CN220148064U - Split charging type beverage bottle - Google Patents

Abstract

The utility model discloses a split charging type beverage bottle, which comprises a bottle body, a bottle cap and a container sleeve, wherein a through container sleeve is arranged between the bottle cap and the bottle body; the container kit comprises a main container, an auxiliary container and a connecting piece, wherein the side surface of the main container is provided with a clamping ring, and the upper end and the lower end of the auxiliary container respectively protrude towards the periphery and are clamped with the main container to form a containing cavity; when the bottle cap is not opened, the lower end of the auxiliary container protrudes out and is in sealing connection with the clamping ring of the main container, a discharge hole is formed in the side face of the auxiliary container, an annular step is arranged in the main container, a limiting ring matched with the annular step is arranged on the connecting piece, the bottle cap drives the connecting piece to push out the auxiliary container, the upper end of the auxiliary container is clamped with the main container, and solute in the accommodating cavity is released from the discharge hole. The storage of the solvent separately from the solute increases the shelf life of the solution. The mode that the bottle cap drives the auxiliary container to move avoids the isolating film from falling into the solvent. When drinking, the solution flows out from the bottle mouth after passing through the containing cavity, and the residual solute can be further dissolved in the process of passing through the containing cavity, so that waste is avoided.

Description

Split charging type beverage bottle

Technical Field

The utility model relates to the field of beverage processing and packaging, in particular to a split-type beverage bottle.

Background

Along with the improvement of living standard, people are more and more careful about health, for example, drinks such as honey water are not easy to store, and solutes such as honey or probiotics and the like are required to be stored separately from solvents.

In the prior art, a containing cavity is generally formed by arranging an isolating membrane on a bottle cap, the bottle cap drives a blade to rotate to cut and open the isolating membrane, and solute in the containing cavity is put into a solvent to finally form a beverage. The blade cuts the isolation film and can lead to the isolation film to fall into the solvent, greatly reduces consumer experience and satisfaction, and has the residual of solute on the isolation film, causes the waste.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model provides the split-charging type beverage bottle which has the advantages of prolonged shelf life, simple operation, improved consumption satisfaction and waste avoidance.

The technical problems are solved, and the utility model is solved by the following technical scheme: a split charging type beverage bottle which is characterized in that: comprises the following steps of

A bottle body;

a container sleeve is arranged between the bottle cap and the bottle body;

the container sleeve comprises a main container, an auxiliary container and a connecting piece, wherein the inside of the container sleeve is communicated, a clamping ring is arranged on the side surface of the main container, and the upper end and the lower end of the auxiliary container are respectively protruded towards the periphery and are clamped with the main container; the container is characterized in that the side face of the main container and the bottom face of the auxiliary container form a containing cavity, when the container suite is not opened, the lower end of the auxiliary container protrudes out and is in sealing connection with the clamping ring of the main container, the side face of the auxiliary container is provided with a discharge hole, an annular step is arranged in the main container, a limit ring matched with the annular step is arranged on the connecting piece, the bottle cap drives the connecting piece to push out the auxiliary container, the upper end of the auxiliary container protrudes out and is clamped with the clamping ring of the main container, and solute in the containing cavity is released from the discharge hole.

The auxiliary container is completely sleeved in the main container in the initial state, a sealed containing cavity is formed, and the solute is stored in the containing cavity. The bottle cap drives the connecting piece to push out a part of the auxiliary container by rotating clockwise or pressing the connecting piece, so that solute in the containing cavity is put into solvent in the bottle body through the discharge hole, and the preparation of the solution is completed. The solute and the solvent are stored separately, so that the shelf life of the solution is prolonged. The mode that the bottle cap drives the auxiliary container to open the accommodating cavity avoids the isolating film falling into the solvent, and the experience and satisfaction of consumers are improved.

Preferably, the bottle cap is provided with a working baffle, the end face of the working baffle is an end face cam, the connecting piece is provided with threads matched with the track of the end face cam, a limit strip is arranged between two ends of the threads, and the connecting piece is rotatably arranged on the bottle cap. The connecting piece is in line contact with the cylindrical end surface of the cam, and the rotary bottle cap drives the connecting piece to rotate in or out, so that the operation is simple and convenient.

Preferably, a positioning column is arranged at the center of the working baffle of the bottle cap. The locating column is convenient for sleeving the connecting piece into the cam cylinder.

Preferably, the annular step of the main container is provided with a vertical limit groove, the corresponding position of the connecting piece is provided with a convex strip, and the connecting piece is arranged in the main container in a sliding manner. The limiting groove can ensure that the connecting piece can slide up and down in the main container through the convex strips, and stability of the connecting piece during action is ensured.

Preferably, the container suite is in threaded connection with the bottle cap and the bottle body through the main container, the upper end of the main container is connected with the bottle cap, the lower end of the main container is connected with the bottle body, and the rotation directions of threads at the upper end and the lower end of the main container are opposite. The screw threads at the two ends of the bottle cap rotate in opposite directions, so that the locking state between the main container and the bottle body can not be opened when the bottle cap is rotated to open the accommodating cavity, and solute can smoothly enter the solvent of the bottle body.

