CN117529258A - Packaging assembly for a product - Google Patents

Abstract

The present invention relates to a packaging assembly (10) for a product (P). The packaging assembly (10) comprises: (i) A can (100) containing a product (P), wherein the can (100) comprises an opening (110) on its top side for removal of the product (P); (ii) A dispenser (200) mounted on the can (100) above the opening (110) of the can (100), wherein the dispenser (200) is intended to dispense a quantity of product (P) from the can (100) to an applicator (300) that applies the product (P), and wherein the dispenser (200) defines a space (V) in which the applicator (300) is housed; and (iii) a cap (400) that is removably engaged with the can (100) while completely closing the dispenser (200). The dispenser (200) comprises: (i) an annular body (210) comprising: a central axis (X); and an upper opening (212) and a lower opening (214) both substantially orthogonal to the central axis (X), wherein the annular body (210) further comprises a shoulder (216) adjacent the lower opening (214), and wherein the shoulder (216) protrudes inwardly from an inner peripheral surface (218) of the annular body (210) and extends circumferentially about the central axis (X); (ii) A ring member (220) coupled to the annular body (210) on a lower opening side of the annular body (210); and (iii) a resilient mesh sheet (230) sandwiched between the annular body (210) and the ring member (220) and covering the lower opening (214) of the annular body (210), wherein the resilient mesh sheet (230) is stretched by the ring member (220) at a height where it is substantially flush with the upper surface (216 a) of the shoulder (216) of the annular body (210).

Description

Packaging assembly for a product

Technical Field

The present invention relates to packaging assemblies for products, in particular for cosmetic purposes, such as, for example, loose powder foundations or liquid foundations.

In the present description, the term "cosmetic product" or "cosmetic formulation" is understood to mean a formulation or product defined in the european society and council regulations 1223/2009 issued 11, 30, 2009, which relates to cosmetic formulations.

Background

Powder foundations are used for the purpose of preventing removal of makeup after a long period of application of a liquid or cream foundation. Generally, a loose powder foundation is contained in a packaging container having a structure different from that of a liquid foundation or a frosted foundation. That is, a packaging container for a powder foundation generally includes a container body having an opening on a top surface, a perforated plate closing the opening, and a cover covering the perforated plate. An applicator (i.e., a puff) for applying the loose powder foundation is accommodated in a space formed between the perforated plate and the cover.

When applying a powder foundation contained in such a container, a user must first invert the container and shake it up and down an appropriate number of times. This action causes a quantity of loose powder foundation to fall onto the puff through the micro-holes of the perforated plate. After that, the user returns the container to its original orientation, and then removes the puff with the powder foundation attached to its surface from the container and applies the powder foundation to the desired part of the body. However, the conventional container requiring such an operation is not easy to use, and thus there is room for improvement. In view of these points, a container for powder foundation without inversion and up-and-down shaking has been proposed.

The improved container is characterized by comprising a flexible film having a plurality of small holes, the flexible film being arranged to cover the top opening of the container body containing the loose powder foundation. In use, by tapping the flexible film several times from above with the puff, a user can attach an appropriate amount of loose powder foundation to the puff through the aperture of the flexible film. However, the improved container for loose powder foundations still has the following drawbacks. Typically, a separation disc called a "top plate" is arranged in the container above the flexible membrane. When not in use, the puff is placed on the separation disc. In such containers, a significant amount of loose powder tends to accumulate naturally in the gap between the separating disk and the flexible membrane. This greatly worsens the impression or feel of the user when opening the lid of the container for use.

Conventional techniques which are considered to be relevant to the present invention are disclosed in, for example, KR10-2066349, WO2019/164163, US10206482, KR101748933 and WO 2016/148371. KR10-2066349 discloses a cosmetic container capable of opening and closing a lid while providing sealing force to a cosmetic content discharge hole. The cosmetic container disclosed in KR10-2066349 includes a shoulder cap coupled to an upper portion of the inner container and having a mesh made of a flexible material. WO2019/164163 discloses a cosmetic product container comprising: a movable frame having an edge on which a screw protrusion coupled to a screw thread of the container body is formed; and a discharge part formed in the movable frame for discharging the cosmetic product. US10206482 discloses a cosmetic product container comprising: a frame assembled to the container body; and a fibrous sheet adhered to the upper end surface or the lower end surface of the frame. KR101748933 discloses a cosmetic container comprising: a mesh for covering a surface of the contents stored inside the container; and a lifting plate capable of being lifted inside the container; and an elastic member positioned between the elevation plate and the bottom plate of the container. WO2016/148371 discloses a container for cosmetic products comprising: a mesh bonded to the elastic textile material and positioned on a surface of the contents contained in the container. However, these articles related to the prior art do not fully satisfy the above-mentioned requirements.

