The present invention relates to a device for extracting auxiliary power from a power source, and more particularly to a device for extracting auxiliary power from a power source installed on or associated with an implement, and supplying the auxiliary power to an auxiliary tool associated with the implement. In a typical preferred embodiment, the invention is advantageously employed in the context of an auxiliary tool, e.g., in the form of a rotary trimmer, edger or the like associated with another power implement, such as a lawn mower. The power is preferably extracted from a driven member of the implement, which maximizes retrofitability.
There have been many prior attempts to provide devices for extracting auxiliary power from a power source, including in the context of supplying auxiliary power to an auxiliary tool such as a rotary trimmer. One such attempt is illustrated in Qualls U.S. Pat. No. 4,653,254, which relates to a hand-held string trimmer that is powered by the engine on a push lawnmower, by attaching a collar member 28 to the top end of shaft 16 of the motor power source 12 of the lawnmower and connecting the collar and trimmer with a flexible drive shaft. Attachment is by means of a detent fit between circumferential shoulder 36 of a first cylindrical locking member 32 and recess 44 extending circumferentially about the interior of coupling member 42. Similar is Beaver U.S. Pat. No. 4,242,855, which also discloses the option of additionally driving a sprayer pump from a pulley attached to the top end of the motor drive shaft.
Another attempt is illustrated in Owens U.S. Pat. No. 4,642,976, which is directed to an attachment for edging or trimming grass that is designed to be attached to a lawnmower or a vehicle/riding lawnmower by a bracket, in such a way that the edger/trimmer head can be raised, lowered and rotated with respect to the bracket. At the end of the head opposite its cutting members, there is a quick disconnect joint which allows either an electric motor to be mounted and energized by electrical power available aboard the mower, or alternatively allows a cable drive to be mounted which drives the head from a friction drive mechanism taking power from the mower engine shaft.
Borunda U.S. Pat. No. 3,604,208 discloses an alternative arrangement for powering an edger from the engine of a push lawnmower. A bevel gear mounted on the vertical drive shaft of the engine allows selective engagement of a mating bevel gear to drive the trimmer. The mower blade is also selectively engageable.
U.S. Pat. No. 4,559,768 to Dunn describes a device such as a push lawnmower that has a gasoline-powered engine/generator mounted on the mower deck. This generator can be used to power an electrically-driven mower blade, or alternatively an auxiliary device, such as a trimmer.
Several other devices have been proposed in which an auxiliary pulley is secured to the drive mechanism of a mower, where this pulley is employed to drive an auxiliary trimmer. On such device is shown in Ould U.S. Pat. No. 4,715,169, which has a trimmer mounted on the mower deck and a flexible shaft driving the trimmer from a secondary pulley that is belt-driven from the auxiliary pulley attached to the top end of the motor drive shaft. Bares U.S. Pat. No. 6,892,518 discloses an edge trimmer assembly that is mountable on the deck of a lawnmower, such as a riding lawnmower having a mower deck comprising a plurality of cutting blades. In one embodiment, the trimmer is driven by an auxiliary v-belt surrounding an auxiliary pulley attached to one of the pulleys that is part of the mower deck and is used to drive one of the blades.
In addition to the Bares patent, two other patent documents (Hatfield U.S. Pat. No. 7,219,488 and Heighton US 2004/0237491) are illustrative of today's state-of-the-art regarding the professional/commercial lawnmowing trade, in which the use of an auxiliary trimmer device is found to be very desirable in order to increase efficiency and lower the labor cost of caring for extensive areas of lawn, e.g., cemeteries, office buildings, parks, public buildings, schools, etc. Most typically, the so-called “Zero-Turn Radius” (ZTR) riding lawnmowers have been found to be most efficient and are consequently used for the most significant part of this trade, i.e., in which there is usually a company-owned fleet comprised of a plurality of mowing machines that, over time, evolve (due to addition and/or replacement) to include machines of multiple different configurations.