Preferably, the main container is hollow, and the main container, the discharge hole of the auxiliary container and the bottle body form a drinking channel. The mixed solution passes through the accommodating cavity and finally flows out of the bottle mouth of the container kit, so that residual solute can be further dissolved in the process of passing through the accommodating cavity, and waste is avoided.

Drawings

Fig. 1 is an exploded view of the present utility model.

Fig. 2 is a schematic view of the structure of the bottle cap of the present utility model.

Fig. 3 is a schematic structural view of the main container of the present utility model.

FIG. 4 is a cross-sectional view of the main container D-D of the present utility model

Fig. 5 is a schematic view of the structure of the sub-tank of the present utility model.

Fig. 6 is a schematic structural view of the connector of the present utility model.

Fig. 7 is a schematic view of the structure of the protruding strip of the connector of the present utility model.

The names of the parts indicated by the numerical reference numerals in the above drawings are as follows:

wherein, 1, the bottle body; 2. a bottle cap; 21. a working baffle; 211. a cam end face; 3. a container kit; 31. a main container; 311. an annular step; 32. a sub-tank; 321. a discharge port; 33. a connecting piece; 331. a limit ring; 332. a thread; 333. a limit bar; 6. positioning columns; 7. a limit groove; 8. a convex strip.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings and examples.

The split charging type beverage bottle comprises a bottle body 1, a bottle cap 2 and a container sleeve 3, wherein the container sleeve 3 is arranged between the bottle cap 2 and the bottle body 1; the container set 3 comprises a main container 31, an auxiliary container 32 and a connecting piece 33, wherein the container set 3 is internally penetrated, clamping rings are arranged on the side surface of the main container 31, and the upper end and the lower end of the auxiliary container 32 respectively protrude towards the periphery and are clamped with the main container 31; the side of the main container 31 and the bottom of the auxiliary container 32 form a containing cavity, when the container sleeve 3 is not opened, the lower end of the auxiliary container 32 protrudes to be in sealing connection with the clamping ring of the main container 31, the side of the auxiliary container 32 is provided with a discharge hole 321, an annular step 311 is arranged in the main container 31, a limit ring 331 matched with the annular step 311 is arranged on a connecting piece 33, the bottle cap 2 drives the connecting piece 33 to push out the auxiliary container 32, the upper end of the auxiliary container 32 protrudes to be clamped with the clamping ring of the main container 31, and solute in the containing cavity is released from the discharge hole 321. The bottom of the main container 31 is provided with a clamping ring, and the outer protruding part of the upper end or the lower end of the auxiliary container 32 is clamped with the bottom of the main container 31. The auxiliary container 32 is completely sleeved in the main container 31 in an initial state to form a sealed accommodating cavity, the solute is stored in the accommodating cavity, the bottle cap 2 drives the connecting piece 33 to push out the auxiliary container 32 partially by rotating or pressing the connecting piece 33, so that the solute in the accommodating cavity is put into the solvent in the bottle body 1 through the discharge hole 321, and the preparation of the solution is completed.

Further, the bottle cap 2 is provided with a working baffle 21, the end face of the working baffle 21 is an end face cam, the connecting piece 33 is provided with a thread 332 matched with the track of the end face cam, a limit bar 333 is arranged between two end parts of the thread 332, and the connecting piece 33 is rotatably arranged on the bottle cap 2. The consumer rotates the closure 2 by hand and the connector 33 acts as a follower of the face cam which drives the connector 33 up and down. The working stop 21 is provided with a vertical end surface, and when the connecting piece 33 reaches the position, the limiting piece will block the working stop 21.

Further, a positioning column 6 is arranged at the center of the working baffle 21 of the bottle cap 2. The positioning column 6 is cylindrical and is matched with the cavity shape of the connecting piece 33, and the positioning column 6 is convenient for sleeving the connecting piece 33 into the cam cylinder.

Further, the annular step 311 of the main container 31 is provided with a vertical limit groove 7, the corresponding position of the connecting piece 33 is provided with a convex strip 8, and the connecting piece 33 is slidably arranged in the main container 31. The limit groove 7 can ensure that the connecting piece 33 slides up and down in the main container 31 through the raised strips 8, and ensures the stability of the connecting piece 33 during the action.

Further, the container set 3 is connected with the bottle cap 2 and the bottle body 1 through the main container 31 by threads 332, the upper end of the main container 31 is connected with the bottle cap 2, the lower end of the main container 31 is connected with the bottle body 1, and the threads 332 at the upper end and the lower end of the main container 31 rotate in opposite directions. The threads 332 at the two ends of the bottle cap 2 rotate in opposite directions, so that the locking state between the main container 31 and the bottle body 1 can not be opened while the bottle cap 2 is rotated to open the accommodating cavity, and solute can smoothly enter the solvent of the bottle body 1. For example, when it is necessary to release the locked state of the container set 3 and the body 1, the driving link 33 pushes the sub-container 32 by rotating the cap 2 clockwise; when the mixed solution needs to be drunk, the bottle cap 2 is opened by rotating anticlockwise.

