CN220765256U - Instant-dispensing type drinking device - Google Patents

Abstract

The utility model relates to the field of drinking devices, and discloses a ready-to-drink drinking device. The end cover is connected with a storage barrel at the side close to the cavity of the storage chamber. The storage barrel is provided with a plurality of openings, so that water can conveniently enter the storage barrel and cold bubble objects can be prevented from escaping from the storage barrel. An inverted buckle structure is arranged between the end cover and the bottle body, and after the end cover is arranged in the bottle body, the end cover can not escape from the bottle body any more. When the end cover is blocked and separated from the storage room, the end cover assembly falls into the water body together to finish the water entering of the cold foam.

Description

Instant-dispensing type drinking device

Technical Field

The utility model discloses a drinking device, in particular to a ready-to-drink drinking device.

Background

The effective components in the cold foam can be prevented from being destroyed due to high-temperature extraction by effectively extracting the cold foam, and the effective components in the cold foam can be better extracted and used as a new drink which is gradually accepted by consumers due to health and novel taste.

The cold foam not only refers to cold tea, but also can be a compound cold foam, such as dried fruit, chinese medicinal materials, flavoring agent, etc.

In general, in order to extract the effective components in the cold foam faster, the cold foam needs to be subjected to high crushing treatment.

If the cold foam subjected to high crushing treatment is dispersed in the water body, the sensory experience is poor, so that the cold foam is not easy to disperse in the water body.

The cold brew may also be tea powder or beverage powder, etc., which may also be cold brew in the form of a tea bag for ease of metering and loading.

The cold foam and the high-quality mineral water are packaged in a portable drinking device, and are mixed only when being drunk, so that the requirements of health and convenience can be met.

However, the beverage industry has not yet seen this type of beverage.

Disclosure of Invention

Aiming at the defects in the existing cold foam industry, the utility model provides a convenient-to-carry instant drinking device which is instant-to-dispense type drinking device by mixing cold foam with water.

The technical scheme adopted by the utility model is as follows: comprises a bottle cap component and a bottle body. The bottle cap assembly at least comprises a bottle cap, a storage cylinder, an end cover and cold foam. The inner side of the bottle cap thread is provided with a semi-closed storage chamber which extends into the bottle mouth, and only one storage chamber port is arranged at the end extending into the bottle mouth. An end cover is arranged at the storage chamber port and seals the storage chamber port. The end cover is connected with a storage barrel at the side of the storage room, and cold foam is stored in the storage barrel. The storage barrel is provided with a plurality of openings, and water can enter the storage barrel to prevent cold bubbles from escaping from the storage barrel. An inverted buckle structure is arranged between the end cover and the bottle body, and after the end cover is arranged in the bottle body, the end cover can not escape from the bottle body any more. When the end cover is blocked by the blocking side of the end cover and is separated from the storage chamber, the end cover assembly falls into the water body, and cold foam is completely injected into the water.

Preferably, an inner sleeve is arranged at the bottle mouth of the bottle body, and the inner sleeve and the end cover form an inverted buckle structure.

Preferably, the inner sleeve is provided with a flange edge, and the flange edge is in contact limit with the end face of the bottle mouth; the inner sleeve is provided with an interference area, and is pressed into the bottle mouth through interference fit; the inner sleeve bottom is provided with the structure that the internal diameter diminishes to be provided with the chamfer that makes things convenient for the protruding edge of end cover to impress, the protruding edge of end cover forms the end cover after crossing the structure that the internal diameter diminishes and blocks the side.

Preferably, the inner sleeve is ultrasonically welded to the bottle body.

Preferably, the storage cylinder is connected with the end cover through a back-off.

Preferably, the port rib is provided on the inner side of the port of the storage chamber, the end cover and the matching surface thereof are provided with end cover ribs, and when the end cover is assembled to the storage chamber, the end cover ribs cross the port rib of the storage chamber, so that the accidental end cover is prevented from falling off the storage chamber.

Preferably, the storage chamber port is provided with a notch, the end cover is provided with a protrusion, the protrusion extends into the notch, and a mutual engagement structure is formed between the storage chamber port and the end cover to prevent rotation between the storage chamber port and the end cover.

