US2039211A - Propeller manufacture - Google Patents
Propeller manufacture Download PDFInfo
- Publication number
- US2039211A US2039211A US677201A US67720133A US2039211A US 2039211 A US2039211 A US 2039211A US 677201 A US677201 A US 677201A US 67720133 A US67720133 A US 67720133A US 2039211 A US2039211 A US 2039211A
- Authority
- US
- United States
- Prior art keywords
- blade
- center
- propeller
- gravity
- line
- 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
Links
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D53/00—Making other particular articles
- B21D53/78—Making other particular articles propeller blades; turbine blades
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/49—Method of mechanical manufacture
- Y10T29/49316—Impeller making
- Y10T29/49332—Propeller making
Definitions
- This invention relates to improvements in propeller manufacture.
- An object of this invention is to produce a propeller in which the center line of the blade end passes through the center of gravity of the blade.
- Another object consists in provision of a means and a process for reducing the labor required, and otherwise facilitating the production of propeller blades which shall be in dynamic and static balance in various pitch settings.
- Fig. 1 is an elevation, showing the means and method of locating a line through the center of gravity of a propeller blade.
- Figs. 2 and 3 show means for suspending a blade of another type.
- Fig. 4 is a perspective view of balancing and checking means.
- This invention is particularly applicable to propellers of the detachable blade type, such as those shown in Patents Nos. 1,608,755; 1,769,775 and 1,836,700.
- the blades are detachably secured in a hub and are adapted to be adjusted in the hub to give various a0 pitch settings.
- a set of blades in which the longitudinal center line of the blade-ends passes through the center of gravity of the respective blades, when secured and statically balanced in a properly machined hub, will be found to be in dynamic balance and will remain in dynamic balance for various pitch settings. This is necessarily so because if the propeller is statically balanced, the dynamic forces are necessarily equal, and if the center of gravity of each blade lies on the longitudinal center line of the blade end, the equal dynamic forces all act in a single plane normal to the axis of the shaft in which the hub is mounted and there are, theresecured in the hub is of circular transverse cross- 1933, Serial No. 677,201
- brackets I0 and I 2 are secured in vertically spaced relation upon any suitable means such as a wall or post It. 6
- the bracket Ill is provided with an aperture it which is covered by a plate i8, which plate is held in adjusted position by means of screws 20.
- the plate i8 is provided with enlarged holes 22 to permit adjustment.
- the bracket I2 is provided with a bushing 24 in which a prick punch 26 is slidably retained.
- One end of a wire 28 passes through the center of an externally threaded plug 30, and is secured thereto as by brazing and an externally threaded l5 plug 32 is similarly attached to the other end of the wire.
- These plugs are adapted to be threaded into plate l8 and propeller blade 34 respectively so that the propeller blade may be suspended by the wire 28 from the plate I3.
- a circular plate 36 having screws 38 extending radially therefrom, is adapted to be secured in the opening in the bladeend by backing the screws 38 out until they 25 firmly engage the blade-end.
- the plate 36 has a threaded hole in the center thereof which is adapted to receive the plug 32 and is also countersunk to receive a lathe center.
- a propeller blade In order to locate the center of gravity of a 30 propeller blade upon the center line of the blade end, a propeller blade is shaped to substantially the contour desired in the finished article with the blade end, however, left slightly oversize.
- the propeller blade isthen supportedin a lathe 35 or other suitable machine, and in the type of propeller shown in Fig. 1, a hole is threaded and tapped at the center of the blade-end. This may be conveniently done byclamping a block to the blade-tip to receive the head center of the 40 lathe and supporting the blade-end in a steady rest.
- the blade may besupported between centers in the lathe, the hole in the center of plate 36 serv- 45 ing to support the propeller on one of the lathe centers.
- the plate 36 is then adjusted by means of the screws 38 until the outside of the bladeend runs true.
- Plug 32 is then screwed into the accurately centered tapped hole in the blade-end, and plug 30 is screwed into the tapped hole in plate l3.
