NICOTINE POUCH DISPENSER

Abstract

A spring-loaded nicotine pouch dispenser which enables users to access nicotine pouches quickly and easily. The nicotine pouch dispenser utilizes a dual-spring setup working in tandem underneath a plate to support the pouches and press them up to the body towards the opening. The retention prongs and semicircular cutout at the opening keep the pouches inline and secure from falling out while still being easy to access. The entire mechanism is encased in an outer body shell and a flip cap resulting in a completely sealed waterproof design that allows for easy, one-handed operation, eliminating the need for great strength or dexterity.

Claims

1. A spring-loaded nicotine pouch dispenser, comprising: a body including an upper body section and a lower body section, wherein the upper body section includes a cutout on a top face of the upper body section, wherein the cutout includes at least one retention prong, wherein the lower body section includes at least one hinge; a plate installed below the cutout and the at least one retention prong; a cap attached to the body by the at least one hinge and a pin; a bottom seal attached to a bottom end of the body; at least one cylindrical extension protruding from the plate; and at least one spring mounted between the bottom seal and the plate and positioned around the at least one cylindrical extension; and wherein the spring-loaded nicotine pouch dispenser is operable to store a nicotine pouch and further operable to dispense the nicotine pouch.

2. The spring-loaded nicotine pouch dispenser of claim 1, wherein the bottom seal is attached to the body through welding, plastic welding, adhesives, screws, latches, or other permanent or semi-permanent joining process.

3. The spring-loaded nicotine pouch dispenser of claim 1, wherein at least one second hinge is mounted on a backside of the lower body section.

4. The spring-loaded nicotine pouch dispenser of claim 1, wherein the spring-loaded nicotine pouch dispenser further includes at least one gasket.

5. The spring-loaded nicotine pouch dispenser of claim 1, wherein the spring-loaded nicotine pouch dispenser is formed of materials including plastic, metal, and/or fiber-reinforced composite.

6. The spring-loaded nicotine pouch dispenser of claim 1, wherein the cap includes a lip protruding from a body of the cap.

7. The spring-loaded nicotine pouch dispenser of claim 1, wherein the bottom seal includes at least one additional cylindrical extension, wherein the at least one additional cylindrical extension retains the at least one spring on the bottom seal.

8. The spring-loaded nicotine pouch dispenser of claim 1, wherein the spring-loaded nicotine pouch dispenser is formed by injection molding.

9. A system for dispensing nicotine pouches, comprising: a spring-loaded nicotine pouch dispenser, including: a body including an upper body section and a lower body section, wherein the upper body section includes a cutout on a top face of the upper body section, wherein the cutout includes at least one retention prong, wherein the lower body section includes at least one hinge; a plate installed below the cutout and the at least one retention prong; a cap attached to the body by the at least one hinge and a pin; a bottom seal attached to a bottom end of the body; at least one cylindrical extension protruding from the plate; at least one spring mounted between the bottom seal and the plate and positioned around the at least one cylindrical extension; and at least one nicotine pouch inserted on top of the plate and below the at least one retention prong; and wherein the spring-loaded nicotine pouch is operable to dispense at least one nicotine pouch.

10. The spring-loaded nicotine pouch dispenser of claim 9, wherein the bottom seal is attached to the body through welding, plastic welding, adhesives, screws, latches, or other permanent or semi-permanent joining process.

11. The spring-loaded nicotine pouch dispenser of claim 9, wherein at least one second hinge is mounted on a backside of the lower body section.

12. The spring-loaded nicotine pouch dispenser of claim 9, wherein the spring-loaded nicotine pouch dispenser further includes at least one gasket.

13. The spring-loaded nicotine pouch dispenser of claim 9, wherein the spring-loaded nicotine pouch dispenser is formed of materials including plastic, metal, and/or fiber-reinforced composite.

14. The spring-loaded nicotine pouch dispenser of claim 9, wherein the cap includes a lip protruding from a body of the cap.

15. The spring-loaded nicotine pouch dispenser of claim 9, wherein the bottom seal includes at least one additional cylindrical extension, wherein the at least one additional cylindrical extension is operable to retain the at least one spring.