Disclosure of Invention

In view of the above, it is an object of the present invention to provide a novel packaging assembly for products, in particular cosmetic products, which overcomes or at least alleviates the above-mentioned problems associated with prior art packaging articles. In particular, it is an object of the present invention to provide a new packaging assembly for loose powder products which is easy to use, in particular which does not require the cumbersome operations of inverting the packaging assembly and shaking the packaging assembly up and down, and which is less likely to cause an unnecessary accumulation of loose powder in the packaging assembly, which worsens the impression or feel of the user at the time of use.

To achieve the above object, the present invention provides a packaging assembly for a product, comprising: (i) A can containing a product, wherein the can comprises an opening on its top side for removal of the product; (ii) A dispenser mounted on the can above the opening of the can, wherein the dispenser is intended for dispensing a quantity of product from the can to an applicator for applying the product, and wherein the dispenser defines a space for receiving the applicator therein; and (iii) a cap that can be removably engaged with the canister while completely closing the dispenser. In the present invention, a dispenser includes: (i) an annular body comprising: a central axis; and an upper opening and a lower opening, both substantially orthogonal to the central axis, wherein the annular body further comprises a shoulder adjacent the lower opening, and wherein the shoulder protrudes inwardly from an inner peripheral surface of the annular body and extends circumferentially about the central axis; (ii) A ring member coupled to the annular body on a lower opening side thereof; and (iii) a resilient mesh sheet sandwiched between the annular body and the ring member and covering the lower opening of the annular body, wherein the resilient mesh sheet is stretched by the ring member at a height where it is substantially flush with the upper surface of the shoulder of the annular body.

In the present invention, a package assembly for a product includes a unique dispenser as described above. That is, the dispenser includes: an annular body having a lower opening and a shoulder adjacent the lower opening; a ring member coupled to the annular body on a lower opening side thereof; and an elastic mesh sheet for covering the lower opening, which is sandwiched between the annular body and the ring member. In this innovative packaging assembly, the elastic mesh sheet is stretched or unfolded by the ring member at a level where it is substantially flush with the upper surface of the shoulder of the annular body. As a result of employing such a feature, the user can attach or adhere an appropriate amount of product to the applicator through the elastic mesh sheet by tapping the elastic mesh sheet from above only an appropriate number of times with the applicator such as a puff. Therefore, the packing assembly according to the present invention does not require troublesome operations of inverting the packing assembly and shaking the packing assembly up and down, and thus is easy to use. In addition, in the packaging assembly according to the present invention, the elastic mesh sheet is stretched or unfolded at the height at which the separating disc called "top plate" is to be mounted (i.e., at the height of the upper surface of the shoulder portion) due to the presence of the ring member. Thus, when the separating disc is placed in the packaging assembly, the gap between the elastic mesh sheet and the separating disc can be made as small as possible. As a result, the packaging assembly according to the present invention is less likely to cause unnecessary accumulation of the product, particularly accumulation of loose powder in the above-mentioned gap in the packaging assembly, than conventional articles, which worsens the impression or feel of the user at the time of use.

According to a preferred embodiment of the invention, the ring member may have an annular base and an annular ridge projecting upwardly from an inner edge of the annular base, and the resilient mesh sheet may be stretched by the annular ridge of the ring member at a height substantially flush with an upper surface of the shoulder of the annular body. In this case, the annular ridge may extend continuously or intermittently along the annular base.

According to a preferred embodiment of the invention, the upper surface of the annular base of the ring member may be pressed against the lower surface of the shoulder of the annular body, with the resilient mesh sheet therebetween. Furthermore, in accordance with a preferred embodiment of the present invention, the outer peripheral surface of the annular ridge of the ring member may be pressed against the inner peripheral surface of the shoulder of the annular body with the resilient mesh sheet therebetween. This makes it possible to achieve a more firm holding and stretched state of the elastic mesh sheet.

