CN219237729U

CN219237729U - Combined bottle-in-bottle

Info

Publication number: CN219237729U
Application number: CN202320065728.7U
Authority: CN
Inventors: 罗田
Original assignee: Chengdu Seariver Closures Co ltd
Current assignee: Chengdu Seariver Closures Co ltd
Priority date: 2023-01-10
Filing date: 2023-01-10
Publication date: 2023-06-23
Anticipated expiration: 2033-01-10

Abstract

The utility model discloses a combined bottle-in-bottle, which comprises an outer bottle, wherein the outer bottle comprises a bottle body, the upper part of the bottle body is provided with a bottle opening, and a bottle cap for opening or closing the bottle opening is arranged at the bottle opening; the outer wall of the bottle body is sunken towards the inside of the bottle body, and a storage groove is formed; the inner bottle is arranged in the storage tank and is detachably connected with the outer bottle through a connecting structure; the inner bottle comprises a bottle body, a discharge hole communicated with the inner cavity of the bottle body is formed in one axial end of the bottle body, and a first cover body for opening or closing the discharge hole is arranged on the bottle body. The user can pour the liquid or powder content into the outer bottle to prepare the beverage. Has the advantages of convenient carrying, simple operation, easy implementation and the like.

Description

Combined bottle-in-bottle

Technical Field

The utility model relates to a packaged product, in particular to a combined bottle-in-bottle.

Background

The beverage mainly comprises a prepared beverage and a beverage which needs to be drunk at present. Aiming at the beverage which needs to be drunk at present, the beverage can be manufactured in a home or a beverage shop. If the instant drink is to be drunk in the road without beverage shop, the container is used for containing honey, coffee powder and the like, the honey, the coffee powder and the like are poured into another bottle, and then the honey, the coffee powder and the like are uniformly mixed with the milk, the water and other solutions in the bottle. Has the defect of inconvenient carrying.

Patent document 201610960750.2 discloses a water bottle capable of storing tea bags, specifically, a part of the water bottle forms a storage groove for storing tea bags combined by cover parts, the tea bags are separated, after the water bottle cover is removed, the water bottle is combined instead of the cover, so that the content in the tea bags is soaked in water to prepare the water bottle capable of storing tea bags for drinking various kinds of tea or beverage. However, the above-mentioned tea bag includes a filter member suitable for storing solid contents such as tea leaves, honeysuckle flowers, chrysanthemum flowers, etc., and is not suitable for storing liquid and powdery contents such as honey, coffee powder, fruit powder, etc.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a combined bottle-in-bottle which is convenient for a user to pour liquid or powder contents into an outer bottle for preparing the beverage.

The technical scheme adopted for solving the technical problems is as follows: the combined bottle-in-bottle comprises an outer bottle, wherein the outer bottle comprises a bottle body, a bottle opening is formed in the upper part of the bottle body, and a bottle cap for opening or closing the bottle opening is arranged at the bottle opening; the outer wall of the bottle body is recessed towards the inside of the bottle body, and a storage groove is formed; the inner bottle is arranged in the storage groove and is detachably connected with the outer bottle through a connecting structure;

the inner bottle comprises a bottle body, a discharge hole communicated with an inner cavity of the bottle body is formed in one end of the bottle body in the axial direction of the bottle body, and a first cover body for opening or closing the discharge hole is arranged on the bottle body.

Further, the first cover body and the bottle body are provided with a sliding block sliding groove structure which is matched with each other in the adjacent peripheral surface position, a sliding groove of the sliding block sliding groove structure extends along the spiral direction around the axis L of the bottle body, and both ends of the sliding groove are provided with blocking surfaces for preventing the sliding block from falling out of the sliding groove;

the side wall of the first cover body is provided with a through hole;

when the first cover body is positioned at the initial position, the side wall of the bottle body seals the through hole, and the first cover body seals the discharge hole; when the first cover body moves along the axis L relative to the bottle body along the sliding groove, the through hole is communicated with the discharge hole.

