MODULAR LEAF SHREDDER
A modular leaf shredder is provided. The modular leaf shredder includes a housing having a plurality of interlocking housing subsections. The modular leaf shredder further includes a trimmer connector adapted to form a physical connection with a cooperating member of a trimmer in order to physically join the housing to the trimmer. The head of the trimmer includes a rotating head having at least three sets of cutting wires, at least two sets of cutting wires being substantially perpendicular to each other.
This application claims the benefit of U.S. application Ser. No. 15/291,629, which was filed on Oct. 12, 2016, as well as the benefit of U.S. Provisional Application Ser. No. 62/240,285, which was filed on Nov. 12, 2015, both of which are incorporated herein by reference in their entirety.
FIELD OF THE INVENTIONThe embodiments of the present invention generally relate to leaf shredding devices and, more particularly, to modular leaf shredding devices that are configured to be detachably coupled to a variety of trimming devices.
DISCUSSION OF THE RELATED ARTAs part of a property owner's responsibility regarding maintenance of their property, naturally occurring elements must periodically be removed from the property, and often from the ground. A common element that may need removal is an accumulation of leaves that may fall from trees and other plants.
Landscapers, gardeners, and homeowners alike have become accustomed to the hassles associated with the falling foliage of the autumn season. Although falling leaves produce a variety of beautiful colors, they also produce the nuisances associated with their collection and removal. In particular, the nuisance seems to be exponentially amplified in wooded neighborhoods. To this end, combinations of rakes, blowers, trash bags, composting methods, and the like are used to collect and remove leaves.
Although some approaches for leaf disposal have been developed by the gardening industry, the most common approach still remains raking or blowing leaves into large piles, followed by the dreaded task of bagging the leaves for disposal. Leaves are lightweight, but nevertheless the transporting of bagged leaves remains tedious, time-consuming, and labor-intensive as several bags may result from even a single tree.
In connection with other duties in maintaining a property, weed trimmers are typically used to cut grass or weeds in areas where lawn mowers cannot be used. Such areas may be alongside buildings, fences, or in flower or vegetable gardens where a lawn mower has a cutting width larger than the garden rows or cannot get close enough to the buildings or fences. In addition, weed trimmers cause debris to be randomly propelled into the air. As a result, an operator of a weed trimmer may be struck by flying debris such as weeds, grass, dirt, stones, and the like. Such debris may cause damage to surrounding objects, such as windows, gutters, and downspouts. Although weed trimmers have been developed in multiple configurations, weed trimmers have not been utilized for leaf disposal, until now.
In light of the above drawbacks, the inventor has identified a need for an alternative to conventional leaf disposal techniques. The instant application seeks to overcome limitations in property maintenance technology. Accordingly, a modular leaf shredder is provided and described herein.
SUMMARY OF THE INVENTIONThe embodiments of the present invention are directed to a modular leaf shredder that substantially addresses or obviates one or more limitations or disadvantages of the related art.
Features and advantages of the invention are set forth in the description which follows, or will be apparent from the description, or may be learned by practice of the invention.
In one example, a modular leaf shredder includes a housing having a plurality of interlocking housing subsections, a trimmer connector adapted to form a physical connection with a cooperating member of a trimmer in order to physically join the modular leaf shredder to the trimmer, wherein a rotating head of the trimmer includes at least three sets of cutting wires, at least two sets of cutting wires being substantially perpendicular to each other.
In the various embodiments, the plurality of interlocking housing subsections of the housing may be interconnected using at least one of a track connector, a latch connector, a plug connector, or a screw connector.
The trimmer connector adapted to form the physical connection with the cooperating member of the trimmer may form a physical connection with a shaft of the trimmer, wherein shaft of the trimmer is either straight or curved. Alternatively, the trimmer connector may be configured to connect to a push trimmer, walk trimmer, edger, or other lawncare or gardening machine.
The housing and/or housing subsections may be arranged to provide a modular leaf shredder that has a circular dome-shaped structure. The housing of the modular leaf shredder may be made of molded plastic or other lightweight and durable materials.
It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the described examples.
Further embodiments, details, advantages, and modifications will become apparent from the following detailed description of the preferred embodiments, which is to be taken in conjunction with the accompanying drawings.
