer screw M, whose head is graduated to hundredths and forms the top of the case. Both lever and spring are furnished at their extremities with brightmetal heads, whose end surfaces lie in the same plane. The heade' is, under ordinary conditions, higher thane, as shown inFig. 6. When a reading is to be taken the top of the case is turned untile'andeare side by side; the horizontal marks borne on the metallic heads being brought to an exact coincidence by aid of a lens (Pin Fig. 5). The reading of theinchesis taken from the scaleff, and of the hundredths from the divisions on the scale around the top of the box T; a fixed pointcbeing marked on the cylinder. Infigure 7the indices exhibit a reading of 29.75 inches.
The thermometer F is an important part of the instrument.
In some of these instruments the scaleffbears no reference to the inches of the mercurial barometer, but is of an arbitrary character, and is different for different instruments. The value of the divisions is determined by comparison with standard instruments, and is carefully expressed in tabular form on the cover of the box.
Some corrections for temperature and pressure are required in the use of these instruments which, although desirable in the more common forms of aneroid, have not heretofore been considered necessary. In the latter instruments, however, when of the best construction, acompensationhas been effected which renders a correction for temperature unnecessary. In the Goldschmid aneroids no compensation is attempted, but each instrument is furnished with atable of correctionswhich have been prepared from observation on standard instruments.
Thus, aneroid No. 3187, imported last year, bears on the cover the following:
CORRECTION TABLE.
The temperatures are, of course, taken from the thermometer that forms a part of the instrument, and which, when the latter is carried slung from the shoulder, may exhibit a temperature considerably higher than that of the air.
A smaller and ruder instrument called the Pocket Aneroid is made by the Zurich manufacturers. It is only 1½ inches in diameter and 1¼ inches high. A bar fastened to the top of the vacuum box takes the place of the lever in the larger instrument.
A larger size is also made in which the movements of the vacuum box are directly observed with a compound microscope.
Fig. 8.Fig. 9.
Fig. 8.
Fig. 8.
Fig. 9.
Fig. 9.
There is no doubt that all aneroids need a careful comparison with standard instruments or a series of trials upon known altitudes, in order to determine the proper corrections. Such trials should be made at different temperatures and under different conditions as to rising or falling at the time of observation. The tables of correctionsfurnished by the maker cannot well be substituted for those made by a careful observer deduced from systematic work. The air pump, the hot chamber and the freezing box are convenient, but inadequate substitutes for a large number of trials under normal conditions.