CN221059840U - Foam pump container bottle with rotary-open type double-cavity structure - Google Patents

Abstract

The utility model discloses a foam pump container bottle with a rotary-open type double-cavity structure, which comprises a distributor device, an inner bottle device and an outer bottle, wherein the inner bottle device is arranged in the outer bottle, the lower end of the distributor device passes through the inner bottle device and is communicated with the inner part of the outer bottle, an inner cavity is arranged in the inner bottle device, a bottom plug for sealing the inner cavity is arranged at the bottom of the inner cavity, the distributor device comprises a transmission shaft which translates downwards to enable the bottom plug to be separated from the inner cavity, a rotary tooth sleeve which provides force for the transmission shaft when rotating, and a buckle type rotating shaft which provides an arc inclined guide rail for the transmission shaft when rotating; according to the utility model, the foam pump container bottle is provided with the plurality of cavities for storing different cosmetic solutions, so that a user can obtain various cosmetic effects; through transmission shaft, rotatory facing and the rotatory cooperation of buckle formula, the user can twist reverse rotatory facing and make the inner chamber of container bottle open in order to realize the mixing of multiple cosmetic liquid, avoids taking place simultaneously to make its inner chamber open by oneself the condition because of the interference of external factor to the container bottle.

Description

Foam pump container bottle with rotary-open type double-cavity structure

Technical Field

The utility model relates to the technical field of cosmetics, in particular to a foam pump container bottle with a rotary-open type double-cavity structure.

Background

Along with the gradual improvement of the living standard of people, people pay more attention to maintaining the image of the people, the development of the cosmetic industry is very rapid, most cosmetics are provided with corresponding container bottle packages, the container bottle is internally provided with cosmetic liquid, the cosmetic liquid is taken out from the container bottle for coating when the cosmetic liquid is used, the existing container bottle also has various types, such as a foam container bottle, a liquid squeezing container bottle, a spray container bottle and the like, and different types of container bottles have different coating modes and coating effects.

The structure of the existing foam container bottle is simpler, the functional effect is single, and for other practical functions, for example, most of foam container bottles can only store one cosmetic liquid, the cosmetic effect is single, and the increasing cosmetic demands of people cannot be met; the inside multiple cosmetic liquid that is provided with of some foam container bottle makes different cosmetic liquids mix in the cosmetic bottle through the open cavity structure in order to obtain multiple make-up effect, but because its open cavity structure's crude nature, this kind of open cavity structure is mostly extrusion open cavity structure, open cavity structure often can open the cavity by oneself under the interference of various external factors, for example when going out, the foam container bottle in the knapsack receives the excessive extrusion of other article and makes its inside open cavity structure open by oneself, still foam container bottle carelessly drops when making its inside open cavity by oneself because of the shock when on the ground, these circumstances lead to the user unable according to the inside cavity of self-opening foam container bottle, and then the user can't obtain the required make-up effect of oneself.

Disclosure of utility model

In order to solve the problems in the prior art, the utility model aims to provide a foam pump container bottle with a rotary-open type double-cavity structure, and a rotary tooth socket is arranged in the foam pump container bottle, so that a user can automatically twist the rotary tooth socket to open the inner cavity of the container bottle, the cosmetic liquid stored in the inner cavity is mixed with the cosmetic liquid stored in an outer bottle, various cosmetic effects are obtained, and meanwhile, the condition that the inner cavity of the container bottle is automatically opened due to the interference of external factors can be avoided.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

The utility model provides a foam pump container bottle with revolve open type double-cavity structure, includes distributor device, interior bottle device and outer bottle, the inside of outer bottle is located to interior bottle device, the lower extreme of distributor device passes interior bottle device and communicates with outer bottle is inside, the inside of interior bottle device is equipped with the inner chamber, the bottom of inner chamber is equipped with the bottom plug that is used for sealed inner chamber, distributor device includes the rotatory facing that makes the bottom plug break away from the inner chamber, provides power for the transmission shaft when rotatory, provides the buckle formula rotation axis of circular arc oblique guide rail for the transmission shaft when rotatory, the upper end joint of transmission shaft is in the inboard of rotatory facing, the lower extreme and the interior bottle device of transmission shaft meet, one side and the transmission shaft of buckle formula rotation axis meet, the opposite side and the inboard of rotatory facing of buckle formula rotation axis meet.

