US896526A - Thermometer and other similar device having saturated vapors. - Google Patents

Thermometer and other similar device having saturated vapors. Download PDF

Info

Publication number
US896526A
US896526A US29271905A US1905292719A US896526A US 896526 A US896526 A US 896526A US 29271905 A US29271905 A US 29271905A US 1905292719 A US1905292719 A US 1905292719A US 896526 A US896526 A US 896526A
Authority
US
United States
Prior art keywords
receptacle
tube
liquid
thermometer
similar device
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US29271905A
Inventor
Joseph Barbe Fournier
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US29271905A priority Critical patent/US896526A/en
Application granted granted Critical
Publication of US896526A publication Critical patent/US896526A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • GPHYSICS
    • G01MEASURING; TESTING
    • G01KMEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
    • G01K5/00Measuring temperature based on the expansion or contraction of a material
    • G01K5/32Measuring temperature based on the expansion or contraction of a material the material being a fluid contained in a hollow body having parts which are deformable or displaceable

Definitions

  • the purpose of the said improvements is to locate on a predetermined length the part of the apparatus which is sensible to heat.
  • Figure 1 is a side elevation partly broken away, showing one form of manometric' tube connected with a flexible tube and receptacle, so as to embody the rinciple of my invention
  • Fig. 2 is a detai consisting of a section of a different type of receptacle'B for connection with the flexible tube 0
  • Fig. 3 is a sec tion showing in section another type of receptacle to be connected with the manometer by means of a pipec
  • Fig. 4 is a section showing still another form of my device in which provision is made for excessively high temperatures due to metallurgical and similar operations.
  • a designates a manometer tube sensible to the pressure of the volatile liquidhaving a high vaporizing oint liquid 11 which it contains.
  • the said tu e is connected by a flexible 1pipe c witha member'd (Fig.1) sensible to eat and which consists of a reee tacle to the cen- Of which the said flexib e ipe 0 extends "and which contains a volatile quid e as well.
  • the receptacle d is never completely filled with liquid, in order that the phenomena of dilatation shall have no influence at all on the pressure ofthe liquids, such pressure being exclusively due to the elastic force of the I vapor f.
  • thewhole of the receptacle (1 is placed there where the temperature is to be indicated or made use of at a distance.
  • the vapor f, wi 1 be exclusively in contact with the liquid 6 and the Walls of the receptacle (1, both the liquid and the walls partakin of the temperature of the inclosure in which the device is located. Any cold wall phenomenon is thus avoided, so that the tension of the vapor corres onds exactly to the temperature of the inc osure and the ressure transmitted to the manometer is in e endent of any influence prevailing outside t e inclosure.
  • receptacle d is in the shape of a tubular nest
  • the reee tacle d is divided into two parts by a flexib e air-ti ht partition h; one of the said parts into 'w 'ch opens the pipe 0 extending to the manometer is entirely filled with the hardly volatile liquid 6 and the other, part contains the volatile liquid 6 and its vapor j
  • the deviceshown in Fig. 4 may be used.
  • the rece tacle comprises two tubes (1* and d of porce ain or other refractory material having the suitable relative capacities and communicating with each other through the tube d" the inner diameter of which is small.
  • the upper part 117 of the tube (1 is inclined
  • a gas n such as azote, hydrogen, or even the air, under suitable pressure.
  • the system thus charged is introduced into the medium the temperature of which requires to be regularized, a blast-furnace for instance, in such a manner that the branch (1 shall dip entirely into the said medium, While the upper part d of the'tube (Z passes through the wall m of the blast-furnace, as shown in-diagram in Fig. 4.
  • all that need to be done is to so arrange the reservoir d d that the temperature of the branch (1 shall never exceed the temperature I then as temperature of the blast-furnace con- ,tinues to rise, the sand liquid material is reof the branch d.
  • the tube (1 may be applied along the inner wall of the blast-furnace. When the latter reaches the melting point for the material 6 the latter passes into a liquid state;
  • the tube (1 maybe tension of which is transmitted through the medium of the column of gas above the level Z, then of the liq'uid b of the bulb j, and of the flexible pipe 0 to the manometer or other apparatus sensible to the pressure.
  • the reservoir just described may be entirely of iron or of nickel.
  • the hereinbefore described arrangement i has the eflectof localizing with the greatest certitude the sensible part of the apparatus in such a manner as to eliminate the injurious influence of cold walls in those parts of the instrument which extend between the point where the heat is to be measured or regulated and the manometer or other apparatus at the outside.
  • the elements 11 ,61, (Z l 1', and I) represent the receptacle described above.
  • Claim The combination of a curved tube or manometer, of a movable receptacle or vessel, of a flexible tube which puts the manometer tube in connection with the said receptacle, the end of the flexible tube opening at about the center of the movable receptacle, and of a liquid fillin the manometer, the flexible tube, and at Iev receptacle, so that the vapors given off by the liquid in the-remainder of the receptacle are ast one half of the movable always prevented by the liquid from entering into the flexible tube whatever may be the position or the temperature of the receptacle.

