This invention relates generally to devices for moving materials and more particularly to scoops for picking up and transferring ice or the like.
Scoops are widely used to transfer materials from one container to another. Typically, a scoop is used to transfer food, ice or other free flowing materials from a larger vessel to a smaller vessel, e.g., from a main storage bin to a bucket or dispenser. However, most scoops used in this process are not ergonomically designed, permit contamination from or to the hand of the user, inefficiently transfer the scooped material resulting in spillage and don't maximize the volume of material conveyed per scoop.
As can be seen, the current scoops suffer from certain drawbacks and limitations. Accordingly, a need exists for scoops that are ergonomically designed, prevent contamination from or to the hand of the user, efficiently transfer the scooped material to minimize spillage and maximize the volume of material conveyed per scoop, and solve other problems associated with the existing designs.
The present invention comprises a scoop having an angled or tapered front shovel portion, a shaped back support, an angled handle attached to the back support and a hand guard. A sheath to hold the scoop when not in use is also preferably provided.
The angled front shovel portion is tapered from its back to its front in a funnel like manner to permit easier scooping and more efficient and precise product transfer, particularly when material is to be transferred to a container with a narrow mouth. The shaped back support provides a surface against which scooped material can be held. By extending the back support above the sides of the shovel portion of the scoop, more material can be held by the scoop. A small “step” may be provided in the shaped back to improve material retention as well as enhancing the strength of the scoop itself. The handle is preferably attached to the back support at an angle. This angle permits a user to hold material during the transfer process at a more comfortable position without spillage. The point of attachment of the handle to the back support is preferably coincident with the vertical position of the center of gravity of the scoop, above the bottom of the shovel portion, when the shovel portion is filled with material. This placement improves material handling generally and specifically improves the ability of a user to comfortably scoop and hold a large amount of material.
Preferably, a hand guard is provided below the handle to prevent a user's hand from coming into contact with the material being transferred. This is extremely useful where the material itself is harmful when touched or to avoid the contamination of things such as food products.
When appropriate, the present invention also includes a sheath for holding the scoop in a secure, isolated condition. A full sheath, such as those depicted herein, isolates the scoop from the environment thereby preventing contamination from or to the air or other source (e.g., people). The sheath may be configured to force a particular orientation of the scoop for storage purposes. It may also include or interact with a mounting bracket or the like.
These and other objects and advantages of the present invention will become apparent from the detailed description, claims, and accompanying drawings.
s a perspective view of a scoop in accordance with a fifth embodiment of the present invention;
s a perspective view of a scoop in accordance with a sixth embodiment of the present invention;
s a perspective view of a scoop in accordance with a seventh embodiment of the present invention;
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As shown most clearly in
The back support 14 forms the base or back of shovel portion 12. It functions as a backstop and hand guard when the scoop 10 is used. Preferably a step 16 is provided in back support 14 to give the support 14 added strength and to increase the carrying capacity and stability of the scoop 10 when it is filled with material.
The handle 18 is connected to, or otherwise integral with, back support 14 at a location 20. This location is preferably coincident with the center of gravity of the scoop 10 (vertically above the bottom of the shovel portion 12) when the scoop 10 is filled with material. The handle 18 is also preferably angled with respect to the back portion 14 such that the angle θ, as shown in
Most preferably, a hand guard 22, extending from the bottom of the back support 14, is provided below the handle 18. The hand guard 22 is spaced and angled so as to permit easy grasping of the scoop 10 by a user.
The scoop of the present invention can also be constructed with a variety of shapes of its back portion without compromising its functionality. By way of example,
Most preferably, the sheath 26 is not made in a purely conical or funnel shape. Instead, the bottom portion 30 of the sheath 26 is substantially flat. This accomplishes two things. First, it makes it easier to mount the sheath 26 with or without bracket 28, on a wall or other flat surface. Second, when the scoop 10 is similarly constructed, that is, with a substantially flat bottom of shovel portion 12, the scoop 10 “self centers” so as to insure that is safely resting in the sheath 26 and cannot be accidentally removed or contaminated.
In use, the scoop 10 is removed from the sheath 26 by grasping the handle 18. A user then aligns his or her hand so that his or her knuckles face the hand guard 22. Once properly grasped, the scoop is used to scoop up a quantity of material (not shown). Because of the height of the back support 14, the scoop can be filled with a significant quantity of material to be transferred. The user then carries the scooped material to the receptacle to be filled (not shown). When appropriately positioned, the scoop is tilted and the material is dispensed into the receptacle. The tapered front of the shovel portion 12 provides the ability to accurately pour the conveyed material out of the scoop into the waiting receptacle. Thereafter, the scoop 10 is returned to the sheath for the next use.
As a result of the hand guard 22 and sheath 26, the user, the material and objects in the environment do not come into contact. Thus, the present invention yields a significant improvement in the prevention of contamination.
The scoop 10 and sheath 26 of the present invention may be implemented in a variety of configurations, using certain features or aspects of the several embodiments described herein and others known in the art. Thus, although the invention has been herein shown and described in what is perceived to be the most practical and preferred embodiments, it is to be understood that the invention is not intended to be limited to the specific features and embodiments set forth above. Rather, it is recognized that modifications may be made by one of skill in the art of the invention without departing from the spirit or intent of the invention and, therefore, the invention is to be taken as including all reasonable equivalents to the subject matter disclosed herein.
This application is a continuation-in-part of copending application 29/189042 to be issued as U.S. Pat. No. D496233.
Number | Date | Country | |
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Parent | 29189042 | Aug 2003 | US |
Child | 10945688 | Sep 2004 | US |