CN218791032U - Container for rod-shaped material - Google Patents

Abstract

An embodiment of the present application provides a container for a rod-shaped material, which includes: the base, the sleeve subassembly, cup, lid and magnetic part. The sleeve component is arranged on the base, and at least part of the sleeve component is made of ferromagnetic materials. The cup is used for containing the rod-shaped material, and the cup is movably arranged in the sleeve component. The cover body is used for forming a closed space of the closed sleeve assembly with the base. The magnetic part is arranged on the cover body, and the cover body is connected with the base through the magnetic attraction of the magnetic part and the sleeve component. The rod-shaped container of this application embodiment through setting up sleeve subassembly to make its at least part by ferromagnetic material to the lid can meet with the base through the magnetic attraction of setting up magnetic part and sleeve subassembly on it, owing to need not set up the magnetic part on the base, needn't occupy the radial space of base, thereby can realize being connected reliably of lid and base on thinner container.

Description

Container for rod-shaped material

Technical Field

The application relates to the technical field of cosmetic containers, in particular to a container for rod-shaped materials.

Background

Containers for stick material, such as lipstick tubes, typically include a base and a cover for providing decorative and protective effects in addition to a cup for containing the stick material. In order to prevent the cover and the base from being separated from each other, the cover and the base are usually connected by means of a magnetic attraction or a snap-fit.

To thinner container, lid and base are because do not have the block or the magnetism structure that enough space setting can prevent lid and base from breaking away from each other at will for the lid breaks away from with the base mutually easily, and user experience is slightly poor.

SUMMERY OF THE UTILITY MODEL

To the above technical problem, an embodiment of the utility model provides a container for rod-shaped material, magnetism through lid and sleeve component is inhaled and is realized meeting of lid and base to avoid the lid to break away from with the base relatively easily.

The container for rod-shaped materials of the embodiment of the application comprises: the base, the sleeve subassembly, cup, lid and magnetic part. The sleeve component is arranged on the base, and at least part of the sleeve component is made of ferromagnetic materials; a cup for receiving the rod-shaped material, the cup being movably mounted within the sleeve assembly; the cover body is used for forming a closed space of the closed sleeve assembly with the base; the magnetic part is arranged on the cover body, and the cover body is connected with the base through the magnetic attraction of the magnetic part and the sleeve assembly.

Further, when the cover and the base form a closed space, the magnetic part faces the end of the sleeve assembly far away from the base, and at least the end of the sleeve assembly far away from the base is made of ferromagnetic materials.

Further, the sleeve assembly includes: a sleeve and a drive assembly, the sleeve extending axially around the cup; the driving component is arranged on the base and is used for driving the cup-shaped member from the retracted position to the protruding position where the rod-shaped material can be used; at least the portion of the drive assembly remote from the base and/or the sleeve is made of a ferromagnetic material.

Further, the cup includes a lug, and the drive assembly includes: a guide member having a guide groove extending in an axial direction, and a sheath, the cup being mounted in the guide member; the sheath is sleeved on the radial outer side of the guide piece, the sheath is provided with a spiral groove, the sleeve is sleeved on the radial outer side of the sheath, the lug of the cup is arranged on the guide groove in a penetrating mode and matched with the spiral groove, so that the cup can move along the axial direction of the sleeve when the sheath rotates, and at least the part, provided with the guide groove, of the guide piece, the sheath and/or the sleeve are made of ferromagnetic materials.

Further, the cannula is made of a ferromagnetic material and the guide and sheath are made of plastic.

Further, one end of the sleeve far away from the base is provided with a flange extending inwards.

Further, the cover body includes: a cover plate and a circumferential side plate extending from the periphery of the cover plate to the base, the cover plate and the circumferential side plate defining an accommodating space with an opening at one side,

the container further comprises: the mounting part is used for mounting the magnetic part on the cover body, the mounting part is embedded into the accommodating space and is positioned on one side of the accommodating space, which is far away from the opening, and when the cover body and the base form a closed space, the end part, which is far away from the base, of the sleeve assembly is connected with the mounting part.

Further, the mounting member defines at least one receiving groove having an opening facing the cover plate, each receiving groove receiving one of the magnetic members.

