US1604672A - Viscosimeter - Google Patents

Description

W. J. ALBERSHEIM ET Al.

` Oct. 26 ,71926.

VIS COSIMETER Filed Dec. 23, 1925 flll`llllllllllllllllll,

Patented Oct. 26, 1926.

NITED STATES TENT FFICE.

,WALTER J. ALBERSHEIM AND HARVEY S. KONHEIM, F NEW YORK, N. Y.

VISCOSIMETER.

Application led December 23, 1925. Serial No. 77,284.

This invention relates more particularly to a class of testing apparatus.

Our invention has. for its object primarily .Y to provide an apparatus designed to be employed on motor vehicles and elsewhere for testing thel viscosity especially of lubricating oils to determine their merits in a manner whereby the testing process may be observed during the delivery of the oils for use, though the apparatus may also be employed for determining the viscosity of other fluids as occasion requires, and which is of a form adapted to so control the flow of the fluid that its lviscous value may be effectually tested `throughout all stages of its delivery.

The invention consists essentially of means providing a passage for conveying under pressure an oil or` other fluid of undetermined viscosity. The passage has a portion of restricted area whereby the fluid or oil will flow therethrough with relatively less resistance when their `viscous or lubricating components are at or less than a normal standard of viscosity or lubricating value and for causing the flow of the fluid or oil lto be retarded by resistance when their viscous or lubricating components exceed the A further object' ofthe invention is to provide a viscosimeter of a. simple, eliicient and dura-ble construction which may be made of suitable material in any appropriate size and shape.

lVith these and other objects in view the invention will. be hereinafter more fully described with reference tothe accompanying drawin forming4 a part of this specification in whic similar characters of reference indicate corresponding .parts in all the views, and will then -be pointed out in the claims at the end of the description.

In the drawing, Figure 1 is a fragmentary view showing part of a support with one form'of .our viscosimeter applied thereto. Fig' 2 isv an enlarged fragmentary sectional view, partly in elevation and partly broken away, taken longitudinally through the apparatus, and,

Fig. 3 is an enlarged sectional view, part- Iy fragmentary and partly in elevation, taken on theline 3 3 of Fig. 1.

The apparatus has apipe 10 which serves as means to provide apassage 11 of sufficient length and diameter for conveying a lubricating oil or other fluid whose viscosity is required to be tested. Thepipe 10 has its inlet 12leading from a tank, as 13, or other supply container arranged for causing the fluid by gravitation to flow through .the pipe at a desired speed, or the fluid may may be discharged for use through an output pipe, as 16. Interposed in thepipe 10 is atube 17 having a passage of less diameter than the diameter of thepassage 11 ofthe pipe to pro-- vide a restricted area, as 18, which serves as means to retard the flow of fluid through theconveying passage 11 when its viscous components exceed a normal standard of viscosity value, but when the viscous components of the fluid is at or less than anormal standard of viscosity the restrictedarea is such that the fluid will flow more or less freely through thetube 17 according to its proportionate viscosity.

In order to cause the fluid to flow in theconveying passage 11 toward the restrictedarea 18 at a uniform speed irrespective of the pressure under which the fluid is delivered at theinlet 12, we provide controlling means, as 19. This controlling means may be of any suitable form, though the means illustrated includes 'acasing 20 having an approximatelycylindrical side wall 21, and end plates, as 22, 23. The interior of the caslng is divided into twochambers 24, by a circular partition, as 26, which extends between parts of the side wall 2l'in proximity to theend plate 23. In the central parts of thepartition 26 and the central part of theend wall 23 are alinedbearings 27, 28, res ectively. The