16. The spring-loaded nicotine pouch dispenser of claim 9, wherein the spring-loaded nicotine pouch dispenser is formed by injection molding.

17. A spring-loaded nicotine pouch dispenser, comprising: a body including an upper body section and a lower body section, wherein the upper body section includes a cutout on a top face of the upper body section, wherein the cutout includes at least one retention prong, wherein the lower body section includes at least one hinge; a plate installed below the cutout and the at least one retention prong; a cap attached to the body by the at least one hinge and a pin, wherein the cap includes a lip protruding from a body of the cap; a bottom seal attached to a bottom end of the body; at least one cylindrical extension protruding from the plate; and at least one spring mounted between the bottom seal and the plate and positioned around the at least one cylindrical extension; and wherein the spring-loaded nicotine pouch dispenser is operable to store a nicotine pouch and further operable to dispense the nicotine pouch.

18. The spring-loaded nicotine pouch dispenser of claim 17, wherein the spring-loaded nicotine pouch dispenser further includes at least one gasket.

19. The spring-loaded nicotine pouch dispenser of claim 17, wherein the bottom seal includes at least one additional cylindrical extension, wherein the at least one additional cylindrical extension retains the at least one spring on the bottom seal.

20. The spring-loaded nicotine pouch dispenser of claim 17, wherein the spring-loaded nicotine pouch dispenser is formed of materials including plastic, metal, and/or fiber-reinforced composite.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0023] FIG. 1 illustrates a side view of the nicotine pouch dispenser fully assembled.

[0024] FIG. 2 illustrates a perspective view of the nicotine pouch dispenser fully assembled.

[0025] FIG. 3 illustrates a side view of the body of the nicotine pouch dispenser.

[0026] FIG. 4 illustrates a second side view of the body of the nicotine pouch dispenser.

[0027] FIG. 5 illustrates a perspective view of the body of the nicotine pouch dispenser.

[0028] FIG. 6 illustrates a top view of the body of the nicotine pouch dispenser.

[0029] FIG. 7 illustrates a bottom view of the body of the nicotine pouch dispenser.

[0030] FIG. 8 illustrates a back view of the body of the nicotine pouch dispenser.

[0031] FIG. 9 illustrates a front view of the body of the nicotine pouch dispenser.

[0032] FIG. 10 illustrates a side view of the top cap of the nicotine pouch dispenser.

[0033] FIG. 11 illustrates a perspective view of the top cap of the nicotine pouch dispenser.

[0034] FIG. 12 illustrates a top view of the top cap of the nicotine pouch dispenser.

[0035] FIG. 13 illustrates a back view of the top cap of the nicotine pouch dispenser.

[0036] FIG. 14 illustrates a side view of the top cap of the nicotine pouch dispenser.

[0037] FIG. 15 illustrates a bottom view of the nicotine pouch dispenser plate.

[0038] FIG. 16 illustrates a top view of the nicotine pouch dispenser plate.

[0039] FIG. 17 illustrate a side view of the nicotine pouch dispenser plate.

[0040] FIG. 18 illustrates a perspective view of the nicotine pouch dispenser plate.

[0041] FIG. 19 illustrates an interior side view of the nicotine pouch dispenser.

[0042] FIG. 20 illustrates a top view of the bottom of the nicotine pouch dispenser.

[0043] FIG. 21 illustrates a perspective view of the bottom of the nicotine pouch dispenser.

[0044] FIG. 22 illustrates a bottom view of the bottom of the nicotine pouch dispenser.

[0045] FIG. 23 illustrates a front view of the bottom of the nicotine pouch dispenser.

[0046] FIG. 24 illustrates a side view of the bottom of the nicotine pouch dispenser.

[0047] FIG. 25 illustrates a side view of the pin of the nicotine pouch dispenser.

[0048] FIG. 26 illustrates a perspective view of the pin of the nicotine pouch dispenser.

DETAILED DESCRIPTION

[0049] The present invention relates to nicotine pouch dispensers, and more specifically to spring-loaded nicotine pouch dispensers.

