US780225A - Measuring apparatus for spherical trigonometry. - Google Patents

Measuring apparatus for spherical trigonometry. Download PDF

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US780225A
US780225A US20347904A US1904203479A US780225A US 780225 A US780225 A US 780225A US 20347904 A US20347904 A US 20347904A US 1904203479 A US1904203479 A US 1904203479A US 780225 A US780225 A US 780225A
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circular
bail
axis
bails
disks
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Gustav Pellehn
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V LE COMTE OURDAN
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01CMEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
    • G01C21/00Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00
    • G01C21/02Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00 by astronomical means

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  • This invention has reference to an apparatus by means of which it is possible to solve all the problems of spherical trigonometry, as well as to effect the different mensurationsrequired for mathematical astronomy and nau- I 5 ties, as far as these can be effected by the aid of the spherical triangle.
  • my new apparatus is a suitable means for initiating people in the essence of the problems referred to.
  • the principle of the new apparatus resides in arranging two graduated staples or bails, representing quadrants of a circle,upon acircular disk, so as to be rotatable on an axis passing vertically through the center of the 2 5 said graduated circular disk, the graduated circular disk being also rotatable on the same axis, while the said bails may be secured in position after adjustment.
  • a semicircular bail or staple which is rotatable 3 on two studs and may be secured in any suitable adjusted position by suitable means and the axis of rotation of which is situated in a plane which intersects the diameter of the horizontal rotatable circular disk.
  • Figure 1 represents the complete apparatus in perspec- 4 tive view.
  • Figs. 2, 3, and 4 are details and aecessories of the new apparatus, and
  • Fig. 5 is a diagrammatic representation of the arrangement of the apparatus.
  • a vertical axis P is rigidly secured by a screw-tln'eaded section or in any other suit- 5 able manner.
  • a disk A At the bottom part of the said axis P a disk A, the edge of which is provided with suitable recesses and on which there is a circular graduation, is arranged.
  • This disk may be retained in any suitable position by means of a clamp J
  • the two graduated sector-disks L and L, which are rotatable on the axis P, are provided with graduated Vernierscales V and V, sliding on the rim of the horizontal circular disk A.
  • These circular sectors, quadrants, or circular strips or bails L L, which are rotatable on the axis P, may be adjusted at any desired angle in relation to each other along the circular disk A and may be accurately secured in the adjusted position by 6 5 means of the clamps J J, arranged on the rim of the horizontal circular disk A and, if desired, also by the aid of micrometer-screws.
  • M and M are graduated indicating-0121mm or verniers, which are displaceable and which 7 may be secured after adjustment along the rim of the circular sectors L and L, respectively.
  • K is a half-spherical]y-vaulted segment or calotte, with compass graduation, which can be secured in position both onthe rim of the circular sector L, as well as upon the circular sector L and on the Vernier-scales M and M respectively, the vaulting of the said spherical segment being exactly corresponding to the circular curvature of the cir- 8O cular sectors.
  • the meridian of the compass of this semicalotte is in the plane of the meridian which is placed in the zero-point of the graduation of the verniers V and V, respectively.
  • S is a semicircle which is ro 5 tatably secured to suitable projections of the base-plate B by means of studs X Y.
  • the center lines of the pivotal studs X Y are so arranged that if extended their extensions would intersect in the center of the vertical o axis P, and they are situated in a plane which passes vertically to axis P through the zeropoints of the graduations of the quadrants L and L.
  • the inner edge of the rotatable semicircular bail S is shaped so that it will make contact in any position of the bail S with the verniers M and M on the bails L and L and with the surface of the calotte or spherical segment K and so that the said inner edge will show such a sharply-brought-out line on the said compass to read off or set to any angle between Zero and one hundred and eighty degrees with great exactness.
  • the semicircu-- lar bail or curved strip S may be secured in any position between zero and ninety degrees by means of a curved rod R, which is guided partly along the semicircular bail S itself and within a clamp O and, on the other hand, on the base or bed plate B within a clamp Q.
  • Fig. 2 is an illustration of an indicating-clamp which can be mounted upon the semicircular bail S for the purpose of marking former positions of the zero-points of the verniers M and M.