According to a preferred embodiment of the invention, the tank may comprise: (i) a can body comprising: a top surface defining an opening; an annular side surface extending downwardly from a peripheral edge of the top surface; and an annular guide protruding upward from the top surface and surrounding the opening of the top surface; (ii) A bottom cover closing the bottom opening of the can body, wherein the bottom cover includes a hole defined therein; and (iii) a plug member closing the aperture of the bottom cap and the dispenser may be received within the annular guide of the can body. This makes it possible to achieve a more reliable holding state of the dispenser.

According to a preferred embodiment of the invention, the ring member of the dispenser may be fixed to the annular body of the dispenser by press-fitting. Alternatively, according to a preferred embodiment of the present invention, both the annular body and the ring member of the dispenser may be made of a plastic material, and the annular body and the ring member of the dispenser may be ultrasonically (or thermally) welded to each other. Other welding methods may also optionally be used. This allows a stronger bonding of the annular body and the ring member to be achieved.

According to a preferred embodiment of the present invention, the opening of the upper surface of the can body may have a square or circular shape. In particular, it is preferable that the opening of the upper surface of the can body has a square shape. This is because the presence of the perimeter of the square opening makes it possible to provide a stable support surface for the dispenser.

According to a preferred embodiment of the invention, the packaging assembly may further comprise an applicator housed within a space defined in the dispenser. In this case, according to another preferred embodiment of the present invention, the applicator may be accommodated in a space defined in the dispenser in a state of being compressed in a thickness direction thereof. This helps to reduce the volume, in particular the height, of the packaging assembly, i.e. to achieve a more compact packaging assembly.

According to a preferred embodiment of the invention, the packaging assembly may further comprise a separating disc which is detachably arranged above the resilient mesh sheet of the dispenser. By providing a separating disc (which may also be referred to as a "top plate"), it is possible to more reliably prevent accidental leakage of the product in the can and unnecessary soaking of the product into the applicator.

According to a preferred embodiment of the invention, the packaging assembly may further comprise a sealing sheet, which is peelably attached to the upper surface of the resilient mesh sheet of the dispenser, and which may (particularly completely) cover the mesh sheet. The sealing sheet may also be referred to as a "label". When the package assembly is first used, the sealing sheet will be peeled off the mesh sheet and discarded. By attaching the sealing sheet to the mesh sheet, it is possible to completely suppress leakage of the product through the mesh sheet during transportation and handling of the product before first use. This further helps to improve the user's impression of the package assembly when the package assembly is first opened by the user.

According to a preferred embodiment of the invention, the can and cap may be configured such that the cap may be screwed into engagement with the can. According to alternative embodiments of the invention, the can and cap may be engaged using other methods (such as an interference fit or a snap fit) than a threaded connection. In this alternative embodiment, the cap may be pivotably connected to the can using a hinge (separate or integral).

According to a preferred embodiment of the present invention, the elastic mesh sheet may be made of nylon fiber and polyurethane elastic fiber, although not limited thereto. In the present invention, the mesh sheet may have any pattern (e.g., square, diamond, hexagon), and the number of meshes may be appropriately changed according to the type of the target product (particularly, the particle size of the target product).

According to a preferred embodiment of the invention, the applicator may be a puff, in particular a compressible puff, and the product may be a cosmetic product, such as a powder foundation or a liquid foundation, for example. However, the present invention may be used to package any product other than cosmetic products.

Drawings

Non-limiting and representative embodiments of the present invention will be explained in detail below with reference to the attached drawings.

Fig. 1 is an external perspective view of a packaging assembly for a loose powder product, wherein a can and a cap are combined with each other, both being parts of the packaging assembly, according to one embodiment of the present invention.

Fig. 2 is an external perspective view of a packaging assembly for a loose powder product according to one embodiment of the present invention, wherein the can and cap of the packaging assembly are separated from each other.

Fig. 3 is a cross-sectional view of the package assembly shown in fig. 1 taken along line A-A in fig. 1.

