Not Applicable
The present invention relates to a drum lifter for lifting a drum. In particular, the present invention relates to a drum lifter for lifting a chimed or chimless drum having a variety of diameters.
A drum lifter for lifting and moving empty and full chimed and unchimed drums. The lifter includes a cross member with grippers at each end. The length of the cross member can be adjustable to accommodate drums having different diameters. In one (1) embodiment, each end of the cross member has a pair of grippers. In one (1) embodiment, the pair of grippers are mounted on a mounting bracket having an arcuate shape so that the grippers can be spaced apart along the circular top of the drum. The grippers may also be positionable on the mounting bracket to enable easier positioning of the grippers on the top of the drum. The grippers include a cam block with a cam rotatably mounted in the cam block. The cam block includes a front section and a back section connected together at one end in a spaced apart relationship which forms a slot between the front and back sections. The cam is rotatably mounted in a notch in the front section of the cam block. The axis of rotation of the cam is offset from the center axis of the cam so that as the cam is rotated, varying amounts of the cam extend into the slot between the front and back sections of the cam block. The cam includes a handle which allows for easily rotating the cam. The cam block includes a stop to prevent the handle of the cam from over rotating and entering the path below the entrance into the slot between the front and back sections of the cam block. The cam block also has a locking pin which prevents the handle from rotating to lock the cam in the gripping position. The second end of the back section of the cam block opposite the cam can be provided with a cam shoe which extends into the slot between the front and back sections of the cam block. The cam shoe provides the opposed surface from the cam. When the gripper is in the gripping position the drum is trapped between the outer surface of the cam and the cam shoe. The cross member is connected to a lifting mechanism which allows for lifting and moving the drum. In one (1) embodiment, the lifting mechanism is a pair of lifting arms pivotably mounted together at one end with the opposed ends of each arm pivotably mounted to opposed ends of the cross member. The lifting arms and cross member form a triangle with the lifting point at the apex of the triangle where the lifting arms are connected together.
The present invention relates to a drum lifter for lifting a drum which comprises a cross member having opposed ends, and grippers mounted at each end of the cross member, each gripper having a cam block and a cam rotatably mounted in the cam block.
Further, the present invention relates to a drum lifter for lifting a drum which comprises a lifting mechanism configured to be connected to a lifting device, a cross member having opposed ends and connected to the lifting mechanism, and a gripper mounted at each end of the cross member.
Still further, the present invention relates to a method for lifting a drum which comprises the steps of providing a drum lifter having a cross member with opposed ends, a gripper mounted at each end of the cross member, each gripper having a cam block with a front section and a back section with a slot extending therebetween, the front section having a notch with a cam rotatably mounted in the notch, moving the grippers to an ungripped position by rotating the cam to the ungripped position so that the cam does not extend substantially into the slot between the front and back sections of the cam block, positioning the grippers on a top end of the drum so that the top end of the drum extends into the slot between the front and back sections of the cam block, moving the grippers to the gripping position by rotating the cam in a counterclockwise direction so that the cam moves into the slot between the front and back sections of the cam block and into contact with the drum, and lifting the cross member to lift the drum.
The substance and advantages of the present invention will become increasingly apparent by reference to the following drawings and the description.
