US2168353A - Hydrometer - Google Patents

Hydrometer Download PDF

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US2168353A
US2168353A US55765A US5576535A US2168353A US 2168353 A US2168353 A US 2168353A US 55765 A US55765 A US 55765A US 5576535 A US5576535 A US 5576535A US 2168353 A US2168353 A US 2168353A
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vane
hydrometer
liquid
pointer
density
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US55765A
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Charles E Linebarger
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CHASLYN Co
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CHASLYN Co
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N9/00Investigating density or specific gravity of materials; Analysing materials by determining density or specific gravity
    • G01N9/10Investigating density or specific gravity of materials; Analysing materials by determining density or specific gravity by observing bodies wholly or partially immersed in fluid materials
    • G01N9/12Investigating density or specific gravity of materials; Analysing materials by determining density or specific gravity by observing bodies wholly or partially immersed in fluid materials by observing the depth of immersion of the bodies, e.g. hydrometers
    • G01N9/16Investigating density or specific gravity of materials; Analysing materials by determining density or specific gravity by observing bodies wholly or partially immersed in fluid materials by observing the depth of immersion of the bodies, e.g. hydrometers the body being pivoted

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  • This invention relates to hydrometers, and particularly to such instruments as depend for their action upon the physical law of moments, the application of which is to mount a vane on a fixed horizontal axis so that the vane turns, when submerged in a liquid the density of which isto be determined, through angles the magnitudes of which depend upon the density of the liquid and also upon the distribution and density of the masses of the various parts of the vane with respect to its axis.
  • One object of the invention is to provide a hydrometer, either in combination with a syringe or without, to conveniently measure the density of liquids, particularly those having low densities, such as gasoline, naphtha, kerosene, alcohol, acetone and other organic compounds; or aqueous solutions of methanol, ethanol, glycerine, ethylene glycol, and similar and allied products which are used with other ingredients in lesser proportions for the manufacture of antifreeze mixtures.
  • the hydro-meten'if desired is provided with a buoyant means for decreasing the mean specific gravity or density of the vane as a whole, or certain parts thereof. It may also be provided with thermostatic means for compensating for variations in the density of the liquid being tested because of variations in temperature thereof; or with magnetic means for overcoming the sticking of the movable part of the hydrometer.
  • vanes are fabricated out of relatively dense materials, and their mean densities, or densities as a whole, are reduced by attaching to them, or incorporating in'them, air chambers, suitable materials for the purpose are obtainable.
  • vanes material which is physically and chemically inert to atmospheric action, as well as to that of the liquid in which the vane is tobe immersed, and is capable of being fabricated into forms and shapes having'hollow spaces that mayenclose gases or other preferred materials.
  • the classes of materials which are thus suitable for making the vanes are metals and Eli their alloys, plastics, and other similar and allied products; some examples are aluminum, Monel metal, hard rubber, Bakelite, and the like.
  • the solid parts of the vanes may be fabricated from any suitable material into any preferred shapes, sizes and thicknesses; and the chambers of the hollow casings may be filled with any preferred gases, solids or liquids which are suitable for the purpose.
  • the distribution of the masses of the casings and their contents can be arranged in any way calculated to contribute to the proper action of the instrument as a whole.
  • Fig. 1 is an as elevation of a syringe in which is installed a hand-type hydrometer, embodying the features -of my invention
  • Fig. 2' is a sectional view along the line 2-2 of Fig. 1
  • Fig. 3 is an enlarged sectional View of the vane of the hydrometer of Fig. 1
  • Fig. 4 .is an enlarged view of the supporting member of the hydrometer of Fig. 1;
  • Fig. 5 shows a modified means for supporting the hydrometer
  • Figs. 6 and 7 show modified forms of the vane of the hydrometer
  • Fig. 8 illustrates a hydrometer of the dial-type of vane
  • Fig. 9 isan edge view of the same
  • Fig. 10 shows amodified pointer for the dial-type of hydrom- 'eter, which compensates for temperature differences in the liquid being tested
  • Fig. 11 is a "top view of the pointer of Fig. 10.