Fig. 4 is a cross-sectional view of a lower portion of the packaging assembly shown in fig. 2, taken along line B-B in fig. 2, wherein an applicator (puff) is shown in a natural state, which is also a component of the packaging assembly.

Fig. 5 is an exploded view of a packaging assembly for a loose powder product according to one embodiment of the present invention.

Fig. 6 is an external perspective view of a dispenser, which is also a component of the package assembly shown in fig. 1 and 2.

Fig. 7 is a cross-sectional view of the dispenser shown in fig. 6 taken along line C-C in fig. 6.

Fig. 8 is an external perspective view of an annular body as part of the dispenser shown in fig. 6 and 7.

Fig. 9 is a cross-sectional view of the ring-shaped body shown in fig. 8 taken along line D-D in fig. 8.

Fig. 10 is an external perspective view of a ring member as part of the dispenser shown in fig. 6 and 7.

FIG. 11 is a cross-sectional view of the ring member shown in FIG. 10 taken along line E-E in FIG. 10.

Fig. 12 is a schematic cross-sectional view of the can and dispenser showing how the package assembly is used.

Detailed Description

Some preferred embodiments of the present invention will now be explained with reference to fig. 1 to 12. In each figure, the scale ratio of the width, length, height, diameter, etc. of each element or feature may not be constant and may be different from the actual scale ratio. It should be noted that in some figures, certain elements or features may be drawn larger or smaller than they actually are for emphasis instead.

As used herein, directional terms such as "upper," "lower," "top," "bottom," "upper," "lower," "upward," "downward," "above," "below," "right," "left," and the like should be understood in connection with the orientation of the package assembly in the figures, which may or may not match the actual orientation in use.

Fig. 1 illustrates a package assembly 10 for a loose powder product P according to one embodiment of the present invention. In addition to fig. 1, as can also be seen from fig. 2, which shows a state in which a cap (described later) is removed, the package assembly 10 includes a can 100 containing a powder product P, a dispenser 200 mounted on the can 100, an applicator 300 (in this embodiment, a compressible puff) for applying the powder product P, and a cap 400 detachably engageable with the can 100 while completely closing the dispenser 200. In this embodiment, the can 100 and cap 400 are configured such that the cap 400 can be screwed into engagement with the can 100. To achieve this, the can 100 and the cap 400 have corresponding threads that engage each other, as described in detail below. The canister 100 includes an opening 110 on a top side thereof for withdrawing the loose powder product P via a dispenser 200 (see fig. 5). Thus, the dispenser 200 is mounted on the can 100 above the opening 110 of the can 100. In this embodiment, the loose powder product P is a cosmetic product, in particular a loose powder foundation.

As can be seen from fig. 3 to 5, the can 100 includes a can body 120 having a rectangular parallelepiped shape, a bottom cover 140 closing a bottom opening 128 of the can body 120 and including a hole 142 defined therein, and a plug member 160 closing the hole 142 of the bottom cover 140. The product P may be filled from the hole 142 of the bottom cover 140 into the inside of the can 100, in which case, after the filling is completed, the hole 142 of the bottom cover 140 is closed by the stopper member 160. The can body 120 and the bottom cap 140 may be made of, for example, glycol modified PET (PETG), and the stopper member 160 may be made of, for example, polypropylene (PP). In this embodiment, the can body 120 (and thus the cap 400) has a square cross-section, while the can body 120 (and thus the cap 400) may have various cross-sections other than square. The can body 120 (and thus the cap 400) may have, for example, a circular, oval, diamond, or polygonal cross-section.

The can body 120 includes a top surface 122 defining the opening 110 described above and an annular side surface 124 extending downwardly from four peripheral edges 122a of the top surface 122. Further, the can body 120 includes an annular or cylindrical guide 126 protruding upward from the top surface 122 and surrounding the opening 110 of the top surface 122. An annular guide 126 is integrally provided with the top surface 122. One of the threads 130 for threadably engaging the can 100 and the cap 400 as described above is formed on the outer peripheral surface of the annular guide 126. As will be explained in detail later, the dispenser 200 is received within the annular guide 126 of the can body 120. In this embodiment, the opening 110 of the top surface 122 has a square shape. However, in another embodiment, the opening 110 of the top surface 122 has a circular shape or any other shape.

