MULTIPLE STACKED ROTATABLE LOLLIPOP

Abstract

Multiple Stacked Rotatable Lollipop comprising at least two stacked individual components each with a plurality of flavors, colors and shapes, each provided with tubular holding sticks, except the uppermost component which has a solid holding stick, while the upper open ends of the tubular holding sticks of the lower components are accessible at the top of their candies or edible parts, and each tubular stick is conveniently dimensioned to loosely insert the holding stick of the individual component stacked above, each longer than the immediate holding stick below, so the lower end of each holding stick protrudes out in a telescopic fashion, thereby when the user holds the stick of one of the stacked components with one of his/her hands, can rotate any of the other components with the other hand or with his/her tongue directly driving its corresponding edible part for his/her amusement.

Claims

1. A Multiple Stacked Rotatable Lollipop comprising at least two individual components stacked above the other, each in turn comprising an edible part attached to the upper end of a holding stick like conventional lollipops, but wherein the holding sticks of the lower and intermediate stacked component are tubular; wherein said edible parts of the lower and intermediate stacked components are molded and affixed around the upper portion of their corresponding tubular holding sticks, leaving the upper open end of each of said tubular holding sticks visible and accessible at the top of each of said edible parts of each of said lower and intermediate stacked components; wherein the internal diameter of each of said tubular holding sticks is slightly larger than the outer diameter of the holding stick of said stacked component immediate above, thereof said holding stick of said stacked component immediate above is freely inserted through said tubular holding stick of said stacked component immediate below; wherein only the edible part of the uppermost stacked component is like in conventional lollipops molded and affixed around the top portion of a holding stick completely covering said holding stick; wherein each of said holding sticks of each of said stacked components is substantially longer than the tubular holding stick of said stacked component immediate below, exposing a sufficient length of the lower portions of each of said holding sticks in a telescopic fashion, in order to perform as means for the user, usually a little child, to rotate at will with the fingers of one hand any of said stacked components while holding with the other hand any other of said holding sticks, corresponding to one of the other of said stacked components, which remains stationery.

2. The Multiple Stacked Rotatable Lollipop of claim 1, wherein the user enjoys rotating the upper and intermediate stacked components using his/her tongue to drive directly the edible parts of said stacked components.

3. The Multiple Stacked Rotatable Lollipop of claim 1, wherein the innermost holding stick, corresponding to the uppermost component, is solid as in conventional lollipops.

4. The Multiple Stacked Rotatable Lollipop of claim 1, wherein at least the protruding lower end of the innermost solid holding stick, corresponding to said uppermost component, is provided with a retaining element, in order to keep all the stacked component assembled as a whole thereby preventing their separation.

5. The Multiple Stacked Rotatable Lollipop of claim 4, wherein prior to its assembling each component is individually manufactured like an individual conventional lollipop, and said retaining element consists in bending outwardly said protruding lower end of said innermost solid holding stick of said uppermost component after the assembling, preventing the disassembling of the stacked component and, at the same time, providing a means for the user to rotate said uppermost component in relation to the other stacked components.

6. The Multiple Stacked Rotatable Lollipop of claim 4, wherein prior to its assembling, each component is individually manufactured like an individual conventional lollipop, and each protruding lower end of each of said tubular and solid holding sticks of said components, is provided with an integrated retaining element, with a plurality of shapes and sizes, in order to keep the stacked components assembled as a whole after the assembling.

7. The Multiple Stacked Rotatable Lollipop of claim 6, wherein said integrated retaining element consists in an elastic little flap with its free edge pointed upward, which collapses inwardly to facilitate the assembling and expands outwardly after the assembling is completed, preventing the disassembling of said stacked component.

