US192502A - Improvement in windfvhlls - Google Patents
Improvement in windfvhlls Download PDFInfo
- Publication number
- US192502A US192502A US192502DA US192502A US 192502 A US192502 A US 192502A US 192502D A US192502D A US 192502DA US 192502 A US192502 A US 192502A
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- United States
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- wheel
- wind
- shaft
- mill
- pitman
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- Expired - Lifetime
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- 238000010276 construction Methods 0.000 description 4
- 230000001105 regulatory effect Effects 0.000 description 4
- 239000007787 solid Substances 0.000 description 2
- 241000239290 Araneae Species 0.000 description 1
- 230000001154 acute effect Effects 0.000 description 1
- 230000006378 damage Effects 0.000 description 1
- 230000007423 decrease Effects 0.000 description 1
- 230000003467 diminishing effect Effects 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 230000001012 protector Effects 0.000 description 1
- 238000005086 pumping Methods 0.000 description 1
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 1
Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03D—WIND MOTORS
- F03D7/00—Controlling wind motors
- F03D7/02—Controlling wind motors the wind motors having rotation axis substantially parallel to the air flow entering the rotor
- F03D7/022—Adjusting aerodynamic properties of the blades
- F03D7/0224—Adjusting blade pitch
-
- 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/70—Wind energy
- Y02E10/72—Wind turbines with rotation axis in wind direction
-
- 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
- Y10T74/00—Machine element or mechanism
- Y10T74/21—Elements
- Y10T74/2142—Pitmans and connecting rods
- Y10T74/2154—Counterbalanced
- Y10T74/2156—Weight type
Definitions
- My invention shows a windmill which is automatic-that is, self-regulating-and belongs to that class of windmills which have a solid wheel-that is, a wheel whose fans or sections are immovable-and in order to have its speed regulated or to be protected from violent winds must be so arranged in connection with a vane as to swing around automatically, and receive the force of the wind obliquely on its face or directly upon its edge 5 and more particularly relates'to the manner of thus regulating the wheel to the wind, as well as to the construction of the wheel, and to the device by which the mill can be controlled-that is, started, stopped, or speed or power regulated at the will of an operator.
- Windmills of this class have been heretofore constructed with wheel and vane so arranged in relation to each other as to be at, or nearly at, right angles when in operation, and to swing toward each other until they become parallel, or nearly so, when at rest or during violent winds. They have also been so arranged as to receive the wind on the side of the wheel farthest from the vertical central axis of the mill, and the vane extends behind the wheel. This has been the invariable method employed to obtain a self-regulating windmill.
- My windmill differs from others in being so arranged as to have the face side of the wheel nearest the vertical axis of the mill, the wind striking it on that side when in operation, and in being provided with a rigid vane-shaft placed parallel with, and in. front of, the wheel. This vane and shaft will be more fully described hereinafter.
- the wheel is constructed with two hubs.
- the main hub A to which the main spokes F of the wheel B are attached, is used in the ordinary way.
- the wheel-shaft G instead of terminating at this hub A, extends some inches back, and on this extended end the second hub, D, is placed.
- To this second hub D another set of spokes, E, are attached.
- This last set of spokes is placed at an acute angle to the wheel-shaft C, and their outer endsare fastened to the main set of spokes F, or to the outer fellies of the wheel B, thus setting in a bracing position,giving great additional strength to the frame of the wheel and preventing it from being dished by the force of the wind, as is very frequently the case when constructed in the usual manner.
- the vane-shaft G is fixed in an immovable position by being firmly attached to the turn-table H on the side opposite the center of the vertical axis of the mill from and in front of the wheel B, and at, or nearly at, right angles to the wheel-shaft G, and consequently parallel with the face of the wheel B.
- rIhe vane-shaft G at a point beyond the outer edge of the wheel B, is supplied with one or more cross-arms,1, firmly bolted theretoV at right angles to the shaft G, and in a perpendicular position.
- To these cross-arms I sections J are attached by being hinged. The hinges are fastened to each end of the crossarms l and to the sections J on a perpendicular line equidistant from the two edges of the sections J.
- sectionsJ are so constructed as to swing from a parallel to a rectangular position with the shaft G, and must be so 2 A rinasce hinged as to have an equal portion on each side of the shaft when open or at right angles, so as to prevent the twisting of said sha-ft G from excess of side weight, and to be easily changed from one position to another in the Wind, which would not be the case if there should be more wind-surface on one side of the hinged line than on the other.