In most of these documents, the intent is to provide an auxiliary device, such as a trimmer, that is retrofittable to existing commercial lawnmower models. However, in each instance, the respective devices are practically limited to a very small number of commercial products, and/or the retrofit requires substantial and not quickly reversible changes to existing commercial machines, e.g., firmly attaching auxiliary drive parts to a shaft that is either an engine drive shaft or part of a pulley for powering a mower cutting blade. Furthermore, each of the many commercially available Zero-Turn mowers is configured differently (as is the case for nearly all other designs for lawnmowers, large and small), such that there is virtually no practical possibility to utilize any of these devices interchangeably from one machine to another. Although the use of magnets has been known for centuries to temporarily attach items together, including temporarily holding a flashlight, even on a lawn mower (See US 2016/0116145A12), magnets are not deemed suitable for attaching parts of machinery together, particularly driving/driven pairs of parts and/or moving parts that are subject to forces and/or vibration, as in the context of, for example, a power lawn mower.
The same is true with respect to the mechanism for mounting an auxiliary trimmer onto the body or mower deck of these commercially used mowers. Apart from having to detach and re-attach the specially configured bracket mechanisms when attempting to switch between different mower models, in many cases the brackets will not readily fit onto differently configured mower decks. In addition, there are mutually-contradictory demands, on the one hand, to be able to easily move an auxiliary trimmer into the needed orientation vis-à-vis the mower deck, and on the other hand, to simultaneously protect the trimmer from damage and/or detachment upon inadvertently striking an obstacle with the trimmer.
For these reasons, the market does not currently offer a practical, universally usable and retrofittable auxiliary trimmer attachment, whereby those responsible for maintaining large tracts of lawn have not been able to make full use of the economically advantageous option of simultaneously mowing and trimming utilizing a single mower unit, especially in the case of commercial fleets of mowing machines that comprise plural machines of differing configurations. There is a current demand for a product that is capable of fulfilling this need.
In accordance with one aspect of the present invention, there has been provided a device for extracting auxiliary power from a power source installed on or associated with an implement and supplying the auxiliary power to an auxiliary tool associated with the implement, comprising: a coupling device that is adapted to interact with the power source installed on or associated with the implement, wherein, when the coupling device is positioned to interact with the power source, the coupling device extracts auxiliary power from the power source; an auxiliary tool associated with the implement in a manner such that the auxiliary tool can be operated by means of the auxiliary power that is extracted by the coupling device from the power source that is installed on or associated with the implement; and an auxiliary power transmission arrangement for transmitting auxiliary power from the coupling device to the auxiliary tool, wherein at least one of the coupling device and the auxiliary tool comprises a magnetically actuated attachment member for associating the coupling device and/or the auxiliary tool with the implement. Most preferably, both the coupling device and the auxiliary tool comprise a magnetically actuated attachment member.
In some preferred embodiments, the coupling device is capable of being manipulated into a plurality of arbitrarily-selectable spatial configurations to accommodate unique shapes of a plurality of different implements, preferably by having a plurality of supporting parts, at least some of which are movable laterally and/or adjustable in vertical length. Most preferably, the number of spatial configurations is very large, to accommodate mounting on nearly any machine configuration.
In some preferred embodiments, the power source comprises a moving part on the implement which is driven by the power source, preferably the shaft of a pulley on a mower deck, most preferably a bolt head or a nut on a drive- and/or a driven-pulley. In these embodiments, it is preferred that the coupling device comprises a socket that fits over the bolt head or nut.
In other preferred embodiments, the arrangement for transmitting auxiliary power comprises a shock-absorbing and/or break-away mechanism, to deal with the case of an auxiliary tool stoppage or disruption. Most preferably, the auxiliary tool incorporates a break-away feature in its mounting on the implement, and/or a shock-absorbing feature.
In one of its most preferred embodiments, the invention is embodied on a ridable lawnmower, such as a self-powered mower, a towed mower or a front mounted mower, preferably a self-powered mower, such as a lawn tractor with mounted mower deck or a dedicated riding mower, most preferably a Zero-Turn mower of the sit-upon or stand-upon type. The invention is equally applicable to older models of ridable lawnmowers, such as those comprising a lawn tractor with a detachable mower deck, a tractor having a side-mounted mowing device and/or a towable mowing device that is designed to be towed (or pushed) by any kind of pulling/pushing device, including a tractor, lawn tractor, a vehicle, such as a truck, and/or utility vehicle, such as an ATV.