8. The Multiple Stacked Rotatable Lollipop of claim 6, wherein said retaining elements of said protruding lower ends of said tubular holding sticks of the intermediate stacked components, consist in splitting said protruding lower end of each of said tubular holding sticks of said intermediate stacked components in at least two sections and bending outwardly said split sections after the assembling, keeping said intermediate stacked components assembled in their axial positions and at the same time providing a means for the user to rotate each of said intermediate stacked components in relation to the others of said stacked components and at the same time providing means for the user to rotate independently each of said intermediate stacked components.

9. The Multiple Stacked Rotatable Lollipop of claim 1, wherein all said holding sticks of all of said stacked components are pre-assembled coaxially inserted into the immediate below in a telescopic fashion prior to the molding and affixing of the corresponding edible parts of all said stacked components, and the outer surface portion of said protruding lower ends of said tubular holding sticks corresponding to each of said intermediate stacked components, as well as the protruding lower end of said solid holding stick of the uppermost of said stacked components, are substantially enlarged with a plurality of shapes and sizes in order to facilitate the manual rotation by the user of each of said stacked component in relation to the others of said stacked components and, in addition, to keep all said stacked component in their desired axial position relative to each other and assembled as a whole after the completion of the manufacturing process.

10. The Multiple Stacked Rotatable Lollipop of claim 9, wherein said enlarged protruding lower ends of said holding sticks of said stacked component are shaped as flat cylindrical little knobs, each with an outer diameter substantially bigger than the inner diameter of the immediate of said tubular holding sticks above, and said outer diameters decreasing in size progressively from the uppermost to the lowermost of said protruding lower ends of said holding sticks of said stacked components, in order to make each of said little knobs reachable for the user to rotate at will with his/her fingers any of said stacked components in relation to the others for his/her amusement.

11. The Multiple Stacked Rotatable Lollipop of claim 9, wherein said enlarged protruding lower end of said solid holding stick of said uppermost stacked component is shaped as a spherical knob, with a diameter substantially bigger than the inner diameter of the outer tubular holding stick, corresponding to the lowermost stacked component, in order to secure assembled all said stacked component as a whole and at the same time to provide the user with a means to rotate at will with his/her fingers said uppermost stacked component in relation to the others for his/her amusement.

12. The Multiple Stacked Rotatable Lollipop of claim 1, wherein said holding sticks of said stacked components are located at a substantial distance of the centers of mass of their corresponding edible parts, thereby providing a further way for the user to rotate said upper stacked components holding with one hand the Multiple Stacked Rotatable Lollipop by its outer holding stick and moving it around in a circular fashion.

13. The Multiple Stacked Rotatable Lollipop of claim 1, wherein said holding sticks of said stacked components are made of a plurality of materials and are provided with a plurality of sizes and attractive colors and configurations.

14. The Multiple Stacked Rotatable Lollipop of claim 1, wherein said edible parts of said stacked component are provided with a plurality of shapes, sizes, colors and flavors.

15. The Multiple Stacked Rotatable Lollipop of claim 1, wherein said edible parts of said stacked components, are manufactured without the addition of high caloric sugars.

16. The Multiple Stacked Rotatable Lollipop of claim 15, wherein said edible parts of said stacked component are made with low caloric healthy natural purified sweeteners approved by the FDA.

17. The Multiple Stacked Rotatable Lollipop of claim 16, wherein said low caloric healthy natural purified sweeteners approved by the FDA contain Rebaudioside A derived from the plant stevia.

18. The Multiple Stacked Rotatable Lollipop of claim 1, wherein the assembly does not include irreversible retaining elements and therefore the user has the option to separate the stacked components at will to consume each individual component like independent conventional lollipops.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0053] FIG. 1 is an isometric side view of a preferred embodiment of the Multiple Stacked Rotatable Lollipop comprising two stacked components, being held by a user's hand.

[0054] FIG. 2 is a top view of the same embodiment of FIG. 1.

[0055] FIG. 3 is an isometric exploded view of a similar embodiment of FIG. 1, with the solid holding stick provided with a retaining flap.

[0056] FIG. 4 is an isometric side view of the same embodiment of FIG. 3 assembled.

