The present application relates to the technical field of cosmetics packaging, and more particularly to a sealable powder box.
Nowadays, various powder boxes develop in the cosmetics product market widely, and have already been necessary consumer goods in many female friends' life. With the continuous increase of the market requirement, many kinds of durable, elegant, and easily operable outer packages emerge in endlessly, and their social status are improved by high quality package materials and packing methods. However, existing powder boxes generally have no sealing function, and thus the content in these powder boxes are prone to be oxidized.
The technical problem to be solved by the present invention is to provide a sealable powder box, which enables a lid and a powder box body to realize good seal easily on the premise of simple opening and closing ways.
In order to solve the above technical problem, the present application provides a sealable powder box, which comprises an upper casing, a lower casing, an inner casing mounted in the upper casing, a storage box mounted in the lower casing, and a tray arranged in the storage box. The sealable powder box further comprises a gasket, the gasket is arranged in the tray by means of injection molding, or is sandwiched between the tray and the storage box and engaged with the tray. The inner casing is mounted in the upper casing, and the top part of the inner casing penetrates the top part of the upper casing to be exposed. The upper casing and the inner casing are axially slidable and radially rotatable relative to each other in the predetermined ranges, the storage box is engaged in the lower casing and threadingly connected with the upper casing, and the inner casing and the tray are rotatably connected with the lower casing by a pin.
Furthermore, the tray forms a gasket clasp downwards at its bottom wall, and the portion of the bottom wall of the tray located at the outside of the gasket clasp is provided with a gasket pressing surface; the inside of the storage box is provided with a step-shaped gasket fastening surface, the bottom of the gasket clasp is engaged with the bottom of the gasket, so that the gasket is engaged with the tray; the upper edge of gasket abuts the gasket pressing surface, and the lower edge of the gasket abuts the gasket fastening surface.
Furthermore, the upper casing includes a first top wall and a double-layered first sidewall extending from the first top wall and forming a loop, the first top wall is provided with a through hole and is inwardly provided around the through hole with an annular pressing wall being coaxial with the through hole; the inner casing includes an annular double-layered second sidewall, a second top wall connected with the top edge of the inner layer of the second sidewall, and a connecting wall connected with both bottom edges of inner and outer layers of the second sidewall; a top surface of the connecting wall is matched with a bottom end of the pressing wall to limit upward sliding of the inner casing relative to the upper casing.
Furthermore, the bottom surface of the connecting wall extends vertically and downwards to form a lens mounting loop, and the sealable powder box further comprises a lens forming an interference fit with the lens mounting loop and thereby mounted in the inner casing.
Furthermore, the part of the bottom surface of the connecting wall located at an outside of the lens mounting loop is provided with a lower pressing surface, when the sealable powder box is closed, the lower pressing surface is matched with and pressed against the top edge of the tray and the top edge of the storage box.
Furthermore, an inside of the pressing wall is inwardly and spacedly provided with a limiting buckle and a positioning groove; the outer edge of the top wall of the inner casing extends radially and outwards to form a flange, the bottom surface of the flange is matched with the top surface of the limiting buckle to prevent the upper casing from separating from the inner casing and limit upward sliding of the upper casing relative to the inner casing; the inner layer of the second sidewall of the inner casing is provided with the positioning rib protruding outwards and the limiting groove recessing inwards, the positioning rib is forced into the positioning groove at the inside of the pressing wall correspondingly, so that the upper casing is radially held relative to the inner casing; the limiting groove is matched with the limiting buckle to limit a distance of a rotation of the upper casing relative to the inner casing.
Furthermore, the inmost upper part of the double-layered first sidewall of the upper casing is provided with the rotation matching surface; the outer layer of the second sidewall of the inner casing is provided with a rotation matching rib protruding outwards, and the rotation matching rib is matched with the rotation matching surface of the upper casing to facilitate a rotation of the upper casing relative to the inner casing.
Furthermore, the upper casing is provided with a first two-headed thread at a the lower part of the rotation matching surface, the storage box is provided with a second two-headed thread at the upper part of the outside thereof, and the upper casing is rotatably connected with the storage box by the first and second two-headed threads.
Furthermore, the outer layer of the second sidewall of the inner casing forms a downward cantilever with a pin hole, the sidewall of the tray is provided with an outward cantilever with a pin hole, and the upper part of the storage box is provided with a gap configured to allow the cantilever of the inner casing and the cantilever of the tray to pass through; the lower casing includes a bottom wall and a plurality of sidewalls, one of the sidewalls is provided with a gap configured to mount the cantilever of the inner casing and the cantilever of the tray, the sidewall is further provided with pin holes arranged at parts thereof located at two sides of the gap of the sidewall, and a pin is inserted in the pin holes of the inner casing, the tray, and the lower casing.
Furthermore, the lower part of an outside of the storage box is provided with at least one buckle, another sidewall of the lower casing that is opposite to the sidewall of the lower casing being provided with the gap is provided with at least one buckling groove, the buckling groove is matched with the buckle of the storage box to engage the storage box with the lower casing.
Compared with the current technology, in the sealable powder box provided by the present application, the upper casing and the inner casing can axially slide and radially rotate relative to each other in predetermined ranges, the upper casing is connected with the storage box by thread, and the gasket is arranged between the tray and the storage box. Therefore, by adopting the technical solution of the present application, perfectly seal between a lid and a powder box body can be easily realized under the condition of ensuring that the powder box is opened and closed by simple methods.
