CN112978020A - Portable self-heating beverage bottle - Google Patents

Abstract

The invention discloses a portable self-heating beverage bottle, belonging to the technical field of water cups. The self-heating beverage bottle includes a beverage portion and a heating portion located below the beverage portion. The heating portion includes a relatively rotatable blanking layer and a mixing layer. The self-heating material A and the self-heating material B, which can be exothermic after mixing, are divided into the layer and the mixing layer. There is a feeding port that can be communicated after the relative rotation of the two; by making the feeding layer and the mixing layer rotate relatively, the feeding port on the bonding surface of the feeding layer and the mixing layer is communicated with each other, and the self-heating material A is The blanking layer falls into the mixing layer, and mixes with the self-heating material B to react and release heat, so that the beverage in the heating part can be heated without additional tools to help the self-heating material to be mixed, and the method of rotating and blanking is in a certain way. To a certain extent, the risk of accidental touch can be reduced.

Description

Portable self-heating beverage bottle

Technical Field

The invention relates to the technical field of water cups, in particular to a portable self-heating beverage bottle.

Background

The boxed or bottled beverage in the existing market is usually used for cooling, quenching thirst and preventing heatstroke in summer. However, when the people have got a cold winter, spring and autumn, the people can drink hot drinks and are more beneficial to the health of the human body, so the invention of the self-heating drink vessel is convenient to operate and live. Like patent number "201921364065.9", the utility model patent of name "self-heating cup" in self-heating cup bottom be equipped with the heating chamber, the heating intracavity is equipped with the clear water and the heating agent of independent packing, heating chamber bottom is equipped with and is used for puncturing the hole that punctures of not upwards impaling clear water and heating agent, and after the packing of puncture clear water and heating agent, clear water and heating agent mix and release heat then heat the water of cup. However, the self-heating cup requires an additional tool to pierce through the self-heating material, so that the self-heating cup is inconvenient to use, is easily embarrassed that the cup cannot be heated due to the fact that no suitable tool is available, and is obviously impractical to carry with a user.

And the patent number is "201520598920.8", utility model patent titled "disposable self-heating drinking cup" includes interior cup and outer cup, form the closed cavity between interior cup and the outer cup, both sides on the interior cup on the top of closed cavity are provided with two water bags, the water bag passes through sticky fixed with interior cup, it has quick lime to fill water bag below in the closed cavity, be provided with an arc depressed area on the outer cup of the corresponding position department of water bag, through the arc depressed area on the outer cup of extrusion, can make the water bag break, thereby meet the water heating in the water release heat will interior cup of water heating in the closed cavity, drink with supplying people. Although the self-heating cup does not need an additional tool to pierce through the self-heating material, the outer cup body is squeezed, and the water bag is fractured in a using mode, so that the water bag is easy to touch by mistake, and particularly when the water bag is packaged in a bag, the water bag can be fractured by mistake to touch by mistake.

In summary, the conventional self-heating water cup needs to be assisted by an additional tool to heat, the additional tool is not easy to carry, or the additional tool is not needed, but the self-heating water cup is easy to touch by mistake and is not easy to carry, so that the conventional self-heating water cup is not very portable.

Disclosure of Invention

The invention aims to solve the technical problems and provides a portable self-heating beverage bottle, which can realize mixed heating of self-heating materials by rotating a bottle body of the self-heating beverage bottle, does not need additional tools to help heat, and can effectively reduce the risk of mistaken touch.

In order to achieve the purpose, the invention provides the following scheme: the invention provides a portable self-heating beverage bottle which comprises a beverage part and a heating part positioned below the beverage part, wherein the heating part comprises a blanking layer and a mixing layer which can rotate relatively, a self-heating material A and a self-heating material B which can release heat after being mixed are filled in the blanking layer and the mixing layer, the mixing layer is tightly attached to the lower part of the blanking layer, and a blanking port which can be communicated after the blanking layer and the mixing layer rotate relatively is arranged on the attaching surface of the blanking layer and the mixing layer.