  • Fig. 3 shows a clamp which is in certain cases to be mounted on the quadrant L or L, as the case may be, in order to indicate the Zero-point of the division.
  • Fig. 4 is an illustration of a measuring pair of compasses for transferring a given measure of are from the graduation on L or L on to the semicircular bail S, or inversely to measure a given are taken from the bail S.
  • the clamp shown in Fig. 3 is used to give zero of the aforesaid graduation in the same spherical surface as inner edge of bail S.
  • the said clamp can also be dispensed with in case the semicircular bail S is provided with circular graduation.
  • FIG. 5 For the purpose of explaining the different modes of application of the new apparatus the diagram shown in Fig. 5 may be consulted, in which A represents the rotatable equatordisk, the rim of which is provided with circular graduation. P is the vertical axis of rotation. L and L are the quadrants with circular graduation rotatable on P, and S represents the semicircular bail, which can be turned around the axis X Y and can be locked in the adjusted position.
  • the instrument serves particularly for the purpose of sailing in a great circle in the following manner: Place of departure and place of destination may be called, respectively, f
  • the reading on K indicates the first true course on the orthodrome.
  • the indicating-clamp, Fig. 2 is then fastened at M upon the strip S. Thereupon the micrometerscrews atM and J are actuated until the Way of the ship has changed, according to requirements for the value of one or two degrees or, respectively, for the amount of a quarter (i) point.
  • the reading of the latitude at M, as well as the reading of the longitude atV, gives the geographical position where the second course is to be taken up by the ship.
  • the piece of arc on the strip or bail S between the indicating-pointer and the new location of the ship expressed in minutes at the same time indicates how-many nautical miles are to be sailed on the first course of the ship.
  • f represents the zenith of the location of the ship, with approximate latitude and longitude, while at f the declination of the celestial body in question is used as latitude.
  • the difference between right ascension and sidereal time at ship are used to obtain the setting at V.
  • the real azimuth may be read off directly on K.
  • the piece of the are between f and f on the bail S is the complement of the altitude, so that for night observations the angle of altitude can be obtained to act sextant accordingly beforehand.
  • two bails with circular graduation and constituting circular sector-disks a vertical axis, on which the said bails are rotatable, the said bails being adjustable in relation to each other, a horizontal circular graduated disk mounted on the said axis and vertically arranged in relation to the said circular sector-disks and being rotatable and means to secure the disk in position, a bail constituting a semicircle and rotatable on two studs outside of the abovementioned system, the rotating axis constituting at the same time the diameter of the semicircular bail and intersecting the abovementioned axis in the center and being arranged in the same plane with the two, zero-- points of the circular graduation of the circular sector-disks, substantially as and for the purpose set forth.
  • a semicircular bail ro tatable on two studs outside of the abovementioned system the rotary axis constituting at the same time the diameter of the semicircular bail and intersecting the above-mentioned axis in the center and being arranged in the same plane with the two zero-points of the circular graduation of the circular sectordisks, the upper edge of the semicircular bail being situated in a plane which is intersected by the diameter, the bail being adjustable in any desired position between zero and ninety degrees, two clamping-pieces displaeeably arranged upon the circular seetor-disks, the said clamping-pieces being provided with vernierscales and clamping means, the said semicircular bail having its inner edge slidingly arranged in relation to the said clamping-pieces, substantially as and for the purpose set forth.
  • the inner edge of the said semicircular bail having a sliding movement on the said clamping-pieces, a half-globular calotte or spherical segment with circular graduation and compass-card division, capable of attachment to the clamping-pieces upon the said circular sector-disks, a base-plate, upon which the said vertical axis is fastened, substantially as and for the purpose described.

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  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Radar, Positioning & Navigation (AREA)
  • Remote Sensing (AREA)
  • Astronomy & Astrophysics (AREA)
  • Automation & Control Theory (AREA)
  • General Physics & Mathematics (AREA)
  • Pivots And Pivotal Connections (AREA)

Description

No, 780,225. PATENTED JAN. 17, 1905.
A G. PELLEHN.
MEASURING APPARATUS FOR SPHERIGAL TRIGONOMETRY.
APPLICATION FILED APR. 16, 1904.
iluiTnu STATES Patented. January 17, 1905.