[0057] FIG. 5 is an isometric exploded view of the components of another possible preferred embodiment of the invention comprising three stacked components.

[0058] FIG. 6 is an isometric side view of the same embodiment of FIG. 5 assembled.

[0059] FIG. 7 is an isometric view of another possible preferred embodiment of the invention comprising three stacked components.

[0060] FIG. 8 is a partial magnified detail showing an axial section of the assembled lowest portions of the holding sticks of the three stacked components of the same embodiment of FIG. 7.

[0061] FIG. 9 is an isometric exploded view of a group of three holding sticks before assembling, being the lower end of the innermost solid holding stick and the intermediate tubular holding stick conveniently modified.

[0062] FIG. 10 is an isometric view of the same group of holding sticks depicted in FIG. 9 after having been assembled all together coaxially with each holding stick inserted into the next below in a telescopic fashion prior to the molding of their respective candies or edible parts at their upper ends.

DETAILED DESCRIPTION OF THE INVENTION

[0063] This Multiple Stacked Rotatable Lollipop comprises at least two stacked individual component, but can comprise as many components as desired, within practical limits.

[0064] The holding stick of the lowermost individual stacked component integrating the Multiple Stacked Rotatable Lollipop is hollow or tubular and goes all the way thru from the bottom to the top of the candy or edible part that is molded and affixed around the upper end portion of said tubular holding stick, leaving the open upper end of said tubular holding stick visible and accessible from the top of said candy or edible part, and being the internal diameter of said tubular holding stick big enough to introduce the holding stick of another individual component with a loose fit in a telescopic fashion.

[0065] The holding stick of the uppermost, the top one, of the individual stacked component integrating the Multiple Stacked Rotatable Lollipop, is solid as in conventional lollipops and its candy or edible part is molded and affixed covering the top end of said solid holding stick as in prior art lollipops.

[0066] When the Multiple Stacked Rotatable Lollipop comprises three or more individual components, each of the holding sticks of those intermediate ones, between the lowest and the top stacked component, must also be hollow or tubular and going all the way through the corresponding candy or edible part, which must also be molded around the upper end portion of said tubular holding stick, with the open top of said upper end exposed above the top of said candy or edible part as in the lowermost component, and the internal diameters of each intermediate tubular holding stick must be properly dimensioned to provide a loose fit for the holding stick of the next upper stacked component.

[0067] The lower end of the holding stick of each individual lollipop integrating the Multiple Stacked Rotatable Lollipop must be longer than the immediate lower one; it can be provided with a retaining element to prevent the accidental disassembling of the Multiple Stacked Rotatable Lollipop, and must protrude out sufficiently to provide a means for improving the user's fun, rotating at will with his/her hands and fingers any of the upper individual stacked components.

[0068] However, if retaining elements are not provided or can be reversed, the user can disassemble the Multiple Stacked Rotatable Lollipop at will to consume each of the assembled component separated as conventional individual lollipops.

[0069] All components of the present invention, in all their possible variations, can be produced using common reliable manufacturing processes, often automatic with high rates of production and highly efficient, which are very well known in the field of confectionery production.

[0070] The hollow or tubular holding sticks, for example, are very similar to the drinking straws commercially manufactured.

[0071] In the following figures, the position of the same or equivalent component or parts of components are designated with the same final digits, according to their function rather than to its configuration, since there are an infinite variety of different possible shapes for the same components, while the first digit to the left corresponds to the figure in which the specific element is depicted for the first time.

[0072] Most main features of the Multiple Stacked Rotatable Lollipop are explained below in the detailed description of the illustrative figures; however, as it is obvious, the embodiments of the components of the present invention may be much more diversified than those illustrated.