Preferably, the bottom of the beverage part is provided with a heat transfer bulge, the blanking layer comprises a material containing sleeve fixedly sleeved on the heat transfer bulge, and the material containing sleeve is connected with the bottom of the beverage part in a sealing manner.

Preferably, the material mixing layer comprises an annular rotating plate which is rotatably connected to the heat transfer protrusions, the annular rotating plate is tightly attached to the bottom of the material containing sleeve, and the annular rotating plate is fixedly sleeved with a heat insulation sleeve.

Preferably, the barrel edge of the heat insulation sleeve is connected with the bottom of the beverage part in a sealing mode.

Preferably, the end face of the heat transfer protrusion is spaced from the bottom of the heat insulation sleeve.

Preferably, the edge of the feed opening is provided with a plurality of breakable connecting bridges for connecting the feed layer and the mixing layer.

Preferably, a fragile sealant is arranged at the position of the feed opening.

Preferably, the blanking layer and the blanking ports on the material mixing layer are arranged in a circumferential array.

Preferably, the bottle top of the beverage part is a conical top.

Preferably, the top surface of the conical top is provided with an opening, and an opening sheet with a pull ring is embedded in the opening in a matching mode.

Compared with the prior art, the invention has the following technical effects:

1. the heating part comprises a blanking layer and a mixing layer which can rotate relatively, the blanking layer and the mixing layer rotate relatively, a blanking port on the contact surface of the blanking layer and the mixing layer corresponds to be communicated, the self-heating material A flows into the mixing layer from the blanking port, and then the self-heating material B is mixed and reacted with the self-heating material A to generate heat, so that drinks such as water or beverages in the drink part are heated, and the purpose of self-heating of the self-heating drink bottle is achieved. Only need rotate self-heating drink bottle self structure can, then need not additionally to carry the instrument help its realization and generate heat, and adopt the mode of rotating the unloading, general colliding with or rocking can not make the unloading layer and compounding layer between the pivoted angle too big, then can reduce the intercommunication probability of feed opening, reduce the risk that the mistake touched.

2. The bottom protrusion of drink portion has the heat transfer arch, and the heat transfer arch stretches into the heating intracavity, and the heat in the heating intracavity can heat the drink in the drink portion through the heat transfer arch, has increased the heating area to drink portion, is favorable to the water rapid heating in the drink portion.

3. The setting of thermal-insulated sleeve can hold the material mixing layer when heating from heating material B on the one hand, and on the other hand thermal-insulated sleeve can carry out the separation with the heat when the heating material is exothermic to can lock the heat in the heating chamber, avoid also can avoid thermal heat dissipation simultaneously, improve heating efficiency. Meanwhile, a hand-held place is provided for the hands, so that the hands can be prevented from being scalded.

4. In order to further avoid the mistake to touch, make the lower material layer and the relative rotation of compounding layer take place, the feed opening of lower material layer and the compounding layer has adopted the connected mode of similar mineral water bottle lid and go-between, is equipped with the breakable connecting bridge that a plurality of is used for connecting the lower material layer and the compounding layer promptly in the edge of feed opening. Due to the existence of the breakable connecting bridge, the general bumping and shaking can not lead the blanking layer and the mixing layer to rotate relatively, and the connecting bridge can be broken only when the two layers are rotated by certain force, thereby improving the probability of preventing accidental touch.

5. Fragile sealant is also arranged at the respective feed openings of the feeding layer and the mixing layer, so that the sealing property between the feeding layer and the mixing layer is improved; before rotating, sealed glue can guarantee that the intraformational self-heating material A of unloading can not flow into the compounding in situ through the feed opening, but when the ejection of compact of needs feed opening intercommunication, only need make the unloading layer and the relative rotation of compounding layer emergence, then can be broken easily and breakable sealed glue to guarantee the smooth ejection of compact of self-heating material A.

6. The bottle top of drink portion is the toper top, and the toper bottle top is favorable to water or beverage to the bottleneck position to assemble, makes things convenient for the human body to drink, is favorable to the discharge of beverage, can avoid water to remain in bottle top department.