As explained in detail below, the dispenser 200 is intended for dispensing a quantity of loose powder product P from the tank 100 to an applicator 300 for applying the loose powder product P. As shown in fig. 3 and 4, the dispenser 200 defines a cylindrical space V for receiving the applicator 300 therein. The applicator 300 is accommodated in the space V defined in the dispenser 200 in a state of being compressed in the thickness direction thereof.

As can be seen from fig. 6 and 7, the dispenser 200 includes an annular body 210, a ring member 220 coupled to the annular body 210, and an elastic mesh sheet 230 sandwiched between the annular body 210 and the ring member 220. The annular body 210 includes a central axis X, an upper opening 212 and a lower opening 214. Both the upper opening 212 and the lower opening 214 are substantially orthogonal to the central axis X. The annular body 210 also includes a shoulder or flange 216 adjacent the lower opening 214. A shoulder 216 extends inwardly from an inner peripheral surface 218 of the annular body 210 and extends circumferentially about the central axis X. The ring member 220 of the dispenser 200 is coupled to the ring body 210 on the lower opening side of the ring body 210. In this embodiment, both the annular body 210 and the ring member 220 are made of, for example, polypropylene (PP), and the annular body 210 and the ring member 220 are ultrasonically welded (or heat welded) to each other. In addition, other welding methods may optionally be used. However, in another embodiment, the ring member 220 is secured to the annular body 210 by a press fit.

As can also be seen from fig. 6 and 7, the elastic mesh sheet 230 sandwiched between the ring body 210 and the ring member 220 completely covers the lower opening 214 of the ring body 210. The resilient mesh sheet 230 is stretched by the ring member 220 at a level where it is flush (or substantially flush) with the upper surface 216a of the shoulder 216 of the ring body 210. More specifically, as can be seen in fig. 8 and 9, the shoulder 216 of the annular body 210 has an upper surface 216a as described above. Further, as can be seen from fig. 10 and 11, the ring member 220 has an annular base 222 and an annular ridge 224 extending upwardly from an inner edge 222a of the annular base 222. The resilient mesh sheet 230 is stretched by the annular ridge 224 of the ring member 220 at a level where it is flush (or substantially flush) with the upper surface 216a of the shoulder 216 of the annular body 210. In this embodiment, although not limited thereto, the elastic mesh sheet 230 is made of nylon fiber and polyurethane elastic fiber.

Fig. 8 and 9 illustrate in detail the annular body 210 of the dispenser 200. Further, fig. 10 and 11 illustrate the ring member 220 of the dispenser 200 in detail. As can be seen in fig. 8 and 9, the shoulder 216 of the annular body 210 further includes a lower surface 216b and an inner peripheral surface 216c. In addition, as can be seen from fig. 10 and 11, the annular ridge 224 of the ring member 220 includes an outer peripheral surface 224a, and the annular base 222 of the ring member 220 includes an upper surface 222b. In the assembled state shown in fig. 6 and 7, the upper surface 222b of the annular base 222 of the ring member 220 is pressed against the lower surface 216b of the shoulder 216 of the annular body 210 with the elastic mesh sheet 230 sandwiched therebetween. Further, in the assembled state shown in fig. 6 and 7, the outer peripheral surface 224a of the annular ridge 224 of the ring member 220 is pressed against the inner peripheral surface 216c of the shoulder 216 of the annular body 210, with the resilient mesh sheet 230 also sandwiched therebetween. As can be seen from fig. 8 and 9, the annular body 210 of the dispenser 200 also includes an outwardly projecting annular flange 210a at its top. In the assembled state shown in fig. 3 and 4, the top surface 126a of the annular guide 126 of the can body 120 is pressed against the lower surface of the annular flange 210a of the annular body 210 of the dispenser 200.

Turning to fig. 5, the cap 400 is comprised of an outer portion 410, an inner portion 420 housed within the outer portion 410, and a circular gasket disc 430 attached to a circular inner surface 420a of the inner portion 420. Another one 422 of the threads for threadably engaging the can 100 and cap 400 as described above (see fig. 2) is formed on the inner peripheral surface 420b of the inner portion 420. The outer portion 410 may be made of, for example, glycol modified PET (PETG), while the outer portion 420 and the spacer disc 430 may be made of, for example, polypropylene (PP).