In accordance with another aspect of the present invention, there has also been provided a device for extracting auxiliary power from a power source installed on or associated with an implement and supplying the auxiliary power to an auxiliary tool associated with the implement, comprising: a coupling device that is adapted to interact with the power source installed on or associated with the implement, wherein when the coupling device is positioned to interact with the power source, the coupling device extracts auxiliary power from the power source; an auxiliary tool associated with the implement in a manner such that the auxiliary tool can be operated by means of the auxiliary power that is extracted by the coupling device from the power source that is installed on or associated with the implement; and an auxiliary power transmission arrangement for transmitting auxiliary power from the coupling device to the auxiliary tool, wherein the coupling device is capable of being configured into a plurality of different configurations and is thereby capable of being retrofitted to any of a plurality of differently-configured power source arrangements.
In some preferred embodiments, the power source installed on or associated with the implement comprises a moving part, preferably a moving part that supplies rotary power to cutting blades on the implement. This moving part is preferably either a drive pulley or, more preferably, a driven pulley providing rotary power to the cutting blades, and is preferably part of mower cutting deck. Preferably, the coupling device is selectively engageable with the moving part to extract auxiliary power from the moving part. Such engagement is preferably achieved by the coupling device comprising a socket that couples with a bolt head/nut on the moving part, which is preferably a drive- and/or driven-pulley.
In certain preferred embodiments, coupling device comprises at least one movable/adjustable support member for supporting the coupling device on the implement, to provide for customized retro-fitting of coupling device to a plurality of different implement configurations.
In other preferred embodiments, the coupling device has a magnetically actuated attachment member that fixes the coupling device in an engaged power-transmitting position with respect to the power source that is installed on or associated with the implement.
In other preferred embodiments, the auxiliary tool comprises a magnetically actuated attachment member that provides at least one of the following advantages: associating the auxiliary tool with the implement in such a way that the tool is capable of plural (preferably a large number of) arbitrarily-selectable mounting configurations upon the implement, and in such a way that the tool includes the possibility of a shock-absorbing and/or break-away protection in the event of a collision beyond a pre-selected magnitude of force.
In some preferred embodiments, an auxiliary tool support arm can be either fixedly attached to a support post, or it can be attached in a manner that provides vertical adjustment, lateral adjustment and/or rotational adjustment to the auxiliary tool attached. In one embodiment, the support arm can be adjusted in height and/or horizontal arc of rotation with respect to the support post, and/or the arm can be mounted for articulation in a vertical arc to provide vertical adjustment of the tool 50.
In another preferred embodiment, the support structure provides for selective lateral adjustment of the auxiliary tool by the implement operator, e.g., wherein the auxiliary tool further comprises a device for selectively adjusting the lateral position of the auxiliary tool with respect to the implement, preferably a remotely controlled rack-and-pinion device.
In other preferred embodiments, the power transmission arrangement comprises a shock-absorbing and/or break-away feature to prevent damage to the arrangement in the case of slowdown and/or stoppage of the auxiliary tool.
Preferably, the shock-absorbing and/or break-away feature comprises a clutch mechanism installed in a flexible drive cable arranged in a power-transmitting relationship between the auxiliary tool and the coupling device.
In other preferred embodiments, the power transmission arrangement comprises a means for selectively engaging and disengaging the auxiliary tool that is attached to the power-supplying implement. One selective power engagement/disengagement mechanism is capable of selectively lowering a socket piece into engagement with bolt head, and selectively raising the socket piece out of engagement with bolt head, preferably by means of a helical slot and pin arrangement.
Further objects, advantages and preferred embodiments of the invention are described in and/or will become apparent from the detailed description of preferred embodiments that follows, when considered together with the accompanying figures of drawing.
In the drawings:
Below frame 106 is mounted a mower deck 120, which can be seen generally in
The present invention is useful in connection with a very wide range of implements, including virtually any kind of mowing equipment. For example,
In all of the illustrated embodiments of the application the auxiliary tool is depicted, for simplicity, as a string trimmer 50, mainly because this represents one of the most popular tools in use today for lawn and landscaping care. However, it is to be understood that the present invention is applicable to and includes within its scope virtually any kind of auxiliary tool that is power driven, such as an edger, saw with rotary blade, grinder, blower, vacuum, sweeper or the like.