Further, a limiting groove is formed in the rotary tooth socket, the transmission shaft and the buckle type rotary shaft are both arranged in the limiting groove, and a guiding bone position is arranged in the limiting groove; the inside of transmission shaft is equipped with the interior bone position of transmission shaft, the outside of transmission shaft is equipped with the outer bone position of transmission shaft, the mutual contact of guide bone position and the interior bone position of transmission shaft.

Further, the arc inclined guide rail is arranged in the buckle type rotating shaft, and the transmission shaft outer bone is arranged above the top point of the arc inclined guide rail and connected with the top point of the arc inclined guide rail.

Further, the inner bottle device also comprises a pushing shaft, the upper end of the pushing shaft is in contact with the transmission shaft, and the lower end of the pushing shaft is fixedly connected with the bottom plug.

Further, the distributor device further comprises a foam pump and a buckle type outer bottle screw tooth piece, the foam pump is sleeved in the rotary tooth socket, the buckle type outer bottle screw tooth piece is fixedly clamped with the buckle type rotary shaft, and the distributor device is connected with the outer bottle screw through the buckle type outer bottle screw tooth piece.

Further, a gasket is arranged between the buckle type outer bottle screw tooth piece and the outer bottle.

Further, the lower extreme of foam pump is connected with the straw, the foam pump passes through straw and outer bottle intercommunication.

Further, a top cover is covered on the foam pump, and a foam nozzle is arranged at the top end of the foam pump.

Further, the buckle type rotary shaft can be replaced by a screw type rotary shaft, the buckle type outer bottle screw piece can be replaced by a screw type outer bottle screw piece, and the screw type rotary shaft is in screw connection with the screw type outer bottle screw piece.

The utility model has the beneficial effects that:

(1) According to the utility model, the inner cavity and the outer bottle are arranged in the foam pump container bottle, the bottom of the inner cavity is provided with the bottom plug to isolate the inner cavity from the outer bottle, so that the inner cavity and the outer bottle can store different cosmetic solutions, the inner cavity is opened by twisting the rotary tooth socket, the cosmetic solutions in the inner cavity are mixed with the cosmetic solutions in the outer bottle, a user can obtain various cosmetic effects, and the cosmetic requirements of the user are met;

(2) The distributor device comprises the rotary tooth socket, the buckle type rotary shaft and the transmission shaft, through the cooperation of the rotary tooth socket, a user can automatically open the inner cavity of the container bottle in a way of twisting the rotary tooth socket, so that the cosmetic liquid stored in the inner cavity is mixed with the cosmetic liquid stored in the outer bottle to obtain various cosmetic effects, meanwhile, the condition that the inner cavity of the container bottle is automatically opened due to the interference of external factors can be avoided, the consumption rate of the cosmetic liquid in the container bottle is reduced, and the user can open the inner cavity of the container bottle according to own will to obtain the required cosmetic effects;

(3) The dispenser device and the inner bottle device are independent modules, can be freely separated, have higher adaptability, are suitable for most multi-cavity container bottles on the market, can be continuously used by replacing a new inner bottle device after the cosmetic liquid stored in the inner cavity is used up, and have the advantages of being sustainable in use and environment-friendly.

Drawings

FIG. 1 is a schematic diagram showing the separation and overall structure of a foam pump container bottle according to the present utility model;

FIG. 2 is a schematic view of the dispenser assembly, the inner bottle assembly and the outer bottle of the present utility model in cross-section;

FIG. 3 is a schematic view showing the overall structure of the foam pump container bottle of the present utility model in an inner cross-section;

FIG. 4 is a schematic view of the overall structure of the rotary shell, the snap-fit rotary shaft and the drive shaft and an internal cross-section thereof according to the present utility model;

FIG. 5 is a schematic view of the connection of the rotary shell, the snap-in rotary shaft and the drive shaft of the present utility model;

FIG. 6 is a schematic view of the inner cross-section of a foam pump container bottle of the present utility model with the rotary mouthpiece unscrewed;

Fig. 7 is an inner cross-sectional view of a screw-type rotary shaft, a screw-type outer bottle screw member and a connection schematic diagram thereof according to the present utility model.