Further, the mount includes: the bottom plate, the flange, the convex part and the plurality of connecting sheet groups, wherein the flange extends from the periphery of the bottom plate to the cover plate; the convex part extends from the bottom plate to the cover plate; a plurality of connecting piece groups extend from the side direction of the convex part towards the flange, each connecting piece group comprises two arc-shaped connecting pieces facing each other, and the two arc-shaped connecting pieces, the convex part, the bottom plate and the flange of each connecting piece group jointly limit and form a containing groove.

Further, the part of the flange, which is located between the two arc-shaped connecting pieces of the same connecting piece group, forms a notch, and the two arc-shaped connecting pieces, the convex part and the bottom plate jointly define a containing groove.

Further, the surfaces of the convex portion and the arc-shaped connecting piece facing the receiving groove form a rib extending in the vertical direction.

Further, the installed part includes the bottom plate and the protruding portion that extends towards the apron from the bottom plate middle part, and the magnetic part is cyclic annular magnet, and the protruding portion is located to the cyclic annular magnet cover.

Further, the distance between the inner surface of the circumferential side plate and the sleeve assembly is gradually increased from the cover plate to the opening.

Further, the base includes a first portion and a second portion, the second portion is connected with the first portion on a side of the first portion facing the cover, an outer diameter of the first portion is the same as an outer diameter of the circumferential side plate, an outer diameter of the second portion is smaller than the outer diameter of the first portion, at least one protrusion is provided on a radial outer side of the second portion, an annular groove is formed on an inner surface of the circumferential side plate, and when the cover and the base form a closed space for closing the sleeve assembly, the at least one protrusion is received in the annular groove.

Further, the stick-shaped material is lipstick or lip balm.

The rod-shaped container of this application embodiment is through setting up sleeve subassembly to make its at least part by ferromagnetic material to the lid can meet with the base through the magnetic attraction of setting up magnetic part and sleeve subassembly on it, owing to need not set up the magnetic part on the base, needn't occupy the radial space of base, thereby can realize being connected reliably of lid and base on thinner container, in order to avoid the lid to break away from with the base mutually more easily.

Additional aspects and advantages of the present application will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the present application. What is provided in this application is merely one embodiment and not the application itself, and the effects of this application are merely effects of the embodiment and not all of the technical effects of this application.

Drawings

Other objects and advantages of the present application will become apparent from the following description of the present application with reference to the accompanying drawings, and may help to provide a thorough understanding of the present application. Wherein:

FIG. 1 is a schematic exploded view of a container for rod-shaped material according to an embodiment of the present application;

FIG. 2 is a schematic axial cross-sectional view of the container shown in FIG. 1;

FIG. 3 is a schematic axial cross-sectional view of the container of FIG. 2 with the lid omitted;

FIG. 4 is a schematic structural view of the sleeve assembly of FIG. 1;

FIG. 5 is a schematic view of the mount of FIG. 1;

fig. 6 to 8 are each a schematic axial cross-section of a container according to different embodiments of the present application, showing different constructions of the mounting member, respectively.

It should be noted that the figures are not drawn to scale and that elements of similar structure or function are generally represented by like reference numerals throughout the figures for illustrative purposes. It should also be noted that the drawings are only for the purpose of illustrating preferred embodiments and are not intended to limit the application itself. The drawings do not show every aspect of the described embodiments and do not limit the scope of the disclosure.

Description of reference numerals:

10. a base; 101. a boss portion; 11. a first portion; 12. a second portion;

20. a sleeve assembly; 21. a guide; 201. a guide groove; 211. a tube; 212. a support portion; 22. a sheath; 221. a helical groove; 23. a sleeve; 231. flanging;

30. a cup-shaped member;

40. a cover body; 41. a cover plate; 42. a circumferential side plate; 421. an annular groove;

50. a magnetic member;

60. a mounting member; 601. accommodating grooves; 61. a base plate; 62. a flange; 621. a notch; 622. an end face; 63. a convex portion; 64. connecting sheet groups; 641. an arc-shaped connecting sheet; 65. and ribs.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative and are only for the purpose of explaining the present application and are not to be construed as limiting the present application.

The following disclosure provides many different embodiments or examples for implementing the application. To simplify the disclosure of the present application, specific example components and methods are described below. Of course, they are merely examples and are not intended to limit the present application.