7. The opening piece is pulled out by pulling the pull ring, so that the opening with self-heating level can be opened for drinking, and the drinking water bottle is simple and convenient.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

FIG. 1, a cross-sectional view of a self-heating beverage bottle;

fig. 2, the material containing sleeve and the annular rotating plate are in a schematic structural view.

Description of reference numerals: 1. self-heating beverage bottles; 2. a beverage part; 3. a heat transfer protrusion; 4. a heating section; 5. blanking layer; 6. a material mixing layer; 7. a feeding port; 8. a material containing sleeve; 9. an annular rotating plate; 10. a heat insulating sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment provides a portable self-heating beverage bottle, as shown in fig. 1 to 2, the self-heating beverage bottle 1 comprises a beverage part 2 and a heating part 4 which are arranged up and down, wherein the beverage part 2 is filled with water or beverage and other beverage, the heating part 4 is a main heating part for heating the beverage in the beverage part 2, and the heating part 4 comprises a blanking layer 5 and a mixing layer 6 which can rotate relatively (generally, the two forms are that the blanking layer 5 can rotate, the mixing layer 6 can not rotate, or the blanking layer 5 can not rotate, and the mixing layer 6 can rotate). The lower material layer 5 is filled with a self-heating material a, the mixing layer 6 is filled with a self-heating material B, the self-heating material a and the self-heating material B react and self-release heat when mixed, the self-heating material a and the self-heating material B are a combination of self-heating materials commonly used in the market, for example, the self-heating material a may be water, the self-heating material B may be lime, although the combination is not limited to this, and other combinations may be used as long as heat is released after mixing. The bottom surface of unloading layer 5 and the top surface of compounding layer 6 closely laminate, feed opening 7 has all been seted up on its face of laminating each other, when not using, feed opening 7 on the unloading layer 5 and feed opening 7 on the compounding layer 6 stagger each other, it is the binding face of each other that feed opening 7 is facing to promptly, thereby can reach the purpose that feed opening 7 sealed, in can not entering into compounding layer 6 with the water (self-heating material A) of guaranteeing in the unloading layer 5, mix and generate heat with quick lime (self-heating material B) in the compounding layer 6. Only when rotating material mixing layer 6 (another kind of form is rotation material mixing layer 5), feed opening 7 on the material mixing layer 5 just can with the corresponding intercommunication of feed opening 7 on the material mixing layer 6, then make rivers in the material mixing layer 5 go into in the material mixing layer 6 to with quick lime intensive mixing, then the reaction generates heat and heats the drink in the drink portion 2. The rotary opening blanking mode is simple and rapid, does not need to be assisted by an additional carrying tool, can be rotated and heated at any time and any place, and is convenient and beneficial to carrying. Meanwhile, the problem of mistaken touch caused by small collision can be avoided, the package is guaranteed, and the problem of mistaken touch is avoided.

Further, in order to improve the heating effect of the heating portion 4 on the drink portion 2, as shown in fig. 1 to fig. 2, the center of the bottom of the drink portion 2 protrudes downwards to form a heat transfer protrusion 3, the heat transfer protrusion 3 is a hollow structure communicated with the drink portion 2, when the heating portion 4 releases heat, the heat heats the drink in the heat transfer protrusion 3, and then heats the drink in the whole drink portion 2. A material containing sleeve 8 is fixedly sleeved on the heat transfer bulge 3, the barrel edge of the material containing sleeve 8 is hermetically connected with the bottom of the drink part 2 to form a blanking layer 5 capable of containing the self-heating material A, and a blanking port 7 is arranged on the bottom wall of the material containing sleeve 8.