Reference will now be made in detail to embodiments, examples of which are illustrated in the accompanying drawings. In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. However, it will be apparent to one of ordinary skill in the art that the present invention may be practiced without these specific details. In other instances, well-known methods, procedures, components, and circuits have not been described in detail so as not to unnecessarily obscure aspects of the embodiments. Wherever possible, like reference numbers will be used for like elements.
A modular leaf shredder is provided. The modular leaf shredder includes a housing having a plurality of interlocking housing subsections. The modular leaf shredder further includes a trimmer connector adapted to form a physical connection with a cooperating member of a trimmer in order to physically join the housing to the trimmer. The rotating head of the trimmer includes at least three sets of cutting wires. At least two sets of cutting wires may be substantially perpendicular to each other.
Housing 110 may be formed as a single unit, or alternatively, may be formed by coupling one or more housing subsections. When being sold as a dedicated leaf shredder, the embodiments may utilize a housing formed from a single unit. Alternatively, when being sold as an accessory for a commercially available trimmer, the housing may include one or more housing subsections. In the example configuration of
A variety of housing connectors 115A, 1158 may be used in order to physically join or connect each housing subsection to an adjoining housing subsection. As would be understood by a person of ordinary skill in the art, in the context of this description, a connector “physically” connects or forms a “physical” connection between two units when those two units are rigidly interlocked. When two housing subsections are physically connected, they are connected together such that they only can be moved together. Some example connector types for forming a physical connection between housing components include screw, track, latch, and plug connectors, but the embodiments of the invention are not so limited. For example, track connectors may include a tongue-like structure that can be used as male first connector and a groove structure that can be used as female second connector.
Housing 110 and housing subsections 110A, 1108 can be formed from various lightweight materials. Example materials include a variety of plastics, preferably durable and lightweight plastics. Lightweight metals, such as aluminum, can also be used. Although a circular dome-shaped housing is illustrated in
The housing 110 and housing subsections 110A, 110B may be constructed using a variety of molding processes. For example, a process of biaxial rotomolding using a base of medium density powdered polyethylene with ultra-violet inhibitors may be used. Alternatively, the system may be produced using three dimensional (“3D”) printing.
When modular leaf shredder 100 is not coupled to a trimmer, it may be stored and the trimmer may be used in a conventional manner. However, when modular leaf shredder 100 is coupled to a trimmer, modular leaf shredder 100 shreds the leaves entering housing 110 through one or more openings 130. In particular, the leaves are shredded into very fine particles that may be left to remain on the homeowner's lawn or other area. In the alternative, housing 110 may be equipped with an external output orifice that may be coupled to a fan-driven suction and bag system (not shown). By leaving the shredded leaves on the homeowners lawn, modular leaf shredder 100 eliminates the need for rakes, leaf blowers, and bags. In addition, the remaining shredded leaf particles act as a fertilizer or compost for the homeowner's lawn.
Housing 210 may be formed as a single unit, or alternatively, may be formed by coupling one or more housing subsections. In the example configuration of
As discussed above, a variety of housing connectors 215A, 2158 may be used in order to physically join or connect each housing subsection to an adjoining housing subsection. Example connector types for forming a physical connection between housing components include screw, track, latch, and plug connectors, but the embodiments of the invention are not so limited.
As also discussed above, housing 210 and housing subsections 210A, 2108 can be formed from various lightweight and durable materials. Example materials include a variety of plastics, preferably durable and lightweight plastics. Lightweight metals, such as aluminum, can also be used. Although a circular dome-shaped housing is illustrated in
The example embodiment depicted in
Regardless of the type of wheel mount used, a variety of wheel types may be used. Example wheel types include standard, orientable, multi-directional, and omnidirectional wheels, but the embodiments of the invention are not so limited.
When modular leaf shredder 200 is coupled to a trimmer, modular leaf shredder 200 shreds the leaves entering housing 210 through one or more openings 230. In particular, the leaves are shredded into very fine particles that may be left to remain on the homeowner's lawn or other area.
Housing 310 may be formed as a single unit, or alternatively, may be formed by coupling one or more housing subsections. In the example configuration of
As discussed above, a variety of housing connectors 315A, 3158 may be used in order to physically join or connect each housing subsection to an adjoining housing subsection. Example connector types for forming a physical connection between housing components include screw, track, latch, and plug connectors, but the embodiments of the invention are not so limited.