In accordance with the present invention, an auxiliary tool can be easily attached to a mowing device and driven from the power source of the mowing device. The device according to the invention for extracting auxiliary power to drive an auxiliary tool is easily retrofittable to a wide variety of powered devices, especially mowing devices. The power-extracting device of the invention interacts with a standard part that is present in almost every mowing machine that employs a mower deck, namely, a hexagonal (or other suitably shaped) bolt head that fastens a rotating pulley that is located over a mowing blade and that is used to provide rotary power to the blade. A corresponding hexagonal (or other shape) socket member of the invention fits over the bolt head and transfers power to the auxiliary device via a flexible cable or other means.
Mower decks typically include two blade-driving pulleys located at each outboard side of the deck, at positions that are readily accessible. Each of these pulleys is covered by a pulley guard cover provided by the original equipment manufacturer (OEM). There are several ways in which the hexagonal bolt heads can be accessed. In some cases, the OEM provides a circular or other opening to provide access to the bolt head, with the openings being fitted with a removable cover. These designs are the easiest to retrofit with the device of the invention, and having the device of the invention available to the market will encourage OEM's to provide pulley guard covers of this type in the future. In other cases, it will be necessary to either cut or punch an opening in the pulley guard cover, or to provide a custom replacement version of the OEM pulley guard cover that is provided with a suitable opening and can simply replace the original pulley guard cover.
Referring now to
Another alternative arrangement is shown in
Referring now to
Support arm 68 can be either fixedly attached to support post 64, or it can be attached in a manner that provides vertical adjustment and/or rotational adjustment to the auxiliary tool 50 attached. In one embodiment, the support arm can be adjusted in height and/or horizontal arc of rotation with respect to the support post. Arm 68 can also or in the alternative be mounted for articulation in a vertical arc, as shown by the arrows in
With reference to
It is preferable to provide the auxiliary power transmission arrangement of the invention with a means for selectively engaging and disengaging the auxiliary tool that is attached to the power-supplying implement. In the simplest sense, this can be accomplished by the operator manually disengaging the bayonet type coupling configuration 41 illustrated in
A preferred embodiment for accomplishing this advantageous goal is illustrated in
Selective engagement and disengagement of the auxiliary power transmission arrangement 40 can be done by the operator manually engaging and rotating one of the helix lifting pins 91; however, most preferably, the operator can remotely move/rotate the helix lifting pin 91, for example, with a push-pull cable 99 (shown schematically in
According to another aspect of the present invention, a solution is provided for another problem that can be encountered when operating an auxiliary tool by a primary power source, namely, the problem that damage can occur in the auxiliary power transmission arrangement if the auxiliary tool encounters and obstacle that arrests or binds the rotation of the auxiliary tool. In this case, the flexible cable that drives the auxiliary tool can be damaged or even broken. It is desired to provide shock-absorbing protection against the cable being damaged when an event like this occurs.
The ball cable clutch mechanism described here not only has the advantage of providing a simple shock-absorbing or break-away method of protecting the cable from damage, but also offers another way of selectively engaging and disengaging the auxiliary tool 50.
Any mechanism for selectively shortening cable segment 74A, e.g., by having a gap that can be pulled together or by having a cam mechanism that can be selectively rotated to shorten or lengthen that cable segment, causes the frictional force between ball and cavity to increase or decrease, thereby selectively transmitting force from cable segment 74A to cable segment 74B. Alternatively, shortening of cable segment 74A can also be accomplished by simply bending the cable segment.
The present invention has been described and illustrated with reference to certain preferred embodiments. Many alternative but equivalent changes and/or configurations will be apparent to persons skilled in the art upon reading this description. It is to be understood, therefore, that the scope of protection is to be determined by the appended claims, which are intended to encompass such obvious equivalents.
Number | Date | Country | |
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Parent | 16882901 | May 2020 | US |
Child | 17987793 | US | |
Parent | 15877238 | Jan 2018 | US |
Child | 16882901 | US |