[0050] In one embodiment, the present invention includes a spring-loaded nicotine pouch dispenser including a body including an upper body section and a lower body section, wherein the upper body section includes a cutout on a top face of the upper body section, wherein the cutout includes at least one retention prong, wherein the lower body section includes at least one hinge, a plate installed below the cutout and the at least one retention prong, a cap attached to the body by the at least one hinge and a pin, a bottom seal attached to a bottom end of the body, at least one cylindrical extension protruding from the plate, at least one spring mounted between the bottom seal and the plate and positioned around the at least one cylindrical extension, and wherein the spring-loaded nicotine pouch dispenser is operable to store a nicotine pouch and further operable to dispense the nicotine pouch, wherein the bottom seal is attached to the body through welding, plastic welding, adhesives, screws, latches, or other permanent or semi-permanent joining process, wherein at least one second hinge is mounted on a backside of the lower body section, wherein the spring-loaded nicotine pouch dispenser further includes at least one gasket, wherein the spring-loaded nicotine pouch dispenser is formed of materials including plastic, metal, and/or fiber-reinforced composite, wherein the cap includes a lip protruding from a body of the cap, wherein the bottom seal includes at least one additional cylindrical extension, wherein the at least one additional cylindrical extension retains the at least one spring on the bottom seal, wherein the spring-loaded nicotine pouch dispenser is formed by injection molding.

[0051] In another embodiment, the present invention includes a system for dispensing nicotine pouches including a spring-loaded nicotine pouch dispenser, including, a body including an upper body section and a lower body section, wherein the upper body section includes a cutout on a top face of the upper body section, wherein the cutout includes at least one retention prong, wherein the lower body section includes at least one hinge, a plate installed below the cutout and the at least one retention prong, a cap attached to the body by the at least one hinge and a pin, a bottom seal attached to a bottom end of the body, at least one cylindrical extension protruding from the plate, at least one spring mounted between the bottom seal and the plate and positioned around the at least one cylindrical extension, at least one nicotine pouch inserted on top of the plate and below the at least one retention prong, and wherein the spring-loaded nicotine pouch is operable to dispense at least one nicotine pouch, wherein the bottom seal is attached to the body through welding, plastic welding, adhesives, screws, latches, or other permanent or semi-permanent joining process., wherein at least one second hinge is mounted on a backside of the lower body section, wherein the spring-loaded nicotine pouch dispenser further includes at least one gasket, wherein the spring-loaded nicotine pouch dispenser is formed of materials including plastic, metal, and/or fiber-reinforced composite, wherein the cap includes a lip protruding from a body of the cap, wherein the bottom seal includes at least one additional cylindrical extension, wherein the at least one additional cylindrical extension is operable to retain the at least one spring, wherein the spring-loaded nicotine pouch dispenser is formed by injection molding.

[0052] In a further embodiment, the present invention includes a spring-loaded nicotine pouch dispenser, including a body including an upper body section and a lower body section, wherein the upper body section includes a cutout on a top face of the upper body section, wherein the cutout includes at least one retention prong, wherein the lower body section includes at least one hinge, a plate installed below the cutout and the at least one retention prong, a cap attached to the body by the at least one hinge and a pin, wherein the cap includes a lip protruding from a body of the cap, a bottom seal attached to a bottom end of the body, at least one cylindrical extension protruding from the plate, at least one spring mounted between the bottom seal and the plate and positioned around the at least one cylindrical extension, and wherein the spring-loaded nicotine pouch dispenser is operable to store a nicotine pouch and further operable to dispense the nicotine pouch, wherein the spring-loaded nicotine pouch dispenser further includes at least one gasket, wherein the bottom seal includes at least one additional cylindrical extension, wherein the at least one additional cylindrical extension retains the at least one spring on the bottom seal, wherein the spring-loaded nicotine pouch dispenser is formed of materials including plastic, metal, and/or fiber-reinforced composite.

[0053] None of the prior art discloses spring-loaded nicotine pouch dispensers.

[0054] As the demand for smokeless tobacco alternatives continues to rise, nicotine pouches have emerged as a popular choice for individuals seeking a convenient and discreet way to satisfy nicotine cravings without the need for traditional methods of ingesting nicotine, such as smoking or vaping. Despite the growing popularity of these pouches, the existing dispensing methods often present challenges in terms of accessibility, efficiency, and user-friendliness.

