阅读说明：本技术 一种具有水滴流动效果的乐趣瓶 (Fun bottle with water drop flowing effect ) 是由 周有根 于 2020-12-29 设计创作，主要内容包括：本发明公开了一种具有水滴流动效果的乐趣瓶,包括瓶/杯体,所述的瓶/杯体包括相互螺纹配合的上盖部、下盖部、隔腔部,所述的隔腔部设有隔离体,所述的隔腔部上下端分别与上、下盖部相应配合、隔离体分隔瓶/杯体为第一、二隔腔,所述的隔离体设有连通第一、二隔腔的滴液孔至少一个。本发明隔腔部上下端分别与上、下盖部相应配合、隔离体分隔瓶/杯体为第一、二隔腔,所述的隔离体设有连通第一、二隔腔的滴液孔至少一个。可通过翻转瓶/杯体,使瓶/杯体内的液体在相应的隔腔内产生液差,使上面隔腔内的液体通过滴液孔可持续的滴落或/和滴流转移至下方的隔腔内,构成一种特质的趣味或“景观”。(The invention discloses a fun bottle with a water drop flowing effect, which comprises a bottle/cup body, wherein the bottle/cup body comprises an upper cover part, a lower cover part and a partition cavity part which are in threaded fit with each other, an isolated body is arranged on the partition cavity part, the upper end and the lower end of the partition cavity part are respectively matched with the upper cover part and the lower cover part correspondingly, the isolated body separates the bottle/cup body into a first partition cavity and a second partition cavity, and the isolated body is provided with at least one drip hole which is communicated with the first partition cavity and the second partition cavity. The upper end and the lower end of the compartment part are respectively matched with the upper cover part and the lower cover part correspondingly, the insulator separates the bottle/cup body into a first compartment and a second compartment, and the insulator is provided with at least one drip hole communicated with the first compartment and the second compartment. The liquid in the bottle/cup body can generate liquid difference in the corresponding separation cavity by turning over the bottle/cup body, so that the liquid in the upper separation cavity can be continuously dripped or/and trickled to the lower separation cavity through the dripping hole, and a special interest or 'landscape' is formed.)

1. An amusement bottle/cup with water drop flowing effect, which comprises a bottle/cup body and is characterized in that: the bottle/cup body include upper cover portion, lower cover portion, the partition chamber portion of screw-thread fit each other, the partition chamber portion be equipped with the isolated body, the partition chamber portion on the lower extreme respectively with the corresponding cooperation of upper and lower cover portion, the isolated body separate the bottle/cup body for first, two separate the chamber, the isolated body be equipped with the first, two at least one of the drip hole that separate the chamber that communicates.

2. A fun bottle/cup with drip running effect as claimed in claim 1 wherein: an extension part forming part of the bottle/cup body is arranged between the upper cover part or/and the lower cover part and the isolation part, and the thread is arranged between the isolation part and the extension part.

3. A fun bottle/cup with drip running effect as claimed in claim 2 wherein: the extending part of the upper or/and lower cover part is provided with an independent cover body, and the extending part and the cover body are provided with mutually matched threads.

4. A fun bottle/cup with drip running effect as claimed in claim 1 wherein: the separator divides the two compartments in a volume ratio of 1:9-5: 5.

5. A fun bottle/cup with drip running effect as claimed in claim 1 wherein: the liquid dropping hole is positioned in at least one separating cavity and is internally provided with a dropping nozzle facing the separating cavity.

6. A fun bottle/cup with drip running effect as claimed in claim 5 wherein: the drip hole passes through the center of the drip nozzle or eccentrically passes through the drip nozzle.

7. A fun bottle/cup with drip running effect as claimed in claim 1 or 4, wherein: the isolating body is arranged at 1/3-2/3 of the axial length of the bottle/cup body; scales are arranged on the bottle/cup body, and the scales are time or volume scales; the separator is a separator.

8. A fun bottle/cup with drip running effect as claimed in claim 1 wherein: also comprises a return air pipeline communicated with the first and second separated cavities.

9. A fun bottle/cup with drip running effect as claimed in claim 8 wherein: the air return pipeline is arranged on the side wall of the bottle/cup body.

10. A fun bottle/cup with drip running effect as claimed in claim 8 wherein: the air return pipeline is a flexible pipeline, and floating balls are arranged at the end heads of the first and second corresponding separation cavities of the air return pipeline.