- two or more sections J When two or more sections J are used, which is desirable on large mills, they should be so connected by a rod, K, that they will be in a line with each other when closed, or parallel when open or partly open, and at all times be in a relative position to each other and the wind.
- L is attached by being hinged with one edge to the shaft G, or to another cross-arm at a point a few inches from the cross-arm of the main section J, and toward the center ot' the mill, and on the side of the shaft G next to the Wheel.
- This small section L is connected with one of the main sections J, substantially as shown, by a projecting'arm, M, on the small section L, and by a rod, N, in such a manner as to be with detached edge toward the center of the mill, and nearly parallel with the vaneshaft G when the main sections J are open, and to swing out and back with detached edge farthest from the wheel, and nearly parallel with the vane-shaft G, and consequently with the main sections J when they are closed.
- a bar 0, hanging like a pendulum, and supplied with an adjustable weight, P, on the lower end.
- This bar O is connected with one ofthe main sections of the vane by a rod, Q, extending from a point about one-third oi' the length of the bar 0 from its hinged end, and to a projecting arm, R, on the main section J.
- All mills of this class have been constructed either with a side vane, or by setting the wheel-shat ⁇ t at one side of the center of the vertical axis of the mill, or by hinging the vane and wheel-shaft outV of a direct line,- and by these means creating a side pressure; consequently, the wind never strikes the face ofthe wheel at a right angle, but always obiiquely, thereby diminishing the wind-surface and the eective power of the wheel.
- the wheel-shaft is placed .at one side of the vertical axis, to acquire a side pressure and a governing principle. I use this side position to overcome this side pressure,
- This lever T is attached at one end to the pitman S, and pivoted to the turn-table H at a point equidistant from the center of the wheel-shaft C and the center of the vertical axis of the mill.
- This lever T is constructed with a slot, which is made twice as longas the crank U on the end of the wheel-shaft G, and in which works an antifriction roller, placed on the crankpin. 0n the side of the slot farthest from the crank -U is formed a flange, for the purpose of retaining the anti-friction roller in its proper place.
- the object of constructing the lever T so as to have a movable weight, V, is to more readily adjust it to the weight ofthe pumprod used.
- a device for bringing the mill under the control of an operator while on the ground usually consists of a hollow pitman, through which a chain or rod connected with the governor of the mill works, or of a hollow swivel, through which the pitman works, and to which the chain or rod is attached.
- the object is to prevent the chain from twist ing, around the pitman as the mill shifts with the wind.
- the chainW at one end is connected to the weightbar O of the governor, passing up and over a pulley, X, attached to the upper end of a bar, Y, hinged at its lower end to the vaneshaft G, thence over a pulley, Z, attaczed to the upper end of the pitman S, and down the center of the vertical axis of the mill.
- the lower end of the pitman S is cranked and enlarged, so as to serve as a swivel in connection with the plunging rod of the pump.
- the lower end of the rod A' must be attached to a pin or cleat on the plunging-rod.
- the object of attaching the pulley X on the upper end of an arm, Y, that has its lower end hinged to the vane-shaft G, and for connecting this pulley X and arm Y by a rod, B', to the pulley Z on'the upper end of the pitman S, is to prevent the tightening or slackening of the chain as the pitman S is carried up and down at each revolution of the wheel.
- the wooden rod G' connecting the pitman S with the pump-rod, is grooved on one side either the full length'or for three or four feet down from the end connected with the pitman.
- the small rod A' by which the mill-governor is controlled, is conned in this groove by' staples or cleats at short intervals along .the wooden rod.
- the bed-plate D' is firmly fastened to the top of the tower E', and has a dat rim or surface on top, upon which the turn-table H may rest, or the turn-table H may be mounted on travelers or anti-friction balls, placed between the turn-table and bed-plate, as may be desired.
- the turn-table provided with one arm for supporting the bearings vof the wheel-shaft, and another for supporting rigidly the shaft itself, the arms being at right angles to each other, and at one side of the vertical center, as and for the purpose described.
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Fluid Mechanics (AREA)
- Life Sciences & Earth Sciences (AREA)
- Sustainable Development (AREA)
- Sustainable Energy (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Wind Motors (AREA)
Description
W. A.. GrUZEMAN.A
WIND-MILL- NO. 192,502. Patented June 26,1877.
rLPEERS. FHOTO-LITHOGRAFHER, wASHxNGTON. n. C.