[0055] While devices that hold and dispense items using a spring-loaded mechanism are well known, these devices are not designed to hold or dispense nicotine pouches. Other devices such as those described in U.S. Pat. No. 2,519,438 are designed to hold cigarettes. U.S. Pat. No. 2,620,061 describes a device designed to hold and dispense pastilles, tablets, sweetmeats, and cigarettes. However, neither of these devices is suitable for holding or dispensing nicotine pouches in a manner which provides for the pouches to be dispensed easily, quickly, and without damage to the pouches.

[0056] Current nicotine pouch cans and holders often require manual opening and extraction, which is cumbersome and inconvenient, especially in situations that demand swift and discreet access. Additionally, the risk of misplacement or damage to individual pouches during manual retrieval poses a notable drawback for users.

[0057] Recognizing these challenges and aiming to contribute to smoking cessation efforts, there is a long felt, unmet need for a nicotine pouch dispenser that enhances the user experience, thereby helping an individual in their journey towards quitting smoking or consumption of nicotine in other, less healthy formats. The dispenser leverages a spring-loaded mechanism to enable rapid and effortless deployment of nicotine pouches. Through this design, this dispenser aims to redefine industry standards, offering users a tool that not only satisfies their nicotine cravings efficiently and quickly, but which also aligns with broader public health goals of reducing the prevalence of traditional smoking and vaping.

[0058] Referring now to the drawings in general, the illustrations are for the purpose of describing one or more preferred embodiments of the invention and are not intended to limit the invention thereto.

[0059] FIGS. 1 and 2 illustrate a side and perspective views of the nicotine pouch dispenser 100, fully assembled, respectively. In one embodiment, the nicotine pouch dispenser 100 outer shell is comprised of four main components, the body 200, the cap 300, the bottom seal 400, and the pin 600. The body 100 and cap 300 are attached with the pin 600 allowing for the cap 300 to rotate off and onto the top of the body 200.

[0060] In one embodiment, the bottom seal 400 is attached to the body 200 through welding, plastic welding, adhesive, screws, latches, or other permanent or semi-permanent joining processes. This use of a separate body 200 and a bottom seal 400 parts and attachment at a later time allows for the easy installation and assembly of the internal spring parts before the attachment of the two parts. The use of a screw or latch allows the user to disassemble and alter or service the nicotine pouch dispenser 100. In another embodiment, the body 200 and cap 400 are integrally formed as one piece to reduce the assembly process and number of pieces. The internal spring mechanism is installed from the top side of the body 200. In one embodiment the nicotine pouch dispenser 100 is made of a waterproof material able to withstand IP67 standards and the seal between the body 200 and cap 300 is also waterproof and able to withstand IP 67 standards. In one embodiment, a gasket is used to seal the connection between the body 200 and cap 300 to prevent any liquid from entering the nicotine pouch dispenser and ruining the nicotine pouches.

[0061] FIGS. 3 and 4 illustrate side views of the nicotine pouch dispenser body 200 with the pin 600. FIG. 5 illustrates a perspective view of the body 200 of the nicotine pouch dispenser. In one embodiment, the nicotine pouch dispenser is mostly made up of the body 200, which has a lower body section 214 that is the shape of a rectangular prism with filleted or chamfered edges so that it is smooth to the touch of a user. This design also reduces the likelihood of the dispenser getting caught in a pocket or on fabric. In one embodiment, the side of the lower body section 214 includes a logo 206. One of ordinary skill in the art will understand that the logo is operable to be almost any design, wording, or pattern including but not limited to, sports team logos, flags, sayings, emojis, animals, brand logos, numbers, and/or artwork.

[0062] In one embodiment, the backside face of the lower body section 214 includes body hinges 202 mounted at the top, so that the tops of the body hinges 202 are substantially flush and parallel with the top edge of the lower body section. The eye holes of the body hinges 202 are substantially horizontal so that the pin 600 slides through into place horizontally or substantially horizontally. In one embodiment, the pin 600 slides into place and is set with adhesive, an interference fit, welding, plastic welding, and/or any other suitable affixation method.