[0073] The FIG. 1 depicts an elevation view of a preferred embodiment of the invention with two stacked components held by the user in one hand 105 sustaining the lower candy or edible part 101 by its tubular holding stick 102, while a finger 106 of the other hand imparts rotation as indicated by the arrow curved line M1 to the upper candy or edible part 103 by means of its solid holding stick 104, which has its protruding lower end bent forming a sort of tiny lever 104a, either after its insertion into the tubular holding stick 102.

[0074] This view is partially sectioned to illustrate how the solid holding stick 104 is securely embedded into the upper candy or edible part 103 and how it is inserted on the tubular holding stick 102 of the lower candy or edible part 101, which is molded affixed around the upper portion of said tubular holding stick 102.

[0075] In this embodiment of the invention said tiny lever 104a, not only provides the user an easier way to rotate said candy or edible part 103, but at the same time prevents the Multiple Stacked Rotatable Lollipop from disassembling.

[0076] Additionally, as illustrated, the solid holding stick 104 is provided with an integrated umbrella like tiny cone 104b covering the upper open end of the tubular holding stick 102, with the purpose to prevent that, when the user is licking and sucking the lower candy or edible part 101, the resulting dissolved viscous fluid substance leaks down through the tubular holding stick 102 after the upper stacked candy or edible part 103 has been totally consumed.

[0077] That little cone 104b, is optional, because the viscosity of the dissolved candy or edible part practically prevents it from leaking down through the relatively narrow gap between the holding sticks.

[0078] In this preferred embodiment of the invention, the lower candy or edible part 101 has its top depressed in a manner that the upper end of its tubular holding stick 102 is visible and accessible, but does not protrude out beyond the top of the candy or edible part 101, in order to facilitate the user to consume said candy or edible part 101 after the upper candy or edible part 103 has been totally consumed, without removing its corresponding solid holding stick 104, which, in turn, only protrudes out on top just a little bit.

[0079] In FIG. 2 is depicted the top view of the same embodiment of the invention depicted in FIG. 1, and in said view can be seen the shape of the upper candy or edible part 103, that in this case resembles in stylized form the propeller of a miniature helicopter which is in turn resembled by the lower candy or edible part below 101 and can be rotated as indicated by the arrow curved line M2.

[0080] In this preferred embodiment of the invention the holding sticks 102 and 104 cannot be easily disassembled after the candies or edible parts 101 and 103 have been consumed, but when only the upper candy or edible part 103 is totally consumed, its holding stick 104 only protrudes out on top of the lower candy or edible part 101 just a little bit, in a manner that allows the user to lick and suck easily the remaining candy or edible part 101.

[0081] The FIG. 3 is an exploded view of an embodiment similar but not identical to that previously depicted in FIG. 1, illustrating a possible way of assembling in a telescopic fashion the Multiple Stacked Rotatable Lollipop, as indicated by the assembling line A, in this case after having molded both candies or edible parts 101 and 103, of the lower and upper component respectively, onto their corresponding holding sticks 102 and 104.

[0082] As in FIG. 1, the holding stick 104 is provided with the optional tiny inverted cone umbrella like 104b, but in addition it is provided with a little retaining flap 104c near its lower end.

[0083] The FIG. 4 is an elevation isometric view of the embodiment of the same embodiment of invention previously depicted in FIG. 3, with the lower candy or edible part 101 and its tubular holding stick 102, and the upper candy or edible part 103 stacked on top, with a portion of the lower end of its solid holding stick 104 visible protruding from the lower end of the tubular holding stick 102, and with the tiny retaining flap 104c, which collapses for the assembling and then flips out in position preventing the Multiple Stacked Rotatable Lollipop from disassembling.

[0084] In FIG. 4 is also shown the detail A, which is a magnified partial axial section of the lower portions of both holding sticks 102 and 104 showing the retaining flap 104c expanded after the assembling.

[0085] A substantial portion of the lower end of said lower solid holding stick 104 protrudes from the lower end of the outer tubular holding stick 102 and performs as a simple means for the user to rotate the upper candy or edible part 103, as indicated by the arrow curved lines M1 and M2, for his/her amusement.