The embodiment of the application provides a container for a rod-shaped material. The stick material may be a cosmetic in the form of a stick. The stick material may be, for example, a cosmetic product such as lipstick or lip balm. The container ensures the product application function.

Referring to fig. 1 to 3, a container of an embodiment of the present application includes: a base 10, a sleeve assembly 20, a cup 30, a cover 40 and a magnetic element 50.

The sleeve assembly 20 is disposed on the base 10. At least a portion of the sleeve assembly 20 is made of a ferromagnetic material. The ferromagnetic material can be Fe, co, ni element and alloy thereof, etc. which can generate magnetic attraction with the magnet. To save costs, the ferromagnetic material may be iron.

The cup 30 is for receiving a rod of material, and the cup 30 is movably mounted within the sleeve assembly 20. The rod-shaped material is enabled to assume a retracted position and a protruding position in which the rod-shaped material can be used by movement of the cup within the sleeve assembly 20.

The cover 40 is used to form a sealed space with the base 10 for sealing the sleeve assembly 20. The magnetic element 50 is disposed on the cover 40, and the cover 40 is connected to the base 10 by the magnetic attraction between the magnetic element 50 and the sleeve assembly 20.

In the stick container according to the embodiment of the present application, the sleeve assembly 20 is configured to be at least partially made of ferromagnetic material, so that the cover 40 can be connected to the base 10 by the magnetic attraction between the magnetic element 50 disposed thereon and the sleeve assembly 20, and since the magnetic element 50 is not disposed on the base 10, the radial space of the base 10 is not occupied, and thus the cover 40 can be reliably connected to the base 10 on a thin container, so as to prevent the cover 40 from being easily separated from the base 10.

The base 10 may form a receiving cavity having an opening, the opening of the receiving cavity faces the cover 40, the bottom of the sleeve assembly 20 is inserted into the receiving cavity to mount the sleeve assembly 20 on the base 10, and the middle upper portion or at least the upper portion of the sleeve assembly 20 protrudes from the base 10.

It will be understood that, in order to magnetically attract the magnetic member 50 disposed on the cover 40, the portion of the sleeve assembly 20 made of ferromagnetic material cannot be located in the receiving cavity of the base 10, and at least a portion of the ferromagnetic material should face the magnetic member 50. The "facing" here can be a direct facing or an indirect facing (i.e. the ferromagnetic material and the magnetic member 50 are separated by another plate member), but does not affect the magnetic attraction between the two.

In some embodiments, when the cover 40 and the base 10 form a closed space for closing the sleeve assembly 20, the magnetic member 50 faces the end of the sleeve assembly 20 away from the base 10. Accordingly, at least the end of the sleeve assembly 20 remote from the base 10 is made of a ferromagnetic material. Therefore, the cover 40 is securely connected to the base 10 and the sleeve assembly 20 by the magnetic attraction between the magnetic member 50 and the end of the sleeve assembly 20 away from the base 10.

Referring to fig. 4, in some embodiments, the sleeve assembly 20 may include: a sleeve 23 and a drive assembly. The sleeve 23 extends axially around the cup 30. A drive assembly is provided to the base 10 for driving the cups 30 from a retracted position to a protruding position enabling the use of a rod-shaped material.

In some embodiments, the sleeve 23 may be made of a ferromagnetic material. In some embodiments, at least the portion of the drive assembly facing the magnetic member 50 (i.e., away from the base 10) is made of a ferromagnetic material. In some embodiments, at least the portion of the drive assembly facing the magnetic member 50 (i.e., away from the base 10) and the sleeve 23 are made of ferromagnetic material.

In some embodiments, the cup 30 includes a hollow cylindrical body and lugs disposed on the body. The drive assembly includes: a guide 21 and a sheath 22. The guide member 21 has a guide groove 201 extending in the axial direction, and the cup 30 is mounted in the guide member 21. The sheath 22 is sleeved on the radial outer side of the guide 21, and the sheath 22 has a spiral groove 221. The sleeve 23 is fitted over the sheath 22 in the radial direction to cover the sheath 22. The lug of the cup 30 is inserted into the guide groove 201 and engaged with the spiral groove 221 so that the cup 30 can move in the axial direction of the sleeve 23 when the sheath 22 is rotated.