Landscapes

  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Measuring Fluid Pressure (AREA)

Description

PATENTED AUG. 18, 1908.
. J, B. POURNIER. THERMOMETER AND OTHER SIMILAR DEVICE HAVING SATURATED VAPORS.
APPLIOATION FILED 13110.21, 1905.
r. 0 W TV m 0 5 7 /w A UNITED STATES PATENT OFFICE.
JOSEPH BARBE FOURNIER, OF PARIS,- FRANCE.
TEERMOLIETER AND OTHER SIMILAR DEVICE HAVING SATURATED VAPORS.
Specification of Letters Patent. Application filed December 21, 1905. Serial No. 292,719.
Patented Aug. 18, 1908.
. Which the part sensible to heat incloses a saturated vapor the tension of which has for its purpose to act on a manometer or other member sensible to the pressure, locatedat any distance from the said part sensible to heat.
This invention is closely associated with other inventions described in my application Serial No. 233,158, filed November 17, 1904, and my application Serial No. 290,806-filed December 7, 1905.
The purpose of the said improvements is to locate on a predetermined length the part of the apparatus which is sensible to heat.
Figure 1 is a side elevation partly broken away, showing one form of manometric' tube connected with a flexible tube and receptacle, so as to embody the rinciple of my invention; Fig. 2 is a detai consisting of a section of a different type of receptacle'B for connection with the flexible tube 0; Fig. 3 is a sec tion showing in section another type of receptacle to be connected with the manometer by means of a pipec; Fig. 4 is a section showing still another form of my device in which provision is made for excessively high temperatures due to metallurgical and similar operations.
a designates a manometer tube sensible to the pressure of the volatile liquidhaving a high vaporizing oint liquid 11 which it contains. The said tu e is connected by a flexible 1pipe c witha member'd (Fig.1) sensible to eat and which consists of a reee tacle to the cen- Of which the said flexib e ipe 0 extends "and which contains a volatile quid e as well.
orifice that a as the 'va' oirlf of the said liquid, apart bf the same. v at' e liquid 6, qulcksilver, for instance, filling the tube a and the pipe 0. The of the latter is located at such a point the planes passing through the same dlvlde the capacity of the receptacle (1 into The uantity of the volatile llqllld is such that t e orifice g is always lmmersedin the said liquid whatever may be ,surance that Whatever may be the the position of the receptacle (1. Whether up right inclined, or reversed, and in any condition as to tem erature, that is whatever may be the dilatatlons of the several arts of the apparatus; whereby the volatile iquid e and its vapor f are never enabled to penetrate into the flexible pipe 0 and are thus invariably confined in a certain and well defined part of the receptacle d. On the other hand, the
quantity of the liquids b and e is such that, in
the ordinary conditions of use of the apparatus, the receptacle d is never completely filled with liquid, in order that the phenomena of dilatation shall have no influence at all on the pressure ofthe liquids, such pressure being exclusively due to the elastic force of the I vapor f.
To make use of the device thus fitted up, thewhole of the receptacle (1 is placed there where the temperature is to be indicated or made use of at a distance. There is the asof the said receptacle, the vapor f, wi 1 be exclusively in contact with the liquid 6 and the Walls of the receptacle (1, both the liquid and the walls partakin of the temperature of the inclosure in which the device is located. Any cold wall phenomenon is thus avoided, so that the tension of the vapor corres onds exactly to the temperature of the inc osure and the ressure transmitted to the manometer is in e endent of any influence prevailing outside t e inclosure.
The device shown in Fig. 2 only diflers from that hereinbefore described in that the receptacle d is in the shape of a tubular nest,
' the ends of the tubes extending into the flat casings d In Fig. 3, the reee tacle d is divided into two parts by a flexib e air-ti ht partition h; one of the said parts into 'w 'ch opens the pipe 0 extending to the manometer is entirely filled with the hardly volatile liquid 6 and the other, part contains the volatile liquid 6 and its vapor j When the receptacle has to be subjected to the high temperatures of the metallurgic and other trades the deviceshown in Fig. 4 may be used.
The rece tacle comprises two tubes (1* and d of porce ain or other refractory material having the suitable relative capacities and communicating with each other through the tube d" the inner diameter of which is small.
The upper part 117 of the tube (1 is inclined,
and carries a pipei'the inner diameter of osition a manner that on the said material or the said metal being reduced to a liquid state, it Will entirely fill the tube (1 the ipe d, and a part of the tube (1 up to a suita le level Z, as shown in Fig. 4. Any metals answering the purpose stated are mercury, cadmium, zinc,
silver and such other metals and their alloys as willboil under atmospheric pressure at a rather low temperature. The material which fills'the system up to the level I is so chosen that its melting point will be in proper relation to the temperature to be measured.
Then there is introduced into the free art of the tube d of the pipe i, and of the ulb j, through'a cock 7c, a gas n, such as azote, hydrogen, or even the air, under suitable pressure.
The system thus charged is introduced into the medium the temperature of which requires to be regularized, a blast-furnace for instance, in such a manner that the branch (1 shall dip entirely into the said medium, While the upper part d of the'tube (Z passes through the wall m of the blast-furnace, as shown in-diagram in Fig. 4. In general, all that need to be done is to so arrange the reservoir d d that the temperature of the branch (1 shall never exceed the temperature I then as temperature of the blast-furnace con- ,tinues to rise, the sand liquid material is reof the branch d.
located exactly at t e'place Where a knowledge of the temperature is' most required, and the tube (1 may be applied along the inner wall of the blast-furnace. When the latter reaches the melting point for the material 6 the latter passes into a liquid state;
duced into a state of saturated vapor, the
By varying the lengthand the shape of thepi e d the tube (1 maybe tension of which is transmitted through the medium of the column of gas above the level Z, then of the liq'uid b of the bulb j, and of the flexible pipe 0 to the manometer or other apparatus sensible to the pressure.
When the temperatures to be regularized do not exceed acertain value, the reservoir just described may be entirely of iron or of nickel.
The hereinbefore described arrangement i has the eflectof localizing with the greatest certitude the sensible part of the apparatus in such a manner as to eliminate the injurious influence of cold walls in those parts of the instrument which extend between the point where the heat is to be measured or regulated and the manometer or other apparatus at the outside. The small diameter of the tubes (1 and tithe revious compression of the gas n, and the re atively great density of the metallic vapors, all contribute to prevent the difluslon of the said vapors, so that these vapors remain localized in the branch d and at the bottom of the branch (1 In this form the elements 11 ,61, (Z l 1', and I) represent the receptacle described above.
Claim The combination of a curved tube or manometer, of a movable receptacle or vessel, of a flexible tube which puts the manometer tube in connection with the said receptacle, the end of the flexible tube opening at about the center of the movable receptacle, and of a liquid fillin the manometer, the flexible tube, and at Iev receptacle, so that the vapors given off by the liquid in the-remainder of the receptacle are ast one half of the movable always prevented by the liquid from entering into the flexible tube whatever may be the position or the temperature of the receptacle.
In testimony, that I claim the foregoing as my invention, I have signed my name in presence of two subscribing witnesses.
' JOSEPH BARBE FQURNIER. Witnesses:
HANsoN C. Ooxn, MAURICE Roux;
US29271905A 1905-12-21 1905-12-21 Thermometer and other similar device having saturated vapors. Expired - Lifetime US896526A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US29271905A US896526A (en) 1905-12-21 1905-12-21 Thermometer and other similar device having saturated vapors.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US29271905A US896526A (en) 1905-12-21 1905-12-21 Thermometer and other similar device having saturated vapors.

