The subject matter of the present application is in the field of honey extractor devices, in particular devices for spinning honey-laden frames from an artificial beehive.
A common type of artificial beehive used by beekeepers is the Langstroth style hive, with removable rectangular frames on which bees build honey-filled wax honeycombs. The honey is typically removed by lifting a frame from the hive box, “capping” or puncturing the wax covering of the cells, mounting the frame in a rotatable frame holder in a bucket or similar container, and then spinning the frame holder in the bucket to centrifugally force the honey out of the frame against the interior of the bucket.
Prior frame holders have a rotatable frame-holding structure that fits into a bucket, with slots or grooves defined in vertically-spaced upper and lower rotating supports between which pairs of frames are mounted lengthwise. The frames are held securely by the supports at both ends while the frame holder is spun inside the bucket. Examples of such prior frame holders are shown in U.S. Pat. Nos. 4,148,733 to Gamble; U.S. Pat. No. 5,433,850 to Murray; and U.S. Pat. No. 6,616,507 to Swaney.
The mechanisms used for spinning the frame holders can vary, but the use of a cordless drill to rotate a drive shaft connected to the frame holder has become commonplace.
Depending on type, prior frame holders can be difficult to clean, mechanically complicated to set up and change out frames, and relatively expensive.
The present invention is a honey-extracting frame holder that is simple to use, simple to clean, and inexpensive to manufacture. The frame holder comprises a frame holder body defining a horizontal channel having a first open end configured to receive a first end of one “upper” side member of the frame in a sliding fit with a vertical locking engagement, so that the frame hangs freely from the frame holder body in a vertical orientation. The open end of the channel is further configured to abut and stop an outer end of a top member of the frame, which typically projects beyond the side frame members. The opposite or “lower” side member of the frame is unsupported.
In a preferred form, the length of the channel is preferably the same as the length of the side frame member inserted therein, and includes a stop or cap to define a closed end opposite the open end, so that the frame has little or no side-to-side or horizontal play within the channel.
A locking member may be provided in the channel to horizontally lock the side frame member in the frame holder body, for example a lock- or set-screw, a spring detent, or a wedge.
When the honey frame has been assembled to the frame holder, the combination of frame holder and frame is inserted into a bucket or similar container (pail, tub, can, drum, or equivalent) with the lower or free side-member end of the frame unsupported, and the frame holder is rotated at high speed to expel the honey from the frame against the inside of the bucket. After all of the honey is out of the frame, the frame is easily and quickly removed from the frame holder outside the bucket, and a new frame is inserted.
In a further form, the frame holder is combined with a bucket lid or cover having a center bearing that accepts or rotatably mounts the drive shaft connected to the frame holder.
Terms of orientation used herein should be understood as meaning substantially or generally so, rather than exactly, as the exact orientation of the frame holder relative to a bucket will vary with the operator and other environmental factors such as the evenness of supporting surfaces.
These and other features and advantages of the invention will become apparent from the detailed description below, in light of the accompanying drawings.
Honey frame 10 is rectangular, with a longer and wider main top rail 12 having a main top rail portion 12a and protruding ends 12b; shorter side rails 14 of equal length with wider upper ends 14a and narrower lower ends 14b; and a bottom rail 16 of similar length to main top rail portion 12a extending between sides 14, and with a front-to-back width less than that of main top rail portion 12a and similar to that of the narrower lower portions 14b of the side rails. Top rail 12 typically has outer ends 12b that project beyond side rails 14, enabling it to be mounted horizontally on a rack in a beehive in known manner. Honey frame 10 is typically made of wood, although other materials are believed to be available and/or possible.
Top rail 12, side rails 14, and bottom rail 16 surround and define a generally flat or planar honey-collecting frame area or body 17 between them. Honey-collecting body 17 has a thickness less than the front-to-back width of top rail 12, for example comprising interior honeycomb supports such as a grid of smaller wooden slats 15 on which bees can build a honeycomb 100. Honeycomb 100 comprises a network of honey-containing cells 102 which, prior to a centrifugal honey extraction process, are “capped” or punctured in known manner so that the honey can be spun out of the comb.
The honey frame 10 is generally rectangular, but while the frame rail members are shown with a common rectangular cross-section, other rail cross-sections are believed possible.
Frame holder 20 has a generally tubular frame body 22 of metal or plastic (preferred) although other materials could be used. Body 22 has a top wall 22a, side walls 22b, and spaced, inwardly-facing bottom walls or flanges 22c separated along the length of the frame holder by a longitudinal slot or space 23 that essentially bisects the lower face of the frame holder 20.
Frame holder body 22 defines an interior horizontal channel 21 sized and shaped to receive one of the side rails 14 via channel open end 24 in a sliding fit, as shown in stages in
Channel 21 has an “inner” open end 24 configured to receive the bottom end of side rail 14 so that the substantially the entire length of side rail 14 can be inserted into channel 21 in frame holder 20. Preferably the channel 21 is long enough to receive the entirety of side rail 14 until the underside 12c of the outer end 12b of top rail 12 stops against the end of frame holder body 22 defining open end 24.
It might be preferable to close or cap the opposite or “outer” end 26 of frame holder body 22 with a stop member to positively limit the longitudinal insertion of side rail 14 through the channel 21 in some circumstances. For example, a cap or cross-bar can be placed across channel 21 as shown at outer end 26 in
As seen in hidden lines in
As shown in
Frame holder 20 further includes a rotation drive connection 28 on top wall 22a of frame holder body 22. In the illustrated example, rotation drive connection 28 comprises a fixed vertical shaft projecting upwardly from the frame holder body and configured to be gripped in the chuck of a cordless drill 30 or similar. Rotation drive connection 28 may take other forms, for example recessed connections or other mechanical locking structure provided it is capable of transmitting rotational force from a rotation-imparting device (manual or powered) to the frame holder 20 about a vertical axis through the plane of a honey frame 10 secured in the frame holder.
Referring to
It will finally be understood that the disclosed embodiments represent presently preferred examples of how to make and use the invention, but are intended to enable rather than limit the invention. Variations and modifications of the illustrated examples in the foregoing written specification and drawings may be possible without departing from the scope of the invention. It should further be understood that to the extent the term “invention” is used in the written specification, it is not to be construed as a limiting term as to number of claimed or disclosed inventions or discoveries or the scope of any such invention or discovery, but as a term which has long been used to describe new and useful improvements in science and the useful arts. The scope of the invention supported by the above disclosure should accordingly be construed within the scope of what it teaches and suggests to those skilled in the art, and within the scope of any claims that the above disclosure supports in this application or in any other application claiming priority to this application.
This application claims the benefit of U.S. Provisional Application No. 62/905,629, filed Sep. 25, 2019 by the same inventor (Yost), the entirety of which provisional application is hereby incorporated by reference.
Number | Date | Country | |
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62905629 | Sep 2019 | US |