PATENT OFFICE.
GUSTAV PELLEHN, OF UHARLOTTENBURG, NEAR BERLIN, GERMANY, AS-
SIGNOR TO V. LE GOMTE "OURDAN, OF l/VASI-IINGTON, DISTRICT OF COLUMBIA.
MEASURING APPARATUS FUF-l SPHERICAL TRIGONOMETRY.
SPECIFICATION forming part of Letters Patent No. 780,225, dated January 17, 1905.
Application filed April 16, 1904. Serial No. 203,479.
To all whom it may concern:
Be it known that I, GUs'rAv PELLm-IN, map designer, a subject of the German Emperor, residing at 29 Scharrenstrasse, in the city of Charlottenburg, near Berlin, Kingdom of Prussia, and German Empire, have invented a certain new and useful lVIeasuring Apparatus for Spherical Trigonometry, of which the following is a specification.
This invention has reference to an apparatus by means of which it is possible to solve all the problems of spherical trigonometry, as well as to effect the different mensurationsrequired for mathematical astronomy and nau- I 5 ties, as far as these can be effected by the aid of the spherical triangle. Besides, my new apparatus is a suitable means for initiating people in the essence of the problems referred to.
The principle of the new apparatus resides in arranging two graduated staples or bails, representing quadrants of a circle,upon acircular disk, so as to be rotatable on an axis passing vertically through the center of the 2 5 said graduated circular disk, the graduated circular disk being also rotatable on the same axis, while the said bails may be secured in position after adjustment. I also arrange a semicircular bail or staple, which is rotatable 3 on two studs and may be secured in any suitable adjusted position by suitable means and the axis of rotation of which is situated in a plane which intersects the diameter of the horizontal rotatable circular disk.
The construction and the purpose accomplished by the novel apparatus will he hereinafter described and illustrated in detail.
On the accompanying drawings, Figure 1 represents the complete apparatus in perspec- 4 tive view. Figs. 2, 3, and 4 are details and aecessories of the new apparatus, and Fig. 5 is a diagrammatic representation of the arrangement of the apparatus.
Referring particularly to Fig. 1, Bis the base or bed plate, upon which the entire apparatus is to be supported and which is fastened to a table or to a bracket secured in the Wall or otherwise. In the saidv base or bed plate a vertical axis P is rigidly secured by a screw-tln'eaded section or in any other suit- 5 able manner. At the bottom part of the said axis P a disk A, the edge of which is provided with suitable recesses and on which there is a circular graduation, is arranged. This disk may be retained in any suitable position by means of a clamp J The two graduated sector-disks L and L, which are rotatable on the axis P, are provided with graduated Vernierscales V and V, sliding on the rim of the horizontal circular disk A. These circular sectors, quadrants, or circular strips or bails L L, which are rotatable on the axis P, may be adjusted at any desired angle in relation to each other along the circular disk A and may be accurately secured in the adjusted position by 6 5 means of the clamps J J, arranged on the rim of the horizontal circular disk A and, if desired, also by the aid of micrometer-screws.