In the figure, 1 is a distributor device, 101 is a transmission shaft, 1011 is a transmission shaft inner bone position, 1012 is a transmission shaft outer bone position, 102 is a rotary tooth socket, 1021 is a limit groove, 1022 is a guide bone position, 103 is a buckle type rotation shaft, 1031 is an arc inclined guide rail, 104 is a foam pump, 1041 is a suction pipe, 1042 is a top cover, 1043 is a foam nozzle, 105 is a buckle type outer bottle screw, 106 is a screw type rotation shaft, 107 is a screw type outer bottle screw, 2 is an inner bottle device, 201 is an inner cavity, 202 is a bottom plug, 203 is a pushing shaft, 3 is an outer bottle, and 4 is a gasket.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1-7, in the embodiment of the utility model, there is provided a foam pump container bottle with a rotary-open type double-cavity structure, which comprises a dispenser device 1, an inner bottle device 2 and an outer bottle 3, wherein the inner bottle device 2 is arranged in the outer bottle 3, the lower end of the dispenser device 1 passes through the inner bottle device 2 and is communicated with the inner part of the outer bottle 3, an inner cavity 201 is arranged in the inner bottle device 2, a bottom plug 202 for sealing the inner cavity 201 is arranged at the bottom of the inner cavity 201, the dispenser device 1 comprises a transmission shaft 101 which translates downwards to enable the bottom plug 202 to be separated from the inner cavity 201, a rotary tooth socket 102 for providing force for the transmission shaft 101 when rotating, and a buckle type rotary shaft 103 for providing an arc inclined guide rail 1031 for the transmission shaft 101 when rotating, wherein the upper end of the transmission shaft 101 is clamped on the inner side of the rotary tooth socket 102, the lower end of the transmission shaft 101 is connected with the inner bottle device 2, one side of the buckle type rotary shaft 103 is connected with the transmission shaft 101, and the other side of the buckle type rotary shaft 103 is connected with the inner side of the rotary tooth socket 102.

Specifically, the cosmetic liquid may be stored in both the inner chamber 201 and the outer bottle 3, and the cosmetic liquid stored in the inner chamber 201 and the cosmetic liquid stored in the outer bottle 3 may be of different types.

The inside of the rotary tooth socket 102 is provided with a limit groove 1021, the transmission shaft 101 and the buckle type rotary shaft 103 are arranged in the limit groove 1021, and a guide bone 1022 is arranged in the limit groove 1021; the inner side of the transmission shaft 101 is provided with a transmission shaft inner bone position 1011, the outer side of the transmission shaft 101 is provided with a transmission shaft outer bone position 1012, and the guiding bone position 1022 is contacted with the transmission shaft inner bone position 1011.

Specifically, the rotary dental mouthpiece 102 translates downward by rotating, and when translating downward, the guiding bone 1022 in the limiting slot 1021 contacts the inner bone 1011 of the transmission shaft 101, and the guiding bone 1022 applies pressure to the inner bone 1011 of the transmission shaft and translates the transmission shaft 101 downward.

The arc inclined guide 1031 of the utility model is arranged in the buckle type rotating shaft 103, and the transmission shaft outer bone 1012 is arranged above the top point of the arc inclined guide 1031 and connected with the top point.

Specifically, the number of the arc inclined guide rails 1031 is two, the two arc inclined guide rails 1031 are symmetrically arranged in the buckle type rotating shaft 103, the number of the outer bone positions 1012 of the transmission shaft is two, and the two outer bone positions 1012 of the transmission shaft are respectively connected above the vertexes of the two arc inclined guide rails 1031.

Specifically, when the transmission shaft 101 translates downward, the two outer bone portions 1012 of the transmission shaft 101 slide from top to bottom along the two arc inclined guide rails 1031 inside the snap-in rotation shaft 103, so as to change the motion track of the high-low head from point to point.