As shown in fig. 1 to 2, in the present embodiment, the mixing layer 6 includes an annular rotating plate 9 and a heat insulation sleeve 10, the annular rotating plate 9 is rotatably connected to the heat transfer protrusion 3, a plate surface of the annular rotating plate 9 is closely attached to a bottom surface of the material containing sleeve 8, so that when the annular rotating plate 9 is not rotated, the plate surface of the annular rotating plate 9 can seal the feeding opening 7 on the bottom surface of the material containing sleeve 8, and the bottom surface of the material containing sleeve 8 seals the feeding opening 7 on the annular rotating plate 9, thereby preventing the self-heating material a (which may be water) from leaking. The heat insulation sleeve 10 is fixedly sleeved on the annular rotating plate 9, and self-heating materials B (which can be quicklime) are contained in the heat insulation sleeve 10. When the heat insulation sleeve 10 is screwed, the annular rotating plate 9 rotates, then the annular rotating plate rotates to a certain angle, the feed opening 7 on the annular rotating plate 9 coincides with the feed opening 7 on the material containing sleeve 8, so that the upper feed opening 7 and the lower feed opening 7 are communicated with each other, the self-heating material A falls into the heat insulation sleeve 10 from the material containing sleeve 8, the self-heating material A and the self-heating material B are fully mixed and react and start to generate heat, then the heat heats the beverage in the heat transfer protrusions 3, then the beverage in the whole beverage part 2 can be heated, the heat transfer protrusions 3 extend into the heat insulation sleeve 10, the mixed self-heating material surrounds the heat transfer protrusions 3, the heat can be fully heated, and the heating effect and the heating speed are improved.

In order to avoid heat dissipation, as shown in fig. 1 to 2, in this embodiment, the heat insulation sleeve 10 entirely wraps the material containing sleeve 8 and the heat transfer protrusion 3, and the barrel edge of the heat insulation sleeve 10 is hermetically connected with the bottom of the beverage portion 2, so that the whole heating portion 4 is wrapped by the heat insulation sleeve 10, thereby avoiding heat dissipation in the heating portion 4, and meanwhile, the heat insulation sleeve 10 is provided with a hand-holding position to avoid scalding hands.

In this embodiment, the heat insulation sleeve 10 is a common foam plastic heat insulation layer, and the material is not limited as long as the heat insulation and scald prevention effects can be achieved.

As shown in fig. 1 to 2, in the present embodiment, the end face of the heat transfer protrusion 3 has a certain distance from the bottom of the heat insulating sleeve 10, and the self-heating material B can fill the distance, so that when the self-heating material a and the self-heating material B are mixed, the end face of the heat transfer protrusion 3 can be directly heated, the heating area of the heat transfer protrusion 3 is increased, and the heating effect is improved.

In order to further improve the joint strength on bed of material 5 and compounding layer 6 down, avoid colliding with at will and change the relative angle between bed of material 5 and the compounding layer 6 down, in this embodiment, be equipped with a plurality of in the edge of feed opening 7 and be used for connecting the breakable connecting bridge on bed of material 5 and compounding layer 6 down. The connecting bridge is in a discontinuous point connection mode between the bottle cap similar to a mineral water bottle and the connecting ring.

In this embodiment, the edge of the feed opening 7 of the material containing sleeve 8 contacts with the surface of the annular rotating plate 9, and the edge of the feed opening 7 of the annular rotating plate 9 contacts with the bottom surface of the material containing sleeve 8, and the intermittent points are connected with a plurality of connecting bridges, so as to ensure the connection between the annular rotating plate 9 and the material containing sleeve 8. When the blanking is needed, the heat insulation sleeve 10 is screwed with a certain force, the connecting bridge between the annular rotating plate 9 and the material containing sleeve 8 is broken, and then the annular rotating plate 9 can continuously rotate, so that the blanking port 7 is correspondingly communicated.

In order to improve the leakproofness of feed opening 7, avoid leaking into the compounding layer 6 (heat-insulating sleeve 10) from hot material A in, in this embodiment, feed opening 7 and binding face department are scribbled breakable sealed glue, when relative rotation (when annular commentaries on classics board 9 rotates) takes place for lower compounding layer 5 and compounding layer 6, sealed glue just can be broken, and then does not influence the unloading.