- This tapped hole in plate l3 has previously been accurately centered directly above the center of the prick punch 36, by suspending a plumb bob 55 from the center of the hole in plate I8 and ad- Justing the plate until the plumb hob and the prick punch register.
- The'propeller is allowed to hang freely from the wire 28 which passes through the center of the blade-end.
- the center of gravity of the blade indicated by the letters C. G. on the drawing, will be directly under the point of suspension and as the prick punch 26 is located directly under the point of suspension, the prick punch point, the center of gravity of the blade and the center of the blade-end, from which the blade is suspended, will all fall in the same straight line.
- the prick punch may now be hit with a hammer to locate the point on the blade tip where this imaginary line emerges.
- a suitable block may be fastened to the propeller tip to receive the prick punch mark. If it becomes necessary to add this block, care should be taken to make sure that the propeller blade is in the same lateral position at the time the mark is made, that it was, when it was hanging free without the addition of the block. This may be accomplished either by clamping the blade in its freely suspended position and then adding the block, and prick punching it or adjusting weights on the block so that the propeller assumes the same position after the addition ,of the block that it had before the addition of the block.
- the blade is hung between centers in a lathe or other suitable machine on the line connecting the center of the blade-end and the center marked at the blade tip and passing through the center of gravity.
- the blade-end may now be machined around this line to fit its supporting hub with the assurance that the center of gravity will lie on the longitudinal center line of the blade-end.
- the center of gravity of the finished blade will still be on the longitudinal center line of the blade-end of the finished blade. Any finishing operations, such as bufling and pollishing that may be later performed, will have either no or only a negligible eifect upon the location of the center of gravity.
- the position of the center of gravity in the finished blade may be checked in the following manner; the blade 34 is mounted in one socket of a holder which is preferably a two way hub 40 and an accurately sized cylinder 42 is mounted in the other socket The hub with the blades therein is then mounted on a shaft 44 which in turn is placed on balancing knife edges 46.
- the blade 34 is so mounted that it may be turned in the hub socket and about its longitudinal axis through 360.
- the cylinder is chosen of such a size that its statical moment about the hub support is the same as the statical moment of the blade.
- the center of gravity of the cylinder will fall on the center line bf the cylinder and hence serves as an accurate and simple means of checking the position of the center of gravity of the blade.
- the cylinder 42 is commonly referred to as the master cylinder, or if an accurately sized and finished blade is used instead of the cylinder for determining the balance of the newly finished blades, this accurately sized and finished blade is known as the master blade and indeed both the master cylinder and the master blade are often referred to simply as master.
- the blade is balanced in various positions including horizontal and vertical positions. In the vertical position the blade is turned by steps or intervals through 360 in the hub socket. It is, of course, theoretically possible to determine the balance of the blade by moving it by steps through 180 providing the master is perfect. Movement through 360 will also, however, indicate any inaccuracy of the master or the hub. If the center of gravity of the blade is on the center line of the blade end, the blade will be in balance with the cylinder in all the various positions of the blade in the hub socket.
- the method of forming a propeller blade which includes shaping the blade to substantially the shape and size desired in the finished blade, marking a point at the blade tip substantially on the continuation of the line connecting a point in the center of the blade-end and the center of gravity of the blade, supporting the blade at the center of the blade-end and at the point marked at the blade tip, and forming the bladeend so that its longitudinal axis coincides with said line.
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Structures Of Non-Positive Displacement Pumps (AREA)
Description
p i12s, 1936. F. w. CALDWELL 2 039,211
PROPELLER MANUFACTURE Filed June 23, 1933 INVENTOR Frank W [Ia/17m? m flaf u.
ATTORNEY Patented Apr. 28, 1936 UNITED STATES PROPELLEB MANUFACTURE Frank W. Caldwell, West Hartford, Conn., assignor, by mesne assignments, to United Aircraft Corporation, a corporation of Delaware Application June 23,
17 Claims.
This invention relates to improvements in propeller manufacture.
An object of this invention is to produce a propeller in which the center line of the blade end passes through the center of gravity of the blade.
Another object consists in provision of a means and a process for reducing the labor required, and otherwise facilitating the production of propeller blades which shall be in dynamic and static balance in various pitch settings.