[0086] In order to facilitate the assembling in a telescopic fashion and to provide a fit loose enough for the solid holding stick 104 of the upper candy or edible part 103 to freely rotate in relation to the lower candy or edible part 101, the inner diameter of the tubular holding stick 102 of said lower candy or edible part 101, is slightly larger than the outer diameter of the solid holding stick 104 of said upper candy or edible part 103.

[0087] The FIG. 5 is an exploded view of another preferred embodiment, depicting each of the three individual candies or edible parts: the lowermost 501, shaped like a flat cylinder, showing on its top the upper end of its tubular holding stick 102; the intermediate 507 shaped like a little sphere, also with its tubular holding stick 508 visible on its top, and the uppermost 503, shaped like a horizontal star, with its holding stick 104.

[0088] In this figure, the three individual components are shown separated, prior to their assembling in a telescopic fashion following the sequence indicated by the assembling path lines A and B, respectively.

[0089] In this case, the intermediate tubular holding stick 508 has a portion of its lower end split in four sections, as indicated by the cut line 508a, to be bent out after the assembling.

[0090] Also in this case, the solid holding stick 104 of the uppermost candy or edible part 503 is provided with a little flap 104c, which elastically closes in during the assembling and then expands out to keep the Multiple Stacked Rotatable Lollipop assembled.

[0091] The FIG. 6 is an isometric view assembled of the possible preferred embodiment of the Multiple Stacked Rotatable Lollipop previously shown disassembled in FIG. 5, with three individual stacked components.

[0092] Its lowest component comprises a tubular outermost holding stick 102 holding the lowermost candy or edible part 501, in this case shaped like a flat cylinder, which is molded affixed around the top end of said holding stick, so that said top end of said holding stick is exposed and visible above said candy or edible part 501 as was illustrated in FIG. 5.

[0093] Above the lowest component, there is an intermediate individual candy or edible part 507, in this case shaped like a sphere, also molded wrapped around the upper portion of its tubular holding stick 508, not visible in this figure, but previously shown in FIG. 5, which is in turn inserted through the lowest and outer tubular holding stick 102 and also not visible in this figure, but has its lower end protruding out of the lower end of the tubular holding stick 102, modified with four segments 508a, bent outwardly for the user to rotate the intermediate stacked individual component independently, in relation to the lower one 501 with his/her fingers, as indicated by the arrow curved line M3.

[0094] Above said intermediate stacked individual candy or edible part 507, is stacked the uppermost candy or edible part 503, in this case shaped like a star, molded affixed on the top end of its solid holding stick 104, which in turn is inserted through the intermediate tubular holding stick 508 of the intermediate candy or edible part 507, while the lower end of said stick 104, protrudes out the lower end of the tubular holding stick 508 and is provided with a little retaining flap 104c that elastically flips out keeping in position all the Multiple Stacked Rotatable Lollipop stacked components after the assembling.

[0095] The lower portion of said solid holding stick 104 of the uppermost candy or edible part 503 protruding below provides a means for the user to rotate with his/her fingers the top stacked individual candy or edible part 503 independently in relation to the other two lower stacked individual candies or edible parts 507 and 501, respectively, as indicated by the arrow curved lines M1 and M2.

[0096] There are two main general alternate process sequences for the manufacturing of the Multiple Stacked Rotatable Lollipop. One sequence is first to manufacture each component as individual conventional lollipops and then proceed to the assembling, inserting each one into the other in a telescopic fashion, providing appropriate configuration to the protruding lower ends of the holding sticks of the intermediate and top stacked components in order to keep the group assembled together and to provide convenient means for the user to rotate any of the intermediate and the uppermost stacked components.