[0063] In one embodiment, the dispenser includes an upper body section 204 of the body 200 attached to the lower body section 214. The upper body section 204 is the general shape of a rectangular prism with filleted edges with the top smaller edge furthest from the body hinges 202 having a much larger fillet so that the cap 300 easily slides over that edge.

[0064] In one embodiment, the upper body section 204 has a semicircular cutout 210 on the top face with a flat open side of the cutout on the front edge that allows the user to gain access to the nicotine pouches one at a time while still keeping the remaining pouches contained in the nicotine pouch dispenser 100. In one embodiment, the cutout 210 has retention prongs 208 protruding inwardly from the side edges of the cutout near the front so that the back edge of the nicotine pouch is held by the non-cutout portion and the front section of the nicotine pouch is held by the retention prongs 208, such that the nicotine pouch stays in place and is easily pulled out by the user.

[0065] In one embodiment, the body 200 is comprised of materials such as plastic, metal, and/or fiber-reinforced composite. Preferably, the materials used provide a high strength-to-weight ratio for increased durability. In one embodiment, the material used for the body 200 includes a food-safe grade plastic, including but not limited to, ABS (Acrylonitrile Butadiene Styrene), Polycarbonate, Polypropylene, HDPE (High-Density Polyethylene), PET (Polyethylene Terephthalate), PP (Polypropylene), POM (Polyoxymethylene, Acetal). In another embodiment, the material used for the body 200 includes a food-safe grade metal, including but not limited to, carbon steel (e.g., AH36, DH36, EH36, etc.), alloy steel (e.g., of grades MD, ME, MF, MG, etc.), stainless steel (e.g., grades 316, 304, etc.), galvanized steel, aluminum (e.g., grades 5052, 5083, etc.), copper (e.g., C70600, C71500, etc.), brass (e.g., C46200, C46400, C48500, etc.), titanium, and bronze (e.g., C65500, C95400, C51000, etc.). In one embodiment, the body 200 is formed by injection molding. In one embodiment, the entire nicotine pouch dispenser is formed by injection molding.

[0066] In one embodiment, the nicotine pouch dispenser is approximately 34 mm wide, approximately 54 mm in height, and approximately 20 mm deep. However, one of ordinary skill in the art will understand that the width, length, and depth of the nicotine pouch dispenser are not intended to be limiting according to the present invention. In one embodiment, the nicotine pouch dispenser is operable to be formed according to the size of the nicotine pouch.

[0067] FIG. 6 illustrates a top view of the nicotine pouch dispenser body 200 with a plate 500. In one embodiment, the upper body section 204 has a semicircular cutout 210 on the top face with a flat open side of the cutout on the front edge that allows the user to gain access to the nicotine pouches one a time while still keeping the remaining pouches contained in the nicotine pouch dispenser 100. In another embodiment, the cutout 210 is rectangular, triangular, hexagonal, or any similar shape that allows the user access while still containing the nicotine pouches.

[0068] In one embodiment, the cutout 210 includes retention prongs 208 protruding inwardly from the side edges of the cutout near the front so that the back edge of the nicotine pouch is held by the non-cutout portion and the front section of the nicotine pouch is held by the retention prongs 208, such that the nicotine pouch stays in place and is easily pulled out by the user.

[0069] The plate 500 is installed below the cutout 210 and retention prongs 208. This plate 500 has one or more springs mounted between it and the nicotine pouch dispenser bottom seal 400 so that the plate 500 experiences constant upwards pressure to bring the nicotine pouches to the top of the dispenser where the pouches are available to the user. The nicotine pouches are placed under the cutout 210 and retention prongs 208 and on top of the plate 500, which pushes the plate downward and compresses the one or more springs under the plate 500, thereby keeping constant tension on the pouches and pushing the pouches upward where either the pouches or plate 500 are retained by the cutout 210 and/or retention prongs 208.