Publications (1)

Publication Number Publication Date
US896526A true US896526A (en) 1908-08-18

Family

ID=2964953

Family Applications (1)

Application Number Title Priority Date Filing Date
US29271905A Expired - Lifetime US896526A (en) 1905-12-21 1905-12-21 Thermometer and other similar device having saturated vapors.

Country Status (1)

Country Link
US (1) US896526A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3911682A (en) * 1974-06-28 1975-10-14 Gen Electric Thermal actuator
US3932994A (en) * 1974-02-06 1976-01-20 General Electric Company Thermal actuator
US3982398A (en) * 1974-01-15 1976-09-28 General Electric Company Thermal actuator, method of controlling such and actuating system

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3982398A (en) * 1974-01-15 1976-09-28 General Electric Company Thermal actuator, method of controlling such and actuating system
US3932994A (en) * 1974-02-06 1976-01-20 General Electric Company Thermal actuator
US3911682A (en) * 1974-06-28 1975-10-14 Gen Electric Thermal actuator

Similar Documents

Publication Publication Date Title
US697181A (en) Instrument for cooling or for warming internal portions of the human body.
US4020690A (en) Cryogenic liquid level measuring apparatus and probe therefor
US3097084A (en) Liquefied gas container
US3705498A (en) Method and apparatus for cooling a cryogenic storage container
US3031887A (en) Device for measurement of liquid level or volume of liquefied gases
US896526A (en) Thermometer and other similar device having saturated vapors.
US2865394A (en) Sampling valve for high melt materials
US1917272A (en) Analytical fractionating column
US883159A (en) Means for showing from a distance the variations in temperature.
US644259A (en) Receptacle for holding and storing liquid air or other liquid gases.
US652078A (en) Clinometer.
US3238781A (en) Pressure measuring devices
US2021615A (en) Liquid level indicator
US35152A (en) Improvement in hydrometers
US764422A (en) Funnel.
US673187A (en) Liquid-measuring device.
US339756A (en) Pyeometee
US784986A (en) Barometer.
US249918A (en) forster
US430271A (en) Pyrometer
US1343454A (en) Thermometer operated by the pressure of saturated vapor
US229346A (en) Carbureter
US161330A (en) Improvement in pyrometers
US283490A (en) Differential pressure gage
US2005323A (en) Distilling and fractionating apparatus