Further and other objects and advantages will be apparent from the specification and claims and from the accompanying drawing which illustrates what is now considered the preferred embodiment.
Fig. 1 is an elevation, showing the means and method of locating a line through the center of gravity of a propeller blade.
Figs. 2 and 3 show means for suspending a blade of another type.
Fig. 4 is a perspective view of balancing and checking means.
This invention is particularly applicable to propellers of the detachable blade type, such as those shown in Patents Nos. 1,608,755; 1,769,775 and 1,836,700. In this type of propeller, the blades are detachably secured in a hub and are adapted to be adjusted in the hub to give various a0 pitch settings. The portion of the blade which is section and is called the blade-end and in turning the blade in the hub to secure a pitch adjustment, the entire blade is turned about the longitudinal center line of the blade-end.
By shaping the blade-end so that its longitudinal center line passes through the center of gravity of the blade, the dynamic forces of the blade will always pass through the same point of the blade hub so that pitch adjustment will not vary the dynamic balance of the blade.
Furthermore, a set of blades in which the longitudinal center line of the blade-ends passes through the center of gravity of the respective blades, when secured and statically balanced in a properly machined hub, will be found to be in dynamic balance and will remain in dynamic balance for various pitch settings. This is necessarily so because if the propeller is statically balanced, the dynamic forces are necessarily equal, and if the center of gravity of each blade lies on the longitudinal center line of the blade end, the equal dynamic forces all act in a single plane normal to the axis of the shaft in which the hub is mounted and there are, theresecured in the hub is of circular transverse cross- 1933, Serial No. 677,201
fore, no unbalanced forces to give dynamic balance. 3
In the drawing, a pair of brackets I0 and I 2 are secured in vertically spaced relation upon any suitable means such as a wall or post It. 6 The bracket Ill is provided with an aperture it which is covered by a plate i8, which plate is held in adjusted position by means of screws 20. The plate i8 is provided with enlarged holes 22 to permit adjustment.
The bracket I2 is provided with a bushing 24 in which a prick punch 26 is slidably retained.
One end of a wire 28 passes through the center of an externally threaded plug 30, and is secured thereto as by brazing and an externally threaded l5 plug 32 is similarly attached to the other end of the wire. These plugs are adapted to be threaded into plate l8 and propeller blade 34 respectively so that the propeller blade may be suspended by the wire 28 from the plate I3.
In case the propeller blade end is hollow, as shown in Figs. 2 and 3, a circular plate 36, having screws 38 extending radially therefrom, is adapted to be secured in the opening in the bladeend by backing the screws 38 out until they 25 firmly engage the blade-end. The plate 36 has a threaded hole in the center thereof which is adapted to receive the plug 32 and is also countersunk to receive a lathe center.
In order to locate the center of gravity of a 30 propeller blade upon the center line of the blade end, a propeller blade is shaped to substantially the contour desired in the finished article with the blade end, however, left slightly oversize. The propeller blade isthen supportedin a lathe 35 or other suitable machine, and in the type of propeller shown in Fig. 1, a hole is threaded and tapped at the center of the blade-end. This may be conveniently done byclamping a block to the blade-tip to receive the head center of the 40 lathe and supporting the blade-end in a steady rest.
In the type of propeller shown in Figs. 2 and 3, the blade may besupported between centers in the lathe, the hole in the center of plate 36 serv- 45 ing to support the propeller on one of the lathe centers. The plate 36 is then adjusted by means of the screws 38 until the outside of the bladeend runs true.
The'propeller is allowed to hang freely from the wire 28 which passes through the center of the blade-end. The center of gravity of the blade. indicated by the letters C. G. on the drawing, will be directly under the point of suspension and as the prick punch 26 is located directly under the point of suspension, the prick punch point, the center of gravity of the blade and the center of the blade-end, from which the blade is suspended, will all fall in the same straight line. The prick punch may now be hit with a hammer to locate the point on the blade tip where this imaginary line emerges.