  • the hydrometer l is mounted in a transparent barrel 2, preferably having two broad fiat sides, of a hydrometer syringe.
  • a nozzle or tip 3 Through the lower 555 end of the barrel is mounted a nozzle or tip 3 through which some of the liquid to be tested is drawn into the barrel by means of the rubber suction bulb 4 fixed to the other end of the barrel.
  • the hydrometer in this instance, comprises a hand vane 5 which is pivotally mounted on a scale sheet 6 by means of a pivot 1.
  • vane I refer to the entire movable member.
  • the sheet may consist of any suitable material, such as Celluloid, and it is freely suspended in the barrel by any means such as the hook 8.
  • a scale 9 is formed on the sheet.
  • the vane comprises a hollow easing member II which is sealed at its ends, and is filled with I airor gas or other substance which is less dense than the liquid to be tested.
  • one end of the casing is sealed by the pointer l0 and the other end by the hook l2, the hook end of the member l2 being rotatably mounted on the pivot I.
  • the axis of the pivot is preferably above the axis of the hook and casing when the vane is horizontal.
  • the arrangement is such that, when the liquid is at its minimum density the pointer Ill points to the scale adjacent the lower end thereof, and when the liquid is at its maximum density the pointer points towards the upper end of the scale.
  • the volume of the casing chamber must be sufficient to cause the vane to be buoyed up more or less by the liquid when it is submerged therein. That is, the buoyant force of the liquid must be'suificient to force upwardly the casing together with the pointer l0 and the unbalanced portion of the hook l2.
  • the density of the material of the pointer and the hook may be materially greater than that of the liquid, the mean density of the casing and its contents must be correspondingly less than that of the liquid.
  • the sheet 6 is suspended in the barrel by means of the hook 8 so that it will always be nearly vertical even though the barrel is held somewhat inclined.
  • the loop l3 of the hook is made large and the wire of the loop is materially smaller than the opening M of the sheet, thus forming a frictionless universal joint.
  • a wire l5 may'be suspended to the mouth of the barrel 2 by a perforated stopper [6 to support the sheet, as indicated in Fig. 5.
  • the arrangement should be such that the sheet is freely suspended as long as the hydrometer does not come in contact wtih the wall of the barrel.
  • a plumb line [1 may be suspended from the hook 8 which, when it registers with the notch 18, will indicate that the sheet is vertical.
  • the buoyant member, or vane may be formed as indicated in Figs. 6 or 7.
  • Fig. 6, 20 indicates a wire of inert material of suitable gage fitting snugly in the tube 2
  • '7 indicates another type of vane, which consists of a tube 23, the end 24 being sealed by pressing together the walls of the tube.
  • all of the members of the hydrometer are composed of materials that are inert to the liquid that is to be tested; and that the dimensions of the various members are suitable.
  • the mean density of the casing or tube 23 and its contents are suitable.
  • the mean density of the casing may be varied by varying the material of which it is composed, and tis buoyancy may be varied by varying its volume. Thus, in this case the volume of'that casing may be decreased by pressing together the walls thereof, as
  • Fig. 8 illustrates a modified form of hydrometer which may be supported by hand by means of the wire 30, or it may be thus supported in the barrel 2.
  • the scale sheet 3! forms the vane, and. it is pivoted to the supporting bar 32, and a pointer 33 is fixed by one end to the bar by means of the pivot, or by, any other suitable means. The other end of the pointer coacts with the scale 34.
  • a hollow casing 35 Fixed to the sheet 3
  • This dial type of hydrometer can be fabricated" from various classes of materials by suitable processes.
  • the rotating vane can be made by casting in molds, either with or without a core, compositions of waxes, resins,-gums and similar and allied organic substances blended in proportions to produce a preferred density, and also by stamping or drawing inert sheet metals, as, for example, aluminum, stainless steel, Monel metal, and the like, the preferred mean density being obtained by incorporating a suitable sealed casing in the vane.