Preferably, the end cover is provided with an O-ring groove and an O-ring, and the O-ring is sealed by extrusion deformation with the inner side of the storage chamber port.

The cold foam after the high crushing treatment can be packaged in the tea bag, and the tea bag is placed in the storage barrel, so that the tea bag is an alternative drinking device scheme.

In addition, the tea powder or the beverage powder can be packaged into a tea bag, and then the tea bag is placed in the storage cylinder.

Drawings

Fig. 1 is an overall schematic of the present disclosure.

Figure 2 is a schematic view of the inner sleeve of the present disclosure assembled to a bottle.

Fig. 3 is an enlarged schematic view of an inner sleeve blocking structure of the present disclosure.

Fig. 4 is a schematic view of a bottle cap of the present disclosure.

Fig. 5 is a schematic diagram of an end cap of the present disclosure.

FIG. 6 is a cutaway view of an end cap assembly of the present disclosure.

Fig. 7 is a schematic perspective view of an end cap assembly of the present disclosure.

Fig. 8 is an assembled schematic view of the bottle cap assembly of the present disclosure.

Fig. 9 is a schematic view of the closure assembly of the present disclosure after hot riveting.

Fig. 10 is a schematic view illustrating the assembly of the bottle cap assembly and the bottle body of the present disclosure.

FIG. 11 is a schematic view of another end cap assembly of the present disclosure.

Detailed Description

The disclosure is further illustrated in the following, with reference to specific figures and examples.

Embodiment 1, a ready-to-drink drinking device, as shown in fig. 1, comprises a bottle cap assembly 01 and a bottle body 02.

The bottle cap assembly 01 and the bottle body 02 are connected through threads and are provided with sealing fit. The screw connection and sealing fit can prevent water leakage.

The bottle body 02 is a bottle with standard caliber in the market, such as a mineral water bottle, and the inner diameter of a common standard bottle opening is 25mm.

The inner sleeve 03 is arranged at the bottle mouth, as shown in fig. 2, the inner sleeve 03 is in interference fit with the bottle mouth, and in the embodiment, the inner sleeve 03 is only in the interference area 032. The inner sleeve 03 is pressed into the bottle mouth, the inner sleeve 03 is provided with a flange edge 031, and the flange edge is in contact limit with the end face of the bottle mouth.

The interference of the inner sleeve 03 and the bottle mouth is reasonably designed, and no water leakage exists between the inner sleeve 03 and the bottle mouth.

The inner sleeve 03 cannot move any more after being pressed into the bottle mouth by interference fit.

Further, a preferred solution is to ultrasonically weld the inner sleeve 03 to the finish.

As shown in the enlarged partial view of fig. 3, a structure 034 with a smaller inner diameter is provided at the bottom of the inner sleeve 03, a chamfer 033 is provided on the upper side of the structure 034 with a smaller inner diameter, and the chamfer 033 facilitates the pressing-in of the end cover, so that an end cover blocking side 035 can be formed.

The bottle cap assembly 01 comprises a bottle cap 011, a storage barrel 012, cold foam and an end cap 013. Cold bubbles are not shown.

As shown in fig. 4, the storage chamber 0110 is a part of the cap 011, and is provided inside the cap screw 0113. The storage room is of a semi-closed structure and extends into the bottle mouth, and a storage room port 0112 is formed in the end extending into the bottle mouth. A cap 013 is provided at the reservoir port 0112, for sealing the reservoir port 0112,

in this embodiment, the sealing engagement between the reservoir port 0112 of the reservoir 0110 and the end cap 013 is achieved by the provision of an O-ring. As shown in fig. 5, an O-ring groove 0135 and an O-ring 0132 are provided on the end cap. The use of O-rings for sealing, while adding to the process difficulty of sealing, presents the risk of the end cap 013 accidentally falling out of the bin port 0112 under the force of impact from the bin port 0112. For this reason, the port rib 0119 is provided inside the storage chamber port 0112, and the end cap 013 and the mating surface thereof are provided with the end cap rib 013, so that when the end cap 013 is assembled to the storage chamber 0110, the end cap rib 013 passes over the port rib 0119 of the storage chamber, and the accidental end cap 013 is prevented from falling off from the storage chamber 0110. Of course, an alternative embodiment is achieved by providing a sealing bead inside the reservoir port 0112 of the reservoir 0110, which also eliminates the need for an interlocking rib, which is not described in detail herein.