M and M are graduated indicating-0121mm or verniers, which are displaceable and which 7 may be secured after adjustment along the rim of the circular sectors L and L, respectively. K is a half-spherical]y-vaulted segment or calotte, with compass graduation, which can be secured in position both onthe rim of the circular sector L, as well as upon the circular sector L and on the Vernier-scales M and M respectively, the vaulting of the said spherical segment being exactly corresponding to the circular curvature of the cir- 8O cular sectors. The meridian of the compass of this semicalotte is in the plane of the meridian which is placed in the zero-point of the graduation of the verniers V and V, respectively. S is a semicircle which is ro 5 tatably secured to suitable projections of the base-plate B by means of studs X Y. I The center lines of the pivotal studs X Y are so arranged that if extended their extensions would intersect in the center of the vertical o axis P, and they are situated in a plane which passes vertically to axis P through the zeropoints of the graduations of the quadrants L and L. The inner edge of the rotatable semicircular bail S is shaped so that it will make contact in any position of the bail S with the verniers M and M on the bails L and L and with the surface of the calotte or spherical segment K and so that the said inner edge will show such a sharply-brought-out line on the said compass to read off or set to any angle between Zero and one hundred and eighty degrees with great exactness. The semicircu-- lar bail or curved strip S may be secured in any position between zero and ninety degrees by means of a curved rod R, which is guided partly along the semicircular bail S itself and within a clamp O and, on the other hand, on the base or bed plate B within a clamp Q. The fixed end of said rod R may be in either one of these clamps. Instead of the said curved rod R, I may also use any other suitable clamping device. Fig. 2 is an illustration of an indicating-clamp which can be mounted upon the semicircular bail S for the purpose of marking former positions of the zero-points of the verniers M and M. Fig. 3 shows a clamp which is in certain cases to be mounted on the quadrant L or L, as the case may be, in order to indicate the Zero-point of the division. Fig. 4: is an illustration of a measuring pair of compasses for transferring a given measure of are from the graduation on L or L on to the semicircular bail S, or inversely to measure a given are taken from the bail S. For these purposes the clamp shown in Fig. 3 is used to give zero of the aforesaid graduation in the same spherical surface as inner edge of bail S. The said clamp, however, can also be dispensed with in case the semicircular bail S is provided with circular graduation.
For the purpose of explaining the different modes of application of the new apparatus the diagram shown in Fig. 5 may be consulted, in which A represents the rotatable equatordisk, the rim of which is provided with circular graduation. P is the vertical axis of rotation. L and L are the quadrants with circular graduation rotatable on P, and S represents the semicircular bail, which can be turned around the axis X Y and can be locked in the adjusted position.
Hereinafter some of the modes of applications of my invention will be described by way of example.
The instrument serves particularly for the purpose of sailing in a great circle in the following manner: Place of departure and place of destination may be called, respectively, f
the plate A and the rod R are secured in position. The reading on K indicates the first true course on the orthodrome. The indicating-clamp, Fig. 2, is then fastened at M upon the strip S. Thereupon the micrometerscrews atM and J are actuated until the Way of the ship has changed, according to requirements for the value of one or two degrees or, respectively, for the amount of a quarter (i) point. The reading of the latitude at M, as well as the reading of the longitude atV, gives the geographical position where the second course is to be taken up by the ship. The piece of arc on the strip or bail S between the indicating-pointer and the new location of the ship expressed in minutes at the same time indicates how-many nautical miles are to be sailed on the first course of the ship.
In the case of latitudes of. different names both latitudes are regarded as of the same name and are laid off; but one hundred and eighty degrees are added to the longitude of the place of destination, and then the procedure is the same as hereinbefore described until the semicircular bail S is adjusted. Then the meridian of the place of destination is swung away, and the way of the ship is then followed up along the great circle down to the equator, and thence the same way is followed up back to the place of destination.
For astronomical problems, f represents the zenith of the location of the ship, with approximate latitude and longitude, while at f the declination of the celestial body in question is used as latitude. The difference between right ascension and sidereal time at ship are used to obtain the setting at V. Thus in this case the real azimuth may be read off directly on K. Then the piece of the are between f and f on the bail S is the complement of the altitude, so that for night observations the angle of altitude can be obtained to act sextant accordingly beforehand.
WVith some practice and care in the adjusting operation the chronometrical longitude can quickly be obtained in a similar manner with sufficient accuracy for practical purposes. If after some days of bad weather a single star becomes visible occasionally, which disappears again after its altitude and its bearing by compass have scarcely been ascertained, the time being noted as well, then the name, or, which means the same, the astronomical dates of the star, are wanted to be used in getting the longitude. Fromthedescriptionhereinbefore given it follows that in this case also the instrument allows of obtaining the required data directly in afew minutes and with such accuracy that by their aid the exact data of the star can be found in the nautical almanac. The instrument while thus solving in a rapid and easy manner all the problems pertaining thereto may also be employed on all occasions where computations of this kind have to be effected from any reasons whateversuch as in schools, for instance, or where the problems to be treated are very complicatedwhere by aid of this instrument a clear illustration may readily be obtained.