[0070] FIG. 7 illustrates a bottom view of the body 200 of the nicotine pouch dispenser. In one embodiment, the upper body section 204 has a semicircular cutout 210 on the top face with a flat open side of the cutout on the front edge. In another embodiment, the cutout 210 is rectangular, triangular, hexagonal, or any similar shape that allows the user access while still containing the nicotine pouches. In one embodiment, the cutout 210 includes retention prongs 208 protruding inwardly from the side edges of the cutout near the front so that the back edge of the nicotine pouch is held by the non-cutout portion and the front section of the nicotine pouch is held by the retention prongs 208, such that the nicotine pouch stays in place and is easily pulled out by the user.

[0071] FIG. 8 illustrates a back view of the nicotine pouch dispenser body 200 with a pin 600. In one embodiment, one of the body hinges 202 does not have an eye hole going all the way through the hinge, but instead includes a depression defined in an inward facing side, but not extending all the way through. This prevents the pin 600 from sliding through the body hinges 202.

[0072] FIG. 9 illustrates a front view of the nicotine pouch dispenser body 200. In one embodiment, the body includes a locking prong 212 in the shape a narrow rectangular prism protrusion on the front face of the upper body section 204 that extends from the top lip of the lower body section 214 roughly a third of the way up the front face of the upper body section 204. This locking prong 212 acts as an interference lock with the inside of the cap 300 by pressing against the inside of the lid 300 and holding it in place while the cap 300 is in the closed position. In one embodiment, the locking prong 212 is tapered so that, at the base of the front face of the upper body section 204, the locking prong 212 protrudes forwardly the most and gradually fades to be flush upwardly on the front face, this allows the cap 300 to easily slide into place over the locking prong 212. In one embodiment, the locking prong 212 protrusion is semicircular in shape.

[0073] In one embodiment, the locking prong 212 is spring-loaded so that the cap 300 is easily able to slide down onto the top of the upper body section 204 but the spring of the locking prong 212 keeps the cap 300 in place. In another embodiment, the cap 300 and upper body section 204 include corresponding magnets that keep the cap closed when the dispenser is not in use.

[0074] FIGS. 10 and 11 illustrate side and perspective views of the top cap 300 of the nicotine dispenser, respectively. In one embodiment, the cap 300 is the shape of a hollow rectangular prism with no bottom face and the top back and front faces being filled and the latter being a significantly larger fillet so that the inside of the cap 300 matches and rotates on top of the upper body section 214 of the body 200. There are also fillets and/or chamfers on all edges except the bottom edge so that the nicotine pouch dispenser 100 is comfortable for a user to hold. In one embodiment, the cap 300 is comprised of materials such as plastic, metal, and/or fiber-reinforced composite. Preferably, the materials used provide a high strength-to-weight ratio for increased durability. In one embodiment, the material used for the cap 300 includes a food-safe grade plastic, including but not limited to, ABS (Acrylonitrile Butadiene Styrene), Polycarbonate, Polypropylene, HDPE (High-Density Polyethylene), PET (Polyethylene Terephthalate), PP (Polypropylene), POM (Polyoxymethylene, Acetal). In another embodiment, the material used for the body 200 includes a food-safe grade metal, including but not limited to, carbon steel (e.g., AH36, DH36, EH36, etc.), alloy steel (e.g., of grades MD, ME, MF, MG, etc.), stainless steel (e.g., grades 316, 304, etc.), galvanized steel, aluminum (e.g., grades 5052, 5083, etc.), copper (e.g., C70600, C71500, etc.), brass (e.g., C46200, C46400, C48500, etc.), titanium, and bronze (e.g., C65500, C95400, C51000, etc.). In one embodiment, the cap 300 is formed by injection molding.

[0075] In one embodiment, the dispenser includes a cap hinge 302 that protrudes outwardly from the center of the back face of the cap 300. The bottom portion of the cap hinge 302 is perpendicular to the back face where the cap hinge 302 is attached to the back face, and then curves ninety-degrees downwardly, extending below the bottom face of the cap 300 to meet and line up with the body hinges 202 eye holes. The eye holes of the cap hinge 302 are substantially horizontal so that the pin 600 will slide through into place substantially horizontally. In another embodiment, there is more than one cap hinge 302 to ensure greater strength of the hinge.