  • the rotating member of the hydrometer sticks at times somewhat. This can ordinarily be overcome by shaking the barrel or the hydrometer; but to make the effect more positive, some portion of the vane may be made of magnetic material and the sticking can be overcome by bringing the device close to a magnet. 01', if desired, the magnetic material may be magnetized and the sticking then may be overcome by bringing this magnetized material near any piece of iron or steel. In this case the pin 36 may beof magnetic material, and may be magnetized or not as desired. Or a magnetic substance may be inserted in the casing 35, if desired.
  • the pointer ID in Fig. 1 comprises a coiled bimetal thermostat which is so arranged that it coils more as it heats.
  • the pointer 31 of Fig. 10 is a thermostat and is arranged to unwind as the temperature rises and thus to elevate the end 38, and the adjustment is such that this action increases the reading of the scale corresponding to the decrease in the buoyant force of the liquid as the temperature rises, so that the reading is suitably corrected for the temperature change.
  • a set screw 39 for adjustably fixing the pointer to the supporting bar 32 is provided.
  • This screw acts to set the pointer on the pivot which is fixed to the bar. It is not claimed that this device will indicate the density correctly for all temperatures; but by suitably forming and adjusting the pointer it will read correctly for certain temperatures and will materially reduce the error at other temperatures.
  • the positions of the elements with reference to each other and to the pivot are adjusted to suit the density of the particular liquid that is to be tested.
  • Increasing the mass of the pointer or its distance from the pivot increases its retarding effect; and increasing the volume of the casing member increases its buoyant eiiect.
  • the buoyant effect is varied by varying the length of the buoyant portion of the casing by pinching more or less of it together.
  • a hydrometer comprising a transparen syringe, a universal jointmember, a scale sheet suspended in the syringe by said member, a hollow vane having a pointer fixed to one end and a coiled wire bearing fixed to the other end,
  • a hydrometer as claimed in claim 1 the pointer of which is constructed of thermostatic bi-metal.
  • a hydrometer comprising a transparent syringe, a support, a scale sheet suspended in the syringe by said support and having a. scale thereon, a hollow vane having a pointer one end and a bearing on the other end, the bearing being pivoted to the scale sheet with the pointer coacting with the scale.

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  • Physics & Mathematics (AREA)
  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
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Description

Patented Aug. 8, 1939 HYDROMETER Charles E. Linebargcr, Chicago, Ill., assignor to The Chaslyn Company, Chicago, 111., a corporation of .Illinois Application December 23, 1935,'Seria'l No. 55,765
3 Claims.
This invention relates to hydrometers, and particularly to such instruments as depend for their action upon the physical law of moments, the application of which is to mount a vane on a fixed horizontal axis so that the vane turns, when submerged in a liquid the density of which isto be determined, through angles the magnitudes of which depend upon the density of the liquid and also upon the distribution and density of the masses of the various parts of the vane with respect to its axis.
One object of the invention is to provide a hydrometer, either in combination with a syringe or without, to conveniently measure the density of liquids, particularly those having low densities, such as gasoline, naphtha, kerosene, alcohol, acetone and other organic compounds; or aqueous solutions of methanol, ethanol, glycerine, ethylene glycol, and similar and allied products which are used with other ingredients in lesser proportions for the manufacture of antifreeze mixtures.
For this purpose the hydro-meten'if desired, is provided with a buoyant means for decreasing the mean specific gravity or density of the vane as a whole, or certain parts thereof. It may also be provided with thermostatic means for compensating for variations in the density of the liquid being tested because of variations in temperature thereof; or with magnetic means for overcoming the sticking of the movable part of the hydrometer.
Investigations which I have made show that the range of densities to be determined is limited by the density of the material composing the by drometer vane, or portions thereof, and hence much attention must be given to such materials. Vanes made of various kinds of wood which have been impregnated with oils, greases, or similar substances, or coated with paints, varnishes, lacquers, or the like, are unable to withstand prolonged exposure to the liquids being tested. Wooden vanes, in such cases, have their densities changed so much as to render them unreliable for hydrometric purposes. Also vanes made from compositions of certain synthetic waxes mixed with gums, resins, or other organic substances, are deficient in mechanical strength and workability. They may be used to advantage in special cases, but are not adapted for general application. The number of homogeneous substances possessing the requisite density, inertness, strength, workability, and other desirable qualities for making hydrometric vanes, is very limited.