What I claim, and desire to secure by Letters Patent of the United States, is
1. In an apparatus to aid in effecting navigation by spherical trigonometry, two bails with circular graduations and constituting circular sector-disks, a vertical axis on which the said bails are rotatable, the said bails being adjustable in relation to each other, ahorizontal circular graduated disk mounted on the said axis and perpendicularly arranged in relation to the said circular sector-disks and being rotatable, and means to secure the disks in position, a bail constituting a semicircle and rotatable on two studs outside of the above-mentioned systems, the rotating axis constituting at the same time the diameter of the semicircular bail and intersecting the above-mentioned vertical axis in the center and being arranged in the same plane with the two zero-points of the circular graduation of the circular sector-disks, substantially as and for the purpose set forth.
2. In an apparatus for effecting mensura tions by spherical trigonometry, two bails with circular graduation and constituting circular sector-disks, a vertical axis, on which the said bails are rotatable, the said bails being adjustable in relation to each other, a horizontal circular graduated disk mounted on the said axis and vertically arranged in relation to the said circular sector-disks and being rotatable and means to secure the disk in position, a bail constituting a semicircle and rotatable on two studs outside of the abovementioned system, the rotating axis constituting at the same time the diameter of the semicircular bail and intersecting the abovementioned axis in the center and being arranged in the same plane with the two, zero-- points of the circular graduation of the circular sector-disks, substantially as and for the purpose set forth.
3. In an apparatus for effecting mensurations by spherical trigonometry, two bails with circular graduation and constituting circular sector-disks, a vertical axis, on which the said bails are rotatable, the bails'being adj ustable in relation to each other, a horizontal circular graduated disk rotatably mounted on the said axis and vertically arranged in relation to the said circular sector-disks and means to secure the disk in position, a bail constitutinga semicircle and rotatable on two studs outside of the above-mentioned system, the rotating axis constituting at the same time the diameter of the semicircular bail and intersecting the abovementioned axis in the center and being arranged in the sameplane with the two zero-points of the circular graduation of the circular sector-disks, the upper edge of the semicircular bail being situated in a plane which is intersected by the diameter, the bail being adjustable in any desired position between zero and ninety degrees, substantially and for the purpose set forth.
41:. In an apparatus for effecting mensurations by spherical trigonometry,two bails with circular graduation and constituting circular sector-disks, a vertical axis, on which the said bails are rotatable, the bails being adjustable in relation to each other,a horizontal circular graduated disk rotatably mounted on the said axis and vertically arranged in relation to the said circular sector-disks and. means to secure the disk in position, a semicircular bail ro tatable on two studs outside of the abovementioned system, the rotary axis constituting at the same time the diameter of the semicircular bail and intersecting the above-mentioned axis in the center and being arranged in the same plane with the two zero-points of the circular graduation of the circular sectordisks, the upper edge of the semicircular bail being situated in a plane which is intersected by the diameter, the bail being adjustable in any desired position between zero and ninety degrees, two clamping-pieces displaeeably arranged upon the circular seetor-disks, the said clamping-pieces being provided with vernierscales and clamping means, the said semicircular bail having its inner edge slidingly arranged in relation to the said clamping-pieces, substantially as and for the purpose set forth.
5. In an apparatus for ei'l'ecting mensurations by spherical trigonometry,two bails with circular graduation and constituting circular sector-disks, a vertical axis on which the said bails are rotatable, the bails being adjustable in relation to each other, a horizontal circular graduated disk, rotatably mounted on the said axis and vertically arranged in relation to the said circular sector-disks and means to secure the disk in position, a semicircular bail, rotatable on two studs outside of the abovementioned system,the rotary axis constituting at the same time the diameter of the semicircular bail and intersecting the above-mentioned axis in the center and being arranged in the same plane with the two zero-points of the circular graduation of the circular sectordisks, the upper edge of the semicircular bail being situated in a plane which is intersected by the diameter, the bail being adjustable in any desired position between zero and ninety degrees, two clamping-pieces displaeeably ar' ranged upon the circular sector-disks, the said clamping-pieces being provided with vernierscales and clamping means, the said semicircular bail having its inner edge slidingly arranged in relation to the said cla1m ing-pieces, a semiglobular calotte or spherical segment with circular graduation and compass-card division, capable of attachment at the said clamping-pieces at a level with the same and upon the circular sector-disks, substantially as and for the purpose set forth.