With continued reference to fig. 5, the package assembly 10 also includes a separator tray 500, also referred to as a "top panel". The separation disc 500 may for example be made of polypropylene (PP). The separation disc 500 is removably (i.e., non-fixedly) disposed over the resilient mesh sheet 230 of the dispenser 200 and, thus, over the upper surface 216a of the shoulder 216. The package assembly 10 additionally includes a sealing panel 600, also referred to as a "label". The sealing sheet 600 is peelably attached to the upper surface 230a of the elastic mesh sheet 230 of the dispenser 200 and completely covers the mesh sheet 230 before first use. When the package assembly 10 is first used, the sealing panel 600 will be peeled off the elastic mesh panel 230 and discarded.

The package assembly 10 constructed as described above is used as follows. When the user first uses the package assembly 10, the cap 400 is first removed, and then the applicator 300 and the separation disc 500 are further removed from within the dispenser 200. Subsequently, the sealing sheet 600 is peeled off from the elastic mesh sheet 230 of the dispenser 200 and discarded. The user then taps the elastic mesh sheet 230 from above an appropriate number of times with the applicator 300. By this operation, the elastic mesh sheet 230 is stretched, and the applicator 300 contacts the loose powder product P in the can 100, as shown in fig. 12. As a result, an appropriate amount of the loose powder product P adheres to the applicator 300. The user then applies the loose powder product P attached to the applicator 300 to a desired portion of her own or another person's body. Needless to say, the operation of removing the sealing sheet 600 is not required at the next time. Thus, the operations other than this are sequentially performed from the next use. After use, the separation tray (top plate) 500 is first repositioned in the dispenser 200. The applicator 300 is then placed back into the dispenser 200 and the cap 400 is threadably engaged with the can 100.

As described above, the package assembly 10 according to an exemplary embodiment of the present invention includes: a unique dispenser 200 comprising an annular body 210, the annular body 210 having a lower opening 214 and a shoulder 216 adjacent the lower opening 214; a ring member 220 coupled to the ring body 210 on a lower opening side of the ring body 210; and an elastic mesh sheet 230 for covering the lower opening 214, which is sandwiched between the ring-shaped body 210 and the ring member 220. In this package assembly 10, the elastic mesh sheet 230 is stretched by the ring member 220 at a level where it is flush with the upper surface 216a of the shoulder 216. As a result, the user can attach or adhere an appropriate amount of the loose powder product P to the applicator 300 through the elastic mesh sheet 230 by tapping the elastic mesh sheet 230 an appropriate number of times with the applicator 300 from above. Thus, the package assembly 10 does not require cumbersome operations of inverting and rocking it up and down, and is therefore easy to use. In addition, in this package assembly 10, the elastic mesh sheet 230 is stretched at the mounting height of the separation disc 500 (i.e., at the height of the upper surface 216a of the shoulder 216), which is referred to as a "top plate", due to the presence of the ring member 220. Accordingly, when the separation tray 500 is placed in the package assembly 10, the gap between the elastic mesh sheet 230 and the separation tray 500 can be made as small as possible. As a result, the package assembly 10 is less likely to cause unnecessary accumulation of the loose powder product P in the above-described gap in the package assembly 10, which worsens the impression or feel of the user at the time of use.

Preferred embodiments of the present invention have been explained above with reference to the accompanying drawings. However, the present invention is not limited to these embodiments, and various modifications and changes may be made to the above-described embodiments without departing from the spirit and scope of the invention, and such modifications and changes are included in the scope of the invention.