[0097] The other sequence is first to pre-assemble inserting into the next below all the corresponding holding sticks in a telescopic fashion, with the outer surfaces of the protruding lower ends expanded and modified to keep all components securely assembled and to provide convenient means for their manual rotation by de user, and thereafter positioning the pre-assembled group of holding sticks onto a special multi cavity mold to proceed to the pouring or injection of the different candy or edible part mixtures filling the corresponding molding cavity of each candy or edible part around the upper ends of its corresponding holding stick.

[0098] FIG. 7 depicts and isometric elevation view of an embodiment of the Multiple Stacked Rotatable Lollipop comprising three individual components stacked one above the other: the candy or edible part 501 of the lowest component, shaped in this case like a flat cylinder; that of the intermediate 507, shaped in this case like a sphere, and that of the upper one 703, shaped in this case like a truncated cone, together with their respective holding sticks 102, 508 and 104, inserted into the next below in a telescopic fashion.

[0099] The outer tubular holding stick 102 corresponds to the lowest component candy or edible part 501, and its inner diameter is slightly larger than the outer diameter of the intermediate tubular holding stick 508 of the intermediate stacked confectionary candy or edible part 507.

[0100] In this case, the manufacturing process sequence is the first one mentioned above, wherein each component is made as an individual conventional lollipop and thereafter assembled together by inserting their respective holding sticks into the other below in a telescopic fashion.

[0101] For the assembling, the intermediate tubular holding stick 508 is inserted freely into the outer tubular holding stick 102, and its lower portion protrudes out of the lower end of the outer tubular holding stick 102, providing a means for the user to amuse him/her self by manually rotating the intermediate stacked component candy or edible part 507, as indicated by the arrow curved line M3.

[0102] At the same time, in this case, the intermediate tubular holding stick, near its lower end, is provided with a tiny flap 508a that elastically flips out after the assembling to keep it fixed in the desired axial position.

[0103] The solid holding stick 104 of the uppermost stacked component candy or edible part 703, in turn, has a diameter slightly smaller than the inner diameter of the intermediate tubular holding stick 508, and is freely inserted into it, with the lower portion protruding at the bottom in order to provide a means for the user to rotate manually the uppermost stacked component candy or edible part 703 in relation to the other two component candies or edible parts 507 and 501, as indicated by the arrow curved lines M1 and M2.

[0104] In this embodiment, the solid holding stick 104 is also provided with a retaining element consisting in a tiny flap 104c that elastically flips out after the assembling to keep it in its axial position and in order to keep the whole Multiple Stacked Rotatable Lollipop assembled as a whole.

[0105] FIG. 8 is a magnified detail partial axial section of the lower portions assembled in a telescopic fashion of the three holding sticks 102, 508 and 104 of the embodiment depicted in FIG. 7, illustrating the way they are inserted into the next below, and the retaining flaps 508a and 104c expanded to prevent said holding sticks 508 and 104 from sliding out, thus keeping said holding sticks in their respective axial position and the Multiple Stacked Rotatable Lollipop assembled as a whole.

[0106] This figure also illustrates that substantially long portions of each holding stick 104 and 508, corresponding to the upper and intermediate stacked components candies or edible parts 703 and 507, respectively, protrude out of the lowermost one 102, in a telescopic fashion providing means for the user to grip and rotate any of said candies or edible parts stacked above in relation to the holding stick 102, corresponding to the lowermost edible part 501.

[0107] The integrated retaining means 508a and 104c can be of many different types and shapes to accomplish their purpose in different manners. Those depicted in the previous figures, are just to illustrate some of the many alternate options that can be used by anyone skilled in the fields of mechanics and confectioneries.

[0108] FIG. 9 depicts a group of separated holding sticks 102, 908 and 904, before being assembled following the path indicated by the assembling lines A and B. The outermost tubular holding stick 102 has its internal diameter slightly larger than the outer diameter of the next intermediate tubular holding stick 908.

[0109] Said intermediate tubular holding stick 908 in this case is provided with the outer surface of its lower end 908a, enlarged and shaped like a tiny flat cylindrical knob to make it easier for the user to rotate the intermediate stacked component.