Further, the main container 31 is hollow, and the main container 31, the discharge port 321 of the sub container 32 and the bottle body 1 form a drinking passage. The mixed solution passes through the accommodating cavity and finally flows out of the bottle mouth of the container kit 3, so that residual solute can be further dissolved in the process of passing through the accommodating cavity, and waste is avoided.

Example 1

The auxiliary container 32 is completely sleeved in the main container 31 to form a sealed containing cavity, the solute is stored in the containing cavity, the bottle cap 2 drives the connecting piece 33 to descend through clockwise rotation until the limit ring 331 of the connecting piece 33 reaches the annular step 311 of the main container 31, the connecting piece 33 is blocked from descending, and meanwhile, the bottle cap 2 is stopped from continuing to rotate when being resistant when rotating. The descending connector 33 pushes the auxiliary container 32 out of the main container 31 partially, so that the solute in the accommodating cavity is put into the solvent in the bottle body 1 through the discharge hole 321, and the preparation of the solution is completed. By opening the cap 2 counterclockwise, the solution can flow out through the outlet 321 of the sub container 32 to the bottle mouth.

Example 2

The auxiliary container 32 is completely sleeved in the main container 31 in the initial state to form a sealed accommodating cavity, the solute is stored in the accommodating cavity, a rubber layer is arranged on the bottle cap 2, the connecting piece 33 is fixedly connected with the rubber layer, and when the limiting ring 331 of the connecting piece 33 reaches the annular step 311 of the main container 31 by pressing the connecting piece 33, the connecting piece 33 is blocked from falling, namely, pressing is stopped. At this time, the sub-tank 32 is partially pushed out of the main tank 31, and the solute in the accommodating chamber is put into the solvent in the bottle body 1 through the discharge port 321, thereby completing the preparation of the solution. By opening the cap 2 counterclockwise, the solution can flow out through the outlet 321 of the sub container 32 to the bottle mouth.

In the description of the present utility model, it should be understood that the terms "center," "length," "width," "thickness," "upper," "lower," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In summary, the foregoing description is only of the preferred embodiments of the present utility model, and all equivalent changes and modifications made in accordance with the claims should be construed to fall within the scope of the utility model.

Claims (6)

1. A split charging type beverage bottle which is characterized in that: comprises the following steps of

A bottle body (1);

a container sleeve (3) is arranged between the bottle cap (2) and the bottle body (1);

the container set (3) comprises a main container (31), an auxiliary container (32) and a connecting piece (33), wherein the container set (3) is internally communicated, clamping rings are arranged on the side face of the main container (31), and the upper end and the lower end of the auxiliary container (32) are respectively protruded towards the periphery and are clamped with the main container (31); the side of main container (31) forms with auxiliary container (32) bottom surface and holds the chamber, and auxiliary container (32) lower extreme protrusion and the joint circle sealing connection of main container (31) when container external member is unopened, auxiliary container (32) side is equipped with discharge gate (321), main container (31) inside is equipped with annular step (311), be equipped with on connecting piece (33) with annular step (311) matched with spacing collar (331), bottle lid (2) drive connecting piece (33) release auxiliary container (32), then the joint circle joint of auxiliary container (32) upper end protrusion and main container (31), hold the solute in the chamber and release from the discharge gate.

2. The split beverage bottle according to claim 1, wherein: be equipped with work separation blade (21) on bottle lid (2), work separation blade (21) terminal surface is the terminal surface cam, be equipped with on connecting piece (33) with terminal surface cam orbit matched with screw thread (332), be equipped with spacing (333) between screw thread (332) both ends, connecting piece (33) rotate and set up on bottle lid (2).

3. The split beverage bottle according to claim 2, wherein: the center of the working baffle (21) of the bottle cap (2) is provided with a positioning column (6).

4. The split beverage bottle according to claim 1, wherein: the annular step (311) of the main container (31) is provided with a vertical limit groove (7), the corresponding position of the connecting piece (33) is provided with a convex strip (8), and the connecting piece (33) is arranged in the main container (31) in a sliding way.

5. The split beverage bottle according to claim 1, wherein: the container external member (3) is connected with bottle lid (2) and body (1) screw thread (332) through main container (31), main container (31) upper end is connected with bottle lid (2), main container (31) lower extreme is connected with body (1), screw thread (332) rotation direction at both ends are opposite about main container (31).

6. The split beverage bottle according to claim 1, wherein: the inside of the main container (31) is hollow, and a drinking channel is formed among the inside of the main container (31), the discharging hole (321) of the auxiliary container (32) and the inside of the bottle body (1).