If this point should be outside of the blade tip, a suitable block may be fastened to the propeller tip to receive the prick punch mark. If it becomes necessary to add this block, care should be taken to make sure that the propeller blade is in the same lateral position at the time the mark is made, that it was, when it was hanging free without the addition of the block. This may be accomplished either by clamping the blade in its freely suspended position and then adding the block, and prick punching it or adjusting weights on the block so that the propeller assumes the same position after the addition ,of the block that it had before the addition of the block.
After the center has been located and marked at the propeller blade tip, the blade is hung between centers in a lathe or other suitable machine on the line connecting the center of the blade-end and the center marked at the blade tip and passing through the center of gravity. The blade-end may now be machined around this line to fit its supporting hub with the assurance that the center of gravity will lie on the longitudinal center line of the blade-end. As this is substantially the last operation to be performed upon the blade as far as any operations that would affect the center of gravity are concerned, as the blade has previously been brought to the correct size and shape, the center of gravity of the finished blade will still be on the longitudinal center line of the blade-end of the finished blade. Any finishing operations, such as bufling and pollishing that may be later performed, will have either no or only a negligible eifect upon the location of the center of gravity.
The above described process is of particular advantage in producing a propeller such as that described and claimed in my Patent No. 1,769,767, July 1, 1930. After a blade of the desired contour has been produced so that the centers of gravity of all the sections lie on a straight line as called for by that patent, the use of the above described process will enable the machining of the blade end with the assurance that the center line of the blade and will pass through the center of gravity of the blade. For all practical purposes, in a properly designed blade, this center line will then pass through the center of gravity of all the blade sections.
The position of the center of gravity in the finished blade may be checked in the following manner; the blade 34 is mounted in one socket of a holder which is preferably a two way hub 40 and an accurately sized cylinder 42 is mounted in the other socket The hub with the blades therein is then mounted on a shaft 44 which in turn is placed on balancing knife edges 46. The blade 34 is so mounted that it may be turned in the hub socket and about its longitudinal axis through 360. The cylinder is chosen of such a size that its statical moment about the hub support is the same as the statical moment of the blade. The center of gravity of the cylinder will fall on the center line bf the cylinder and hence serves as an accurate and simple means of checking the position of the center of gravity of the blade. The cylinder 42 is commonly referred to as the master cylinder, or if an accurately sized and finished blade is used instead of the cylinder for determining the balance of the newly finished blades, this accurately sized and finished blade is known as the master blade and indeed both the master cylinder and the master blade are often referred to simply as master.
The blade is balanced in various positions including horizontal and vertical positions. In the vertical position the blade is turned by steps or intervals through 360 in the hub socket. It is, of course, theoretically possible to determine the balance of the blade by moving it by steps through 180 providing the master is perfect. Movement through 360 will also, however, indicate any inaccuracy of the master or the hub. If the center of gravity of the blade is on the center line of the blade end, the blade will be in balance with the cylinder in all the various positions of the blade in the hub socket.
If, however, the center of gravity is of! of this center line and the blade is turned in the socket to a position such that a plane containing this center and the center line of the blade end is at an angle to the plane containing the center line of the blade end and cylinder and the center line of the shaft 44, a condition of unbalance is created. Any variation of the center of gravity from the center line of the blade end can thus be readily checked and corrected. It is to be understood that the invention is not limited to the specific embodiment or steps herein illustrated and described, but may be used in other ways, and the steps performed in a different sequence without departure from its spirit as defined by the following claims.
What I claim is:
1. In the manufacture of a propeller blade the steps of shaping the blade to substantially the shape and size desired in the finished blade. locating a point at substantially the center of the blade-end, freely suspending the blade from that point so that the center of gravity of the blade will be directly under the point of suspension, marking a point at the blade tip of the suspended blade substantially on the continuation of the straight line passing through the point of suspension and the center of gravity of the blade, supporting the blade upon the line between the said points at the blade-end and at the blade tip, and machining the blade-end while so supported so that the longitudinal axis of the blade-end will'coincide with said line.