[0076] In one embodiment, a lip 304 protrudes forwardly from the front face of the cap 300 and has a flat bottom face that is flush with the bottom face of the cap 300. In one embodiment, the lip 304 has a rectangular prism shape with fileted or chamfered outside edges so that it is comfortable and safe to open and close the cap 300.

[0077] FIGS. 12-14 illustrates a top, front, and side views of the top cap 300 of the nicotine pouch dispenser, respectively. In one embodiment, the lip 304 is a protrusion from the body of the cap 300 which is secured to the body of the cap 300 through a slot, or which is integrally formed with the body of the cap 300. The lip 304 is configured to allow the user to position their finger or nail under the lip 304 to remove the cap 300 from the nicotine pouch dispenser. In one embodiment, the dispenser includes a cap hinge 302 that protrudes out of the center of the back face of the cap 300.

[0078] FIG. 15 illustrates a bottom view of the nicotine pouch dispenser plate 500. In one embodiment, the plate 500 is rectangularly prismatic in shape with a fillet or chamfer on all edges and is sized to fit and slide within the inside of the body 200 of the nicotine pouch dispenser 100.

[0079] In one embodiment, the plate includes two cylindrical extensions 502 protruding from the bottom side of the plate 500. The center of the cylindrical extensions 502 are positioned an equal distance from each other and an equal distance from the two smaller edges of the plate 500, and also positioned on the center of the plate 500 between the two longer edges of the plate 500. These cylindrical extensions 502 are placed so that they are positioned to hold the plate 500 in a balanced way such that the plate 500 is operable to support a load such as one or more nicotine pouches.

[0080] In one embodiment, two springs are positioned around the cylindrical extensions 502. The cylindrical extensions 502 keep the springs in place and centered so that they balance the plate 500. The springs are installed under the plate and on top of the bottom seal 400 so that the springs push against the bottom seal 400 and push the plate 500 up towards the top of the body 200. The springs uncompressed are longer than the height of the body 200 so that there is constant pressure on the underside of the plate. The springs are also able to be compressed to the size of the length of the cylindrical extensions 502 so that the plate moves down as far as possible without bottoming out the spring. The spring also is easy to press down for almost all users, requiring less than ten pounds of pressure so it is easily filled. In one embodiment, there is only one spring and one cylinder 502 located in the center of the plate to minimize the number of parts required. In one embodiment, the spring is a coil spring, leaf spring, torsion spring, elastic band/cord, pneumatic cylinder, hydraulic mechanism, magnetic repulsion, vertical leaf spring, or any other similar mechanism. In one embodiment, the spring is made of stainless steel (e.g., grades 316, 304, etc.).

[0081] FIGS. 16-18 illustrate top, side, and perspective views of the nicotine pouch dispenser plate 500, respectively. In one embodiment, the front top edge of the plate 500 has a larger fillet or chamfer on it to allow the pouch to more easily slide on and off of the plate 500. In one embodiment, the plate includes two cylindrical extensions 502 protruding from the bottom side of the plate 500.

[0082] FIG. 19 illustrates an interior side view of the nicotine pouch dispenser 100. In one embodiment, the nicotine pouch dispenser 100 outer shell is comprised of four main components, the body 200, the cap 300, the bottom seal 400, and the pin 600. In one embodiment, the nicotine pouch dispenser includes a nicotine pouch dispenser plate 500. In one embodiment, the nicotine pouch dispenser plate 500 includes two cylindrical extensions 502 protruding from the bottom side of the plate 500. These cylindrical extensions 502 are positioned with their center equal distance from each other and from the two smaller edges of the plate 500 and on the center between the two longer edges of the plate 500 so that they are positioned to hold the plate 500 in a balanced way such that the plate 500 is operable to support a load such as one or more nicotine pouches. In one embodiment, two springs 700 are positioned around the cylindrical extensions 502. The cylindrical extensions 502 keep the springs 700 in place and centered so that they balance the plate 500. The springs are installed under the plate and on top of the bottom seal 400 so that the springs push against the bottom seal 400 and push the plate 500 upwardly towards the top of the body 200.

