US2070675A - Triangle-protractor - Google Patents
Triangle-protractor Download PDFInfo
- Publication number
- US2070675A US2070675A US18307A US1830735A US2070675A US 2070675 A US2070675 A US 2070675A US 18307 A US18307 A US 18307A US 1830735 A US1830735 A US 1830735A US 2070675 A US2070675 A US 2070675A
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- US
- United States
- Prior art keywords
- triangle
- protractor
- gear
- hand
- dial
- 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
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01C—MEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
- G01C1/00—Measuring angles
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01C—MEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
- G01C21/00—Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00
- G01C21/20—Instruments for performing navigational calculations
Definitions
- My invention relates to improvements pertaining to drafting, surveying and engineering instruments and known as triangle-protractors and the main object is to provide a device the use of which enables any one to locate and draw angular lines according to exact calculations.
- This device used as hereinafter set forth, locates angular lines exactly and not approximately as hitherto done.
- the beam of this device can be set to any specified angle, or part thereof, within the scope of the protractor limits, down to exact calculated minute, or second, or vice-versa to determine the exact angle of a given line.
- Fig. 1 is a face view of a 90 degree triangleprotractor embodying my improved means.
- Fig. 2 is an enlargedcentral, sectional view as on line 2-2 in Fig. 1.
- 3 designates a so-called 90 degree or isosceles triangle provided with an approximately semi-circular opening l bisected by the line 5 which line also bisects the apex of the triangle.
- the arcuate edge of said opening may have any suitable number of graduations 8, not necessarily all the degrees, such graduations shown 90 degrees each side of line 5 or 180 degrees all told.
- the lower edge of the aperture 4 is below the center, there being a central projection 3A in which is pivotally retained a beam 6.
- Said beam, throughout its main length is of flat material, lying preferably close to or in light contact with the surface on which the triangle rests and said part of the beam is provided with a slot BS.
- the free end of the beam comprises preferably an arrow-like head contacting the upper face of the triangle and carries a set-screw 1 tohold the beam at any point.
- the pivot end of the beam may comprise a gear 6G retained on the pin 8 which is the center of the protractor.
- this triangle is laminated, comprising like upper and lower plates 3A-3B and an intermediate plate 30 similarly shaped but having a gap, as between the dotted lines 9-9 in Fig. 1, below fulcrum 8 and to the lower and longer edge of the triangle thus providing housing means for certain gears and manipulating means which will now be described.
- the beam 6 is preferably formed with an integral outwardly directed tongue 6T slidably guided'in a groove formed between 3A-3B for steadying its movement and counteracting pressure of the set screw '1.
- I provide a number of dials on the upper face of the triangle, preferably a degree indicating dial 58A, a minute indicating dial IGB and a second indi cating dial IOC, each with a hand as NBA, Hi3 and MC in the respective order.
- the beam gear 6G is operatively connected by a train of gears with the various dials, the hands of the latter rotating each with a concealed gear in pocket 9, it being understood that all the required gears are fixed on vertical shafts traversing the pocket 9 and journaled in both the bottom and top layers 3A3B.
- the dial 10A is a complete circle divided into [811, its hand IQA' initially set on the 90 mark when the beam 6 points to and registers 90 on the pro-- tractor. Simultaneously the hand ltB' sets at the 60 mark on the minute dial and second hand IllC' is on the 60 mark of dial MC.
- the beam gear 5G meshes with a gear I l on a common pivot HP of hand 10A. carries another gear i2 meshing with an idler gear 33 which in ttn'n meshes with a pinion l t fixed on the shaft [5 which carries the minute hand NB.
- the proportions of gears, pinions must be such that the second hand IQB rotates exactly 60 times for each degree of movement of the degree hand NA and the corresponding idler gear l8 and pinion ll on shaft it of second hand lElC' proportioned to turn the latter hand 60 times for each degree of movement of the second hand IOB.
- I9 is a manipulating button fixed on a vertical shaft 20 carrying a gear 2! meshing preferably with gear I2.
- Manipulation of this button provides for locating the beam 6 at any desired angle and exactly to any calculated or desired degree, minute and second.
- the beam is set exactly on 60 degrees but by manipulation of button l9 the beam may be moved to any minute or second between 60 and 5a or 60 and BI.
- the beam may be set at l and a correct line drawn with a pencil point or other marker in the slot 63.
- 22 is a beam manipulating button fixed on the pin 8.
- the dials and their respective hands are preferably covered by any suitable transparent material separately or collectively.
- a triangle-protractor comprising a triangular flat member, an approximately semi-circular aperture therein and a line at right angles to one side of said member bisecting the aperture, a beam pivotally mounted concentric of said aperture andits fulcrum comprising in part a gear, said triangle being laminated and comprising a pair of identical members and anintermediate member connecting the said pair, an aperture provided in the intermediate member and comprising a gear housing, gears mounted in said housing and dials on certain of the shafts of said gears and concentric of'said dials one over each dial, said gears in mesh and proportioned to position said hands to indicate on the dials the exact position of the beam in degrees, minutes and seconds.