The bottle filling device 2 of the utility model further comprises a pushing shaft 203, the upper end of the pushing shaft 203 is mutually contacted with the transmission shaft 101, and the lower end of the pushing shaft 203 is fixedly connected with the bottom plug 202.

Specifically, when the transmission shaft 101 translates downward, the lower end of the transmission shaft 101 contacts with the upper end of the pushing shaft 203, the transmission shaft 101 applies pressure to the pushing shaft 203 and translates downward, the pushing shaft 203 drives the bottom plug 202 connected with the pushing shaft to translate downward, the bottom plug 202 is separated from the bottom of the inner cavity 201, the cosmetic liquid stored in the inner cavity 201 is released into the outer bottle 3, and the cosmetic liquid stored in the inner cavity 201 and the cosmetic liquid in the outer bottle 3 form a mixed cosmetic liquid.

The dispenser device 1 of the utility model further comprises a foam pump 104 and a clamping type outer bottle screw tooth piece 105, the foam pump 104 is sleeved in the rotary tooth socket 102, the clamping type outer bottle screw tooth piece 105 is fixedly clamped with the clamping type rotary shaft 103, and the dispenser device 1 is spirally connected with the outer bottle 3 through the clamping type outer bottle screw tooth piece 105.

Specifically, the gasket 4 is arranged between the clamping type outer bottle screw tooth piece 105 and the outer bottle 3, the gasket 4 can increase the contact area between the clamping type outer bottle screw tooth piece 105 and the outer bottle 3, reduce the pressure between the clamping type outer bottle screw tooth piece 105 and the outer bottle 3, and prevent loosening.

Specifically, the lower end of the foam pump 104 is connected with a suction pipe 1041, the foam pump 104 is communicated with the outer bottle 3 through the suction pipe 1041, the suction pipe 1041 can pump the cosmetic liquid in the outer bottle 3 into the foam pump 104, and the foam pump 104 converts the cosmetic liquid into cosmetic foam.

Specifically, a top cover 1042 is covered above the foam pump 104, a foam nozzle 1043 is provided at the top end of the foam pump 104, the top cover 1042 can isolate the foam pump 104 from the external environment to realize protection, and the foam nozzle 1043 can spray the cosmetic foam in the foam pump 104.

The buckle type rotary shaft 103 can be replaced by a screw type rotary shaft 106, the buckle type outer bottle screw 105 can be replaced by a screw type outer bottle screw 107, and the screw type rotary shaft 106 is in screw connection with the screw type outer bottle screw 107.

Referring to fig. 3-6, the working principle of the foam pump container bottle with the rotary-open type double-cavity structure of the utility model is as follows:

When the inner cavity 201 needs to be opened, a user turns the rotary tooth socket 102 in a unscrewing direction from the outside, the rotary tooth socket 102 drives the buckle type rotary shaft 103 to do rotary downward translational motion, the guiding bone position 1022 in the limiting groove 1021 also translates downward and contacts with the inner bone position 1011 of the transmission shaft 101, the guiding bone position 1022 applies pressure to the inner bone position 1011 of the transmission shaft and enables the transmission shaft 101 to translate downward as a whole, and at the moment, two outer bone positions 1012 of the transmission shaft outside the transmission shaft 101 respectively do rotary sliding from top to bottom along two sections of arc inclined guide rails 1031 inside the buckle type rotary shaft 103;

The transmission shaft 101 translates downwards for a certain distance and then contacts with the pushing shaft 203, and drives the pushing shaft 203 to translate downwards, the pushing shaft 203 drives the bottom plug 202 connected with the pushing shaft to translate downwards, so that the bottom plug 202 is separated from the bottom of the inner cavity 201, the cosmetic liquid stored in the inner cavity 201 is released into the outer bottle 3, and the cosmetic liquid stored in the inner cavity 201 and the cosmetic liquid stored in the outer bottle 3 form a mixed cosmetic liquid;

Finally, the user presses the top end of the foam pump 104, and the mixed cosmetic liquid is pumped into the foam pump 104 by the suction pipe 1041, and the foam pump 104 converts the mixed cosmetic liquid into cosmetic foam, and the cosmetic foam is sprayed from the foam nozzle 1043 to the outside.