-casing 2O is interposed in t e pipe 10bechamber 25 of the casing through two open-1ngs 29, 30- which are provided in o posite parts of the upperA portion of thesi e wall 21 of the casing so that the fluid delivered into theinlet 12 of the pipe will flow into thechamber 25, and thence into the pipe for being forced to ow to the restrictedarea 18. In thechamber 25 of the casing is a propeller orpaddle wheel 31 having ahub 32 held on a stud orshort shaft 33 which is journaled in thebearings 27, 28 of theend plate 23 andpartition 26 of thecasing 10, and one end of thestud 33 extends beyond thebearing 27 of thepartition 26 into thechamber 24. Thehub 32 of thepropeller 31 is preferably of a circular shape and of a diameter so that when revolved its outer peripheral edge will move on a plane corresponding to nearly the center of thepassage 11 of thepipe 10. Ex-

tending from spaced parts of the entire outer peripheral edge of the'hub 32arev blades 34 which are of lengths so that their free ends movably contact with the inner face of theside wall 21 of thechamber 25, and each of these blades is curved in `a direction away from theinlet 12 of the pipe for allowing the iuid flowing into thechamber 25 through itsopening 28 to contact the blades successively for driving the propeller from left to right and which in turn will cause the fluid to How from thechamber 25 again into thepipe 10 for being forced to flow toward therestricted area 18 of the pipe. ,On the protruding end of thestud 33 is abevel gear 35 which is in mesh with abevel pinion 36 held at one end of ashaft 37 having its end journaledA in bores provided in opposite parts of theside wall 21 of the casing. Held on the other end of theshaft 37 is agear 38 which meshes with apinion 39 held on anothershaft 40 having its ends also journaled in bores provided in opposite parts of the side wall of the casing. Theshaft 40 carries a governor 41 which may be of any preferred or well known type having the spacedsleeves 42, 43. One of the sleeves is fixed, at 44, on theshaft 40, and the-other sleeve is slidable on the shaft. On opposite parts of these sleeves are fastened, at 45, the ends of twospringstrips 46, 47 having on their central parts -twosuitable weights 48, 49 for regulating as is incident to the operation of such controlling devices the speed of operation of thepropeller 31, as will be later explained. Serving as means to further check the speed of rotation of theshaft 40 and the governor 41 when driven at intervals faster than a given speed, on the sleeve'42 and surrounding theshaft 40 is a. disk, as 50, for being revolved with the rotation of the shaft. On art of the inner face of theside wall 21 of t4e casing 20 is a.lug 51, to this lug -is pivoted, at 52, one end and l of@ lever orbar 53 which is disposed so that its other end terminates above thedisk 50. On the underside of the free end of thepivoted lever 53 is a brake shoe or cushion 54 which may be of leather, metal or rubber for being frictionally engaged by the disk. To the central part of the lever is held, at 55, one end of a spring, as 56, having its other end held at 57 to the part of the side wall of the casing under the lever, and this spring is tensioned for yieldingly holding the lever in a downward position normally in spaced relation to thedisk 50. The controllingmeans 19 is operated for producing a uniform speed of iow of the fluid in thepipe 10 toward the restrictedarea 18 by thepropeller 31 being operated by the fluid flowing from the inlet of thepipe 10 into thechamber 25 of thecasing 20 through theopening 29, as above explained. With the operation of the propeller thestud 33 will be driven. Thebevel gear 35,bevel pinion 36,shaft 37,gear 38 andpinion 39 will then be operated to drive theshaft 40. With the driving of theshaft 40 the governor 41 will operate according to the speed of rotation of the shaft by theweights 48, i

49 moving centrifugally away from theshaft 40 which in turn will cause thespring strips 46, 47 to expansively move yieldingly from the shaft. The\sleeve `42 will also slidably move on theshaft 40 v'toward thesleeve 43 as is usual with the operation of "governors of this class, and thedisk 50 will be likewise moved toward the friction cushion 54. The governor 41 thus operating in the well known fashion will serve to control the speed of operation of theproeller 31 and its operative gearing for causlng the iuid to be delivered from thechamber 25 of thecasing 20, through theopening 30 into thepipe 10 and to cause the fluid to flow at a uniform speed to the restricted area irrespective of the pressure of the Huid,

at its source of su ply and irrespective of the density or ui ity of the iuid. However, should the pressure of the fluid at the source of supply be excessive, the speed of rotation oft e propeller -will still be limited by the governor operating, as explained, for causing the disk 5() to be moved by the slidable movement of thesleeve 42 into frictional engagement with the cushion 54 which 1n turn will by the yielding force of thelever 53 and the tension of thespring 56 check the speed of operation of the governor to such extent that the operative parts of the controllingmeans 19 will operate the propeller at a given speed.