WILLIAM A. GUZEMAN, OF WASHINGTON, IOWA, ASSIGNOR TO MOSES O. PARKER AND Z. ESTELLINE P. GUZEMAN, OF SAME PLACE.
IMPROVEMENT 4IN WINDMILLS.
Specification forming part of Letters Patent No. 192,502, dated June 26, 1877; application vfiled April 16, 1877.
To all whom it may'conoem Be it known that I, WILLIAM A. GUZEMAN, of Washington, in the county of Washington and State of Iowa, have invented a new and useful Improvement in Windmills; and l do hereby declare the following to be a full, clear, and exact description ot' the same, reference being had to the accompanying drawings, forming a part of this specification, in which- Figure l is a front view of my improved windmill, parts being broken away to show the construction. Fig. 2 is a top view of the same, partly in section, to show the construction. Fig. 3 is a detail section taken through the line Fig. 1. Fig. 4 is a detail section taken through the line y y, Fig. 1.
The same letters of reference are used to indicate corresponding parts.
My invention shows a windmill which is automatic-that is, self-regulating-and belongs to that class of windmills which have a solid wheel-that is, a wheel whose fans or sections are immovable-and in order to have its speed regulated or to be protected from violent winds must be so arranged in connection with a vane as to swing around automatically, and receive the force of the wind obliquely on its face or directly upon its edge 5 and more particularly relates'to the manner of thus regulating the wheel to the wind, as well as to the construction of the wheel, and to the device by which the mill can be controlled-that is, started, stopped, or speed or power regulated at the will of an operator.
Windmills of this class have been heretofore constructed with wheel and vane so arranged in relation to each other as to be at, or nearly at, right angles when in operation, and to swing toward each other until they become parallel, or nearly so, when at rest or during violent winds. They have also been so arranged as to receive the wind on the side of the wheel farthest from the vertical central axis of the mill, and the vane extends behind the wheel. This has been the invariable method employed to obtain a self-regulating windmill.
My windmill differs from others in being so arranged as to have the face side of the wheel nearest the vertical axis of the mill, the wind striking it on that side when in operation, and in being provided with a rigid vane-shaft placed parallel with, and in. front of, the wheel. This vane and shaft will be more fully described hereinafter.
Heretofore in the construction of windmills only one spider or hub has been used. In my invention the wheel is constructed with two hubs. The main hub A, to which the main spokes F of the wheel B are attached, is used in the ordinary way. The wheel-shaft G, instead of terminating at this hub A, extends some inches back, and on this extended end the second hub, D, is placed. To this second hub D another set of spokes, E, are attached. This last set of spokes is placed at an acute angle to the wheel-shaft C, and their outer endsare fastened to the main set of spokes F, or to the outer fellies of the wheel B, thus setting in a bracing position,giving great additional strength to the frame of the wheel and preventing it from being dished by the force of the wind, as is very frequently the case when constructed in the usual manner.
One of the most novel features of my invention consists of the vane, as arranged in connection with the wheel to constitute the most accurate automatic governor and protector in Wind-storms. The vane-shaft G is fixed in an immovable position by being firmly attached to the turn-table H on the side opposite the center of the vertical axis of the mill from and in front of the wheel B, and at, or nearly at, right angles to the wheel-shaft G, and consequently parallel with the face of the wheel B.
rIhe vane-shaft G, at a point beyond the outer edge of the wheel B, is supplied with one or more cross-arms,1, firmly bolted theretoV at right angles to the shaft G, and in a perpendicular position. To these cross-arms I sections J are attached by being hinged. The hinges are fastened to each end of the crossarms l and to the sections J on a perpendicular line equidistant from the two edges of the sections J. These sectionsJ are so constructed as to swing from a parallel to a rectangular position with the shaft G, and must be so 2 A rinasce hinged as to have an equal portion on each side of the shaft when open or at right angles, so as to prevent the twisting of said sha-ft G from excess of side weight, and to be easily changed from one position to another in the Wind, which would not be the case if there should be more wind-surface on one side of the hinged line than on the other. When two or more sections J are used, which is desirable on large mills, they should be so connected by a rod, K, that they will be in a line with each other when closed, or parallel when open or partly open, and at all times be in a relative position to each other and the wind.
