The present invention relates to front-loaders, bucket loaders, or similar equipment. More specifically, but not exclusively, the present invention relates to a reach and pull action loader grapple for use with such a loader.
Various types of loaders are available which include buckets. Although useful, there are meaningful limitations on the ability to handle certain types of loads. A grappling arm or grapple may be used to improve the ability to handle certain types of awkward loads. Yet, a grapple can also lead to obstructed views and may be easily damaged.
Another problem with existing grapples is the limited amount of forward reach, as measured from the primary grapple pivot point to the anticipated load or object. Grapples may start from a generally upright position, and are lowered in a downward motion that squeezes the material from the top (or in some cases the top side) with the hope that the clamping action holds material in place. Some grapples have a motion such that when they are closed they rotate into the bucket. This rotation is proportional to the distance lowered. Current methods rely on gravity and/or linkages to control the movements of the grapple components. These types of mechanisms intrude into the available working space, may obstruct view, and may also reduce the amount of force able to bring the end of the grapple back towards the bucket to grab the material. Grapples that proportionally rotate as they are lowered, can not reach beyond the arc defined by their single axis of rotation and thus do not maximize the amount of material they can grab.
What is needed is an improved grapple which allows for grabbing larger objects while not intruding into the available working space for the object or obstructing view.
Another need is a controlled way to lower a grapple to ensure that the end of the grapple is able to reach out as far as possible, while still being able to be brought back towards the bucket to grab the object or material, and maintaining full reach for the duration of the grapple closing cycle.
Therefore, it is a primary object, feature, or advantage of the present invention to improve over the state of the art.
It is a further object, feature, or advantage of the present invention to provide a grapple that unfolds as it opens and folds as it closes in a controlled manner so as to allow for grabbing larger objects without losing the ability to manipulate and grab smaller objects.
These and/or other objects, features, or advantages of the present invention will become apparent from the specification and claims that follow. No single embodiment need exhibit all of these objects, features, and advantages.
According to one aspect of the present invention, a grapple device for picking up large amounts of material is provided. The grapple device includes a torque tube, a pivot, a rod and cylinder, a pivot link, and a tooth. The torque tube has first and second torque pivot points and is adapted to be mounted on a bucket. The pivot is rotatably connected to the first torque pivot point at a pivot cross tube located at a second end of the pivot. The pivot also comprises a pivot collar at a first end and first and second pivot faces adjacent the pivot collar. The rod and cylinder is operatively connected to the second torque pivot point, and has a rod pivot point at a first end of the rod. The pivot link is operatively connected to the pivot at the pivot collar and the rod at the rod pivot point, and the pivot link comprises two stops at a first end of the pivot link. The tooth member is operatively connected to the pivot link and is adapted to pick up a material.
According to another aspect of the present invention, a method of closing a grapple using a reach and pull movement to grab the most amount of material possible is provided. The method includes providing a grapple device including a torque tube, a pivot rotatably connected to the torque tube, a rod and cylinder operatively connected to the torque tube, a pivot link operatively connected to the pivot, and a tooth member operatively connected to the pivot link. The rod is extended. The rod and cylinder and the pivot are rotated about the torque tube and the pivot link is maintained in the full reach position by the pivot until a pivot angle stop of the pivot abuts the torque tube. Finally, the pivot link is rotated about the pivot until a stop of the pivot link abuts the pivot to bring the tooth into contact with a bucket.
According to another aspect of the present invention, a grapple device for picking up large amounts of materials is provided. The grapple device includes a torque tube having a first torque pivot point and a second torque pivot point, the torque tube adapted to be mounted on a bucket. There is a pivot having a first end and an opposite second end. The pivot is rotatably connected to the first torque pivot point at a pivot cross tube located at the second end of the pivot, the pivot further having a pivot collar at the first end with first and second pivot faces adjacent the pivot collar. There is also a rod and cylinder operatively connected to the second torque pivot point and having a rod pivot point at the first end of the rod. There is a pivot link operatively connected to the pivot at the pivot collar and the rod at the rod pivot, the pivot link comprising two stops at a first end of the pivot link. A tooth member is operatively connected to the pivot link. Guide arms are operatively connected to the cylinder and a guide pin is adapted to move along the guide arms. In a fully open position, the rod is withdrawn within the cylinder, the guide pin of the pivot is positioned in a guide vee of the guide arms such that the pivot does not rotate counterclockwise about the first torque pivot point of the torque tube.
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The guide arms 15 in conjunction with the guide pin 40 of the pivot 30 hold the grapple 10 in a “Teeth Open” position from the start of the closing cycle through the transitional range. Additionally, when the grapple 10 is opened the guide arms 15 and guide pin 40 of the pivot arm 30 also perform the task of being the “Opening Stop” as long as the guide pin 40 is engaged in the guide vee 48.
To close, the process works in reverse. The cylinder 23 will extend to close the grapple, initiating the “reach and pull” movement. As the cylinder 23 extends, the pivot 30 rotates clockwise around pivot point 27 from its approximately vertical position from the ground. The rotational motion of pivot link 18 and tooth 16 is constrained to first torque pivot point 27 exclusively, due to the contact between guide point 40 and guide face 46. The guide arms 15 restrain clockwise rotation of the pivot link 18 about the pivot 26 caused by gravity acting on the grapple mass to the right of the pivot 26, thus preserving the full reach capability of the grapple 10 as it closes. Once the pivot 30 has rotated to a position approximately 50 degrees from the ground, the tendency of gravity to rotate the pivot link 18 about the pivot 26 subsides and the contact between the guide pin 40 and guide face 46 is no longer necessary. The full reach capability of the grapple 10 is maintained by the contact between stop 19A and the second pivot face 31 as well as the tendency of the cylinder 23 to rotate the pivot 30 about the pivot first torque pivot point 27 from this position onward. This condition exists until the pivot 30 is horizontal with the ground and pivot angle stop 38 contacts stop 45 of the torque tube 22. As the cylinder 23 continues to open, its motion is translated into rotational motion of the pivot link 18 and the tooth 16 until the stop 19 of the pivot link hit the first pivot face 36 of the pivot 30, “pulling” the load into the scoop 12.
The invention has been shown and described above with reference to preferred embodiments, and it is understood that modifications, substitutions, and additions may be made which are within the intended spirit and scope of the invention. The invention is only to be limited by claims appended hereto.
This application claims priority under 35 U.S.C. §119 of a provisional application Ser. No. 61/358,578 filed Jun. 25, 2010, which application is hereby incorporated by reference in its entirety.
Number | Date | Country | |
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61358578 | Jun 2010 | US |