'moments of force of the vane.
But-when vanes are fabricated out of relatively dense materials, and their mean densities, or densities as a whole, are reduced by attaching to them, or incorporating in'them, air chambers, suitable materials for the purpose are obtainable. In such cases it is permissible, in general, to select for vanes material which is physically and chemically inert to atmospheric action, as well as to that of the liquid in which the vane is tobe immersed, and is capable of being fabricated into forms and shapes having'hollow spaces that mayenclose gases or other preferred materials.
Among the classes of materials which are thus suitable for making the vanes are metals and Eli their alloys, plastics, and other similar and allied products; some examples are aluminum, Monel metal, hard rubber, Bakelite, and the like. The solid parts of the vanes may be fabricated from any suitable material into any preferred shapes, sizes and thicknesses; and the chambers of the hollow casings may be filled with any preferred gases, solids or liquids which are suitable for the purpose. The distribution of the masses of the casings and their contents can be arranged in any way calculated to contribute to the proper action of the instrument as a whole.
The casing, that is, the hollow part of the vane, has two functions when in use: it varies :30 the mean density of the entire vane, or, at least, the unbalanced portion thereof, by a preferred amount; and it varies the relationships of the Of the accompanying drawing, Fig. 1 is an as elevation of a syringe in which is installed a hand-type hydrometer, embodying the features -of my invention; Fig. 2'is a sectional view along the line 2-2 of Fig. 1; Fig. 3 is an enlarged sectional View of the vane of the hydrometer of Fig. 1; Fig. 4 .is an enlarged view of the supporting member of the hydrometer of Fig. 1;
Fig. 5 shows a modified means for supporting the hydrometer; Figs. 6 and 7 show modified forms of the vane of the hydrometer; Fig. 8 illustrates a hydrometer of the dial-type of vane; Fig. 9 isan edge view of the same; Fig. 10 shows amodified pointer for the dial-type of hydrom- 'eter, which compensates for temperature differences in the liquid being tested; Fig. 11 is a "top view of the pointer of Fig. 10.
Referring to the drawing, and more particularly to Fig. l, the hydrometer l is mounted in a transparent barrel 2, preferably having two broad fiat sides, of a hydrometer syringe. On the lower 555 end of the barrel is mounted a nozzle or tip 3 through which some of the liquid to be tested is drawn into the barrel by means of the rubber suction bulb 4 fixed to the other end of the barrel.
The hydrometer, in this instance, comprises a hand vane 5 which is pivotally mounted on a scale sheet 6 by means of a pivot 1. Herein by the term vane I refer to the entire movable member. The sheet may consist of any suitable material, such as Celluloid, and it is freely suspended in the barrel by any means such as the hook 8. A scale 9 is formed on the sheet. When the barrel is filled with the liquid to be tested, the vane will be revolved counter-clockwise around the pivot I, and the pointer l0 will indicate, by the scale the density of the liquid.
The vane comprises a hollow easing member II which is sealed at its ends, and is filled with I airor gas or other substance which is less dense than the liquid to be tested. In this case one end of the casing is sealed by the pointer l0 and the other end by the hook l2, the hook end of the member l2 being rotatably mounted on the pivot I. The axis of the pivot is preferably above the axis of the hook and casing when the vane is horizontal. Preferably the arrangement is such that, when the liquid is at its minimum density the pointer Ill points to the scale adjacent the lower end thereof, and when the liquid is at its maximum density the pointer points towards the upper end of the scale.
