CN107411312B - Shading nail polish bottle with perspective window - Google Patents

Abstract

The invention discloses a shading nail polish bottle with a perspective window, and relates to the field of cosmetic packaging. The shading layer is provided with a perspective window which extends from the top of the bottle body to the bottom of the bottle body. A closed cavity is arranged in the bottle wall of the bottle body, and shading liquid is filled in the cavity. The cavity comprises a flow channel, a shading cavity and an indwelling cavity, wherein a baffle is arranged in the flow channel, and the shading cavity is flat and has the same shape as the perspective window; a backflow channel for backflow shading liquid is arranged between the shading cavity and the retention cavity, the backflow channel is communicated with the bottom of the retention cavity and the bottom of the shading cavity, and the bottom of the retention cavity is higher than the bottom of the shading cavity. By adopting the invention, a user can observe the color of nail polish in the nail polish bottle and the usage amount and the residual amount of nail polish only by turning over the bottle body without opening the bottle cap of the nail polish bottle, so that the nail polish bottle is more visual and convenient.

Description

Shading nail polish bottle with perspective window

Technical Field

The invention relates to the field of cosmetic bottle packaging, in particular to a shading nail polish bottle with a perspective window.

Background

Nail polish is a common cosmetic in daily life of women, and the variety of the nail polish is enriched along with the demand of women for beauty pursuit. Currently, there is a nail polish gel on the market that is similar to traditional nail polish, which is one of the nail polishes. The nail polish gel has the characteristics of no toxicity, no odor, environmental protection and the like, and has good luster and color. However, this nail polish gel is cured by ultraviolet irradiation, and therefore cannot be seen during storage. The common storage mode is to put nail polish gel into a lightproof nail polish bottle, so that a user cannot directly observe the color of the nail polish gel through a bottle body and needs to unscrew a bottle cap for observation; compared with the traditional nail polish bottle and nail polish bottle, when the nail polish bottle with the light-shading surface is stored, a user cannot visually see the residual amount of the nail polish, the bottle cap needs to be unscrewed for observation, the nail polish is easily solidified by repeatedly unscrewing the bottle cap, and the nail polish bottle is very inconvenient in practical use.

Disclosure of Invention

The invention aims to provide a shading nail polish bottle with a perspective window, a user can observe the color of nail polish in the nail polish bottle and the usage amount and the residual amount of nail polish only by turning over the bottle body without opening the bottle cover of the nail polish bottle, and the bottle is more visual and convenient.

In order to realize the purpose of the invention, the invention adopts the following technical scheme: the shading nail polish bottle with the perspective window comprises a transparent bottle body, a bottle cap and a shading layer, wherein the shading layer is used for shading the surface of the bottle body, the shading layer is provided with the perspective window which is hollowed out and used for observing the interior of the bottle body through the bottle body, and the perspective window extends from the top of the bottle body to the bottom of the bottle body;

a closed cavity is arranged in the bottle wall of the bottle body, and light-tight shading liquid is filled in the cavity; the cavity comprises a flow channel, a shading cavity and a retention cavity, one end of the flow channel is connected with the shading cavity, the other end of the flow channel is connected with the retention cavity, a blocking piece is arranged in the flow channel, the shading cavity is flat, and the shading cavity is attached to the perspective window and has the same shape with the perspective window. A backflow channel for backflow shading liquid is arranged between the shading cavity and the retention cavity, one end of the backflow channel is communicated with the bottom of the retention cavity, the other channel of the backflow channel is communicated with the bottom of the shading cavity, and the bottom of the retention cavity is higher than the bottom of the shading cavity.

Under the condition that the nail polish bottle is normally placed, the shading liquid level is positioned in the shading cavity, the shading cavity and the perspective window are positioned at the same position, and the shading liquid just can shade the shading window to prevent external light from irradiating into the nail polish bottle; when the user need observe the colour or the surplus of nail polish in the nail polish bottle, the user can incline the nail polish bottle, makes shading liquid flow in through flow channel and keeps somewhere the chamber, and the perspective window does not have shading liquid to shelter from this moment, and the user can be through the state of the nail polish of perspective window direct observation in the nail polish bottle. The baffle plate in the flow channel can prevent the shading liquid in the retention cavity from fast flowing back to the shading cavity from the retention cavity, and the backflow channel is arranged between the retention cavity and the shading cavity, so that the shading liquid can automatically flow back to the shading cavity.

Although the shading cavity extends from the top of the bottle body to the bottom of the bottle body, the shading cavity is flat, and the remaining cavity is not large in cross section but much thicker than the shading cavity, so that the remaining cavity can completely contain shading liquid flowing into the shading cavity.

Preferably, the bottle body is a cuboid or an ellipsoid.

Preferably, the cavity is arranged in the bottle wall on the gently changed side of the bottle body.

