Fig. 1.
DESCRIPTION OF THE DEEP-SEA RECORDING THERMOMETER.
In the first place, it must be observed that the bulb of the Thermometer is protected so as to resist the pressure of the ocean, which varies according to depth that of three thousand fathoms being something like three tons pressure on the square inch. The manner of protecting the bulb was invented by Messrs. Negretti and Zambra in 1857, and has been latterly copied by other persons and brought out as a new invention. The manner of protecting the bulb has been described bythe late Admiral R. FitzRoy, in the first number of Meteorological Papers, page 55, published July 5th, 1857, as follows:
“Referring to the erroneous readings of all thermometers, consequent on their delicate bulbs being compressed by the great pressure of the ocean, he says:—‘With a view to obviate this failing, Messrs. Negretti and Zambra undertook to make a case for the weak bulbs, which should transmit temperature, but resist pressure. Accordingly a tube of thick glass is sealed outside the delicate bulb, between which and the casing is a space all round, which is nearly filled with mercury. The small space not so filled is a vacuum, into which the mercury can be expanded, or forced by heat or mechanical compression, without doing injury to or even compressing the inner or much more delicate bulb.’”
The construction of this instrument for deep-sea temperatures is as follows:—
Fig. 2.
In shape it is like a syphon with parallel legs, all in one piece and having a continuous communication, as in the annexed figure. The scale of the Thermometer is pivoted on a centre and being attached in a perpendicular position to a simple apparatus (which will be presently described), is lowered to any depth that may be desired. In its descent the Thermometer acts as an ordinary instrument, the mercury rising or falling according to the temperature of the stratum through which it passes; but so soon as the descent ceases, and a reverse motion is given to the line, so as to pull the Thermometer towards the surface, the instrument turns once on its centre, first bulb uppermost, and afterwards bulb downwards. This causes the mercury, which was in the left-hand column, first to pass into the dilated syphon bend at the top, and thence into the right-hand tube, where it remains, indicating on a graduated scale the exact temperature at the time it was turned over. The woodcut, Fig. 1, shows the position of the mercuryafterthe instrument has been thus turned on its centre. A is the bulb; B the outer coating or protecting cylinder; C is the space of rarefied air, which is reduced if the outer casing be compressed; D is a small glass plug on the principle of Negretti and Zambra’s Patent Maximum Thermometer, which cuts off, in the moment of turning, the mercury in the tube from that of the bulb, thereby ensuring that none but the mercury in the tube can be transferred into the indicating column; E is an enlargement made in the bend so as to enable the mercury to pass quickly from one tube to another in revolving; and F is the indicating tube or Thermometer proper. In its action, as soon as the Thermometer is put in motion, and immediately the tube has acquired a slightly oblique position, the mercury breaks off at the point D, runs into the curved and enlarged portion E, and eventually falls into the tube F when this tube resumes its original perpendicular position.
Fig. 3.
The contrivance for turning the Thermometer over may be described as a frame with a vertical propeller; to this frame the instrument is pivoted. On its descent through the water the propeller is lifted out of gear and revolves freely on its axis; but so soon as the instrument is pulled towards the surface the propeller falls into gear and revolves in the contrary direction, turning the Thermometer over once, and then becoming locked and immovable.
Directions for adjusting the Thermometer previous to its being lowered in the Sea.I. The mercury must all be in the left-hand column.II. The short peg at the back of the thermometer must be in front of the stop plate S +; in order to effect this, pull the knob which stops the Thermometer, and slightly turn the propeller, to make the Thermometer advance sufficiently to escape the stop plate.
Directions for adjusting the Thermometer previous to its being lowered in the Sea.
I. The mercury must all be in the left-hand column.
II. The short peg at the back of the thermometer must be in front of the stop plate S +; in order to effect this, pull the knob which stops the Thermometer, and slightly turn the propeller, to make the Thermometer advance sufficiently to escape the stop plate.
Negretti & Zambra’s Patent Atmospheric Recording Thermometer, Fig. 3, differs from the Deep-sea Thermometer by its not having the double or protected bulb, it not being required for resisting pressures. In this case the instrument is turned over by a simple clock movement, which can be set to any hour it may be desirable; the Thermometer is fixed on the clock, and when the hand arrives at the hour determined upon, and to which the clock is set as in setting an alarum clock, a spring is released and the Thermometer turns over as before described.
Messrs. Negretti and Zambra have arranged a Wet and Dry Bulb Hygrometer upon the same plan.
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The marginal figures in this List and the numbers of the wood engravings refer to paragraphs in “Negretti & Zambra’s Treatise on Meteorological Instruments.”
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Footnotes:
[1]Second Number of “Meteorological Papers,” issued by the Board of Trade.
[2]With reference to these barometers, we have received the subjoined testimonial, with permission to use it as we please.
“Meteorologic Office, 12th June, 1863.“Messrs. Negretti & Zambra,“The barometers which you have lately supplied to Her Majesty’s ships through this Office are much approved, being good for general service, afloat or on land.“(Signed)R. FITZROY.”
“Meteorologic Office, 12th June, 1863.
“Messrs. Negretti & Zambra,
“The barometers which you have lately supplied to Her Majesty’s ships through this Office are much approved, being good for general service, afloat or on land.
“(Signed)R. FITZROY.”
[3]VideC. Daubeny, F.R.S., “On Climate.”
[4]VideReport of the British Association, 1862.
[5]Seepage 42for the Tables.
[6]The quotations in this section are from Tyndall’sHeat considered as a Mode of Motion.
[7]Dr. Daubeny, F.R.S.,On Climate.
[8]LeslieOn the Relations of Air, Heat, and Moisture.
[9]Tyndall’sHeat considered as a Mode of Motion.
[10]VideHorological Journal, Vol. V.
[11]Hygrometrical Tables, by J. Glaisher, Esq., F.R.S.
[12]VideReport of the British Association, 1862. It may be added, for the information of those who are about to commence observing, that Mr. Symons, of Camden Road Villas, London, is desirous of securing returns of rain-fall from as many stations as possible, in order to render more complete his annual reports to the British Association.
[13]Luke Howard’sClimate of London.
[14]VideThird Number of Meteorological Papers, issued by the Board of Trade.
[15]Elements of Physics, by C. F. Peschel.
[16]This description is modified from that in Report of the Jurors for Class XIII. International Exhibition, 1862.
[17]All the Year Round, No. 224.
[18]All the Year Round, No. 224.
[19]VideJurors’ Reports.
[20]See alsopage 90of this Treatise.
[21]These Instruments are the only Maximum Thermometers that can be recommended, as unless they be broken, they cannot be put out of adjustment. Fully described under the head of Standard Maximum Thermometers in our large Catalogue, andpage 72of ourTreatise on Meteorological Instruments.
Transcriber’s Note:In an effort to make the wide table on page 149 easier to read, the months were abbreviated by the transcriber. In addition, “Temperature” was changed to “Temp.” and “Temperatures” to “Temp’s.”