In some embodiments, the sheath 22 may be made of a ferromagnetic material. In some embodiments, at least the portion of the guide 21 having the guide groove 201 (i.e., the tube 211 mentioned below) is made of a ferromagnetic material. In the case of machining, the guide 21 may also be made entirely of ferromagnetic material.

In some embodiments, at least one of the sheath 22, the tube 211 of the guide 21, and the sleeve 23 is made of a ferromagnetic material. It will be readily appreciated that for ease of manufacture, and cost savings, only the sleeve 23 of the sleeve assembly 20 may be made of a ferromagnetic material.

The guide 21 may include a tube 211 and a support 212, the tube 211 being configured to receive a cup 30 containing a rod-like material. The guide groove 201 is formed on the tube 211. The support portion 212 is used to mount the guide 21 to the base 10. The jacket 22 is rotatably mounted on the guide 21 relative to the guide 21. When the user operates the base 10 to rotate with respect to the sleeve 23, the cup 30 can move with respect to the shield 22, allowing the cup 30 to extend or retract with respect to the shield 22, depending on the direction of rotation of the base 10. In such an embodiment, the sheath 22, the guide 21 and the cup 30 together form a core-in-bundle structure.

In some embodiments, the cannula 23 is made of a ferromagnetic material and the guide 21 and sheath 22 are made of plastic. In such an embodiment, the sleeve 23 not only serves an aesthetic function, but also serves a function of magnetically attracting the magnetic member 50 of the cover 40 to couple the cover 40 with the base 10. The outer surface of the sleeve 23 may be formed with an electroplated layer or a painted layer, which is not only rust-proof but also beautiful.

Referring to fig. 4, the end of the sleeve 23 remote from the base 10 is formed with an inwardly extending flange 231. Due to the arrangement of the turned edge 231, the magnetic attraction between the magnetic element 50 and the sleeve 23 is increased, and the stability of the connection between the cover 40 and the base 10 and the sleeve assembly 20 is improved.

In some embodiments, the drive assembly may be of other configurations as are commonly used in the art.

In some embodiments, the base 10 and cover 40 are circular in cross-section.

Referring to fig. 2, in some embodiments, the cover 40 includes: a cover plate 41 and a circumferential side plate 42 extending from the periphery of the cover plate 41 toward the base 10, the cover plate 41 and the circumferential side plate 42 defining an accommodation space that is open on one side. The container further comprises: and a mounting member 60 for mounting the magnetic member 50 to the cover 40. The mounting member 60 is inserted into the receiving space and is located on a side of the receiving space remote from the opening. Since the installation member 60 is inserted into the receiving space of the cover 40, the installation is very convenient. Since the magnetic member 50 is mounted inside the receiving space of the cover body 40, the radial dimension of the cover body 40 is not increased, thereby being suitable for a slim container.

When the cover 40 is joined to the base 10 to form a sealed space, the end of the sleeve assembly 20 away from the base 10 (i.e., the end facing the cover 41) is joined to the mounting member 60.

The mounting member 60 defines at least one receiving groove 601 opened to face the cover plate 41, and each receiving groove 601 receives one of the magnetic members 50.

Referring to fig. 5, in some embodiments, the mount 60 may include: a base plate 61, a flange 62, a protrusion 63, and a plurality of connecting piece groups 64.

The flange 62 extends from the periphery of the bottom plate 61 toward the cover plate 41 (i.e., away from the base 10). The projection 63 extends from the bottom plate 61 toward the cover plate 41. A plurality of connecting piece groups 64 extend from the side of the projection 63 toward the flange 62. Each connecting plate group 64 includes two mutually facing arc-shaped connecting plates 641, and the two arc-shaped connecting plates 641, the convex portion 63, the base plate 61 and the flange 62 of each connecting plate group 64 jointly define a receiving groove 601.

In the embodiment shown in fig. 5, the mounting member 60 includes 4 connecting piece sets 64, and accordingly, the mounting member 60 has 4 receiving grooves 601 receiving 4 magnetic members 50. The 4 accommodation grooves 601 are equally spaced in the circumferential direction. In an embodiment not shown, the mounting member 60 may also have 2, 3, 5 receiving grooves 601, etc. The magnetic member 50 may be a cylindrical magnet.