To the shaft G another and smaller section,
L, is attached by being hinged with one edge to the shaft G, or to another cross-arm at a point a few inches from the cross-arm of the main section J, and toward the center ot' the mill, and on the side of the shaft G next to the Wheel.
This small section L is connected with one of the main sections J, substantially as shown, by a projecting'arm, M, on the small section L, and by a rod, N, in such a manner as to be with detached edge toward the center of the mill, and nearly parallel with the vaneshaft G when the main sections J are open, and to swing out and back with detached edge farthest from the wheel, and nearly parallel with the vane-shaft G, and consequently with the main sections J when they are closed.
At a point on the vane-shaft between the main sections J and the turn-table H is attached a bar, 0, hanging like a pendulum, and supplied with an adjustable weight, P, on the lower end. This bar O is connected with one ofthe main sections of the vane by a rod, Q, extending from a point about one-third oi' the length of the bar 0 from its hinged end, and to a projecting arm, R, on the main section J.
This combination of shaft G, cross-arms I, main sections J, small section L, projecting arms M R, connecting-rods N Q, weight P, and bar 0, constitute the vane or governor of the mill, and its effectiveness will be well uuderstood by the following explanation: By the weight P the main sections J will be held open or across the shaft G, admitting free passage to the wind, and thus forcing the wheel around so as to stand with its face squarely to the wind. This position places the small section L so as to offer its dat surface to the wind, by which it would be forced back and away from the wind if it were not for its connection with the main section J and weight P, which holds it against a certain pressure, but when the force against the section L is suftlcient to more than counterbalance this weight P, then all the sections of the vane work, the small section L being forced away from, and the main sections J being turned with their dat surface to, the wind. When this occurs the whole millis swung round so as to oder less surface ot' the wheel B to the wind.
When the force is sufficient to raise the weight P entirely up, and the main sections J are closed, or are parallel with the shaft G, then `the wheel B will be. held with its edge to the wind, and consequently be at rest, and all the parts, the wheel B, main sections J, and small section L will stand edgewise to the wind, and. in the safest position to prevent destruction by storms.
It will be seen that as the wind decreases the main sections J will open and offer their,
reverse sides to the wind, and, standing obliqnely thereto, will tend to immediately force the wheel into working position.
Heretoi'ore the counter-balance used on windmills has been so arranged that the force of the wind would have to be sufficient to torce the wheel and vane out of its direct.
tical position 5 but this resistance is increased.
with the force of the wind, and as the weight P is raised higher. By this arrangement it will be seen that my mill, at all times and in all degrees or' wind, is under the control of the wind.
All mills of this class have been constructed either with a side vane, or by setting the wheel-shat`t at one side of the center of the vertical axis of the mill, or by hinging the vane and wheel-shaft outV of a direct line,- and by these means creating a side pressure; consequently, the wind never strikes the face ofthe wheel at a right angle, but always obiiquely, thereby diminishing the wind-surface and the eective power of the wheel.
It will he seen in my invention that to counterbalance the slight side pressure that would be on the vane, I set the wheelshaft0 on the opposite side of thc vertical axis of the mill from the vane, thus allowing the wheel to receive the full force of the wind in a direct manner.
In other mills the wheel-shaft is placed .at one side of the vertical axis, to acquire a side pressure and a governing principle. I use this side position to overcome this side pressure,
and to more perfectly balance the mill ou the' tower, and not as a governing device, as my mill would work and be governed as well as other mills it' the wheel-shaft were directly over the center ot the vertical. axis.
in mills designed for pumping, the power is transmitted from the wheel to the pit-mau S by a lever, T. This lever T is attached at one end to the pitman S, and pivoted to the turn-table H at a point equidistant from the center of the wheel-shaft C and the center of the vertical axis of the mill. This lever T is constructed with a slot, which is made twice as longas the crank U on the end of the wheel-shaft G, and in which works an antifriction roller, placed on the crankpin. 0n the side of the slot farthest from the crank -U is formed a flange, for the purpose of retaining the anti-friction roller in its proper place. y
The end of the lever T farthest from the pitman Sis supplied with au adjustable weight, V. The object of this weight Vis to actas a counterpoise to the plunging-rod of the pump, thereby leaving only the weight of water to be raised by the power of the-mill.