Further, the bottom wall of the bottle body is recessed towards the inside of the bottle body, and a storage groove which is coaxially arranged with the bottle body is formed;

the inner bottle and the outer bottle are coaxially arranged.

Further, the cross section of the storage groove is of a circular structure.

Further, the outer peripheral surface of the first cover body is detachably connected with the bottle body through a connecting structure.

Further, the connecting structure is a threaded structure.

Further, the feeding hole is formed in one end, far away from the discharging hole, of the bottle body, and a second cover body for opening or closing the feeding hole is arranged on the bottle body.

Further, the first cover body faces into the storage groove, and the second cover body faces out of the storage groove.

Further, a blocking part is arranged on the first cover body, and the blocking part is matched with the discharge hole;

when the first cover body is located at the initial position, the blocking part blocks the discharge hole.

Further, the blocking part and the first cover body are of an integrally formed integral structure.

Compared with the prior art, the utility model has the beneficial effects that: the utility model provides a combined bottle-in-bottle which is convenient for a user to pour liquid or powder contents into an outer bottle for preparing beverage. Has the advantages of convenient carrying, simple operation, easy implementation and the like.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the outer bottle of the present utility model;

FIG. 3 is a schematic view of the structure of the present utility model with the inner bottle closed;

FIG. 4 is a schematic view of the structure of the present utility model when the inner bottle is opened;

reference numerals: 1-an outer bottle; 101-a bottle body; 102-bottle cap; 103-a storage tank; 2-an inner bottle; 3-a bottle body; 301-a discharge hole; 4-a first cover; 401-a through hole; 402-occlusion; 5-a slider; 6-sliding grooves; 7-a second cover; 8-connection structure; 801-internal thread structure; 802-external thread structure.

Detailed Description

The utility model will be further described with reference to the drawings and examples.

The combined bottle-in-bottle comprises an outer bottle 1, wherein the outer bottle 1 comprises a bottle body 101, a bottle opening is formed in the upper part of the bottle body 101, and a bottle cap 102 for opening or closing the bottle opening is arranged at the bottle opening; the outer wall of the bottle body 101 is recessed toward the inside thereof, and a storage groove 103 is formed; the inner bottle 2 is arranged in the storage groove 103 and is detachably connected with the outer bottle 1 through a connecting structure 8; the inner bottle 2 comprises a bottle body 3, a discharge hole 301 communicated with the inner cavity of the bottle body 3 is formed in one end of the bottle body along the axial direction of the bottle body 3, and a first cover body 4 for opening or closing the discharge hole 301 is arranged on the bottle body 3.

The body 101 of the outer bottle 1 provides mounting support for the inner bottle 2 and the storage tank 103 is used for storing the inner bottle 2. The inner bottle 2 comprises a bottle body 3, and the bottle body 3 is filled with liquid and powder contents such as honey, coffee powder, fruit powder and the like. The first cover 4 is used for opening or closing the discharge opening 301 on the bottle body 3. The first cover 4 and the bottle cap 102 are opened, and liquid and powder contents such as honey, coffee powder, fruit powder and the like can be poured out through the discharge port 301, so that the contents in the bottle body 3 are poured into the bottle body 101 from the bottle mouth. The first cover 4 is closed, the inner bottle 2 is mounted in the storage groove 103, and the inner bottle 2 and the bottle body 101 form stable connection through the connecting structure 8.

The first cap 4 for opening or closing the discharge port 301 is mounted on the bottle body 3, and has various embodiments:

in the first embodiment, the first cover 4 is detachably connected with the bottle body 3 at the discharge hole 301 through a clamping block and clamping groove structure.

In the second embodiment, the first cover 4 is detachably connected to the bottle body 3 through a screw structure at the discharge port 301.