The end surface 622 of the flange 62 facing the cover plate 41 extends in a direction from the outside to the inside in a radial direction obliquely towards the cover plate 41, so as to form a guide surface for facilitating the insertion of the mounting member 60 into the receiving space of the cover body 40.

With continued reference to fig. 5, the portion of the flange 62 located between the two arc-shaped connecting pieces 641 of the same connecting piece group 64 forms a notch 621, and the two arc-shaped connecting pieces 641, the convex portion 63 and the bottom plate 61 define a receiving groove 601. In such an embodiment, during the process of inserting the mounting element 60 into the receiving space of the cover 40, the notch 621 is provided to facilitate the deformation of the mounting element 60 so as to smoothly insert into the receiving space of the cover 40, and is tightly fitted with the circumferential side plate 42 of the cover 40 to prevent the mounting element 60 from falling off from the receiving space of the cover 40.

Referring to fig. 2, the inner surface of the circumferential side plate 42 is disposed with a gradually increasing distance from the cover plate 41 toward the opening, so as to facilitate the insertion of the mounting member 60 into the receiving space of the cover body 40.

With continued reference to fig. 5, the surfaces of the convex portion 63 and the arc-shaped connecting piece 641 facing the receiving groove 601 form a vertically extending rib 65, and the rib 65 is provided to facilitate clamping the magnetic member 50 in the receiving groove 601 and to enhance the strength of the arc-shaped connecting piece 641.

In other embodiments, referring to fig. 6, the mount 60 includes: a bottom plate 61 and a flange 62 extending from the periphery of the bottom plate 61 toward the cover plate 41, the bottom plate 61 and the flange 62 forming a receiving groove 601. The magnetic member 50 is a disc magnet, which is inserted into the receiving groove 601.

In some embodiments, referring to fig. 7, mount 60 includes a base plate 61 and a projection 63 extending from a central portion of base plate 61 toward cover plate 41. The magnetic member 50 is a ring-shaped magnet, and the ring-shaped magnet is fitted over the protrusion 63. In such an embodiment. The bottom plate 61 abuts against the circumferential side plate 42 of the lid body 40, and the attachment 60 is held in the accommodation space of the lid body 40. In other modified embodiments, the mounting member 60 further includes a flange 62 extending from the periphery of the bottom plate 61 toward the cover plate 41, and the bottom plate 61, the protrusion 63, and the flange 62 together form an annular receiving groove 601. The flange 62 abuts against the circumferential side plate 42 of the lid body 40, whereby the attachment 60 is held in the accommodation space of the lid body 40.

The mounting member 60 of fig. 8 differs from the mounting member 60 of fig. 7 in the dimensions of the projection 63 and the magnetic element 50. It is easily understood that the size of the magnetic member 50 can be designed according to actual requirements.

With continued reference to fig. 1, in some embodiments, the base 10 includes a first portion 11 and a second portion 12, the second portion 12 being contiguous with the first portion 11 on a side of the first portion 11 facing the cover 40, the first portion 11 having an outer diameter that is the same as an outer diameter of the circumferential side plate 42, the second portion 12 having an outer diameter that is smaller than an outer diameter of the first portion 11, the second portion 12 being provided with at least one boss 101 radially outward. The inner surface of the circumferential side plate 42 is formed with an annular groove 421, and when the cover body 40 and the base 10 form a closed space for closing the sleeve assembly 20, at least one of the protrusions 101 is received in the annular groove 421. It will be readily appreciated that the smaller size of the boss 101 does not significantly increase the radial dimension of the base. Through the clamping fit of the protruding portion 101 and the annular groove 421 and the magnetic attraction fit of the magnetic member 50 and the sleeve assembly 20, the reliable connection between the cover body 40 and the base 10 and the sleeve assembly 20 can be further ensured. For a container with a small radial dimension, the protrusion 101 and the annular groove 421 may not be provided, and the cover 40 and the base 10 and the sleeve assembly 20 may be reliably connected only by the magnetic attraction of the magnetic member 50 and the sleeve assembly 20.