For the purpose of measuring or testing `the viscosity of the uid on thepipe 10 between trolling means 19 is a manometer orpressure registering device 58. The manometer may be of any preferred or well known type,

llO

therestricted area 18 and the conf' such as the form illustrated which has the goose-neck or approximately N-shaped tube 59 to provide its two spaced vertically disposedmembers 60, 61 and the inclined connecting member, as 62. The member of thetube 59 leads from thepassage 11 of thedelivery pipe 10 near the restrictedarea 18,

and the member 61 of the tube leads into of this type. The viscosimeter may be,

mounted on any suitable support for testing the viscosity of fluids, and When employed for testing the viscosity of lubricating oil the device may be mounted on the dash board, as A, of an automobile or other motor vehicle by theend plate 23 of the casin 2O of the controllingmeans 19 being bolte as at 66, or otherwise secured to the dash board in the manner shown in Fig. 1, andso that thescale 64 andpointer 65 of the registeringdevice 58 will be exposed to View.

When oil or fluid is being tested by the apparatus, and should the viscous components of the fluid be less than its normal standard of viscosity value 'the fluidity of the fluid Will be such that it Will freely flow through the restricted area Without perceptible resistance, andwithout causing the air in thepressure tube 59 of themanometer 58 to be perceptibly affected. The pointer of the manometer will then remain in its lowest position, as shown at B, Fig. 2, with relation to the markings of thescale 64. llf the viscous components of the fluid are at or exceed its standard viscosity value a proportionate resistance to its passage through the restrictedarea 18 of the ipe will occur and a portion of the fluid will accordingly flovs7 into themember 60 of thepressure tube 59 of the registeringdevice 58. The air pressure created thereby in thecasing 63 of the registering device will cause thepointer 65 to move for indicating on thescale 64 the units of viscosity of the fluid. Moreover, by employing means to determine the heat of the fluid, especially a lubricating oil, its value or grade may be compared at different temperatures and the lubricating Avalue of various fluids may be compared at the same temperatures.

In the foregoing description, We have embodied the preferred form of our invention, but We donot Wish to limit' ourselves thereto, as We are aware that modifications may be made therein Without departing from the principle or sacrificing an of the advantages of this invention, t erefore, We reserve to ourselves the right to make such 'changes as fairlyv fall within the scope thereof.

Having thus4 described oui-invention, we

claim as nevi7 and desire to secure by Letters Patent 1. In a viscosimeter, in combination, means providing a passage for conveying under pressure a fluid of undetermined viscosity and the passage having a portion of restricted area, means for controlling the speed of flow of the fluid in the passage to- Ward the restricted area, means for checking said controlling means when operated in excess of a given speed, and means in the passage for measuring the pressurev of the fluid according to its rsistance to flow through, the restricted area.

. 2. In a viscosimeter, in combination, means providing a passage for conveying under pressure a fluid of undetermined viscosity, means in the passage for retarding the flow of the fluid when of a viscosity exceedlng a given fluidity, means for control- 'ling the speed, of flow of the fluid in the passage toward said retarding means, means for checking said controlling means When operated in excessof a given speed, and a pressure registering device in the passage for indicating the units of viscosity of the fluid.

3. ln a viscosimeter, in combination, a pipe for conveying under pressure a fluid of undetermined viscosity, a tube interposed in l the pipe and having a passage of less diameter ,than the diameter of the passage of the pipe for retarding the flow rof fluid when of a viscosity exceeding a given fluidity, means for controlling the speed of flow of the fluid in the pipe toward the retarding tube, and means on the pipe for measuring the pressure ofthe fluid'according to its resistance to flow through said retarding tube.

4. In a viscosimeter, in combination, a pipe for conveying under pressure a fluid of undetermined viscosity, a tube interposed in the pi e and having a. passage of less diameter t an the diameter of the passage of the pipe for retarding the flow of fluid when of a viscosity exceeding a given fluidity, means for controlling the speed of flow of the fluid in the pipe toward the retarding tube, and a pressure registering device on the pipe for indicating the units of viscosity of the fluid.

