A smoking apparatus, which may be called pipe, may be specifically made to smoke tobacco. Smoking systems including pipes may be used to hold tobacco for smoking instead of rolling a cigarette or purchasing ready-made cigarettes. A pipe may have a chamber (a bowl) for the tobacco from which a thin hollow stem emerges, ending in a mouthpiece. A pipe may need to extinguish itself after every single puff.
A pipe may range from very simple machine-made briar models to highly-prized hand-made artisanal implements made by renowned pipemakers.
Example implementations are described in the following detailed description and in reference to the drawings, in which:
Various implementations described herein are directed to a smoking apparatus. More specifically, and as described in greater detail below, various aspects of the present disclosure are directed to a manner by which a smoking apparatus allows a user to easily eject residue (e.g., ash) from the smoking apparatus.
Aspects of the present disclosure described herein implement a smoking apparatus with various engagements and disengagements of the body and the inner component. Moreover, aspects of the present disclosure described herein also disclose the multi-piece form allowing ashes and smoking material to be expelled from the smoking apparatus without requiring additional tools. According to various aspects of the present disclosure, the approach described herein makes operation of the smoking apparatus by the user less messy, and more simple and convenient. Among other things, this approach described herein allows for conveniently operating the smoking apparatus. This also advantageously provides improves smoking quality and tobacco usage.
In one example in accordance with the present disclosure, a smoking apparatus is provided. The smoking apparatus comprises a mouthpiece, a bowl piece, and an inner tube, connecting the mouthpiece and the bowl piece. The smoking apparatus comprises an ejection mechanism to eject used smoking materials.
In another example in accordance with the present disclosure, a method for ejecting used smoking materials out of a smoking apparatus is provided. The method comprises forcing the used smoking materials out of the smoking apparatus in response to a change in position of the inner tube in the smoking apparatus. The smoking apparatus comprises an inner tube, and the change in the position of the inner tube occurs when the inner tube is moved forward.
Moreover, the smoking apparatus 100 is shown to have a cylindrical shape. It should be readily apparent that the smoking apparatus 100 represents an illustration and that its shape, material, color, and other characteristics may be changed without departing from a scope of the present disclosure. Further, the smoking apparatus 100 incorporating the principals of this disclosure may be built in various sizes. For example, the dimensions may be about 3.25″ in length, 0.34″ in diameter at the mouth end, and 0.41″ in diameter at the bowl end.
In some implementations, the smoking apparatus 100 may be made of a lightweight and heat-resistant material. The ends of the smoking apparatus may be preferably formed of a metal, such as aluminum. In this way, the user can hold the smoking apparatus in his or her fingers or mouth in the same manner as a conventional cigarette.
The mouthpiece 210 may comprise an air passage extending longitudinally through the smoking apparatus 200. In use, smoke from the ignited smoking material may be drawn through the resulting air passage and out the opening of the mouthpiece 210 and into the user's mouth.
The mouthpiece 210 may be connected to the bowl piece 220. The connection may be in such a manner that they can be manually separated. In some implementations, the bowl piece 220 may be made of woods such as cherry, olive, maple, mesquite, oak, and bog-wood. In other implementations, the bowl piece 220 may be made of briar wood, meerschaum, corncob or clay. In various implementations, the smoking apparatus bowls may be decorated by carving.
The inner tube 230 may join the mouthpiece 210 to the bowl piece 220, and forms the bottom of the bowl. The two pieces may be joined through screw threads. More specifically, the mouthpiece 210 may be rotated counter-clockwise while the bowl piece 220 remains stationary, and the screw threads on the inner piece 230 allow the mouthpiece to move away from the bowl piece. Moreover, the inner tube 230 may comprise an ejecting mechanism, which may be used to eject residue (e.g., ash) from the smoking apparatus. When the bowl piece 220 is unscrewed and away from the mouthpiece 210, the mouthpiece may be pushed forward. Such act results in pushing the inner tube 230 forward, which forces out the contents (e.g., ash) of the bowl piece 220. When the user desires to reassemble the separated components, the inner tube 230 threads are engaged in the cooperating the mouthpiece 210 threads. The mouthpiece 210 may them be rotated clockwise which brings the mouthpiece 210 back towards the bowl piece 220. Continued clockwise rotation of the mouthpiece 210 relative to the bowl piece 220 may cause the mouthpiece 210 to contact the bowl piece 220. More specifically, the mouthpiece 210 may be screwed towards the bowl piece 220 until the mouthpiece 210 meets the bowl piece 220, thereby securely attaching the mouthpiece 210 to the bowl piece 220. The inner tube 230 being the center piece may act as a locking mechanism when the inner tube 230, which sits in the bowl piece 220, is screwed into the mouth piece 210, and the mouthpiece 210 meets the bowl piece 220.
In alternative implementations, the smoking apparatus may have a groove with a tab in the inner tube 230 to keep the parts from endlessly spinning.
In another implementation, the screw thread between the mouthpiece 210 and the inner tube 230 is cut at such an angle to allow the loosening and tightening with virtually a single twist. For example, the screw thread may be cut at a 2.5 mm of travel per complete single rotation.
In a further implementation, a combination of aluminum and wood may be used in the smoking apparatus 200. The cuffing allows the aluminum and wood to fit together (e.g., metal used inside, wood used outside). It should be noted that a plurality of other combinations of materials may be used in the smoking apparatus 200.
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The present disclosure has been shown and described with reference to the foregoing exemplary implementations. Although specific examples have been illustrated and described herein it is manifestly intended that the scope of the claimed subject matter be limited only by the following claims and equivalents thereof. It is to be understood, however, that other forms, details, and examples may be made without departing from the spirit and scope of the disclosure that is defined in the following claims.
Number | Name | Date | Kind |
---|---|---|---|
1907338 | Hirsch | May 1933 | A |
2546237 | Rehfeld | Mar 1951 | A |
2870771 | Gossler | Jan 1959 | A |
3294098 | Gustafson | Dec 1966 | A |
3685520 | Chernack | Aug 1972 | A |
3750677 | Jodoin | Aug 1973 | A |
3805808 | Yoshinaga | Apr 1974 | A |
Number | Date | Country | |
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20150144146 A1 | May 2015 | US |