Technical Field

The invention relates to a packaging bottle, in particular to a fun bottle with a water drop flowing effect.

Background

The packaging bottle widely used at present generally comprises a bottle body for containing liquid and a cover body, and most of the packaging paper is stuck on the bottle body. The packaging bottle has high commercial value due to the fact that the beverage sales volume of the packaging bottle is large, but the commercial value of the packaging bottle only lies in the liquid product containing and commodity packaging, the functional structure of the product is too single, and the effective commercial value cannot be achieved or further additional value is not achieved.

Disclosure of Invention

The invention provides a flowing fun packaging bottle which has simple structure, is convenient to manufacture, has appreciation and commercial value and can generate liquid drops, and aims to solve the problems of single use value and lack of additional value of the existing packaging bottle in the use process.

The technical scheme for solving the existing problems is as follows: the utility model provides a enjoyment bottle with water droplet flow effect, includes bottle/cup, bottle/cup including mutual screw-thread fit's upper cover portion, lower cover portion, partition chamber portion be equipped with the isolated body, partition chamber portion upper and lower extreme respectively with upper and lower corresponding cooperation of cover portion, isolated body partition bottle/cup be first, two partition chambers, the isolated body be equipped with the first, at least one of the drip hole that two partition chambers of intercommunication.

As a further improvement, an extension part forming part of the bottle/cup body is arranged between the upper cover part or/and the lower cover part and the isolation part, and the thread is arranged between the isolation part and the extension part.

As a further improvement, the extension part of the upper cover part or/and the lower cover part is/are provided with an independent cover body, and the extension part and the cover body are provided with mutually matched threads.

As a further improvement, the separator separates two compartments by the volume ratio of 1:9-5: 5.

As a further improvement, the liquid dripping hole is positioned in at least one separating cavity and is internally provided with a dripping nozzle facing the separating cavity.

As a further improvement, the liquid dropping hole penetrates through the center of the drip nozzle or penetrates through the drip nozzle eccentrically.

As a further improvement, the insulator is arranged at 1/3-2/3 of the bottle/cup body.

As a further improvement, the bottle/cup body is provided with scales.

As a further improvement, the separator is a separator.

As a further improvement, the scale is a time or volume scale.

As a further improvement, the device also comprises a return air pipeline which is communicated with the first and second compartments.

As a further improvement, the air return pipeline is arranged on the side wall of the bottle/cup body.

As a further improvement, the air return pipeline is a flexible pipeline, and floating balls are arranged at the end heads of the air return pipeline positioned in the first and second corresponding separation cavities.

Compared with the prior art, the invention has the advantages that the bottle/cup body is provided with the upper cover part, the lower cover part and the partition cavity part which are mutually matched in a threaded manner, the partition cavity part is provided with the isolated body, the upper end and the lower end of the partition cavity part are respectively correspondingly matched with the upper cover part and the lower cover part, the isolated body separates the bottle/cup body into the first partition cavity and the second partition cavity, and the isolated body is provided with at least one drip hole communicated with the first partition cavity and the second partition cavity. The liquid in the bottle/cup body can generate liquid difference in the corresponding separation cavity by turning over the bottle/cup body, so that the liquid in the upper separation cavity can be continuously dripped or/and trickled to the lower separation cavity through the dripping hole, and a special interest or 'landscape' is formed. The bottle/cup body structure is divided into an upper cover part, a lower cover part and a cavity separating part, is convenient to produce and manufacture and has a simple structure. The bottle/cup body can generate unique liquid flow dripping or/and dripping after being inverted and turned over, and can be used for manufacturing children's interesting clocks, realizing interestingness, providing additional value of the packaging bottle/cup body and commercial value of popularization.

Compared with the traditional packaging bottle and cup with relatively fixed liquid inside, the packaging bottle can enable the liquid in the bottle and the cup to obviously flow or drip the liquid by turning upside down, thereby changing the visual effect of the liquid in the traditional packaging bottle and cup, having visual subversion, and increasing the ornamental value and the added value of the product! The invention is suitable for beverage packaging, including wine packaging.

Drawings

Fig. 1 is an exploded view of a cup according to the present invention.

Fig. 2 is an assembled view of the cup of fig. 1.

Fig. 3 is an exploded view of an embodiment of the present invention.

Fig. 4 is a schematic view of the cup of fig. 3 assembled.

Fig. 5 is a schematic structural diagram of another embodiment of the present embodiment.

FIG. 6 is a schematic view of the assembled bottle bodies.