As the entire vane may be made of material denser than the liquid to be tested, the volume of the casing chamber must be sufficient to cause the vane to be buoyed up more or less by the liquid when it is submerged therein. That is, the buoyant force of the liquid must be'suificient to force upwardly the casing together with the pointer l0 and the unbalanced portion of the hook l2. As the density of the material of the pointer and the hook may be materially greater than that of the liquid, the mean density of the casing and its contents must be correspondingly less than that of the liquid.
The sheet 6 is suspended in the barrel by means of the hook 8 so that it will always be nearly vertical even though the barrel is held somewhat inclined. For this purpose the loop l3 of the hook is made large and the wire of the loop is materially smaller than the opening M of the sheet, thus forming a frictionless universal joint. If desired, a wire l5 may'be suspended to the mouth of the barrel 2 by a perforated stopper [6 to support the sheet, as indicated in Fig. 5. The arrangement should be such that the sheet is freely suspended as long as the hydrometer does not come in contact wtih the wall of the barrel.
If desired a plumb line [1 may be suspended from the hook 8 which, when it registers with the notch 18, will indicate that the sheet is vertical. If desired, the buoyant member, or vane, may be formed as indicated in Figs. 6 or 7. In Fig. 6, 20 indicates a wire of inert material of suitable gage fitting snugly in the tube 2|, so as to make an air-tight joint, with the outer end bent into a plurality of coils 212 of equal size so as to make a suitable bearing for turning on the pivot of the supporting sheet. This arrangement forms a line contact between the inside surface of the coils with the pivot. In the outer end of the tube 2| is mounted an arrow head pointer 2 I Fig. '7 indicates another type of vane, which consists of a tube 23, the end 24 being sealed by pressing together the walls of the tube. It will be understood that all of the members of the hydrometer are composed of materials that are inert to the liquid that is to be tested; and that the dimensions of the various members are suitable. Also the mean density of the casing or tube 23 and its contents are suitable. The mean density of the casing may be varied by varying the material of which it is composed, and tis buoyancy may be varied by varying its volume. Thus, in this case the volume of'that casing may be decreased by pressing together the walls thereof, as
it is made of collapsible material. 7 Any suitable means may be used to insure revolving the buoyant member in the right direction. The operator can tip the barrel sufliciently, or a pin 25, Fig. 1, may be set in the sheet so as to hold the vane to the right of the dead center position.
Fig. 8 illustrates a modified form of hydrometer which may be supported by hand by means of the wire 30, or it may be thus supported in the barrel 2. In this case the scale sheet 3! forms the vane, and. it is pivoted to the supporting bar 32, and a pointer 33 is fixed by one end to the bar by means of the pivot, or by, any other suitable means. The other end of the pointer coacts with the scale 34. Fixed to the sheet 3| is a hollow casing 35 which is so adjusted that, if the mean density of the unbalanced portion of the scale sheet is greater than that of the liquid, the mean density of the casing 35 and its contents will be correspondingly less, so that the mean density of the casing and contents together with that of the unbalanced portion of the scale sheet will be about that of the liquid to be tested.
This dial type of hydrometer can be fabricated" from various classes of materials by suitable processes. Thus, the rotating vane can be made by casting in molds, either with or without a core, compositions of waxes, resins,-gums and similar and allied organic substances blended in proportions to produce a preferred density, and also by stamping or drawing inert sheet metals, as, for example, aluminum, stainless steel, Monel metal, and the like, the preferred mean density being obtained by incorporating a suitable sealed casing in the vane.
With the modification of Fig. 8, when immersed in the liquid, the buoyant casing, carryingwith it the scale, will be forced upwardly by the liquid to a position of equilibrium, and the pointer will indicate by the scale the densityof the liquid. A pin 36, fixed to the scale sheet, will insure rotation of the sheet in the right direction.
