CA2837019C - Combination excavating bucket having a retractable tooth bar - Google Patents

Abstract

The present invention is directed to a combination excavating bucket adapted for connection to a power driven excavating vehicle, the bucket comprising a transverse smooth cutting bar along its front bottom edge and a retractable tooth bar pivotally mounted to the lateral sides of said excavating bucket. The retractable tooth bar allows the bucket to be alternately used as tooth-edged bucket and a smooth- edged bucket.

Description

COMBINATION EXCAVATING BUCKET HAVING A RETRACTABLE TOOTH BAR
BACKGROUND OF THE INVENTION
Technical Field The present invention relates to a combination excavating bucket having a retractable tooth bar, thereby enabling the excavating bucket to function as both a smooth-edged excavation bucket and a tooth-edged excavating bucket.
Description of Related Art European Patent Publication No. EP1967655 discloses an excavator bucket having a crushing mechanism comprised of a stationary part and a movable part which is drivingly connected with one or more hydraulic cylinders. The described excavator bucket further includes a gripping mechanism, and is therefore said to be a three-in-one excavator bucket and crusher that optionally may be used for excavation, crushing or sorting work.
U.S. Patent No. 5,564,885 discloses a multipurpose work attachment for a front-end loader of the type having hydraulically actuated frame arms for supporting and manipulating a work attachment at the front of the vehicle. The work attachments includes a scoop or bucket in combination with a laterally extending row of ripper teeth mounted along a lower edge of the bucket and adapted fro hydraulic actuation between an upper stored position and a downwardly extending deployed position for ripping earth upon vehicle movement in a reverse direction.
U.S. Patent No. 6,810,610 discloses an edging device consisting of two major components: an edge member or plate and means for attaching the edge member to the bucket of an earth moving machine. The edge member is configured to be detachably attached to the bucket, where the edge member has a leading edge for contacting the earth. The edge member is described as being easily and quickly bolted to the bucket for use in smoothing the ground surface, but also removable without damaging the bucket. The described "bolt-on edge system" is a ground engaging tool that is said to replace the practice of welding an edge to the bucket teeth of on earth moving equipment such as backhoes, loaders and excavators.
However, the aforementioned excavating buckets do not provide a combination bucket that allows the operator of an excavating vehicle to easily alternate between using the bucket as a smooth-edged excavating bucket and a tooth-edged excavating bucket.
Thus, there exists a need for a combination excavating bucket which allows the operator of an excavating vehicle to easily and quickly alternate between using the bucket as a smooth-edged excavating bucket and a tooth-edged excavating bucket. The present invention substantially fulfills this need.
SUMMARY OF THE INVENTION
The present invention is directed to a combination excavating bucket adapted for connection to a power driven excavating vehicle, said bucket comprising a transverse smooth cutting bar along its front bottom edge, a retractable tooth bar pivotally mounted to the lateral sides of said excavating bucket, said tooth bar comprising a plurality of teeth extending outwardly from said tooth bar, and pivot means for alternately moving said tooth bar between (a) a down, working, position wherein said tooth bar fits over said smooth cutting bar thereby permitting said bucket to function as a tooth-edged bucket; and (b) an up, resting, position wherein said tooth bar is away from said smooth cutting bar and said smooth cutting bar is exposed thereby permitting said bucket to function as a smooth-edged bucket.
BRIEF DESCRIPTION OF THE DRAWINGS
The invention will be better understood and objects other than those set forth above will become apparent when consideration is given to the following detailed description thereof. Such description makes reference to the annexed drawings wherein:
FIG. 1 is a perspective view of an embodiment of the present invention, with the retractable tooth bar in a partially-extended position.

2 FIG. 2 is a perspective view of an embodiment of the present invention, with the retractable tooth bar in an up position.
FIG. 3 is a perspective view of an embodiment of the present invention, with the retractable tooth bar in a down position.
FIG. 4 is an exploded view of the parts of an embodiment of the present invention.
In the following description of the invention similar reference characters refer to similar parts throughout the several views of the drawings.
DETAILED DESCRIPTION
Figure 1 shows combination excavating bucket 10 having a base 100, rear wall 110 and lateral sides 120. Smooth cutting bar 105 runs along the leading edge of base 100. Tooth bar 130, shown here in a partially-extended position, includes a plurality of teeth 135, and is pivotally connected to lateral sides 120 by tooth bar side-arms 138. Link arms 160 connect tooth bar 130 to pivot arms 150, which in turn are connected to hydraulic actuators 170 via hydraulic cylinder rods 172. Pivot arms 150 are attached to opposite ends of rear wall top edge 140.
Hydraulic actuators 170 are connected to the posterior surface of rear wall 110 at opposite ends. In operation, excavating bucket 10 is connected to an excavating vehicle (not shown) thereby allowing the driver of the vehicle to control the position of tooth bar 130 by alternately moving hydraulic cylinder rods 172 between a retracted position (see FIG. 2) and an extended position (see FIG.