- a manipulatingdevice for operating said dial means and the beam comprising an upright shaft, a rotatable manipulator button or the like, a gear on said shaft in operative mesh with the dial gears; said button positioned over and in proximity to the upper face of the triangle.
- an angle-reading and locating device comprising a flat triangular frame of isosceles form with its longer edge comprising the base and having a vertical line bisecting the apex, a beam fulcrumed on said latter line, said frame provided with an aperture having an'arcuate edge concentric of said fulcrum and extending below said fulcrum for clearance of said beam, and said beam provided with an elongated straight slot extending radially from the fulcrum, said frame comprising a pair of spaced identical members and said fulcrum part comprising a primary gear,
- one dial to indicate the angular position of the beam in degrees
- another hand to indicate said position in minutes
- a third hand to indicate the said position in seconds.
- a triangle-protractor comprising a fiat member, an approximately semi-circular aperture therein and a line at right angles to one side of said member bisecting the aperture, a beam slot ted part of said beam offset downwardly to ,lie in V a flat plane close to the surface on which the protractor is laid, the outerend of said beam comprising a pointed indicator head adapted to ride freely on the surface of the protractor adjacent the arcuate edge of the aperture, protractor degree markings on said part of the frame reading similarly from both sides of the vertical line and over which said point is movable, and means to hold said head in any desired position.
Description
Feb. 16, 1937. J, c E R 2,070,675
TRIANGLE PROTRACTOR Filed April 26, 1935 I fzvvzwrow:
My invention relates to improvements pertaining to drafting, surveying and engineering instruments and known as triangle-protractors and the main object is to provide a device the use of which enables any one to locate and draw angular lines according to exact calculations. This device, used as hereinafter set forth, locates angular lines exactly and not approximately as hitherto done. The beam of this device can be set to any specified angle, or part thereof, within the scope of the protractor limits, down to exact calculated minute, or second, or vice-versa to determine the exact angle of a given line.
The construction and operation of my improved triangle-protractor are herein fully set forth, reference being had to the accompanying drawing, in which,
Fig. 1 is a face view of a 90 degree triangleprotractor embodying my improved means. Fig. 2 is an enlargedcentral, sectional view as on line 2-2 in Fig. 1.
Referring to the drawing by reference numerals, 3 designates a so-called 90 degree or isosceles triangle provided with an approximately semi-circular opening l bisected by the line 5 which line also bisects the apex of the triangle. The arcuate edge of said opening may have any suitable number of graduations 8, not necessarily all the degrees, such graduations shown 90 degrees each side of line 5 or 180 degrees all told. The lower edge of the aperture 4 is below the center, there being a central projection 3A in which is pivotally retained a beam 6. Said beam, throughout its main length is of flat material, lying preferably close to or in light contact with the surface on which the triangle rests and said part of the beam is provided with a slot BS. The free end of the beam comprises preferably an arrow-like head contacting the upper face of the triangle and carries a set-screw 1 tohold the beam at any point.
The pivot end of the beam may comprise a gear 6G retained on the pin 8 which is the center of the protractor.
At this point it must be clearly understood that this triangle is laminated, comprising like upper and lower plates 3A-3B and an intermediate plate 30 similarly shaped but having a gap, as between the dotted lines 9-9 in Fig. 1, below fulcrum 8 and to the lower and longer edge of the triangle thus providing housing means for certain gears and manipulating means which will now be described.
The beam 6 is preferably formed with an integral outwardly directed tongue 6T slidably guided'in a groove formed between 3A-3B for steadying its movement and counteracting pressure of the set screw '1.
In proximity to the protractor center 8, I provide a number of dials on the upper face of the triangle, preferably a degree indicating dial 58A, a minute indicating dial IGB and a second indi cating dial IOC, each with a hand as NBA, Hi3 and MC in the respective order.
The beam gear 6G is operatively connected by a train of gears with the various dials, the hands of the latter rotating each with a concealed gear in pocket 9, it being understood that all the required gears are fixed on vertical shafts traversing the pocket 9 and journaled in both the bottom and top layers 3A3B.
In a preferred embodiment of my device the dial 10A is a complete circle divided into [811, its hand IQA' initially set on the 90 mark when the beam 6 points to and registers 90 on the pro-- tractor. Simultaneously the hand ltB' sets at the 60 mark on the minute dial and second hand IllC' is on the 60 mark of dial MC. The beam gear 5G meshes with a gear I l on a common pivot HP of hand 10A. carries another gear i2 meshing with an idler gear 33 which in ttn'n meshes with a pinion l t fixed on the shaft [5 which carries the minute hand NB.
The proportions of gears, pinions must be such that the second hand IQB rotates exactly 60 times for each degree of movement of the degree hand NA and the corresponding idler gear l8 and pinion ll on shaft it of second hand lElC' proportioned to turn the latter hand 60 times for each degree of movement of the second hand IOB.
I9 is a manipulating button fixed on a vertical shaft 20 carrying a gear 2! meshing preferably with gear I2. Manipulation of this button provides for locating the beam 6 at any desired angle and exactly to any calculated or desired degree, minute and second. For example in Fig. 1 the beam is set exactly on 60 degrees but by manipulation of button l9 the beam may be moved to any minute or second between 60 and 5a or 60 and BI. When adjusted to desired position the beam may be set at l and a correct line drawn with a pencil point or other marker in the slot 63. 22 is a beam manipulating button fixed on the pin 8.