As also discussed above, housing 310 and housing subsections 310A, 3108 can be formed from various lightweight and durable materials. Example materials include a variety of plastics, preferably durable and lightweight plastics. Lightweight metals, such as aluminum, can also be used. Although a circular dome-shaped housing is illustrated in
Modular leaf shredder 300 may include a plurality of wheel mounts 340, such as wheel mounts 340A, 340B, 340C. Of course, the shredder 300 may be implemented with or without wheel mounts 340. In this example configuration, a fourth wheel mount (not shown) may be disposed opposite wheel mount 340B, however, numerous wheel mount configurations are feasible, such as three or five wheel configurations. Each of wheel mounts 340 is configured to be coupled to a wheel (not shown). Although the wheel mounts 340 depicted in
As discussed above, a variety of wheel types may be used. Example wheel types include standard, orientable, multi-directional, and omnidirectional wheels, but the embodiments of the invention are not so limited.
When modular leaf shredder 300 is coupled to a trimmer, modular leaf shredder 300 shreds the leaves entering housing 310 through one or more openings 330. In particular, the leaves are shredded into very fine particles that may be left to remain on the homeowner's lawn or other area.
Housing 410 may be formed as a single unit, or alternatively, may be formed by coupling one or more housing subsections. In the example configuration of
As discussed above, a variety of housing connectors 415A, 4158 may be used in order to physically join or connect each housing subsection to an adjoining housing subsection. In addition, a variety of undermount connectors 445 may be used in order to physically join or connect housing 410 to an adjoining member of the push or walk trimmer. Example connector types for forming a physical connection between housing components include screw, track, latch, and plug connectors, but the embodiments of the invention are not so limited.
As also discussed above, housing 410 and housing subsections 410A, 4108 can be formed from various lightweight and durable materials. Example materials include a variety of plastics, preferably durable and lightweight plastics. Lightweight metals, such as aluminum, can also be used. Although a circular dome-shaped housing is illustrated in
When modular leaf shredder 400 is coupled to the push or walk trimmer, modular leaf shredder 400 shreds the leaves entering housing 410 through one or more openings 430. In particular, the leaves are shredded into very fine particles that may be left to remain on the homeowner's lawn or other area.
Multiples sets of wires or lines 510, 520, 530, and 540 emanate from rotating head 550. In addition, each of wires or line sets 510, 520, 530, and 540 are arranged to be opposite or substantially perpendicular one another. For example, wire or line sets 510 and 530 are arranged in opposing directions. In another example, wire or line sets 510 and 520 are arranged in a substantially perpendicular configuration. Wire or line sets 510 and 540 are also arranged in a substantially perpendicular configuration. The wires or lines may be composed of plastics, composites, metals, alloys, and other suitable materials.
The combined arrangement of wire or line sets 510, 520, 530, and 540 are designed to loosen and/or pull leaves so that the leaves can be more efficiently shredded. For example, wires or lines 520 may operate to loosen and pull leaves into any of the modular leaf shredders described herein. The addition of wires or lines 540 to rotating head 550 operate to more effectively shred the leaves that enter the modular leaf shredders. The size of the dome or modular housing unit, assembled, may be adapted to complement the size and shape of the wires protruding from the trimmer head.
Embodiments of
It will be apparent to those skilled in the art that various modifications and variations can be made in the modular leaf shredder of the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.
Claims
1. A leaf shredder trimmer attachment, the leaf shredder trimmer attachment comprising:
- a housing comprising an upper portion and a lower portion, the housing comprising a plurality of interlocking housing subsections; and
- a trimmer connector that is mounted on the housing and forms a physical connection with a cooperating member of a trimmer to physically join the housing to the trimmer; and
- a trimmer head arranged at the end of a shaft, the trimmer head being fully enclosed by the leaf shredder trimmer attachment,
- wherein the housing comprises at least one opening at a bottom edge of the lower portion of the housing allowing leaves to enter the housing through the at least one opening.
2. The leaf shredder trimmer attachment according to claim 1, wherein the plurality of interlocking housing subsections of the housing are interconnected using a plurality of screw connectors or a plurality of track connectors.
3. The leaf shredder trimmer attachment according to claim 1, wherein the leaf shredder trimmer attachment is formed using biaxial rotomolding or three-dimensional printing.
