The present invention relates generally to tablet and pill crushing devices.
It is a simple combination of medical advances and demographics that has caused a great increase in the need for crushing pre-formed medication tablets for proper ingestion by patients having diminished swallowing capabilities. At one point, medications, such as “headache powders” were dispensed in a powdered form. As the technology of the pharmaceutical industry improved, it became possible to form very carefully measured dosages of the medications in a compressed, pre-formed tablet. While the tablet is extremely useful to the pharmaceutical manufacturer in dispensing precise numbers of dosages that can be handled in a clean and efficient manner, the tablet may present significant difficulties to the patient, especially the elderly, the weakened and those with swallowing difficulties. As the number of medications increases, the number of patients who have difficulty with swallowing has also increased.
It is desirable to provide a device where a smooth and quiet crushing action can be imparted to a variety of sizes and shapes of tablets, without requiring an impact force. The crushing should result in a small average particle size, preferably occurring in a disposable container, to retain and dispense the entire dosage in a manner that does not breach the container or cause cross contamination when the device is used with different medications. It is also desirable to provide clear and unobstructed access to all of the crushing surfaces, for ease of cleaning when necessary. It is also desirable to provide a device that can accommodate pill containers that are different from the conventional flat pouches that have been known in the prior art, if and when such different containers are developed.
In the prior art solutions known to the inventor, what appears to be a common element is that a lever action is used between a pair of opposing crushing faces, which are usually referred to as a platen and an anvil. Further, the known prior art solutions seem to position the pill container vertically, a result of which is that a particle that is broken away from the pill, especially in the initial breakage, can fall by gravity out of the field where the most active crushing is occurring. This can result in no further, or secondary, crushing of the particle, with the result of a larger average particle size.
It is therefore an advantage of the embodiments disclosed herein to provide a pill crushing device that provides at least some of the desired objectives.
These advantages are provided by a tablet crusher as described in more detail in the detailed description and drawings provided herewith.
Other aspects and advantages of the present invention will become apparent from the following detailed description, taken in conjunction with the accompanying drawings, illustrating by way of example the principles of the invention.
The advantages and other characteristics of the disclosed embodiment will better understood when attention is directed to the accompanying drawings, wherein identical elements are identified with identical reference numerals and wherein:
Directing attention to the drawings, and particularly to
The embodiment 10 disclosed here has upper and lower body portions 22, 24, which are shown in
An anvil 26, preferably in the nature of a fixed rigid surface, is positioned on the lower body portion 24, especially in an area thereof that will define a floor of the crush chamber 20. In some lower body portions 24, the anvil 26 will be integrally formed. In other embodiments, the anvil 26 will be a thin but rigid plate, removable from the lower body portion 24. In these latter embodiments, it would be typical, for example, to use the same means that fastens or joins the respective upper and lower body portions 22, 24 to each other to pass through the anvil 26, which would be interposed between the body portions, to fix the position of the anvil relative to the lower body portion and the crush chamber.
Upper body portion 22 provides the respective openings 14, 16, 18, which are all interconnected through crush chamber 20.
Also visible in
A handle 40 is seated is the top opening 14. Pivot means 50, one end of which is visible in
Attention is now directed to
Further features of the handle 40 are also seen in
Further attention is now directed to platen body 30. The body has two distinguishing portions. The first is rack 32, formed on a vertical portion 34 thereof and operatively engaging pinion 42. A top surface 35 of vertical portion 34 is spatially arranged to engage surface 44 of the handle 40 at the bottom of the handle's range of motion, giving a hammering effect to the end of the crushing motion. The second element of the platen body is the crushing body member 36, of which the lower surface 37 co-acts with anvil 26 to crush tablets placed therebetween. Platen body 30 is generally constrained to vertical motion within the first internal cavity 28 by its peripheral surfaces, including the engagement of rack 32 with pinion 42 and the interaction of a rear surface 38 with a rear surface 25 of the first internal cavity 28. Similarly, side surfaces of the crushing body member 36 co-act with the lateral side walls of the internal cavity 28 to constrain side-to-side movement of the platen body 30.
Referring now to
The top surface 35 of rack 32 is notably visible in top opening 14 of
In
Referring to
The parallel relationship of anvil 26 and platen surface 37 and the angularity of both provide some important improvements when compared against the prior art crushing devices. In many of the prior art devices, the container is positioned almost vertically, so the crushing force is applied almost horizontally, and pieces may fall by gravity out of the crushing arena. Also, many of these prior art devices use a fulcrum located at the lower end of one of the crushing faces in the crushing mechanism, so the angularity between the faces changes almost constantly. In the present mechanism, the pieces of the tablet generated in the initial crushing action can slide away from the bulk remnants of the tablet, using gravity, but the amount of force exerted by the surface 37 remains effectively constant across the surface, so these pieces remain “in play” so to speak with regard to being further comminuted.
In the illustrated embodiment 10, the opposing faces of anvil 26 and platen body 30 have smooth planar surfaces that are effectively parallel to each other and can approach each other to within a predetermined arbitrarily small distance. It may be useful in some situations to provide curvature or serrations to one or both crushing surfaces.
Referring finally to
While the person of skill in this art will be readily able to determine appropriate materials for the individual parts, it is expected that at least certain parts, especially anvil 26 and platen body 30, will be formed from metal, due to the mass provided thereby. Accordingly, the pinion would be preferably comprised of metal.
While the embodiments disclosed describe the best modes known to the inventor at the time of filing, the scope of the invention is not to be limited to only the embodiments disclosed herein.
This application claims priority to U.S. Application No. 61/369,964, filed on Aug. 2, 2010, herein incorporated by reference in its entirety.
Number | Date | Country | |
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61369964 | Aug 2010 | US |