Other windmills have been constructed with a lever connecting the crank of the wheel shaft to the pitman, but none have been provided with an anti-friction roller on the crank-pin, nor has the lever been constructed with a flanged slot, nor with any adjustable weight, or in any manner designed for a counterpoise.
The object of constructing the lever T so as to have a movable weight, V, is to more readily adjust it to the weight ofthe pumprod used.
Almost all kinds of windmills are supplied with some kind of a device for bringing the mill under the control of an operator while on the ground. This device usually consists of a hollow pitman, through which a chain or rod connected with the governor of the mill works, or of a hollow swivel, through which the pitman works, and to which the chain or rod is attached. In all these devices the object is to prevent the chain from twist ing, around the pitman as the mill shifts with the wind.
In all devices heretofore used for this purpose the chain in the hollow pitman or .the hollow swivel remain at rest while the mill is working, and, consequently, is on a constant wear, caused by the friction at each stroke of the pitman.
In my invention it will he seen that the chainW at one end is connected to the weightbar O of the governor, passing up and over a pulley, X, attached to the upper end of a bar, Y, hinged at its lower end to the vaneshaft G, thence over a pulley, Z, attaczed to the upper end of the pitman S, and down the center of the vertical axis of the mill.
The lower end of the pitman S is cranked and enlarged, so as to serve as a swivel in connection with the plunging rod of the pump.
Through the center, endwise of this crankedV or enlarged end of the pitman S, a small hole is drilled, through which passes a small rod, A', connected to the chain W. This rod A' continues on down to the ground, and by pulling down on this rod A' the govcruor of the mill is worked, and the speed of the mill regulated.
To keep the mill at rest, the lower end of the rod A' must be attached to a pin or cleat on the plunging-rod.
By the arrangement of the pulley Z on the upper end of the pitman S, it will be seen that the chain W and rod A travel with the pitman S, and entirely avoid the wear and friction inevitable in other mills.
The object of attaching the pulley X on the upper end of an arm, Y, that has its lower end hinged to the vane-shaft G, and for connecting this pulley X and arm Y by a rod, B', to the pulley Z on'the upper end of the pitman S, is to prevent the tightening or slackening of the chain as the pitman S is carried up and down at each revolution of the wheel.
The wooden rod G', connecting the pitman S with the pump-rod, is grooved on one side either the full length'or for three or four feet down from the end connected with the pitman.
The small rod A', by which the mill-governor is controlled, is conned in this groove by' staples or cleats at short intervals along .the wooden rod.
The bed-plate D' is firmly fastened to the top of the tower E', and has a dat rim or surface on top, upon which the turn-table H may rest, or the turn-table H may be mounted on travelers or anti-friction balls, placed between the turn-table and bed-plate, as may be desired. l
Having thus described my invention, what I claim as new and useful, and desire to secure by Letters Patent, is-
I. The turn-table provided with one arm for supporting the bearings vof the wheel-shaft, and another for supporting rigidly the shaft itself, the arms being at right angles to each other, and at one side of the vertical center, as and for the purpose described.
2. A windmill with its vane-*shaft Grigidly I attached to its turn-table H, and at right angles to the wheel-shaft C, and in front of and parallel with the face of the wheel B, substantially as herein shown and described.
3. The combination of sections J L, constituting the vane, and connected with each other and the weight-bar O by rods K N Q,- and projecting arms M R, substantially as described, and for the purpose set forth.
4. The arrangement ofthe pulley X on the upper end of the bar Y, hinged to the vaneshaft G, and connected by the rod B' to the pulley Z, attached to the upper end of the pitman S, and the chain W, and rod A', traveling with the pitman S, substantially as described, Working in the manner and for the purpose named.
5. The combination, with a solid pitman, having pulley on one end, and connected at the'other with swiveled pump-rod, of the chain, passing along its side, and connected the latter pivoted to the turntable, and hav- With a small lrod. passing through the perfoing ange to keep the roller `in place, as specirated swiveled end of pitman, causing the lied.
chain, rod, and pitman to travel together, and Y thus avoid friction, as set forth. W A' GUZEMAN' 6. The combination of the pitman, counter- Witnesses:
poise weight, crank-pin, having anti-friction. F. PARKER.,
roller, and slotted lever `or walking-beam, M. G. PARKER.
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US192502A true US192502A (en) | 1877-06-26 |
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