Claims (15)

1. A packaging assembly (10) for a product (P), comprising:

-a canister (100) containing the product (P), wherein the canister (100) comprises an opening (110) on its top side for withdrawing the product (P);

-a dispenser (200) mounted on the tank (100) above the opening (110) of the tank (100), wherein the dispenser (200) is intended for dispensing a quantity of the product (P) from the tank (100) to an applicator (300) for applying the product (P), and wherein the dispenser (200) defines a space (V) for accommodating the applicator (300) therein; and

a cap (400) capable of being removably engaged with the can (100) while completely closing the dispenser (200),

wherein the dispenser (200) comprises:

an annular body (210), comprising: a central axis (X); and an upper opening (212) and a lower opening (214) both substantially orthogonal to the central axis (X), wherein the annular body (210) further comprises a shoulder (216) near the lower opening (214), and wherein the shoulder (216) protrudes inwardly from an inner peripheral surface (218) of the annular body (210) and extends circumferentially around the central axis (X);

a ring member (220) coupled to the annular body (210) on the lower opening side of the annular body (210); and

-a resilient mesh sheet (230) sandwiched between the annular body (210) and the ring member (220) and covering the lower opening (214) of the annular body (210), wherein the resilient mesh sheet (230) is stretched by the ring member (220) at a height where it is substantially flush with an upper surface (216 a) of the shoulder (216) of the annular body (210).

2. The packaging assembly (10) of claim 1, wherein the ring member (220) has an annular base (222) and an annular ridge (224) projecting upwardly from an inner edge (222 a) of the annular base (222), and wherein the resilient mesh sheet (230) is stretched by the annular ridge (224) of the ring member (220) at a level where it is substantially flush with the upper surface (216 a) of the shoulder (216) of the annular body (210).

3. The packaging assembly (10) according to claim 2, wherein an upper surface (222 b) of the annular base (222) of the ring member (220) is pressed against a lower surface (216 b) of the shoulder (216) of the annular body (210), the resilient mesh sheet (230) being between the upper surface (222 b) and the lower surface (216 b).

4. A package assembly (10) according to claim 2 or 3, wherein an outer peripheral surface (224 a) of the annular ridge (224) of the ring member (220) is pressed against an inner peripheral surface (216 c) of the shoulder (216) of the annular body (210), the resilient web (230) being between the outer peripheral surface (224 a) and the inner peripheral surface (216 c).

5. The packaging assembly (10) according to any one of the preceding claims, wherein the can (100) comprises:

a can body (120) comprising:

a top surface (122) defining the opening (110);

an annular side surface (124) extending downwardly from a peripheral edge (122 a) of the top surface (122); and

an annular guide (126) protruding upward from the top surface (122) and surrounding the opening (110) of the top surface (122);

a bottom cover (140) closing a bottom opening (128) of the can body (120), wherein the bottom cover (140) includes a hole (142) defined therein; and

a plug member (160) closing the hole (142) of the bottom cover (140),

wherein the dispenser (200) is received within the annular guide (126) of the canister body (120).

6. The packaging assembly (10) according to any one of the preceding claims, wherein the ring member (220) is fixed to the annular body (210) by press-fitting.

7. The packaging assembly (10) according to any one of the preceding claims, wherein both the annular body (210) and the ring member (220) are made of a plastic material, and wherein the annular body (210) and the ring member (220) are ultrasonically or thermally welded to each other.

8. The packaging assembly (10) according to any one of claims 5 to 7, wherein the opening (110) of the top surface (122) of the can body (120) has a square or circular shape.

9. The packaging assembly (10) according to any one of the preceding claims, further comprising the applicator (300) housed within the space (V) defined in the dispenser (200).

10. The packaging assembly (10) according to any one of the preceding claims, wherein the applicator (300) is housed in the space (V) defined in the dispenser (200) in a state compressed in a thickness direction thereof.

11. The packaging assembly (10) according to any one of the preceding claims, further comprising a separation disc (500), the separation disc (500) being detachably arranged above the resilient mesh sheet (230) of the dispenser (200).

12. The packaging assembly (10) according to any one of the preceding claims, further comprising a sealing sheet (600), the sealing sheet (600) being peelably attached to an upper surface (230 a) of the resilient mesh sheet (230) of the dispenser (200), wherein the sealing sheet (600) covers at least the mesh sheet (230).

13. The packaging assembly (10) of any of the preceding claims, wherein the can (100) and the cap (400) are configured such that the cap (400) can be screwed into engagement with the can (100).

14. The packaging assembly (10) according to any one of the preceding claims, wherein the elastic mesh sheet (230) is made of nylon fibers and polyurethane elastic fibers.

15. The packaging assembly (10) according to any one of the preceding claims, wherein the applicator (300) is a puff and the product (P) is a cosmetic product.