This invention relates to the production of mechanical power from hydraulic energy; in particular, it relates to an engine that is actuated by a fluid, preferably water, or gas, preferably air, under pressure. It further relates to a mechanism for actuating a shaft by means of a pressure fluid which comprises an oscillating, connecting-rod assembly and at least a crank driven by said connecting-rod assembly, as hereinafter defined. The invention further relates to the use of such a mechanism for actuating various mechanical apparatus. The invention further relates to a valve for controlling the feed and the discharge of pressure fluid to and from a connecting-rod assembly, synchronically with the angular position of the crank driven by said assembly.
Fluid-actuated mechanisms for carrying out mechanical work are known in the art and have been described in a number of patents. U.S. Pat. No. 2,518,990 describes a fluid-actuated hose reel in a lawn sprinkler. U.S. Pat. No. 2,989,605 describes a water-powered retractable shower head. More recently, U.S. Pat. No. 5,741,188 discloses a ride-on toy or a garden tool which includes a stationary element, a movable element connected thereto, water pressure operating means for moving the movable element with respect to the stationary element, a water inlet and a water outlet, and a valve for controlling the flow of the water through the device.
European Application 136414 A2 discloses a water flow operated device for winding and/or unwinding a layer of flexible material which comprises a stationary element, a spool having a central axis, said spool being rotatable about a central axis when engaged with the stationary element; and a water flow-operated mechanism engaged by said stationary element for controllably rotating said spool.
The provision of a generally or widely applicable motor operated by a fluid under pressure (herein “a pressure fluid” or “an actuating fluid”), in particular water, that is effective, simple in construction and economical, is extremely desirable. It is therefore a purpose of this invention to provide such a motor.
It is another purpose of this invention to provide such a motor which is self-controlled, in the sense that it contains all the components necessary for assuring its operation without the provision of separate, central control mechanisms.
It is a further purpose of this invention to provide such a motor which comprises a shaft, or a plurality of shafts, or a crankshaft, driven into rotation by one or a plurality of oscillating-rod-crank couplings, which incorporates a control mechanism for actuating the oscillating motion of the rod in synchronism with the rotary: impulses required by the rotating elements.
It is a still further purpose of this invention to provide a fluid-actuated motor, in particular a water motor, for use in a variety of apparatus requiring mechanical energy for various purposes.
It is a still further purpose of this invention to provide a mechanism which is actuated by a pressure fluid, in particular water, which imparts rotational impulses to a crank or a crankshaft at a plurality of angular positions of said crank or crankshaft.
It is a still further purpose of the invention to provide means for feeding pressure fluid, in particular, water, to a cylinder, to actuate a piston and synchronize its alternating motion to the angular motion of a rotating element, that is simple, self-contained and economical to build.
Other purposes and advantages of the invention will appear as the description proceeds.
In a first aspect thereof, the invention provides a mechanism for actuating a rotatable shaft from actuating or pressure fluid, which comprises a crank connected to the shaft for mutually dependent swinging motion of the crank and rotation of the shaft; an angularly oscillating connecting-rod assembly comprising a cylinder and a piston, said piston being pivotally connected to said crank for mutually dependent oscillation of said assembly and swinging motion of said crank; and a valve, preferably stationary valve, for permitting feed of actuating fluid to said cylinder and permitting discharge of said fluid from said cylinder, depending on the angular position of said connecting-rod assembly.
It is preferred that the stationary valve should acts as the pivot about which the connecting-rod assembly angularly oscillates. However, it would be possible to provide a separate pivot and a separate stationary valve, as long as the valve permitted feed of actuating fluid to the connecting-rod assembly cylinder and discharge of the fluid from said cylinder, depending on the angular position of the connecting-rod assembly. This could be achieved, e.g., by placing a valve at an intermediate position of the connecting-rod assembly cylinder, viz. closer to the crank than the pivot; or by providing the connecting-rod assembly cylinder with an extension and placing the valve beyond the pivot, in such a position as to cooperate with that extension. Other solutions could be devised by expert persons, by the application of mechanical and kinematic know-how, and all such solutions are embodiments of the, invention. The invention therefore comprises any mechanical solutions whereby the operation of the valve is synchronized with the oscillating motion of the connecting-rod assembly.
Preferably, the stationary valve and the connecting-rod assembly are pivotally connected through respective pivot surfaces, said pivot surfaces being provided with apertures for the passage of actuating fluid. Said apertures become more or less juxtaposed depending on the angular position of said connecting-rod assembly, whereby said feed and discharge of said fluid to and from the connecting-rod assembly are automatically synchronized with the crank swinging motion.
The mechanism of the invention acts in combination with a source of actuating fluid under pressure and with a discharge, communicating with the stationary valve through fluid channels.