In order to make the technical problems to be solved by the present application, the technical solutions of the present application, and the advantages of the present application be clear, the present application will be further described with reference to the accompany drawings and embodiments. It should be understood that the embodiments described herein are only intended to illustrate but not to limit the present application.
Referring to
Referring to
Referring to
Referring to
Referring to
Referring to
In assembly, by the cooperation between the positioning rib 202 and the positioning groove 106, the upper casing 10 and the inner casing 20 can be radially positioned; under the mutual cooperation between the rotation matching surface 103 and the rotation matching rib 203, the upper casing 10 and the inner casing 20 can be rotated relative to each other smoothly, until the flange 201 of the inner casing 20 slides through the limiting buckle 101 and is assembled together with the limiting buckle 101. Subsequently, the lens 30 is made to form an interference fit with the lens mounting loop 205 of the inner casing 20, so that the lens 30 is mounted into the inner casing 20. Afterwards, the gasket 70 is assembled together with the tray 40 via the gasket clasp 401, and the buckle 603 of the storage box 60 is forced into the buckle groove 802 of the lower casing 80, so that the storage box 60 is engaged with the lower casing 80. Finally, the pin 90 is inserted through the pin hole 206 of the inner casing 20, the pin hole 402 of the tray 40, and the pin hole 801 of the lower casing 80, and thus a sub-assembly including the upper casing 10, the inner casing 20, and the lens 30, a sub-assembly including the tray 40 and the gasket 70, and a sub-assembly including the storage box 60 and the lower casing 80 are completely assembled together to form a sealable powder box.
Furthermore, by the cooperation between the first two-headed thread 102 of the upper casing 10 and the second two-headed thread 601 of the storage box 60, the upper casing 10 is rotatable relative to the storage box 60, so that a distance between the upper casing 10 and the tray 40 is changed, and a gap between the inner casing 20 and the tray 40 is adjusted thereby. In particular, as shown in
The sealable powder box provided by the embodiment of the present application can be opened by the following method: when the powder box needs to be opened, the upper casing 10 is rotated, so that the first two-headed thread 102 of the upper casing 10 generates a force on the second two-headed thread 601 of the storage box 60, and the upper casing 10 is elevated; until the top surface of the limiting buckle 101 of the upper casing 10 abuts the flange 201 of the inner casing 20, the upper casing 10 is elevated continuously, however, the threads have already been completely unscrewed. At this time, a side surface of the limiting buckle 101 abuts a sidewall of the limiting groove 208, the rotation of the upper casing 10 relative to the inner casing 20 is limited, and the positioning rib 202 just slides into the positioning groove 106, so that the pressing wall 104 separates from the connecting wall 204, and the gasket 70 in a compressed state recovers at the same time. By the interaction between the pin 90 and the pin holes 206, 402, the inner casing 20 is opened relative to the tray 40, and thus the whole powder box is opened.
After use, the powder puff 50 is placed into the tray 40, the sub-assembly including the upper casing 10 and the inner casing 20 is closed, and the upper casing 10 is thus rotated; by the interaction between the first two-headed thread 102 and the second two-headed thread 601, the upper casing 10 moves downwards, and the positioning rib 202 slides out of the positioning groove 106; at this time, the side surface of the limiting buckle 101 abuts the sidewall of the limiting groove 208, thereby limits the rotation of the upper casing 10 relative to the inner casing 20. When the tray 40 makes the gasket 70 to press the gasket fastening surface 602 of the storage box 60, a bottom end of the pressing wall 104 is pressed against the top surface of the connecting wall 204; at this time, under the actions of the gasket pressing surface 405 and the gasket fastening surface 602, the gasket 70 is in a compressed state; thus, the powder box is closed and the tray 40 is completely sealed.
In the sealable powder box provided by the present application, the upper casing 10 and the inner casing 20 can axially slide and radially rotate relative to each other in predetermined ranges, the upper casing 10 is connected with the storage box 60 by threads, and the gasket 70 is arranged between the tray 40 and the storage box 60. Therefore, perfect seal between a lid and a powder box body can be easily realized under the condition of ensuring that the powder box is opened and closed by simple methods.
What described above are only preferred embodiments of the present application, and are not intended to limit the scope of the present application; and any modifications, equivalent replacements, and improvements made within the spirit and principle of the present application should be included in the protection scope of the present application.
Number | Date | Country | Kind |
---|---|---|---|
2013 2 0374212 U | Jun 2013 | CN | national |
This present application is a Continuation Application of PCT application No. PCT/CN2014/073833 filed on Mar. 21, 2014, which claims the benefit of Chinese Patent Application No. 201320374212.7 filed on Jun. 27, 2013, the contents of which are hereby incorporated by reference.
Number | Name | Date | Kind |
---|---|---|---|
9220332 | DeVito | Dec 2015 | B1 |
20010022185 | Yuhara | Sep 2001 | A1 |
20090188518 | Thorpe | Jul 2009 | A1 |
20140283870 | Byeon | Sep 2014 | A1 |
Number | Date | Country | |
---|---|---|---|
20160128444 A1 | May 2016 | US |
Number | Date | Country | |
---|---|---|---|
Parent | PCT/CN2014/073833 | Mar 2014 | US |
Child | 14979612 | US |