It will now be readily understood that the lower edge of aperture 4 is below the pin 8 for the purpose of allowing the beam 6 tomove freely the full 180 degrees indicated on the protractor. It
Said pivot HP will also be clearly understood that this device is applicable to other types of triangles, squares and straight-edge devices it being necessary to have a straight base line as the bottom edge of the triangle in Fig. 1 and the vertical, transverse line 5. The same principle of protracting degrees, minutes and seconds will apply to surveyors, engineers, architects and possibly other instruments, for vertical, horizontal and any angular readin or calculation. In other words my device is serviceable in both field and drafting use. Therefore, it is not confined to a fixed position or carriage butapplicable to a rotating axis.
The use of my device has been clearly disclosed in the foregoing description. Modifications, within the scope of the following claims, may be made I Without departing from the scope and spirit of the invention.
In Fig. 1 the pitch lines only of the various gears are indicated by dotted lines.
' The dials and their respective hands are preferably covered by any suitable transparent material separately or collectively.
I claim: r 1. A triangle-protractor comprising a triangular flat member, an approximately semi-circular aperture therein and a line at right angles to one side of said member bisecting the aperture, a beam pivotally mounted concentric of said aperture andits fulcrum comprising in part a gear, said triangle being laminated and comprising a pair of identical members and anintermediate member connecting the said pair, an aperture provided in the intermediate member and comprising a gear housing, gears mounted in said housing and dials on certain of the shafts of said gears and concentric of'said dials one over each dial, said gears in mesh and proportioned to position said hands to indicate on the dials the exact position of the beam in degrees, minutes and seconds.
2. The structure specified in claim 1, and a manipulatingdevice for operating said dial means and the beam, comprising an upright shaft, a rotatable manipulator button or the like, a gear on said shaft in operative mesh with the dial gears; said button positioned over and in proximity to the upper face of the triangle.
3. In an angle-reading and locating device comprising a flat triangular frame of isosceles form with its longer edge comprising the base and having a vertical line bisecting the apex, a beam fulcrumed on said latter line, said frame provided with an aperture having an'arcuate edge concentric of said fulcrum and extending below said fulcrum for clearance of said beam, and said beam provided with an elongated straight slot extending radially from the fulcrum, said frame comprising a pair of spaced identical members and said fulcrum part comprising a primary gear,
a train of gears mounted between said pair of frame parts to rotate in a common plane with the primary gear, rotatable indicator hands on certain of the shafts of said gears and over the upper face of the frame, a dial for each said hand,
one dial to indicate the angular position of the beam in degrees, another hand to indicate said position in minutes and a third hand to indicate the said position in seconds.
4.. A triangle-protractor comprising a fiat member, an approximately semi-circular aperture therein and a line at right angles to one side of said member bisecting the aperture, a beam slot ted part of said beam offset downwardly to ,lie in V a flat plane close to the surface on which the protractor is laid, the outerend of said beam comprising a pointed indicator head adapted to ride freely on the surface of the protractor adjacent the arcuate edge of the aperture, protractor degree markings on said part of the frame reading similarly from both sides of the vertical line and over which said point is movable, and means to hold said head in any desired position.
JAMES C. NIEMEYER.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US18307A US2070675A (en) | 1935-04-26 | 1935-04-26 | Triangle-protractor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US18307A US2070675A (en) | 1935-04-26 | 1935-04-26 | Triangle-protractor |
Publications (1)
Publication Number | Publication Date |
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US2070675A true US2070675A (en) | 1937-02-16 |
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US18307A Expired - Lifetime US2070675A (en) | 1935-04-26 | 1935-04-26 | Triangle-protractor |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2446287A (en) * | 1945-03-05 | 1948-08-03 | Elmer W Kelley | Vernier for mechanically measuring angles |
US2495609A (en) * | 1945-11-06 | 1950-01-24 | Hugo F Semrau | Dial protractor |
US2556518A (en) * | 1947-04-30 | 1951-06-12 | Bryngelson Ross | Device for aiding in chart making |
US2766528A (en) * | 1953-10-22 | 1956-10-16 | Waldorf Adrian | Isometrograph |
US3823479A (en) * | 1970-12-28 | 1974-07-16 | Mutoh Ind Ltd | Drawing instrument |
-
1935
- 1935-04-26 US US18307A patent/US2070675A/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2446287A (en) * | 1945-03-05 | 1948-08-03 | Elmer W Kelley | Vernier for mechanically measuring angles |
US2495609A (en) * | 1945-11-06 | 1950-01-24 | Hugo F Semrau | Dial protractor |
US2556518A (en) * | 1947-04-30 | 1951-06-12 | Bryngelson Ross | Device for aiding in chart making |
US2766528A (en) * | 1953-10-22 | 1956-10-16 | Waldorf Adrian | Isometrograph |
US3823479A (en) * | 1970-12-28 | 1974-07-16 | Mutoh Ind Ltd | Drawing instrument |
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