It may happen that the rotating member of the hydrometer sticks at times somewhat. This can ordinarily be overcome by shaking the barrel or the hydrometer; but to make the effect more positive, some portion of the vane may be made of magnetic material and the sticking can be overcome by bringing the device close to a magnet. 01', if desired, the magnetic material may be magnetized and the sticking then may be overcome by bringing this magnetized material near any piece of iron or steel. In this case the pin 36 may beof magnetic material, and may be magnetized or not as desired. Or a magnetic substance may be inserted in the casing 35, if desired. Inasmuch as the temperature of the liquid affects its buoyant force, it is at times desirable to increase the density readings of the hydrometer when the temperature of "the liquid is above the normaltemperature in order to correct for the decreased buoyant force. Forthis purpose I provide certain correcting means. The pointer ID in Fig. 1 comprises a coiled bimetal thermostat which is so arranged that it coils more as it heats. As a consequence, when the temperature of the liquid is above normal, and thus the density less, the end of the pointer will rise sufficiently on the scale to correct the reading for the temperature difference.
Also the pointer 31 of Fig. 10 is a thermostat and is arranged to unwind as the temperature rises and thus to elevate the end 38, and the adjustment is such that this action increases the reading of the scale corresponding to the decrease in the buoyant force of the liquid as the temperature rises, so that the reading is suitably corrected for the temperature change.
In this case, as in case of Fig. 8, a set screw 39 for adjustably fixing the pointer to the supporting bar 32 is provided. This screw acts to set the pointer on the pivot which is fixed to the bar. It is not claimed that this device will indicate the density correctly for all temperatures; but by suitably forming and adjusting the pointer it will read correctly for certain temperatures and will materially reduce the error at other temperatures.
It is to be understood that, with each type of vane herein described, the densities, shapes, and volumes of the elements of the vanes, and
the positions of the elements with reference to each other and to the pivot, are adjusted to suit the density of the particular liquid that is to be tested. Increasing the mass of the pointer or its distance from the pivot increases its retarding effect; and increasing the volume of the casing member increases its buoyant eiiect. In the case of Fig. '7 the buoyant effect is varied by varying the length of the buoyant portion of the casing by pinching more or less of it together.
I claim as my invention: 1. A hydrometer comprising a transparen syringe, a universal jointmember, a scale sheet suspended in the syringe by said member, a hollow vane having a pointer fixed to one end and a coiled wire bearing fixed to the other end,
said bearing being pivoted to the scale sheet.
2. A hydrometer as claimed in claim 1, the pointer of which is constructed of thermostatic bi-metal.
3. A hydrometer comprising a transparent syringe, a support, a scale sheet suspended in the syringe by said support and having a. scale thereon, a hollow vane having a pointer one end and a bearing on the other end, the bearing being pivoted to the scale sheet with the pointer coacting with the scale.
CHARLES E. LINEBARGER.
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2601128A (en) * 1950-01-11 1952-06-17 American Optical Corp Refractometer with temperature compensating means
US2619003A (en) * 1949-12-03 1952-11-25 American Optical Corp Temperature compensating means for refractometers and the like
US2751928A (en) * 1952-02-25 1956-06-26 James A Rook Liquid level control reservoir
US2892348A (en) * 1955-08-03 1959-06-30 Jr Regner A Ekstrom Flowmeter for fluids
US4037481A (en) * 1974-05-21 1977-07-26 Helmut Naumann Device for measuring the density of liquids
US4136551A (en) * 1976-05-20 1979-01-30 Klaus Lunstroth Densimeter
US4236405A (en) * 1979-01-02 1980-12-02 Klaus Lunstroth Pendulum densimeter

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2619003A (en) * 1949-12-03 1952-11-25 American Optical Corp Temperature compensating means for refractometers and the like
US2601128A (en) * 1950-01-11 1952-06-17 American Optical Corp Refractometer with temperature compensating means
US2751928A (en) * 1952-02-25 1956-06-26 James A Rook Liquid level control reservoir
US2892348A (en) * 1955-08-03 1959-06-30 Jr Regner A Ekstrom Flowmeter for fluids
US4037481A (en) * 1974-05-21 1977-07-26 Helmut Naumann Device for measuring the density of liquids
US4136551A (en) * 1976-05-20 1979-01-30 Klaus Lunstroth Densimeter
US4236405A (en) * 1979-01-02 1980-12-02 Klaus Lunstroth Pendulum densimeter

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