5. vln a viscosimeter, the combination with means providing a passage for conveying under pressure a fluid of undetermined viscosity and the passage having a portion of' restricted area, of-a propeller operative by ico the Huid during its flow toward the restrictled area, and means for regulating the speed of operation of the propeller to regulate the speed of flow of the fluid.

6. lin aviscosimeter, the combination with means providing a passage for conveying under pressure a Huid of undetermined viscosity and the passage having a portion of restncted area, of a propeller operative by the fluid during its ow toward the vrestricted area, means for regulating the speed of operation of the propeller to regulate the speed of flow of the fluid, and means in the passage for measuring the pressure of the fluid according to its resistance to flow through the restricted area.

7. In a viscosinieter, the combination With means providing` a passage for conveying under pressure a fluid of undetermined viscosity and means in the passage for retarding the flow of the fluid when of a viscosity exceeding a given fluidity, of a propeller operative by the fluid during its flow to\v ard the retarding means, means for regulating the speed of' operation of the propeller to regulate the speed of flow of the fluid, and means for checking said propeller when operated in excess of a given speed.

8. In a viscosimeter, the combination with means providing a passage four` conveying under pressure a fluid of undetermined viscosity and means in the passage for retarding the flow of the fluid when of a viscosity exceeding a given fluidity, of a propeller operative by the fluid during its flow7 to-v ward the retarding means, means for regulating the speed ofvoperation of the propeller to regulate the speed of flow of the fluid, means for checking said propeller when operated in excess of a given speed, and a pressure registering device in the passage for indicating the lunits ofgviscosity of the fluid.

9. In a viscosinieter, the combination With means roviding a passage for conveying un er pressure a fluid of undetermined viscosity and means in the passage for retarding the flow of the fluid when of a viscosity exceeding a given fluidity, of a propeller operative by the fluid during its flow toward the retarding means, gearing operatiwge by the propeller, and means for regulating the speed of operation of the gearing and propeller to regulate the speed of flow of the fluid.

10. In a viscosimeter, the combination with means providing a passage for conveying under pressure a fluid of undetermined viscosity and means in the passage for retarding the flow of the fluid when of a viscosity exceeding a given fluidity, of a propeller' 4operative by V.the fluid during its flow to- .Ward the retarding means, gearing operative by the propeller, means for regulating the speed of operation of the gearing and propeller to regulate the speed of flow of the fluid, and means for checking said gearing and propeller when operated in excess of a given speed.

11. In a viscosimeter, the combination with means providing a passage for conveying under pressure a fluid of undetermined viscosity and means in the passage for retarding the flow of the fluid When of a viscosity exceeding a given fluidity, of a propeller operative by the fluid during its flow toward the retarding means, gearing operative by the propeller, means for regulating the speed of operation of the gearing and propeller to regulate the speed of flow of the fluid, means for checking said gearing and propeller when operated in excess of a given speed, and a pressure registering device in the passage for indicating the units of viscosity of the fluid.

l2. In a viscosimeter, the combination With a pipe for conveying under pressure afluid of' undetermined'viscosity, a tube interposed in the pipe and having a passage of less diameter than the diameter of the passage of the pipe for retarding the flow of the-fluid When of a viscosity exceedinga given fluidity, of a propeller for controlling the speed of flow of the fluid in the pipe toward the retarding tube, gearing operative by the propeller, means for regulating the speed of operation of the gearing and propeller to regulate the speed of flow of the fluid, and means on the pipe for measuring the pressure of the fluid according to its esistance to flow through the retarding 13. In a viscosimeter, the combination with a pipe for conveying under pressure a fluid of undetermined viscosity, a tube interposed in the pipe and having a passage of less diameter than the diameter of the passage of the pipe for retarding the flow of the fluid when of a viscosity exceeding a given fluidity, of a propeller for controlling the speed of flow of the fluid in the pipe toward the retarding tube, gearing operative by the propeller, means for regulating the speed of operation of the gearing and propeller to regulate the speed of flow of the fluid, means for checking the gearing and propeller When operated in excess of a given speed, and a pressure registering device on the pipe for indicating the units of viscosity of' the fluid.

This specification signed and witnessed this 22nd day of December, A. D. 1925.

WALTER J. ALBERSHEIM. HARVEY S, K ONHEIM.

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