The end cap 013 is connected to a storage chamber side with a storage tube 012 in which cold bubbles are stored, and this assembly is referred to as an end cap assembly 04 as shown in fig. 6 and 7.

A convex hull 0136 is provided on the end cap 013, and a convex hull 0121 is provided on the storage barrel 012. When installed, the convex hull 0121 of the cartridge passes over the convex hull 0136 of the end cap, and the cartridge can be connected to the end cap.

The cartridge 012 is provided with a plurality of elongated openings 0122 for facilitating water entry and preventing cold bubbles from escaping from the cartridge, as shown in fig. 6 and 7.

In order to determine whether the sealing structure is invalid, in the embodiment, a deformation bulge 0114 is arranged on the bottle cap, and a vacuumizing hole 0134 is arranged on the end cover.

The cold foam is first filled into the storage tube 012, then the cap 013 is attached, and then the cap assembly 04 assembled in the previous step is assembled into the storage chamber 0110 of the bottle cap, to obtain the bottle cap assembly 01, as shown in fig. 8.

The bottle cap assembly 01 is further placed into a vacuumizing and hot riveting integrated machine, vacuumizing is carried out through a vacuumizing hole 0134, negative pressure is formed in a storage chamber 0110, bulges 0114 on the bottle cap are concave under the action of the negative pressure, and when the negative pressure reaches a set value, hot riveting points 0137 can be formed through the hot riveting vacuumizing hole 0134, and the vacuumizing hole is sealed. With this arrangement, the consumer can be prompted as to whether the seal is effective, as shown in figure 9, after assembly is complete, for indirectly determining whether the tea leaves are moldy.

As shown in fig. 5, the end cap 013 is provided with a raised edge 0133, which raised edge 0133 forms a back-off with the end cap blocking side 035 of the inner sleeve 03 which is fitted into the bottle 02. By providing a chamfer 0138 at the edge of the protrusion, the back-off has the feature of easy loading and not easy disengagement.

When the cap assembly 01 is fitted into the bottle body 02, the cap assembly 01 is rotated when passing over the structure 034 in which the inner diameter of the inner sleeve 03 is small, and thus the cap assembly 01 is rotated when passing over the structure 034 in which the inner diameter of the inner sleeve 03 is small, and in order to prevent rotation between the cap 013 and the storage chamber port 0112 of the storage chamber 0110, it is necessary to provide an anti-rotation structure between the cap 013 and the storage chamber port 0112.

Further, by forming a protrusion 0139 partially on the protruding edge of the end cap, as shown in fig. 7, a notch 0115 is formed partially on the storage chamber port 0112 of the bottle cap, as shown in fig. 4, an anti-rotation structure can be formed.

After the cap assembly is installed into the bottle body, the raised edges 0133 of the end caps are positioned below the blocking sides 035 of the end caps and are blocked, as shown in FIG. 10, when the cap 011 is disengaged from the bottle opening, the cap assembly 04 is left in the bottle opening and drops into the bottle body.

The bottle body screw thread 021 is meshed with the screw thread 0113 on the bottle cap. The inner sleeve 03 and the bottle mouth of the bottle body are sealed through interference fit, and then the inner wall of the inner sleeve 03 and the first sealing convex hull 0116 on the bottle cover form sealing together, as shown in fig. 10.

An auxiliary sealing ring 0117 may also be provided between the cap 011 and the neck finish, which auxiliary sealing cooperates with the first sealing lobe 0116 to seal the connection between the cap assembly and the bottle body.

It should be noted that the sealing engagement may also be achieved by providing a rubber gasket between the end surface of the finish and the inside of the closure. The technical scheme is also one of the common technical schemes for sealing bottle caps and bottle mouths.

The two annular protrusions 022 are used for blocking the broken ring 0118 of the bottle cap, and when the bottle cap 011 is opened, the broken ring 0118 of the bottle cap is blocked to be broken and limited to the broken ring after breaking.