Fig. 7 is a schematic view showing the bottle body of fig. 5 in an inverted state.

Fig. 8 is an enlarged schematic view at a of fig. 7.

FIG. 9 is a schematic view of another embodiment of the drip hole and drip nozzle of the present invention.

Fig. 10 is an enlarged schematic view of fig. 9 at b.

Fig. 11 is a schematic structural diagram of an embodiment of the present invention.

Fig. 12 is a schematic structural diagram of another embodiment of the present invention.

Fig. 13 is an enlarged schematic view at c of fig. 12.

Detailed Description

Referring to fig. 1-8, the present embodiment includes a bottle/cup body, the bottle/cup body includes an upper cover portion 101, a lower cover portion 102, and a compartment portion 103, which are engaged with each other by screw threads, the compartment portion 103 is provided with a partition 4, the upper and lower ends of the compartment portion 103 are respectively engaged with the upper and lower cover portions, the partition 4 partitions the bottle/cup body into a first and a second compartment 11, 12, and the partition 4 is provided with at least one drip hole 3 communicating the first and the second compartment 11, 12. The drip holes 3 are used to let the liquid in the upper compartment flow or drip into the lower compartment in order to observe the visual appearance of the liquid in the upper compartment transferring within the compartment, which constitutes a special ornamental value. Fig. 1 to 4 show the cup body 1, and fig. 5 to 7 show the bottle body 100. None of figures 1-6 contain liquid. The upper lid 101 and the lower lid 102 may correspond to lids.

The axial direction in this embodiment is preferably the axis of the bottle/cup length, so as to extend the distance of the dripping, which facilitates the realization and observation of the droplet flow.

In this embodiment, the axial direction is the axis where the bottom and the mouth or the bottom and the mouth are located.

Further, as another embodiment, an extension portion 104 forming part of the bottle/cup body is disposed between the upper lid portion 101 or/and the lower lid portion 102 and the isolation portion 103, and the screw thread is disposed between the isolation portion 103 and the extension portion 104. That is, the upper lid 101 and the spacer 103 are provided with the extension 104, or one of them is provided with the extension 104, and the lower lid 102 and the spacer 103 are provided with the extension 104, or one of them is provided with the extension 104. In fig. 1-2, the upper and lower corresponding portions of the isolation portion 103 are provided with extensions 104, which are screwed with the upper cover portion 101 and the lower cover portion 102, and the upper cover portion 101 and the lower cover portion 102 are only the cover body 2. In fig. 3-4, the upper part of the isolation part 103 is provided with an extension 104 which is in threaded fit with the upper cover 101, the upper cover 101 is only the cover 2, and the lower cover 104 is provided with an extension 104 which is in threaded fit with the isolation part 103. In fig. 5-7, an extension 104 is provided between the upper portion of the isolation portion 103 and the upper cover 101, and the corresponding portion is in threaded engagement, and the lower cover 104 is provided with an extension 104 engaged with the isolation portion 103.

Of course, the upper cover part 101 and/or the extension part 104 of the lower cover part 102 may be provided with a separate cover body 2, and the extension part 104 and the cover body 2 are provided with mutually matched threads. As shown in fig. 5-7, the upper lid portion 101 of the upper portion of the vial 100 comprises a separate lid 2 and an extension 104, and the lower lid portion 102 of the lower portion of the vial 100 comprises an integral lid 2 and an extension 104, and forms the second compartment 12 with the lower portion of the compartment 103.

The isolating body between the first and the second separating cavities 11, 12 is provided with a drip hole 3, the isolating body 4 separates the two separating cavities with the volume ratio of 1:9-5:5, the separating cavity is preferably divided into two separating cavities with different sizes, and the lower separating cavity has larger volume when the bottle/cup body is normally placed. The separator 4 may be a partition plate on which the drip hole 3 may be opened.

The drip hole 3 is located in at least one compartment and is provided with a drip nozzle 31 facing the compartment, as shown in fig. 1-3, when the bottle/cup body is normally placed, the drip nozzle 31 is located in the compartment facing upward. In this embodiment, the drip holes 3 are provided with drip nozzles 31 in the first, second 11, 12 compartments, and the drip nozzles 31 can conveniently and easily observe the effect of the liquid drops.