[0083] FIGS. 20 and 21 illustrate top and perspective views of the bottom seal 400 of the nicotine pouch dispenser, respectively. In one embodiment, the bottom seal 400 is in the shape of a rectangular prism with filleted or chamfered edges except on the top. The top face of the bottom seal 400 is hollowed out, and cylindrical extensions 404 protrude from this hollowed-out section. These cylindrical extensions 404 act as a retainer for the bottom of the springs 700 by keeping the springs in place and aligned vertically so that the plate has an even distribution of pressure from both springs.

[0084] In one embodiment, the bottom seal 400 includes a ring 402 or hollow cylinder protruding from the back face so that the bottom of the ring 402 is substantially flush and parallel with the lower edge of the lower body section. The eye hole of the ring 402 is operable to receive a split ring, carabiner, lanyard, or other similar attachment system so that the nicotine pouch dispenser is easily transportable by a user.

[0085] In one embodiment, the bottom seal 400 is comprised of materials such as plastic, metal, and/or fiber-reinforced composite. Preferably, the materials used provide a high strength-to-weight ratio for increased durability. In one embodiment, the material used for the bottom seal 400 includes a food-safe grade plastic, including but not limited to: ABS (Acrylonitrile Butadiene Styrene), Polycarbonate, Polypropylene, HDPE (High-Density Polyethylene), PET (Polyethylene Terephthalate), PP (Polypropylene), POM (Polyoxymethylene, Acetal). In another embodiment, the material used for the body 200 includes a food-safe grade metal, including but not limited to, carbon steel (e.g., AH36, DH36, EH36, etc.), alloy steel (e.g., of grades MD, ME, MF, MG, etc.), stainless steel (e.g., grades 316, 304, etc.), galvanized steel, aluminum (e.g., grades 5052, 5083, etc.), copper (e.g., C70600, C71500, etc.), brass (e.g., C46200, C46400, C48500, etc.), titanium, and bronze (e.g., C65500, C95400, C51000, etc.). In one embodiment, the bottom seal 400 is formed by injection molding.

[0086] FIGS. 22-24 illustrate a bottom, front, and side views of the bottom seal 400 of the nicotine pouch dispenser, respectively. In one embodiment, the bottom seal 400 has at least one ring 402 protruding from the outer edge of the nicotine pouch dispenser providing for attachment to another object so that the user is able to easily transport the item.

[0087] FIGS. 25-26 illustrate side and perspective views of the pin 600 of the nicotine pouch dispenser, respectively. In one embodiment, the pin 600 is operable to be cylindrical in shape with a larger head on one end of the pin 600 to stop the pin when the pin is fully in place. In one embodiment, the pin 600 is comprised of materials such as plastic, metal, and/or fiber-reinforced composite. Preferably, the materials used provide a high strength-to-weight ratio for increased durability. In one embodiment, the material used for the pin 600 includes a food-safe grade plastic, including but not limited to: ABS (Acrylonitrile Butadiene Styrene), Polycarbonate, Polypropylene, HDPE (High-Density Polyethylene), PET (Polyethylene Terephthalate), PP (Polypropylene), POM (Polyoxymethylene, Acetal). In another embodiment, the material used for the body 200 includes a food-safe grade metal, including but not limited to, carbon steel (e.g., AH36, DH36, EH36, etc.), alloy steel (e.g., of grades MD, ME, MF, MG, etc.), stainless steel (e.g., grades 316, 304, etc.), galvanized steel, aluminum (e.g., grades 5052, 5083, etc.), copper (e.g., C70600, C71500, etc.), brass (e.g., C46200, C46400, C48500, etc.), titanium, and bronze (e.g., C65500, C95400, C51000, etc.). In one embodiment, the pin 600 is formed by injection molding.

[0088] Certain modifications and improvements will occur to those skilled in the art upon a reading of the foregoing description. The above-mentioned examples are provided to serve the purpose of clarifying the aspects of the invention and it will be apparent to one skilled in the art that they do not serve to limit the scope of the invention. All modifications and improvements have been deleted herein for the sake of conciseness and readability but are properly within the scope of the present invention.