Preferably, the diameter of the return conduit is smaller than the diameter of the flow conduit.

Preferably, the backflow channel is spiral-shaped.

Preferably, the light-shielding liquid is mercury.

Preferably, the bottle body where the shading cavity is located protrudes outwards to form a thickening layer for enhancing the falling-resistant strength.

Compared with the prior art, the shading nail polish bottle with the perspective window has the following beneficial effects that:

firstly, by adopting the shading nail polish bottle with the perspective window, nail polish is stored in the shading nail polish bottle, a user can open/close the shading window by tilting the bottle body to change the position of the shading liquid to observe the color and the residual quantity of the nail polish in the nail polish bottle, the bottle cap of the nail polish bottle is not required to be brought to observe, the observation of the state of the nail polish in the shading nail polish bottle is more convenient, and the nail polish can be prevented from being influenced by light irradiation due to the fact that the bottle cap is opened for multiple times in the using process.

In the invention, the bottom of the shading cavity and the bottom of the indwelling cavity are provided with backflow channels which are mutually communicated, and the backflow channels can enable shading liquid flowing into the indwelling cavity to automatically flow back into the shading cavity, so that the use is more convenient.

And the blocking piece is arranged in the flow channel, and can effectively prevent the shading liquid from fast flowing back to the shading cavity from the flow channel and force the shading liquid to flow back to the shading cavity from the backflow channel, so that fast backflow is avoided, and a user can conveniently observe and use the shading liquid.

Drawings

FIG. 1 is a schematic structural view of an embodiment of the light-shielding nail polish bottle with a transparent window according to the present invention;

FIG. 2 is a schematic structural diagram of a cavity in the present embodiment;

fig. 3 is a schematic structural view of the light-shielding nail polish bottle with a transparent window in the embodiment.

Reference numerals: 10. a bottle body; 20. a perspective window; 30. a cavity; 31. a light shielding cavity; 32. a flow channel; 33. an indwelling lumen; 34. a return channel; 35. a baffle plate.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

The shading nail polish bottle with the transparent window as shown in fig. 1 to 3 comprises atransparent bottle body 10 and a bottle cap, and further comprises a shading layer used for shading the surface of thebottle body 10, wherein the shading layer is provided with atransparent window 20 which is hollowed out and used for observing the interior of thebottle body 10 through thebottle body 10, and thetransparent window 20 extends from the top of thebottle body 10 to the bottom of thebottle body 10;

a closedcavity 30 is arranged in the bottle wall of thebottle body 10, and light-tight shading liquid is filled in thecavity 30; thecavity 30 comprises aflow channel 32, ashading cavity 31 and aretention cavity 32, one end of theflow channel 32 is connected with theshading cavity 31, the other end of theflow channel 32 is connected with theretention cavity 33, abaffle 35 is arranged in theflow channel 32, theshading cavity 31 is flat, and theshading cavity 31 is attached to theperspective window 20 and has the same shape as the perspective window. Abackflow channel 34 for backflow of the shading liquid is arranged between theshading cavity 31 and theretention cavity 33, one end of thebackflow channel 34 is connected with the bottom of theretention cavity 33, the other channel of thebackflow channel 34 is communicated with the bottom of theshading cavity 31, and the bottom of theretention cavity 33 is higher than the bottom of theshading cavity 31.

The light-shielding nail polish bottle with the transparent window in the embodiment is vertically arranged in normal use, and at this time, the light-shielding liquid stays in the light-shielding cavity 31, as shown in fig. 3, and the dotted line part in thebottle body 10 is acavity 30. The position of the see-throughwindow 20 coincides with the light-blockingcavity 31. When the light-shielding liquid stays in the light-shielding chamber 31, the light-shielding liquid shields the see-throughwindow 20, thereby preventing light from irradiating the nail polish in the nail polish bottle.

When the user wants to observe the nail polish in the nail polish bottle, the nail polish bottle can be inclined to the side with theretention chamber 33, and the light-shielding liquid flows into theretention chamber 33 along theflow passage 32. After the light-shielding liquid flows into theretention cavity 33, the light-shielding liquid is not present in the light-shielding cavity 31, and the user can observe the color of the nail polish in the nail polish bottle through theperspective window 20. Since the light-shielding chamber 31 and the see-throughwindow 20 extend from the top to the bottom of thebottle body 10, the user can not only observe the color of the nail polish but also see the amount and remaining amount of the nail polish in the nail polish bottle. Although the light-shielding chamber 31 extends from the top of thevial 10 to the bottom of thevial 10, the light-shielding chamber 31 itself is designed to be flat, and theindwelling chamber 33 is not larger in cross section than the light-shielding chamber 31, but theindwelling chamber 33 is much thicker than the light-shielding chamber 31, so that theindwelling chamber 33 can completely contain the light-shielding liquid flowing into the light-shielding chamber 31.