In the third embodiment, the first cover 4 and the bottle body 3 are provided with a sliding block sliding groove structure in adjacent circumferential positions, a sliding groove 6 of the sliding block sliding groove structure extends along a spiral direction around an axis L of the bottle body 3, and both ends of the sliding groove 6 are provided with blocking surfaces for preventing the sliding block 5 from being separated from the sliding groove 6; a through hole 401 is formed in the side wall of the first cover body 4; when the first cover 4 is located at the initial position, the side wall of the bottle body 3 seals the through hole 401, and the first cover 4 seals the discharge hole 301; when the first cover 4 moves along the sliding groove 6 relative to the bottle body 3 along the axis L, the through hole 401 is communicated with the discharge hole 301. By providing the slider chute structure, the first cover 4 and the body 3 can be displaced relative to each other along the axis L of the body 3. The blocking surface can block the slide 5 from coming out of the slide groove 6. When the first cover 4 is located at the initial position, the through hole 401 is blocked by the side wall of the bottle body 3, so that the content in the bottle body 3 is prevented from being poured out through the discharge hole 301 and the through hole 401. When the first cover 4 moves along the chute 6 relative to the bottle body 3 along the axis L, the through hole 401 is communicated with the discharge hole 301, and the content in the bottle body 3 is poured out through the discharge hole 301 and the through hole 401.

When the sliding block 5 of the sliding block sliding groove structure is arranged on the inner peripheral surface of the first cover body 4, the sliding groove 6 of the sliding block sliding groove structure is arranged on the outer peripheral surface of the bottle body 3; when the slider 5 of the slider chute structure is disposed on the outer peripheral surface of the bottle body 3, the chute 6 of the slider chute structure is disposed on the inner peripheral surface of the first cover body 4.

The sidewall of the bottle 101 may be recessed toward the inside thereof and form a storage groove 103. Preferably, the bottom wall of the bottle body 101 is recessed toward the inside thereof, and a storage groove 103 is formed coaxially with the bottle body 101; the inner bottle 2 is coaxially installed with the outer bottle 1.

As a further preferred aspect, the cross section of the storage groove 103 is a circular structure.

The outer peripheral surface of the bottle body 3 may be detachably connected with the bottle body 101 through the connection structure 8, and preferably, the outer peripheral surface of the first cover body 4 is detachably connected with the bottle body 101 through the connection structure 8.

The connection structure 8 may be a clamping block slot structure, and preferably, the connection structure 8 is a threaded structure. Specifically, the connection structure 8 includes a threaded mating external thread structure 802 and an internal thread structure 801; the external thread structure 802 is disposed on the outer peripheral surface of the first cover 4 and is located at one end of the first cover 4 adjacent to the second cover 7; the internal thread structure 801 is provided on the bottle body 101, and the internal thread structure 801 is arranged along the circumferential direction of the storage groove 103 and is arranged adjacent to the open end of the storage groove 103.

The contents can be filled into the body 3 through the through-hole 401 and the discharge port 301, but there is a disadvantage in that the operation is inconvenient. In order to facilitate the loading of the contents into the bottle body 3, preferably, a feed port is formed at an end of the bottle body 3 remote from the discharge port 301, and a second cover 7 for opening or closing the feed port is mounted on the bottle body 3. The feeding port is communicated with the inner cavity of the bottle body 3, the second cover body 7 is opened, the content is filled into the bottle body 3, and then the second cover body 7 is tightly covered. The detachable installation of the second cover body 7 and the bottle body 3 has various embodiments, and can be detachably installed through a thread structure or a clamping block and clamping groove structure.

The first cover 4 and the second cover 7 are respectively positioned at two axial ends of the bottle body 3.

Preferably, the first cover 4 faces the inside of the storage tank 103, and the second cover 7 faces the outside of the storage tank 103.