According to the utility model, through the cooperation of the rotary tooth socket 102, the buckle type rotary shaft 103 and the transmission shaft 101, a user can open the inner cavity 201 of the container bottle by unscrewing according to own will, meanwhile, the condition that the inner cavity 201 of the container bottle is opened by itself due to the interference of external factors on the container bottle can be avoided, the consumption rate of cosmetic liquid in the container bottle is reduced, and the user can obtain the required cosmetic effect.

The foregoing detailed description of the utility model has been presented for purposes of illustration and description, but is not intended to limit the scope of the utility model, i.e., the utility model is not limited to the details shown and described.

Claims (9)

1. The utility model provides a foam pump container bottle with revolve open type double-cavity structure, its characterized in that, including distributor device, interior bottle device and outer bottle, interior bottle device locates the inside of outer bottle, the lower extreme of distributor device passes interior bottle device and communicates with the inside of outer bottle, the inside of interior bottle device is equipped with the inner chamber, the bottom of inner chamber is equipped with the bottom plug that is used for sealed inner chamber, distributor device includes the rotatory facing that makes the bottom plug break away from the inner chamber, provides power for the transmission shaft when rotatory, provides the buckle formula rotation axis of circular arc oblique guide for the transmission shaft when rotatory, the upper end joint of transmission shaft is in the inboard of rotatory facing, the lower extreme and the interior bottle device of transmission shaft meet, one side and the transmission shaft of buckle formula rotation axis meet, the opposite side and the inboard of rotatory facing of buckle formula rotation axis meet.

2. The foam pump container bottle with the rotary double-cavity structure according to claim 1, wherein a limit groove is formed in the rotary tooth socket, the transmission shaft and the buckle type rotary shaft are both arranged in the limit groove, and a guiding bone position is arranged in the limit groove; the inside of transmission shaft is equipped with the interior bone position of transmission shaft, the outside of transmission shaft is equipped with the outer bone position of transmission shaft, the mutual contact of guide bone position and the interior bone position of transmission shaft.

3. The foam pump container bottle with the rotary-open type double-cavity structure according to claim 1, wherein the arc inclined guide rail is arranged in the buckle type rotating shaft, and the transmission shaft exoskeleton is arranged above and connected with the top point of the arc inclined guide rail.

4. The foam pump container bottle with the swing-open type double-cavity structure according to claim 1, wherein the inner bottle device further comprises a pushing shaft, the upper end of the pushing shaft is in contact with the transmission shaft, and the lower end of the pushing shaft is fixedly connected with the bottom plug.

5. The foam pump container bottle with the rotary-open type double-cavity structure according to claim 1, wherein the dispenser device further comprises a foam pump and a clamping-type outer bottle screw, the foam pump is sleeved in the rotary tooth socket, the clamping-type outer bottle screw is fixedly clamped with the clamping-type rotary shaft, and the dispenser device is connected with the outer bottle screw through the clamping-type outer bottle screw.

6. The foam pump container bottle with the swing-open type double-cavity structure according to claim 5, wherein a gasket is arranged between the clamping type outer bottle screw tooth piece and the outer bottle.

7. The foam pump container bottle with the swing-open type double-cavity structure according to claim 5, wherein the lower end of the foam pump is connected with a suction pipe, and the foam pump is communicated with the outer bottle through the suction pipe.

8. The foam pump container bottle with the rotary-open type double-cavity structure according to claim 5, wherein a top cover is connected to the upper side of the foam pump, and a foam nozzle is arranged at the top end of the foam pump.

9. The foam pump container bottle with the rotary-open type double-cavity structure according to claim 5, wherein the buckle type rotary shaft can be replaced by a screw type rotary shaft, the buckle type outer bottle screw piece can be replaced by a screw type outer bottle screw piece, and the screw type rotary shaft is in screw connection with the screw type outer bottle screw piece.