SPICE/PEPPER-MILL ADJUSTMENT MECHANISM
Technical Field
This invention relates to spice or pepper grinding mills and more particularly relates to adjustable spice/pepper grinding mills.
Background Art
Spice and pepper grinding mills for the consumer have been in existence for many years. Freshly ground spices, and in particular pepper, have much better flavour than previously ground spices. Generally, spice/pepper-mills have been comprised of a body and top or cap portion which rotates in a clockwise direction to rotate the male grinding mill within the stationary female grinding mill, to produce the ground spice product.
In the prior art mills, generally a top cap which is threaded onto a shaft, is used to either loosen or tighten the abutting relationship of the male and female grinder mills. Unfortunately, this type of adjustment with the cap is not accurate. Furthermore, the cap, vis a vis the top portion of the grinder, changes position because of rotation. Uneven sizing of the ground product is the result. Furthermore, the threaded cap must be constantly moved back into the desired position as it tends to either tighten or loosen, depending upon the movement given to the spice mill.
It is, therefore, an object of the present invention to provide an adjustable spice/pepper-mill which will produce
ground spice of three particulate sizes, constantly and accurately, whenever desired.
Therefore, this invention seeks to provide an adjustable spice grinding device for domestic use; said device being adapted to dispense ground spice of varying particulate size; said device including a shift means, an outer grinding mill and an inner grinding mill; said inner grinding mill being disposed on a vertical shaft and rotatable therewith; said shift means being adapted in operation to move said inner grinding mill vertically on said shaft such that a distance between an inner grinding surface of said outer grinding mill and an outer grinding surface of said inner grinding mill varies, thereby producing, in operation, ground spice of different particulate size. The invention further seeks to provide a spice grinding device wherein a shift means comprises a rotatable shifter, a bridge and a movable middle spacer means of unequal thickness; said spacer means being in constant contact with a lower surface of an inner grinding mill and an upper surface of said bridge whereby, in operation, said rotatable shifter is adapted to move said spacer means from a lesser thickness to a greater thickness, and vice versa, thereby moving said inner grinding mill vertically on said shaft.
The spice/pepper-mill of the present invention has a body portion and a head portion. The body portion and head portion contain a cylindrical empty middle portion which is used to store the spice to be ground. A shaft extends from
the top of the head portion to the floor of a bridge. A cap secures the cylindrical shaft at the top. The shaft goes through a spring and an outer female grinding mill to an inner male grinding mill, through a step ring, to rest at the bottom of a bridge. A shifter at the bottom of the spice mill communicates with the tapered step ring such that when the shifter is moved the tapered step ring moves, and such movement causes the inner male grinding mill to move vertically upon the shaft, upwards or downwards, thus forcing it into closer or farther contact with the outer female grinding mill. Thus, the shifter will adjust the size of the product which will be ground by the spice/pepper-mill .
A spring abuts a clamp at its top end which is fixed on the shaft and it abuts the inner male grinding mill at its bottom end, thus forcing it in constant contact with the step ring. The bridge is generally secured to the outer female grinding mill and the body portion of the spice mill by screws. Thus, the bridge, the outer female grinding mill and the body portion are stationary whereas the head, the shaft and the inner male grinding mill are rotatable.
The step ring, by means of rods, is attached to the shifter such that a rotation of the shifter causes a rotation of the step ring. The bottom of the step ring in its various positions abuts projections protruding from the bottom of the bridge in such a manner that the step ring raises and lowers about the vertical shaft, thus raising or lowering the inner male grinding mill. A spacer is located between the head
portion and the body portion. A plastic ring, which serves only a decorative function, is located between the head and the body. In operation, the shifter is moved to one of three positions by the user, and the head is turned in a clock-wise direction to produce ground spice.
By moving the shifter from the first position to the second position, and from the second position to the third position, the size of the ground spice will vary from fine, to medium, to coarse. To refill the spice/pepper-mill the top threaded cap is simply removed, the head removed, and spice is poured into the cylindrical body cavity.
Brief Description of the Drawings The invention will be described in greater detail in connection with the following drawings, wherein:
Figure 1 is a front view of the spice-pepper-mill of the present invention;
Figure 2 is a longitudinal cross section, taken along the line II, II of Figure 1;
Figure 3 is an exploded view of the components of the spice/pepper-mill;
Figure 4 is a side view of the bridge ,- Figure 5 is a top view of the bridge; Figure 6 is a cross section of the bridge shown as lines VI,VI of Figure 5;
Figure 7 is a is a view of the bridge taken along
the line VII, VII of Figure 4 ;
Figure 8 is a side view of the split ring;
Figure 9 is a bottom view of the split ring;
Figure 10 is a cross section of Figure 9 taken along the line X,X of Figure 9;
Figure 11 is an expanded view of the split ring and the inner male grinding mill in the coarse particulate producing position;
Figure 13 is a view of the split ring and the inner male grinding mill in the medium particulate producing position;
Figure 15 is a view of the split ring and the inner male grinding mill in the fine particulate producing position; and Figures 12, 14 and 16, respectively, are bottom views of the split ring in the coarse, medium, and fine grinding positions.