When the first cover 4 is located at the initial position, in order to improve the plugging effect of the first cover 4 on the discharge port 301, it is preferable that a plugging portion 402 is provided on the first cover 4, and the plugging portion 402 is adapted to the discharge port 301; when the first cover 4 is located at the initial position, the blocking portion 402 blocks the discharge port 301. By providing the blocking portion 402 on the first cover 4, when the first cover 4 is located at the initial position, the blocking effect on the discharge port 301 is improved.

The blocking portion 402 may be a block structure adhesively connected to the first cover 4, and preferably, the blocking portion 402 and the first cover 4 are integrally formed as a whole.

The foregoing is a description of embodiments of the present utility model, and it will be apparent from the practice of the present utility model to provide a combination bottle-in-bottle that facilitates the pouring of liquid or powdered contents into an outer bottle by a user for ready-to-brew beverages. Has the advantages of convenient carrying, simple operation, easy implementation and the like.

Claims

1. The combined bottle-in-bottle comprises an outer bottle (1), wherein the outer bottle (1) comprises a bottle body (101), a bottle opening is formed in the upper part of the bottle body (101), and a bottle cap (102) for opening or closing the bottle opening is arranged at the bottle opening; the outer wall of the bottle body (101) is recessed towards the inside of the bottle body, and a storage groove (103) is formed; the method is characterized in that: the inner bottle (2) is arranged in the storage groove (103) and is detachably connected with the outer bottle (1) through a connecting structure (8);

the inner bottle (2) comprises a bottle body (3), a discharge hole (301) communicated with an inner cavity of the bottle body is formed in one axial end of the bottle body (3), and a first cover body (4) for opening or closing the discharge hole (301) is arranged on the bottle body (3).

2. The combination bottle-in-bottle of claim 1, wherein: the bottle comprises a bottle body (3) and a first cover body (4), wherein the first cover body and the bottle body (3) are provided with slide block slide groove structures which are matched for use at adjacent peripheral positions, a slide groove (6) of each slide block slide groove structure extends along a spiral direction around an axis L of the bottle body (3), and both ends of each slide groove (6) are provided with blocking surfaces for preventing the slide block (5) from falling out of the slide groove (6);

the side wall of the first cover body (4) is provided with a through hole (401);

when the first cover body (4) is positioned at the initial position, the side wall of the bottle body (3) is used for sealing the through hole (401), and the first cover body (4) is used for sealing the discharge hole (301); when the first cover body (4) generates displacement along the axis L relative to the bottle body (3) along the sliding groove (6), the through hole (401) is communicated with the discharge hole (301).

3. The combination bottle-in-bottle of claim 2, wherein: the bottom wall of the bottle body (101) is recessed towards the inside of the bottle body, and a storage groove (103) which is coaxially arranged with the bottle body (101) is formed;

the inner bottle (2) and the outer bottle (1) are coaxially arranged.

4. A combination bottle-in-bottle as claimed in claim 3, wherein: the cross section of the storage groove (103) is of a circular structure.

5. The combination bottle-in-bottle of claim 4, wherein: the outer peripheral surface of the first cover body (4) is detachably connected with the bottle body (101) through a connecting structure (8).

6. The combination bottle-in-bottle of claim 5, wherein: the connecting structure (8) is a threaded structure.

7. The combination bottle-in-bottle of claim 1, wherein: the bottle body (3) is far away from one end of the discharge hole (301) is provided with a feed inlet, and a second cover body (7) for opening or closing the feed inlet is arranged on the bottle body (3).

8. The combination bottle-in-bottle of claim 7, wherein: the first cover body (4) faces towards the inside of the storage groove (103), and the second cover body (7) faces towards the outside of the storage groove (103).

9. The combination bottle-in-bottle of claim 1, wherein: a plugging part (402) is arranged on the first cover body (4), and the plugging part (402) is matched with the discharge hole (301);

when the first cover body (4) is positioned at the initial position, the blocking part (402) blocks the discharge hole (301).

10. The combination bottle-in-bottle of claim 9, wherein: the blocking part (402) and the first cover body (4) are of an integrally formed integral structure.