4. The leaf shredder trimmer attachment according to claim 1, wherein the trimmer is a push trimmer.
5. The leaf shredder trimmer attachment according to claim 1, wherein the cooperating member of the trimmer is the shaft.
6. The leaf shredder trimmer attachment according to claim 5, wherein the shaft of the trimmer is either straight or curved.
7. The leaf shredder trimmer attachment according to claim 1, wherein the trimmer head includes a rotating head and a plurality of cutting wire sets protruding from the rotating head within the perimeter of the housing, the plurality of cutting wire sets being oriented to protrude from the rotating head at multiple angles such that a first set of cutting wires protrudes parallel to ground when the trimmer is activated, a second set of cutting wires protrudes below the first set of cutting wires, and a third set of wires protrudes above the first set of cutting wires.
8. The leaf shredder trimmer attachment according to claim 1, wherein the upper portion includes an approximately dome shaped structure arranged above the lower portion, and the lower portion includes an approximately tubular structure, with the upper portion being tapered from a border with the lower portion towards the trimmer connector.
9. The leaf shredder trimmer attachment according to claim 1, wherein the upper portion includes an approximately dome shaped structure arranged above the lower portion, the upper portion having a planer upper surface configured to mount to a push trimmer.
10. The leaf shredder trimmer attachment according to claim 1, wherein the housing of the leaf shredder trimmer attachment is made of molded plastic or lightweight metal.
11. The leaf shredder trimmer attachment according to claim 1, wherein the housing further includes a plurality of wheel mounts at the base of the housing, each of the plurality of wheel mounts being configured to attach to a wheel.
12. The leaf shredder trimmer attachment according to claim 1, wherein the trimmer connector is located at a top surface or a side surface of the housing.
13. A leaf shredder trimmer attachment, the leaf shredder trimmer attachment comprising:
- a housing including an upper portion and a lower portion, the housing having a plurality of interlocking housing subsections;
- a trimmer including a trimmer head and a cooperating member; and
- a trimmer connector mounted on the housing;
- wherein the housing comprises at least one opening at a bottom edge of the lower portion of the housing allowing leaves to enter the housing through the at least one opening.
14. The leaf shredder trimmer attachment according to claim 13, wherein the plurality of interlocking housing subsections of the housing are interconnected using a plurality of screw connectors or a plurality of track connectors.
15. The leaf shredder trimmer attachment according to claim 13, wherein the leaf shredder trimmer attachment is formed using biaxial rotomolding or three-dimensional printing.
16. The leaf shredder trimmer attachment according to claim 13, wherein the trimmer is a push trimmer.
17. The leaf shredder trimmer attachment according to claim 13, wherein the cooperating member of the trimmer is the shaft.
18. The leaf shredder trimmer attachment according to claim 17, wherein the shaft of the trimmer is either straight or curved.
19. The leaf shredder trimmer attachment according to claim 13, wherein the trimmer head includes a rotating head and a plurality of cutting wire sets protruding from the rotating head within the perimeter of the housing, the plurality of cutting wire sets being oriented to protrude from the rotating head at multiple angles such that a first set of cutting wires protrudes parallel to ground when the trimmer is activated, a second set of cutting wires protrudes below the first set of cutting wires, and a third set of wires protrudes above the first set of cutting wires.
20. The leaf shredder trimmer attachment according to claim 13, wherein the upper portion includes an approximately dome shaped structure arranged above the lower portion, and the lower portion includes n approximately tubular structure, with the upper portion being tapered from a border with the lower portion towards the trimmer connector.
21. The leaf shredder trimmer attachment according to claim 13, wherein the upper portion includes an approximately dome shaped structure arranged above the lower portion, the upper portion having a planer upper surface configured to mount to a push trimmer.
22. The leaf shredder trimmer attachment according to claim 13, wherein the housing of the leaf shredder trimmer attachment is made of molded plastic or lightweight metal.
23. The leaf shredder trimmer attachment according to claim 13, wherein the housing further includes a plurality of wheel mounts at the base of the housing, each of the plurality of wheel mounts being configured to attach to a wheel.
24. The leaf shredder trimmer attachment according to claim 13, wherein the trimmer connector is located at a top surface or a side surface of the housing.
Type: Application
Filed: Feb 10, 2020
Publication Date: Jun 4, 2020
Inventor: Refaat Emil Ghabranious TAKLA (Germantown, MD)
Application Number: 16/786,012