2. The method of forming a propeller blade which includes shaping the blade to substantially the shape and size desired in the finished blade, marking a point at the blade tip substantially on the continuation of the line connecting a point in the center of the blade-end and the center of gravity of the blade, supporting the blade at the center of the blade-end and at the point marked at the blade tip, and forming the bladeend so that its longitudinal axis coincides with said line.
3. In producing a propeller blade the steps of shaping the blade portion to substantially finished size and shape,supporting the blade on a line pass-
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US677201A US2039211A (en) | 1933-06-23 | 1933-06-23 | Propeller manufacture |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US677201A US2039211A (en) | 1933-06-23 | 1933-06-23 | Propeller manufacture |
Publications (1)
Publication Number | Publication Date |
---|---|
US2039211A true US2039211A (en) | 1936-04-28 |
Family
ID=24717734
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US677201A Expired - Lifetime US2039211A (en) | 1933-06-23 | 1933-06-23 | Propeller manufacture |
Country Status (1)
Country | Link |
---|---|
US (1) | US2039211A (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2432673A (en) * | 1941-11-05 | 1947-12-16 | Rotol Ltd | Airscrew |
US2436096A (en) * | 1943-05-14 | 1948-02-17 | Avco Mfg Corp | Apparatus for testing the static balance of propeller blades |
US2481256A (en) * | 1944-02-24 | 1949-09-06 | Gwen Iola Sutton | Balance testing device |
US2512231A (en) * | 1945-09-29 | 1950-06-20 | Hart Henry | Balancing apparatus |
US2716889A (en) * | 1952-11-25 | 1955-09-06 | Doman Helicopters Inc | Method of determining and adjusting the aerodynamic pitching moment of a full-sized aerodynamic member and apparatus therefor |
US2732020A (en) * | 1956-01-24 | Electroplated structure adapted for - |
-
1933
- 1933-06-23 US US677201A patent/US2039211A/en not_active Expired - Lifetime
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2732020A (en) * | 1956-01-24 | Electroplated structure adapted for - | ||
US2432673A (en) * | 1941-11-05 | 1947-12-16 | Rotol Ltd | Airscrew |
US2436096A (en) * | 1943-05-14 | 1948-02-17 | Avco Mfg Corp | Apparatus for testing the static balance of propeller blades |
US2481256A (en) * | 1944-02-24 | 1949-09-06 | Gwen Iola Sutton | Balance testing device |
US2512231A (en) * | 1945-09-29 | 1950-06-20 | Hart Henry | Balancing apparatus |
US2716889A (en) * | 1952-11-25 | 1955-09-06 | Doman Helicopters Inc | Method of determining and adjusting the aerodynamic pitching moment of a full-sized aerodynamic member and apparatus therefor |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US2039211A (en) | Propeller manufacture | |
US2636273A (en) | Pipe sighting device and contour marker | |
US2170824A (en) | Propeller protractor | |
US2336303A (en) | Method of making fans | |
US2421956A (en) | Manufacture of propeller blades | |
CN204438995U (en) | A kind of concentricity detection tool | |
US4926563A (en) | Theodolite target adaptor and method of use | |
US1597357A (en) | Pitchometer tool | |
US2510768A (en) | Gauge mechanism for press brakes | |
US2238782A (en) | Gauging device for complex curved surfaces | |
US2543447A (en) | Balancing means for rotary structures | |
US2891427A (en) | Machine for drilling and precision countersinking | |
US2393317A (en) | Straightening press for aircraft propellers and the like | |
US1880313A (en) | Propeller balancing mechanism | |
US2388705A (en) | Apparatus for balancing propeller blades | |
US2844877A (en) | Gauge tool | |
US2571853A (en) | Indicator support | |
GB369878A (en) | ||
US1968540A (en) | Method of balancing propeller blades | |
US2500224A (en) | Collocating device for tools | |
US3161961A (en) | Blade alignment gage | |
US2436096A (en) | Apparatus for testing the static balance of propeller blades | |
US2210285A (en) | Dynamic balance angle finding apparatus | |
US2433889A (en) | Master tooling dock | |
US2468215A (en) | Bubble level support |