The actuating fluid is preferably water, but it may be another liquid, or may be gaseous—gas or vapor—particularly steam.
Traditional connecting-rod-crank mechanisms must be provided with control means for admitting pressure fluid, in many cases compressed air or steam, to the, cylinder and dlischarging said pressure fluid from it. If more than one connecting-rod were provided, a plurality of control means would have to be provided and synchronized, as required, to impart a rotational impulse to the crank at appropriate stages of its swinging motion. In the mechanism of the invention, the admission and discharge of the pressure fluid are controlled in each connecting-rod assembly by a valve, preferably a stationary valve which also operates as a pivot, and therefore are automatically synchronized with the stages of the crank rotation.
In more detail, the preferred: form of the mechanism of the invention comprises a crank rotatably connected to a shaft either because it is solid with it, or is keyed to it, or is a part of a crankshaft. The connecting-rod assembly comprises a cylinder, which has a pivotal connection to the crank, preferably wherein the cylinder is provided with a pivot seat, such as an annular one, while the crank is provided with a pivot pin or is part of a crankshaft which engages the pivot seat, the opposite being equally possible. The cylinder is provided with a pivot seat or surface, preferably being cylindrical or a segment of a cylinder, which has an aperture providing a communication with the inside of the cylinder. The aperture may be a single, preferably an elongated, one, or may be constituted by a plurality of openings, e.g., circular openings arranged one after the other along a line, in which cases it will be called herein “composite aperture”. In a preferred embodiment of the invention the aperture, whether single or composite, is arranged on a transverse axial line or is symmetric with respect of said line. “Transverse axial line” means herein the intersection of the pivot seat of the connecting-rod assembly cylinder with the plane of symmetry of the cylinder that passes through the axis of symmetry of the pivot pin of the crank and the pivot seat of the connecting-rod: assembly. It is preferred that said aperture of said pivot seat, whether single or composite, be symmetric to said transverse axial line, but it is possible that it be not so symmetric but arranged on a line that is symmetric with respect to said transverse axial line, as will be better explained later on.
The mechanism, in its preferred form, further comprises a stationary valve, the body of which is partly hollow, and which comprises an outer pivot surface slidingly engaged by the pivot seat of the connecting-rod assembly cylinder. Said pivot surface is a part of a cylinder or consists of parts of a cylinder, while the remaining part of the outer surface of the valve body may have a different shape. The valve body has a first and a second aperture communicating with its inner hollow, and which are preferably longitudinal, viz. symmetric with respect to an axial plane of the valve body, but in general are so shaped that they may be juxtaposed to said aperture of the pivot seat of the connecting-rod assembly cylinder. Each of the valve body apertures communicates, through inner channels of the valve body, with a respective port. One of the two ports is in communication with a source of pressure fluid and the other one with or a fluid discharge respectively, and thus communication is established between the respective apertures of the valve body and said pressure fluid source or fluid discharge, respectively. In some applications, as will be explained hereinafter, the functions of the two ports are periodically switched, viz. each communicates alternatively with said source of pressure fluid and with said fluid discharge. In other applications, one of the ports communicates always with said source of pressure fluid and the other communicates always with said fluid discharge.
As the connecting-rod assembly oscillates, its angular position shifts from one extreme end to another extreme end. The first and second apertures of the valve body are angularly spaced by the same angle as the two extreme positions of the connecting-rod assembly. At a given angular position of said assembly, generally at the center or near the center of its oscillation, the aperture (whether single or composite, viz consisting of several openings close to one another) of said pivot seat or surface of the cylinder of the connecting-rod assembly is juxtaposed to an unapertured portion of the valve body. As said assembly oscillates, said aperture of said pivot seat or surface becomes gradually juxtaposed to one (first juxtapositions or to the other (second juxtaposition) of the apertures of the valve body. In the first juxtaposition, the inside of the cylinder is placed in gradually increasing communication with a source of pressure fluid which is fed to the inside of the cylinder, and therefore the piston is subjected to an axial force which it transmits to the crank or crankshaft as a rotational impulse. In the second juxtaposition, the inside of the cylinder is placed in gradually increasing communication with the discharge, there is gradually decreasing resistance to the motion of the piston, and the fluid is gradually discharged from the cylinder. At one of the extremes of the oscillation of the connecting-rod assembly, said first juxtaposition is complete or at least at a maximum, and said piston is subjected to a maximum axial force; at the opposite extreme, and the discharge of the fluid from said cylinder is complete or at least as complete as it will be. Said operative phases will be further described hereinafter, with reference to
For the sake of clarity, the outwardly or projecting motion of the piston, with respect to the cylinder, from its innermost or most retreated position to its outermost or most extended position, during which it transmits to the crank a rotational impulse, will be called the positive or active stroke, and the inwardly or retreating motion of the piston from said outermost to said innermost position, during which it discharges the fluid from the cylinder, will be called the negative or passive stroke. As will be explained in detail hereafter, the choice of which port communicates with a source of pressure fluid and which communicates with a discharge depends on the phases of the swinging motion of the crank, and is established so as to impart to the crank a rotational impulse when this is desired and allow it to continue freely in its swinging motion when-no further impulse is to be transmitted from the respective connecting-rod. It will be understood that, if the shaft connected to the crank always rotates in the same direction, one port will always be in communication with the source of pressure fluid and the other port will always be in communication with the discharge. However, if the shaft is to rotate alternatively in opposite directions, the ports will periodically switch their aforesaid communications.