The grippers 30 include a cam block 32 and a cam 34. The cam block 32 has a front section 32A and a back section 32B having first and second ends. The first ends of the front and back sections 32A and 32B are connected together by a top wall such that a U-shaped slot 32D is formed between the spaced apart front and back sections 32A and 32B. In one (1) embodiment, the front section 32A is longer than the back section 32B such that the second end of the front section 32A extends beyond the second end of the back section 32B. The front section 32A has a notch 32C at the second end for rotatably mounting the cam 34 (
The cam 34 is mounted in the notch 32C in the front section 32A of the cam block 32 so that the cam 34 can rotate or pivot in the notch 32C in the front section 32A of the cam block 32. In one (1) embodiment, the cam 34 is mounted by a pair of pins 35 which extend through each side of the front section 32A of the cam block 32 and into each end of the cam 34. In another embodiment, a single pin extends completely through the cam 34 and through the sides of the front section 32A adjacent the notch 32C. The cam 34 has an essentially cylindrical shape. The mounting hole 34A for mounting the cam 34 is offset from the center axis of the cam 34 so that the axis of rotation A-A of the cam 34 is offset from the center axis of the cam 34. A handle 36 is mounted on the side of the cam 34 spaced between the ends and extends outward in a direction substantially opposite the back section 32B of the cam block 32. The handle 36 allows for rotating the cam 34 from the open, ungripped position to the gripping position. In one (1) embodiment, when the cam 34 is in the open, ungripped position, the cam 34 does not extend beyond the front section 32A into the slot 32D between the front section 32A and the back section 32B of the cam block 32. In one (1) embodiment when the cam 34 is in the open, ungripped position, the cam 34 extends slightly into the slot 32D between the front and back sections 32A and 32B of the cam block 32 (
A lock plate 40 is mounted to the front section 32A of the cam block 32. The lock plate 40 is mounted on one (1) side of the front section 32A. In one (1) embodiment, the lock plate 40 is mounted on the outer side of the cam block 32 opposite the cross member 18. The position of the lock plate 40 on the outer side of the cam block 32 allows for easier access to the locking pin 42 by the user. In one (1) embodiment, the lock plate 40 includes a stop portion 40A and a lock portion 40B. In one (1) embodiment, the stop portion 40A and the lock portion 40B are a unitary piece. In another embodiment, the stop portion 40A is separate from the lock portion 40B. The stop portion 40A extends along the second end of the front section 32A of the cam block 32 on either the right or left side of the notch 32C. The stop portion 40A includes a stop 44. The stop 44 extends into the area below the notch 32C in the front section 32A of the cam block 32 (
In one (1) embodiment, a cam shoe 38 is mounted on the second end of the back section 32B of the cam block 32 and extends into the slot 32D between the front and back sections 32A and 32B of the cam block 32. In one (1) embodiment, the cam shoe 38 is removably mounted to the back section 32B so that the cam shoe 38 can be easily replaced due to wear or damage. The use of a cam shoe 38 reduces the need to replace the entire gripper 30 due to wear or damage.
The grippers 30 are connected to the cross member 18 by a mounting plate 26. The grippers 30 are mounted on the bottom side of the mounting plate 26 opposite the cross member 18. The top wall of the cam block 32 is mounted to the mounting plate 26 such that the front section 32A and back section 32B of the cam block 32 extend out from the mounting plate 26 in a direction opposite the cross member 18. In one (1) embodiment, a pair of grippers 30 are mounted at each end of the cross member 18 so that the drum lifter 10 includes four (4) grippers 30. In one (1) embodiment, the mounting plate 26 is provided with a pair of mounting slots 26A. One (1) mounting slot 26A is located on each side of the cross member 18. The mounting slots 26A allow for mounting the grippers 30 to the mounting plate 26. In one (1) embodiment, the grippers 30 are mounted by bolts which extend through the mounting slots 26A and into the top wall of the cam block 32. The elongate opening of the mounting slots 26A allows the position of the grippers 30 on the mounting plate 26 to be adjusted. It is understood that other means of fastening the grippers 30 to the mounting plate 26 can also be used. In one (1) embodiment, the grippers 30 are moveably mounted to the mounting plate 26 so that the grippers 30 float and move on the mounting plate 26 which allows for easier positioning of the slots 32D of the cam blocks 32 of the grippers 30 on the drum 100. In one (1) embodiment, the mounting plate 26 is provided with flanges 28 on the outer edges adjacent the grippers 30 (
In one (1) embodiment, the cross member 18 is connected to a lifting attachment. In one (1) embodiment, the lifting attachment is a pair of lifting arms 14. The lifting arms 14 have first and second ends 14A and 14B and are pivotably connected together at the first ends 14A. In one (1) embodiment, the first ends 14A of the lifting arms 14 are connected together by a pin 16. The pin 16 can also allow for connecting a hook or other attachment mechanism to the lifting attachment to allow for lifting the drum 100 (
The drum lifter 10 allows a user to easily lift and move a heavy drum 100. The drum lifter 10 enables a user to lift a chimed or unchimed drum 100. The drum lifter 10 can be used with a variety of types of drums 100 having a variety of diameters and a variety of wall thicknesses. The drum lifter 10 can be used to lift a variety of different types of drums 100 constructed of different types of materials. The drum lifter 10 can be used to lift drums 100 constructed of metal, plastic, fiberboard, and any other material well known for constructing drums 100. The drum lifter 10 is intended to mount to the top of a chimed or unchimed drum 100 to enable lifting of the drum 100. An attachment mechanism enables the drum lifter 10 to be connected to a fork lift to enable a fork lift to lift and move the drum 100.