6. In an apparatus for eli'ecting mensurations by spherical trigonometry, two bails with circular graduation and constituting circular sector-disks, a vertical axis, on which the said bails are rotatable, the bails being adjustable in relation to each other, a horizontal circular graduated disk rotatably mounted on the said axis and vertically arranged in relation to the said circular sector-disks and means to secure the disk in position, a semicircular bail, rotatable on two studs outside of the above-mentioned system, the rotating axis constituting at the same time the diameter of the semicircular bail and intersecting the above-mentioned axis in the center and being arranged in the same plane'with the twozero-points of the circular graduation of the circular sectordisks, the upper edge of the semicircular bail being situated in a plane which is intersected by the diameter, the bail being adjustable in any desired position between zero and ninety degrees, an arc-shaped curved rod on the said semicircular bail and displaceable along the same and along a rigid clamp and means to secure the said rod in position, substantially as and for the purpose described.
7. In an apparatus for effecting mensurations by spherical trigonometry, two bails with circular graduation and constituting circular sector-disks, a vertical axis, on which the said bails are rotatable, the bails being adjustable in relation to each other, a horizontal circular graduated disk rotatably mounted on the said axis and vertically arranged in relation to the said circular disks and means to secure the disk in position, a semicircular bail, rotatable on two studs outside of the above-mentioned system, the rotary axis constituting at the same time the diameter of the semicircular bail and intersecting the above-mentioned axis in the center and being arranged in the same plane with the two zero-points of the circular graduation of the circular sector-disks, the upper edge of the semicircular bail being situated in a plane which is intersected by the diameter, the bail being adjustable in any desired position from zero to ninety degrees, a separate, rigidly-secured bail with clamping device for securing the said semicircular bail in any desired position, substantially as and for the purpose set forth.
8. In an apparatus for effecting mensurations by spherical trigonometry, two bails with circular graduation and constituting circular sector-disks, a vertical axis, on which the said bails are rotatable, the bails being adjustable in relation to each other, a horizontal circular graduated disk rotatably mounted on the said axis and vertically arranged in relation to the said circular sector-disks and means to secure the disk in position, a semicircular bail, rotatable on two studs outside of the above-mentioned system, the rotating axis constituting at the same time the diameter of the semicircular bail and intersecting the above-mentioned axis in the center and being arranged in the same plane with the two zero-points of the circular graduation of the circular sectordisks, the upper edge of the semicircular bail being situated in a plane which is intersected by the diameter, the bail being adjustable in any desired position from zero to ninety degrees, means for securing the said semicircular bail in any desired position. one clampingpiece each for the circular sector-disks and displaceable and capable of attachment to the same, the inner edge of the said semicircular bail having a sliding movement on the said clamping-pieces, a half-globular calotte or spherical segment with circular graduation and compass-card division, capable of attachment to the clamping-pieces upon the said circular sector-disks, a base-plate, upon which the said vertical axis is fastened, substantially as and for the purpose described.
The foregoing specification signed at Berlin, Germany, this 28th day of March, 1904.
GUSTAV PELLEHN.
In presence of V. LE CoMTE OURDAN, OSKAR ARENDT.
US20347904A 1904-04-16 1904-04-16 Measuring apparatus for spherical trigonometry. Expired - Lifetime US780225A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2519532A (en) * 1949-06-16 1950-08-22 Louis J Zerbee Fix finder
US2671270A (en) * 1947-04-19 1954-03-09 Richardson Ewell Navigational instrument
US2736093A (en) * 1956-02-28 Fix finder
US2930133A (en) * 1957-07-08 1960-03-29 Thompson Joseph Clay Apparatus to aid in determining abnormal positions of spinal vertebrae

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2736093A (en) * 1956-02-28 Fix finder
US2671270A (en) * 1947-04-19 1954-03-09 Richardson Ewell Navigational instrument
US2519532A (en) * 1949-06-16 1950-08-22 Louis J Zerbee Fix finder
US2930133A (en) * 1957-07-08 1960-03-29 Thompson Joseph Clay Apparatus to aid in determining abnormal positions of spinal vertebrae

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