3).
Moving hydraulic cylinder rods 172 to a retracted position causes tooth bar 130 to move to a retracted position, exposing smooth cutting bar 105, and thereby allowing excavating bucket 10 to function as a smooth-edged excavating bucket. Alternatively, moving hydraulic cylinder rods 172 to an extended position causes tooth bar 130 to be positioned over smooth cutting bar 105, thereby allowing excavating bucket 10 to function as a tooth-edged excavating bucket.
Figure 2 shows combination excavating bucket 10 with tooth bar 130 in a retracted position. Hydraulic cylinder rods 172 are fully retracted within hydraulic cylinders 174 and therefore not visible. Smooth cutting bar 105 is fully exposed, thereby allowing excavating bucket 10 to function as a smooth-edged excavating bucket. In the fully retracted position tooth bar 130 may rest against rear wall top edge 140.
Figure 3 shows combination excavating bucket 10 with tooth bar 130 in a fully-extended position, such that tooth bar 130 fits over smooth cutting bar 105. Thus, smooth cutting bar 105 is not visible. Hydraulic cylinder rods 172 are fully extended and therefore visible. With tooth bar 130 fitting over smooth edge bar 105 and therefore forming the leading edge of base 110, excavating bucket functions as a tooth-edged excavating bucket.
Figure 4 illustrates an exploded view of combination excavating bucket 10 having base 100, rear wall 110, later sides 120, rear wall top edge pivot arm hinge lugs 152 and one of hydraulic actuator lugs 175. Also shown is tooth bar 130 having tooth bar arms 138 and tooth bar hinge pins 139. Link arms 160 are secured to tooth bar arms 138 and pivot arms 150 by link arm hinge pins 164 and link arm hinge pins 162, respectively. Pivot arms hinge pins 154 secure pivot arms 150 to pivot arm hinge lugs 152, which in turn are secured at opposite ends of rear wall top edge 140. Hydraulic actuator hinge pins 176 secure hydraulic actuators 170 to pivot arms 150. Hydraulic actuators 170 are secured to the posterior surface of rear wall 110 at opposite ends via hydraulic actuator lugs 175 using hydraulic actuator hinge pins 178.
In certain embodiments the combination excavating bucket of the present invention includes means for securing the tooth bar over the smooth cutting such that the tooth bar is not displaced during use thereof in a digging operation.
For example, in one embodiment the smooth cutting bar and the tooth bar are adapted to provide a locking engagement with each other when the tooth bar is in said down, working position. In one such embodiment, the smooth cutting bar has an outward facing V-shaped edge and the inner edge of the tooth bar has an inwardly facing V-shaped pocket for mating and providing locking engagement with the V-shaped edge of said smooth cutting bar.

4 The combination excavating bucket of the present invention is adapted for connection to a power driven excavating vehicle such as a skid steer, a loader, a backhoe, an excavator or a tractor. In one embodiment the combination excavating bucket of the present invention is adapted for connection to a skid steer.
While particular embodiments of the present invention have been shown and described herein for purposes of illustration, it will be understood that the invention is not limited thereto. Modifications may be made by persons skilled in the art, particularly in light of the foregoing teachings, without deviating from the spirit and scope of the invention. Accordingly, the invention is not limited except as by the appended claims.

5 Date Recue/Date Received 2020-04-09

Claims (12)

WHAT IS CLAIMED IS:

1. A combination excavating bucket adapted for connection to a power driven excavating vehicle, said bucket comprising a transverse smooth cutting bar along its front bottom edge, a retractable tooth bar pivotally mounted to lateral sides of said excavating bucket, said tooth bar comprising a plurality of teeth extending outwardly from said tooth bar, and pivot means for alternately moving said tooth bar between (a) a down, working, position wherein said tooth bar fits over said smooth cutting bar thereby permitting said bucket to function as a tooth-edged bucket; and (b) an up, resting, position wherein said tooth bar is proximate to a rear top wall edge of said bucket away from said smooth cutting bar with said plurality of teeth extending in a direction opposite said smooth cutting bar, and said smooth cutting bar is exposed thereby permitting said bucket to function as a smooth-edged bucket.

2. A combination excavating bucket according to claim 1, wherein said pivot means comprises first and second pivot arms pivotally mounted to said bucket, a first link arm operably connecting said first pivot arm to said tooth bar and a second link arm operably connecting said second pivot arm to said tooth bar.

3. A combination excavating bucket according to claim 2, wherein said first pivot arm, said first link arm, said second pivot bar and said second link arm are mounted to be move along inner opposed lateral sides of said excavating bucket as said tooth bar is moved between said down, working, position and said up position.

4. A combination excavating bucket according to claim 2, wherein said pivot means further comprises a first hydraulic actuator operably connected to said first pivot arm and a second hydraulic actuator operably connected to said second pivot arm.

5. A combination excavating bucket according to claim 4, wherein said first hydraulic actuator comprises a first hydraulic cylinder and a first hydraulic cylinder rod, and said second hydraulic actuator comprises a second hydraulic cylinder and a second hydraulic cylinder rod.

6. A combination excavating bucket according to claim 5, wherein said first hydraulic cylinder rod is pivotally connected to said first pivot arm and said second hydraulic cylinder rod is pivotally connected to said second pivot arm.

7. A combination excavating bucket according to claim 1, wherein said excavating bucket further comprises means for securing said tooth bar over said smooth cutting bar in said down, working position.

8. A combination excavating bucket according to claim 1, wherein said smooth cutting bar and said tooth bar are adapted to provide a locking engagement with each other when said tooth bar is in said down, working position.

9. A combination excavating bucket according to claim 8, wherein said smooth cutting bar has an outward facing V-shaped edge and wherein an inner edge of said tooth bar has an inwardly facing V-shaped pocket for mating and providing locking engagement with said V-shaped edge of said smooth cutting bar.

10. A combination excavating bucket according to claim 1, wherein said power driven excavating vehicle is a skid steer, a loader, a backhoe, an excavator or a tractor.

11. A combination excavating bucket according to claim 10, wherein said power driven excavating vehicle is a skid steer.

12. A combination excavating bucket according to claim 1, wherein in said up, resting, position said tooth bar rests against said rear top wall edge of said bucket.