To lift the drum 100, the drum lifter 10 is mounted on the top of the drum 100. To connect the drum lifter 10 to the drum 100, the pin 24 locking the inner and outer tubes 20 and 22 of the cross member 18 together is released so that the inner and outer tubes 20 and 22 can be moved together or apart to adjust the length of the cross member 18. The cross member 18 is adjusted so that the cross member 18 spans the distance across the top of the drum 100 so that the grippers 30 are adjacent the sides of the drum 100. Once the cross member 18 is the correct length, the pin 24 is reinserted through the inner and outer tubes 20 and 22 to lock the cross member 18 at the correct length. In one (1) embodiment, the drums 100 have standard diameters and the cross member 18 has set lengths at which the cross member 18 can be locked. Next, the grippers 30 are moved to the ungripped position. In the ungripped position, the handle 36 of the cam 34 is adjacent the stop 44 and is substantially vertical or extending straight down. In one (1) embodiment, when the cam 34 is in the ungripped position, the flat section of the outer surface of the cam 34 is in or adjacent to the u-shaped slot 32D spaced across from the cam shoe 38 to allow for easier positioning of the gripper 30 on the drum 100 (
Once all of the cams 34 of the grippers 30 are in the gripping position and the locking pins 42 are in the locked position, the drum lifter 10 can be used to lift the drum 100. As the drum lifter 10 is moved upward, the weight of the drum 100 tries to pull the drum 100 downward and out of the gripper 30. However, as the drum 100 moves downward, the sides of the drum 100 try to rotate the cam 34 in the counterclockwise direction which moves the cam 34 further into the slot 32D between the front and back sections 32A and 32B of the cam block 32 and into greater contact with the side of the drum 100 which further tightens the grip of the grippers 30 on the drum 100. If the drum 100 is moved upward in the slot 32D in the cam block 32, the cam 34 rotates and the handle 36 contacts the locking pin 42 which prevents the cam 34 from rotating to an ungripped position.
In the foregoing description, various features of the present invention are grouped together in one or more embodiments for the purpose of streamlining the disclosure. This method of disclosure is not to be interpreted as reflecting an intention that the claimed invention requires more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single foregoing disclosed embodiment. Thus, the following claims are hereby incorporated by reference herein in their entirety, with each claim standing on its own as a separate embodiment of the present invention.
It is intended that the foregoing description be only illustrative of the present invention and that the present invention be limited only by the hereinafter appended claims.
This application claims the benefit of U.S. Provisional Application No. 61/116,060, filed Nov. 19, 2008, which is hereby incorporated herein by reference in its entirety, except that the present application supersedes any portion of the above referenced provisional application which is inconsistent with the present application.
Number | Name | Date | Kind |
---|---|---|---|
489782 | Bahret | Jan 1893 | A |
1182313 | Randal et al. | May 1916 | A |
2347922 | Nelson | May 1944 | A |
2654630 | Renfroe | Oct 1953 | A |
3003806 | Shramek | Oct 1961 | A |
3008749 | Gowan | Nov 1961 | A |
3510019 | Howard | May 1970 | A |
5207468 | Saulnier et al. | May 1993 | A |
Number | Date | Country | |
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61116060 | Nov 2008 | US |