Detailed Description of the Drawings In Figure 1, the spice/pepper-mill of the present invention, comprises a lower body 1, a rotatable head portion 2, a cap 3, and a decorative mid ring 4. At the lower portion of the body there is an aperture 5 which permits a shifter lever 6 to extend therethrough. Figure 2 is a longitudinal cross section of Figure
1, and Figure 3 is an exploded view of the components of the invention. In Figures 2 and 3, one notes that the shifter
lever 6 is connected to the shifter body 7. The shifter is located at the bottom of the lower body 1 of the spice/pepper- mill and surrounds a bridge 8. The bridge 8 is secured to the body 1 of the spice/pepper-mill by means of screws 10, or some similar fastening mechanism. A step ring 11 is in direct contact with protrusions 9 located on the floor of the bridge 8. The step ring 11 has a tapered underside and the step ring is rotatable with the shifter body 7 by means of step ring rods or arms 12 which are in contact with the shifter body 7. /Above the step ring and in direct contact therewith is an inner male grinding mill 13 which is located within an outer female grinding mill 14. The bridge 8, body portion 1 and an outer female grinding mill 14, are stationary during operation, whereas the inner male grinding mill 13 turns with the rotation of the head portion 2 and a vertical shaft 17. A spring 15, which is biased against a C-clamp 16, exerts constant pressure on the inner male grinding mill 13, maintaining it in contact with the top of step ring 11. A cavity 19, which contains the spice to be ground, is in the form of a hollow cylinder and is found within the body 1. The shaft 17, passes through the cavity 19. The top portion 18 of the shaft 17 is threaded to receive and matingly engage cap 3. The cap 3 is removed only for the purposes of cleaning or refilling the spice/pepper-mill cavity 19. It is not used to vary the size of the finished product. A nylon spacer 20 is located between the body 1 and the head 2.
Figure 4 is a side view of the bridge 8, showing the
projections 9.
Figure 5 is a top view of the bridge 8. Figure 6 is a cross section VI,VI through Figure 5. Figure 8 is a detailed look at the step ring 11. One notes that there is a series of a notches 21, 22, and 23, which are adapted to engage protrusions 9. Three settings are possible, i.e. fine, medium or coarse grind. Thus, notches 21, 22 and 23 will determine the proximity of the inner male grinding mill 17 to the outer female grinding mill 14. Figure 9 is a bottom view of the tapered step ring
11.
Figure 10 is a cross section through the lines 10,10 of Figure 9.
In operation, the cap 3 is unscrewed and the head portion 2 is removed from the shaft. Thereafter the cavity 19 is filled with spice or pepper to be ground. Thereafter, the cap 3 is returned to the top threaded portion 18 of the shaft 17, and is snugly tightened.
In order to choose a ground particulate size, the shifter lever 6 is moved to one of three positions, as shown in Figures 11, 13 and 15.
One notes in Figure 11 that an adjustment for coarse pepper has been selected such that the inner male grinding mill 13 is distanced considerably from the sides of the outer female grinding mill 14.
In Figure 13, the shifter lever 6 has been moved and as a consequence the inner male grinding mill 13 is moved
upwardly along shaft 17 by the step ring 11. The distance between the outer female grinding mill and the inner male grinding mill 13 is considerably diminished. Thus, a medium grind of particulate would be produced. In Figure 15, the lowermost notches 23 of the underside of step ring 11 are abutting projections 9 on the bridge 8. The inner male grinding mill 13 is moved upwardly to almost abut the sides of the outer female grinding mill 14. In this position, in operation, a production of finely ground particulate will result.
Once a grind size has been selected, one simply turns the head 2 of the spice/pepper-mill in a clockwise direction, which will result in the desired quantity and size of particulate produced. Figures 12, 14, and 16 show the underside of the step ring 11 in the various coarse, medium and fine settings.
Although a specific embodiment has been described in detail, it is understood that the invention of this application covers any spice/pepper-mill device where the distance between the inner male grinding mill 13 and the outer female grinding mill 14 is controlled by means of raising the inner male grinding mill 13 towards and into the outer female grinding mill 14.