[0110] The internal diameter of said intermediate holding stick 908 is slightly larger than the diameter of the solid holding stick 904, which in turn is also provided with an enlarged lower end 904a, in this case with the shape of a tiny spherical knob.

[0111] The purpose of the enlarged lower ends 908a and 904a is to secure assembled the group of stacked components after all the candies or edible parts of all the respective components are molded affixed around the corresponding upper sections of the holding sticks and, in addition, to provide a means for the user's amusement imparting rotation to the upper and intermediate components with his/her fingers.

[0112] FIG. 10 depicts the three holding sticks 904, 908 and 102, with their modified lower ends 904a and 908a, previously shown in FIG. 9, already pre-assembled each inserted into the next below in a telescopic fashion, to be conveniently positioned onto an appropriate mold or molds for the injection of the different candies or edible parts of the corresponding components, preferably in a simultaneous operation.

[0113] In the preferred embodiments of the invention illustrated in the FIGS. 5 thru 10, it is possible for the user to remove and discard the holding sticks when their corresponding candies or edible parts are totally consumed, in order to facilitate the licking and sucking of the remaining ones.

[0114] Many other means, designs and decorative shapes and sizes can be used for the retaining and rotating elements, in addition to those illustrated, capable to achieve the same purposes of retaining the stacked components assembled in position and for the user to rotate manually said components in relation to the others.

[0115] The holding sticks can be made of a plurality of appropriate materials and also provided with many different shapes, colors and sizes.

[0116] In the same way, like in any conventional lollipop, a plurality of shapes, flavors and colors can be used for each of the candies or edible parts of the Multiple Stacked Rotatable Lollipop object of the present invention.

[0117] The individual components of the present invention are similar or very similar to conventional lollipops, thereof their manufacturing processes are well known.

[0118] In general, in order to reduce the negative health impact typical of high caloric candies, the candies or edible parts of the present invention must have preferably a small total mass and volume, with no high caloric sugar added.

[0119] If necessary to improve the sweet taste of the candies or edible parts of the present invention, while still reducing said negative health impact, it would be preferably the use of low caloric natural and healthy sweeteners like those containing Rebaudioside A, approved by the FDA to be used in food manufacturing and that is derived from the plant stevia.

[0120] All the above figures depict embodiments with the holding sticks located in substantially centered position, but it is also possible to locate said holding sticks at significant distance from the center of mass of the candies or edible parts, especially of those upper and intermediate stacked components and make them rotate when the Multiple Stacked Rotatable Lollipop is manually moved in a circular fashion.

[0121] In addition, if the Multiple Stacked Rotatable Lollipop of the present invention is not provided with any retaining element at all, or if said retaining elements are reversible, the user has the option to disassemble it at will to consume each confectionery component like an individual conventional lollipop.

[0122] Although the modifications of the holding sticks, and the assembling process of the Multiple Stacked Rotatable Lollipop invention may require operations that are not usually used for the manufacturing of conventional individual lollipops, said operations are either simple or similar to other industrial manufacturing processes, such as, for example, the manufacturing of drinking straws, plastic stirrers, and many other products.

[0123] The main novel feature of this invention is that the user can impart the rotating motion to each of the individual components of the present invention either with his/her fingers outside of his/her mouth by means of their holding sticks, thus improving his/her amusement watching the rotating colored components or with his/her tongue directly touching their edible parts.

[0124] While all of the fundamental characteristics and features of the invention have been shown and described herein, with reference to particular embodiments thereof, a latitude of modifications, various changes and substitutions are intended in the foregoing disclosure and it will be apparent that in some instances, some features of the invention may be employed without a corresponding use of other features without departing from the scope of the invention.

[0125] It should be also understood that various substitutions, modifications and variations may be made by those skilled in the art without departing from the spirit or scope of the invention.

[0126] Consequently all such modifications, variations and substitutions are included within the scope of the invention as defined by the following claims.