The drip hole 3 passes through the center of the drip nozzle 31 or eccentrically passes through the drip nozzle 31. Or the drip nozzle 31 does not pass through the drip nozzle 31, as shown in fig. 9-10, the drip nozzle 31 is a convex column protruding from the isolating body 4 and located at the drip hole 3, the drip nozzle 31 is arranged at the corresponding position at the side of the drip hole 3 and matched with the drip hole 3, and liquid drops downwards along the drip nozzle 3 at the side after flowing through the drip hole 3. The drip hole 3 in this embodiment passes through the center of the drip nozzle 31. While the drip hole 3 may be provided in the center of the separator 4. One dropping hole 3 is usually provided. Of course, the drip nozzle 31 may be disposed close to the position corresponding to the drip hole 3, and the drip hole 3 may pass through the separator 4 and drip along the adjacent drip nozzle 31.

The separator 4 is preferably disposed at 1/3-2/3 of the axial length of the bottle/cup.

The bottle/cup body is provided with scales 5, the time can be calculated by the scale degree when the liquid is observed to drip, or the corrected scales can be directly marked, the corresponding time of the liquid dripping scales can be directly marked, and certain fun is improved. The scale 5 can be provided as a volume or time scale as desired.

The drip hole 3 is provided with the drip nozzles 31 in the first and second separate cavities 11 and 12, so that the bottle/cup body can be turned over at will to generate a 'landscape' of liquid dripping, and the enjoyment of appreciation is improved. Meanwhile, scales are arranged at the upper end and the lower end of the bottle/cup body, so that the scales can be used when the bottle/cup body is turned over randomly, the time can be calculated as children interest, and the clock can be used as a suggested children interest clock.

As shown in figures 5-8, the packaging bottle of the present invention contains a certain amount of drink liquid when in use. When inversion is required, a certain fall is formed between the water level of the bottle/cup body on one side of the isolating body 4 and the drip nozzle 31 or the isolating body 4, so that liquid can normally drip from the drip hole. During normal placement, liquid will drip into the lower first compartment 11 under the action of gravity through the drip holes 3, and when the bottle/cup is inverted, the entire liquid portion in the upper second compartment 12 will flow downward, as shown in fig. 2. The resulting liquid level will create a liquid level difference with the separator 4. The liquid in the first compartment 11 will drip or overflow from the drip hole 3 into the second compartment 12, and further if a drip nozzle 31 is provided, a more pronounced dripping effect can be produced by the drip nozzle 31.

Referring to fig. 11-13, as another embodiment, in order to easily achieve the dripping effect and the continuous dripping effect, a gas return line 6 is further included to connect the first and second compartments 11, 12.

Referring to fig. 12-13, the gas return line 6 may be provided on the side wall of the bottle/cup body, and the gas return line 6 is arranged such that when the drip hole 3 drips into the lower compartment, the gas flow in the lower compartment may flow back to the upper compartment via the gas return line 6. In fig. 12-13, when the drip hole 3 drips into the lower compartment, the airflow in the lower compartment can flow back to the upper compartment through the air return line 6, the air return line 6 is located at a position where the end of the lower compartment is exposed to the upper empty position of the liquid level in the lower compartment, and the end of the upper compartment of the air return line 6 can be extended to the upper position as long as possible, so that the airflow can flow back from the lower compartment to the upper compartment. The return air line 6 may be provided in one or more. In fig. 12, two return gas lines 6 are provided, one of which 6 is located short inside the first compartment 11, so that the ends can be exposed to the upper empty part of the liquid level of the first compartment when the first compartment 11 is used as the lower compartment; the other return air line 6 is located short inside the second compartment 12 so that when the second compartment 12 is used as the lower compartment, the tip can be exposed to the upper part of the liquid level in the second compartment.

Of course, the ends of the gas return line 6 located in the respective upper and lower compartments may be fitted together as shown in fig. 12-13, which is located at the length of the lower compartment and is exposed to the upper empty part of the liquid level in the lower compartment.

Referring to fig. 11, in order to improve the air return effect, the air return pipe 6 is a flexible pipe, floating balls 61 are disposed at the ends of the air return pipe 6 located in the first and second corresponding separation chambers, the corresponding ends of the air return pipe 6 can pass through the floating balls 61, or holes communicated with the air return pipe 6 are disposed on the floating balls 61, and the floating balls can float on the upper portions of the liquid in the first and second separation chambers 11, 12, so that the air in the first and second separation chambers 11, 12 can be ventilated, and when the liquid drops downwards from the separation chamber located above, the air enters the upper portion from the separation chamber below.