For the embodiments of the present application, it should be further noted that, in case of conflict, the embodiments and features of the embodiments of the present application may be combined with each other to obtain a new embodiment.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (15)

1. A container for rod-shaped material, comprising:

a base;

a sleeve assembly disposed on the base, at least a portion of the sleeve assembly being made of a ferromagnetic material;

a cup for containing the rod-shaped material, the cup being movably mounted within the sleeve assembly;

the cover body is used for forming a closed space for closing the sleeve assembly together with the base; and

the magnetic part is arranged on the cover body, and the cover body is connected with the base through the magnetic attraction of the magnetic part and the sleeve assembly.

2. The container according to claim 1, wherein the magnetic member faces an end of the sleeve assembly away from the base when the cover and the base form the closed space,

at least the end of the sleeve assembly remote from the base is made of a ferromagnetic material.

3. The container of claim 2, wherein the sleeve assembly comprises:

a sleeve extending axially around the cup; and

a drive assembly provided to the base for driving the cup from a retracted position to a protruding position where the rod-shaped material can be used;

at least a portion of the drive assembly remote from the base and/or the sleeve is made of a ferromagnetic material.

4. The container of claim 3, wherein the cup includes a lug,

the drive assembly includes:

a guide member having a guide groove extending in an axial direction, the cup being mounted in the guide member; and

a sheath sleeved on the radial outer side of the guide part, the sheath having a spiral groove,

wherein the sleeve is sleeved on the radial outer side of the sheath, the lug of the cup-shaped piece is arranged in the guide groove in a penetrating manner and matched with the spiral groove, so that the cup-shaped piece can move along the axial direction of the sleeve when the sheath rotates,

wherein at least the part of the guide having the guide groove, the sheath and/or the sleeve are made of a ferromagnetic material.

5. The container of claim 4, wherein the sleeve is made of a ferromagnetic material and the guide and the sheath are made of plastic.

6. A container according to claim 5, wherein the end of the sleeve remote from the base is formed with an inwardly extending flange.

7. The container of claim 1, wherein the cover comprises: a cover plate and a circumferential side plate extending from the periphery of the cover plate toward the base, the cover plate and the circumferential side plate defining an accommodation space with one side open,

the container further comprises: the mounting piece is used for mounting the magnetic piece on the cover body, is embedded into the accommodating space and is positioned on one side of the accommodating space far away from the opening,

when the cover body and the base form the closed space, the end part of the sleeve assembly, which is far away from the base, is connected with the mounting piece.

8. The container of claim 7, wherein the mounting member defines at least one receiving slot opening to the cover plate, each receiving slot receiving one of the magnetic members.

9. The container of claim 8, wherein the mount comprises:

a base plate;

a flange extending from a periphery of the base plate toward the cover plate;

a protrusion extending from the bottom plate toward the cover plate; and

the connecting piece groups extend from the lateral side of the convex part to the flange, each connecting piece group comprises two arc-shaped connecting pieces facing each other, and the two arc-shaped connecting pieces, the convex part, the bottom plate and the flange of each connecting piece group jointly define the accommodating groove.

10. The container of claim 9, wherein a portion of the flange between two arcuate tabs of the same set of tabs defines a notch, the two arcuate tabs, the protrusion, and the bottom panel collectively defining the receiving slot.

11. The container of claim 10, wherein the surfaces of the protrusion and the arcuate web facing the receiving groove form a vertically extending rib.

12. The container of claim 7, wherein the mounting member includes a bottom plate and a projection extending from a central portion of the bottom plate toward the cover plate,

the magnetic part is an annular magnet, and the annular magnet is sleeved on the convex part.

13. The container of claim 7, wherein a spacing between an inner surface of the circumferential side panel and the sleeve assembly increases gradually from the cover panel toward the opening.

14. The container according to claim 7, wherein the base includes a first portion and a second portion, the second portion being contiguous with the first portion on a side of the first portion facing the lid, the first portion having an outer diameter identical to an outer diameter of the circumferential side plate, the second portion having an outer diameter smaller than the outer diameter of the first portion, a radially outer side of the second portion being provided with at least one boss,

an annular groove is formed in the inner surface of the circumferential side plate, and when the cover body and the base form a closed space for closing the sleeve assembly, the at least one boss is accommodated in the annular groove.

15. A container according to claim 1, wherein the stick is a lipstick or lip balm.

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