The opening process of this embodiment is: when the bottle cap 011 is unscrewed from the bottle mouth, firstly, the bottle cap fracture ring 0118 is fractured from the bottle cap and is unscrewed continuously, the raised edge 0133 arranged on the end cap is blocked by the end cap blocking side 035 on the bottle body, the end cap falls off from the storage room, the negative pressure is released, the end cap assembly 04 is left on the bottle mouth, and the end cap assembly 04 cannot be blocked by other structures and falls into the bottle body, as shown in reference to fig. 10.

Further, the end cap 013 and the storage barrel 012 can be connected in various ways. As shown in fig. 11, the reverse buckle may be formed only partially to simplify the difficulty of manufacturing the mold. Other such as interference fits, partial interference fits, etc. are not further described in this disclosure.

Finally, it should be noted that the above embodiments are only for illustrating the technical solutions of the present disclosure, and not for limiting the same, and although the present disclosure has been described in detail with reference to examples, it should be understood by those skilled in the art that modifications and equivalents may be made to the technical solutions of the present disclosure without departing from the spirit and scope of the technical solutions of the present disclosure, which should be covered by the scope of the claims of the present disclosure.

Claims (8)

1. An instant drinking device, characterized in that: including bottle lid subassembly (01) and bottle (02), bottle lid subassembly (01) include bottle lid (011) at least, storing section of thick bamboo (012), end cover (013), cold bubble thing, be provided with semi-closed storeroom (0110) inboard at bottle lid screw thread (0113), storeroom (0110) stretches into the bottleneck, only be provided with one storeroom port (0112) in stretching into bottleneck end, storeroom port (0112) department is provided with end cover (013), end cover (013) sealed storeroom port (0112), end cover (013) are connected with storing section of thick bamboo (012) in the storeroom side, storing section of thick bamboo (012) have stored cold bubble thing, a plurality of openings have been seted up to storing section of thick bamboo (012), water can get into and can block cold bubble thing from storing section of thick bamboo (012) play, be provided with back-off structure between end cover (013) and bottle (02), after end cover (013) are loaded into bottle (02), end cover (013) can not escape from bottle (02) again, end cover (013) is blocked by end cover (035) and is fallen into cold bubble (01104) from storing room (012), water is got into the completion of cold bubble.

2. A ready-to-use drinking device according to claim 1, characterized in that: an inner sleeve (03) is arranged at the bottle mouth of the bottle body (02), and the inner sleeve (03) and the end cover (013) form an inverted buckle structure.

3. A ready-to-use drinking device according to claim 2, characterized in that: the inner sleeve (03) is provided with a flange edge (031), and the flange edge (031) is in contact limit with the end face of the bottle mouth; the inner sleeve is provided with an interference area (032) which is pressed into the bottle mouth through interference fit; the inner sleeve bottom is provided with the structure (034) that the internal diameter becomes little to be provided with the chamfer (033) that make things convenient for protruding edge (0133) of end cover to impress, protruding edge (0133) of end cover form end cover barrier side (035) after crossing structure (034) that the internal diameter becomes little.

4. A ready-to-use drinking device according to claim 2, characterized in that: the inner sleeve (03) is ultrasonically welded to the bottle body (02).

5. A ready-to-use drinking device according to claim 1, characterized in that: the storage barrel (012) is connected with the end cover (013) through a back-off.

6. A ready-to-use drinking device according to claim 1, characterized in that: the inside of the storage room port (0112) is provided with a port rib (0119), the matching surface of the end cover (013) and the end cover rib (0131) is provided with the end cover rib (0131), and when the end cover (013) is assembled into the storage room (0110), the end cover rib (0131) passes through the port rib (0119) of the storage room, so that the accidental end cover (013) is prevented from falling off from the storage room (0110).

7. A ready-to-use drinking device according to claim 1, characterized in that: the storage chamber port (0112) is provided with a notch (0115), the end cover (013) is provided with a protrusion (0139), the protrusion (0139) stretches into the notch (0115), a mutual engagement structure is formed between the storage chamber port (0112) and the end cover (013), and rotation between the storage chamber port (0112) and the end cover (013) is prevented.

8. A ready-to-use drinking device according to claim 1, characterized in that: an O-shaped ring groove (0135) and an O-shaped ring (0132) are arranged on the end cover (013), and the O-shaped ring (0132) is extruded and deformed to be sealed with the inner side of the storage chamber port (0112).