Astopper 35 for preventing the back flow of the sunscreen liquid in theindwelling chamber 33 is provided in theflow path 32 between thesunscreen chamber 31 and theindwelling chamber 33, so that after the user has flown the sunscreen liquid into theindwelling chamber 33, the bottle is returned to the upright position but the sunscreen liquid does not flow back into thesunscreen chamber 31 from the top quickly.

In practical use, after the user flows the light shielding liquid into theretention cavity 33, the user easily forgets to reflow the light shielding liquid into thelight shielding cavity 31, and the nail polish in the nail polish bottle is solidified due to light irradiation after a long time, which affects the use. Therefore, in the present embodiment, abackflow passage 34 for backflow of the light-shielding liquid is provided between the light-shielding chamber 31 and theretention chamber 33, and the light-shielding liquid in theretention chamber 33 flows back into the light-shielding chamber 31 through thebackflow passage 34, thereby preventing the nail polish in the nail polish bottle from being solidified due to long-term light irradiation.

In order to prevent the backflow speed from being excessively fast during the backflow of the light shielding liquid, the diameter of thebackflow pipe 34 is smaller than that of theflow channel 32. Further, the arrangement of thereturn channel 34 in a spiral shape also makes it possible to reduce the speed of returning the light-shielding liquid.

In the present embodiment, thebottle body 10 may be formed in a rectangular parallelepiped or an ellipsoidal shape. As shown in FIG. 3, thecavity 30 is disposed in the wall of thebottle 10 on the side of the gradual change.

In order to ensure that the light-shielding liquid is light-tight, has enough mass under the action of gravity and does not have the phenomenon of wall hanging in thecavity 30, the light-shielding liquid is made of mercury which has good light-shielding property and can completely block ultraviolet rays and reflect a large amount of visible light. In addition, thecavity 30 can be completely filled with mercury and pure water, a user can observe the nail polish in the nail polish bottle through the pure water, and the complete filling of the mercury and the pure water can increase the resistance when the mercury flows and avoid the mercury from flowing too fast.

Theshading cavity 31 is a flat cavity with a larger section, and the design is that the bottle wall where the shading cavity is located is easy to break due to external force such as impact, so a thickening layer protruding outwards for enhancing the falling-resistant strength is arranged on thebottle body 10 where theshading cavity 31 is located.

The above description of the preferred embodiments of the present invention is provided to enable those skilled in the art to make various changes and modifications without departing from the spirit of the present invention, and these changes and modifications should be construed as being included in the scope of the present invention.

Claims (1)

1. The utility model provides a take shading nail polish bottle of perspective window, includes transparent bottle (10) and bottle lid, its characterized in that: the anti-fake bottle is characterized by further comprising a light shielding layer used for shielding light on the surface of the bottle body (10), wherein a transparent window (20) which is hollowed and penetrates through the bottle body (10) to observe the interior of the bottle body (10) is arranged on the light shielding layer, and the transparent window (20) extends from the top of the bottle body (10) to the bottom of the bottle body (10);

a closed cavity (30) is arranged in the bottle wall of the bottle body (10), and light-tight shading liquid is filled in the cavity (30); the cavity (30) comprises a flow channel (32), a shading cavity (31) and an indwelling cavity (33), one end of the flow channel (32) is connected with the shading cavity (31), the other end of the flow channel (32) is connected with the indwelling cavity (33), a blocking piece (35) used for preventing shading liquid in the indwelling cavity (33) from flowing back to the shading cavity (31) is arranged in the flow channel (32), the shading cavity (31) is flat, and the shading cavity (31) is attached to the perspective window (20) and has the same shape as the perspective window;

a backflow channel (34) for backflow of the shading liquid is arranged between the shading cavity (31) and the retention cavity (33), one end of the backflow channel (34) is communicated with the bottom of the retention cavity (33), the other channel of the backflow channel (34) is communicated with the bottom of the shading cavity (31), and the bottom of the retention cavity (33) is higher than the bottom of the shading cavity (31);

the diameter of the return channel (34) is smaller than the diameter of the flow channel (32); the backflow channel (34) is spiral;

the bottle body (10) is arranged in an ellipsoidal structure;

the cavity (30) is arranged in the bottle wall on the gently-changing side of the bottle body (10);

the light shading liquid is mercury, and the cavity (30) is completely filled with mercury and pure water;

the bottle body (10) where the shading cavity (31) is located protrudes outwards to form a thickening layer for enhancing the falling-resistant strength;

when the nail polish bottle is inclined to one side with the retention cavity (33), the shading liquid flows into the retention cavity (33) along the flow channel (32), and after the shading liquid flows into the retention cavity (33), the shading liquid does not exist in the shading cavity (31), so that a user can observe the color, the using amount and the residual amount of the nail polish in the nail polish bottle through the perspective window (20).

Images