In this embodiment, feed opening 7 on unloading layer 5 and the compounding layer 6 is the circumference array and arranges to improve unloading speed, can guarantee simultaneously from the clean unloading of hot material A, avoid remaining in unloading layer 5. Specifically, as shown in fig. 2, the material outlets 7 are circumferentially arrayed on the bottom surface of the material containing sleeve 8 and the surface of the annular rotating plate 9, when the annular rotating plate 9 does not rotate, the material outlets 7 are plugged by the abutting surfaces of the opposite sides, and when the annular rotating plate 9 rotates to a certain angle, the material outlets 7 on the material containing sleeve 8 and the material outlets 7 of the annular rotating plate 9 are all communicated correspondingly, so that the material discharging speed is increased.

In this embodiment, as shown in fig. 1, the bottle top of the beverage portion 2 is a conical top, which is beneficial for the beverage to gather to the bottle top opening, and the conical wall can prevent the beverage from remaining at the bottle top.

In this embodiment, the top surface of the conical top is provided with an opening similar to a pop can, and an opening sheet with a pull ring is embedded in the opening in a matching manner. When the beverage bottle is used as a disposable self-heating beverage bottle, the beverage bottle can be used for drinking as a beverage of the pop can, and the opening piece can be separated from the opening on the conical top only by pulling the pull ring, so that the beverage can flow out, the beverage can be carried and quickly, and the heating function which cannot be realized by the pop can be realized.

In this embodiment, for environmental protection, except the heat insulation sleeve 10, all the other bottles can be made into aluminum alloy material, so as to be convenient for recycling. Of course, other materials are not excluded as long as the sealing, heating and installation can be guaranteed, and the packaging material is non-toxic and harmless and can be made of other materials.

In this embodiment, the portable self-heating beverage bottle is not limited to be used for packaging water and heating, and can be used for packaging and heating common beverages such as soybean milk, green tea, black tea and the like, porridge such as eight-treasure porridge, pumpkin porridge and the like, or other similar flowing foods.

The principle and the implementation mode of the invention are explained by applying a specific example, and the description of the embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.

Claims (10)

1. The utility model provides a portable self-heating beverage bottle, its characterized in that, self-heating beverage bottle includes drink portion and is located the heating portion of drink portion below, the heating portion is including relative pivoted unloading layer and compounding layer, the unloading layer with the internal partial shipment of compounding has the self-heating material A and the self-heating material B that can release heat after mixing, the compounding layer closely laminates the below of unloading layer, the unloading layer with be equipped with the feed opening that can communicate after both relative rotations on the binding face of compounding layer.

2. The portable self-heating beverage bottle as claimed in claim 1, wherein the bottom of the beverage portion is provided with a heat transfer protrusion, the blanking layer comprises a material containing sleeve fixedly sleeved on the heat transfer protrusion, and the material containing sleeve is hermetically connected with the bottom of the beverage portion.

3. The portable self-heating beverage bottle as claimed in claim 2, wherein the mixing layer comprises an annular rotating plate rotatably connected to the heat transfer protrusion, the annular rotating plate is closely attached to the bottom of the material containing sleeve, and the annular rotating plate is fixedly sleeved with the heat insulation sleeve.

4. The portable self-heating beverage bottle of claim 3, wherein the barrel rim of the insulating sleeve is sealingly connected to the bottom of the beverage portion.

5. The portable self-heating beverage bottle according to claim 3, wherein the end surface of the heat transfer protrusion is spaced from the bottom of the heat insulating sleeve.

6. The portable self-heating beverage bottle as claimed in claim 1, wherein the rim of the feeding opening is provided with a plurality of breakable connecting bridges for connecting the feeding layer and the mixing layer.

7. The portable self-heating beverage bottle of claim 1, wherein the discharge opening is provided with a frangible sealant.

8. The portable self-heating beverage bottle according to any one of claims 1-7, wherein the feeding openings of the feeding layer and the mixing layer are arranged in a circumferential array.

9. The portable self-heating beverage bottle of claim 1, wherein the top of the beverage portion is tapered.

10. The portable self-heating beverage bottle according to claim 9, wherein the top surface of the conical top is provided with an opening, and the opening is adapted to be fitted with an opening plate having a pull ring.

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