In one of the preferred embodiments of the invention, the crank is associated with a plurality of connecting-rod assemblies, which are angularly spaced, preferably by the same angle. Each connecting-rod assembly has an angular position that can be called the “null” or “zero angle position”, which is the position at which the axis of the piston of the connecting-rod assembly and the radius of the crank are aligned. Actually, there are two such positions, in one of which the piston is at its greatest retraction, while in the other it is in its greatest extension. When it is said herein that various connecting-rod assemblies are angularly spaced from one another, what is meant is that the null angle positions thereof are angularly spaced from one another. Preferably, the angular spacing is uniform, but this is not necessary and dynamic considerations may suggest a different angular spacing. Since in a preferred embodiment of the invention three connecting-rod assemblies are provided, any two of them are adjacent to one another and are spaced from one another by 120° or by any other chosen angle. The connecting-rod assemblies, however, when a plurality of them is present, need not be at an angle to one another but may be linearly spaced, viz. placed one next to the other in such a way that the axes of their null angle positions are all coplanar, parallel to one another in the common plane, and displaced from one another perpendicularly to their common direction. In this case, each connecting-rod assembly operates on a different crank and all the cranks are part of a crankshaft. An apparatus in which the connecting-rod assemblies are linearly spaced is also a preferred embodiment.
Another aspect of the invention is the provision of an apparatus for the production of mechanical work from hydraulic energy, which comprises a source of pressure fluid and a mechanism for actuating at least one rotatable shaft from the said pressure fluid, as hereinbefore described.
Preferably, the invention also comprises the use of the mechanism hereinbefore described for producing mechanical work the mechanism can be applied for producing mechanical work in any apparatus. Among such applications are, for example, sprinklers, mixers, in particular concrete mixers, apparatus for winding cables or garden hose reels, for spreading pool covers, for actuating shading canvases, valve control motors, robots for cleaning swimming pools, ride-on garden toys, cooling fans, rotary watering filters, and the like. The mechanism can also be used for the production of electrical energy, viz. can be coaxial with or otherwise drive an electricity generator it should be noted that, in some cases of engines according to the invention, the actuating fluid can be used, after its discharge from the engine, for other purposes for which only a low pressure or no pressure at all is required. For instance, if the fluid is water, the discharged water may be used in water sprinklers, drip systems, humidification of cooling fans, supplying water to cement mixers, and the like. Such a further use and the resulting apparatus are also aspects of the invention.
In the drawings:
The operation of a connecting-rod assembly according to an embodiment of the invention will be understood with reference to
As seen in
The connecting-rod assembly 13 is pivoted to a stationary valve 20, only one end of which is visible in
In
In the position of
As the motion of the mechanism continues, as shown in
As the motion of the mechanism continues, piston 15 accomplishes its negative or passive stroke and retracts into cylinder 14 as far as it can go. At
It is apparent therefore that pressure fluid, particularly water, must be introduced into cylinder 14 while it swings from the position of
In
Apertures 38 and 39 are in communication with inner channels 33 and 34 which lead to opening 21, or to an equivalent opening, not shown in the drawing, and located on the opposite side of the valve. One of these ports is in communication with a source of pressure fluid, while the other port is in communication with the discharge; but, as has been said hereinbefore, in some embodiments said communications may be periodically switched. Switching of communications causes the inversion of the motor direction of rotation. Aperture 36 of the connecting-rod cylinder becomes gradually juxtaposed to one of openings 38 and 39, as has been explained, during the swinging of the connecting-rod assembly between the two maximum angular deviations shown in
If the shaft driven by the mechanism always rotates the same direction, fluid and only one seal is required. If the shaft driven by the mechanism alternatively rotates in opposite directions, both valve body ports alternatively communicate with the source of pressure fluid and both must be provided with a seal-cap unit as hereinbefore described. This is illustrated in the exploded perspective of
While specific embodiments have been shown by way of illustration, it should be understood that the invention can be carried out with many modifications, variation and adaptations, without departing from its spirit or exceeding the scope of the claims.
Number | Date | Country | Kind |
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148748 | Mar 2002 | IL | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IL03/00231 | 3/17/2003 | WO |