CN216103842U - Beverage capsule capable of breaking large particle solid - Google Patents

Abstract

The utility model relates to a beverage capsule capable of breaking large granular solid matters out, which comprises a shell (1) internally provided with a containing cavity (11) for filling the large granular solid matters, wherein an opening at the upper end of the containing cavity (11) is fixedly provided with a packaging part (2) for covering, and the bottom of the shell (1) is provided with a discharge channel (12) communicated with the outside; the method is characterized in that: the aperture (phi 1) of discharging channel (12) is greater than half of the inner diameter (phi 2) of accommodating cavity (11), the top of discharging channel (12) is equipped with bottom seal membrane (3) and covers, bottom seal membrane (3) are water-soluble filter paper. Water-soluble filter paper can directly dissolve after meeting water, and discharging channel's aperture is big to make the large granule solid matter of holding intracavity directly flow out from discharging channel along with liquid, invalid extra setting punctures the structure.

Description

Beverage capsule capable of breaking large particle solid

Technical Field

The utility model relates to a beverage capsule filled with an extraction material for an extraction device, in particular to a beverage capsule which can be broken by large granular solids. The extraction equipment is used for breaking and packaging large-particle solid materials in the container by heating water rapidly under high pressure.

Background

An extraction device is an extraction device for extracting the contents of a container with a corresponding juice by rapidly heating water under high pressure, suitable for processing the container (capsule) containing the ingredients which, after interaction with the liquid introduced into the capsule, such as hot pressurized water, are able to produce a beverage or an edible juice. The extraction equipment comprises a water pump, a heating boiler and an extraction assembly, wherein the extraction assembly comprises a first machine part and a second machine part which can move relatively, the second machine part and the first machine part are in contact and then are sealed and closed to form a sealed extraction cavity for containing capsules, a liquid outlet channel is arranged in the first machine part, a back pressure valve is arranged at the liquid outlet channel to ensure certain extraction pressure, and the liquid outlet channel is connected to a liquid outlet nozzle of the extraction equipment through a liquid outlet pipe.

The beverage capsule comprises a shell with a containing cavity for filling extraction materials, wherein an opening at the upper end of the containing cavity is fixedly covered by a packaging part (aluminum foil paper), and the bottom of the shell is provided with a liquid outlet channel communicated with the outside. During extraction, the pricker punctures the aluminum foil paper, water flow directly impacts materials inside the aluminum foil paper vertically along a straight line direction, and the materials are dissolved to form juice which flows out from the liquid outlet channel for people to use.

The existing beverage capsules are only suitable for extracting powdery materials, only juice flows out, and young people like beverages containing larger particle solids, such as pearl milk tea or other beverages with jelly or other colloidal substances. However, the liquid outlet channel of the existing beverage capsule is small and is not suitable for breaking the bag by brewing large-particle solid matters.

In summary, the existing beverage capsule can be further improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a beverage capsule broken by a brewing mode of large granular solid matters aiming at the current situation of the prior art, and the beverage capsule provides possibility for preparing pearl milk tea beverages.

The first technical scheme adopted by the utility model for solving the technical problems is as follows: a beverage capsule capable of breaking large granular solid matter comprises a shell with a containing cavity for filling the large granular solid matter, wherein an opening at the upper end of the containing cavity is fixed with a packaging part for covering, and the bottom of the shell is provided with a discharge channel communicated with the outside; the method is characterized in that: the aperture of the discharge channel is larger than half of the inner diameter of the accommodating cavity, and the top of the discharge channel is covered by a bottom sealing film; the bottom sealing film is water-soluble filter paper.

Compared with the prior art, the first technical scheme of the utility model has the advantages that: discharging channel's aperture is greater than half of the internal diameter in holding chamber, and discharging channel's top is equipped with the bottom seal membrane and covers, and the bottom seal membrane adopts water-soluble filter paper, and this kind of water-soluble filter paper can directly dissolve after meeting water, and discharging channel's aperture is big to make the large granule solid state of holding intracavity directly flow from discharging channel along with liquid, invalid extra setting punctures the structure. The water-soluble filter paper is made of a material similar to sugar paper.

The bottom seal membrane expands under the hydraulic pressure effect, and then is punctured by the interior puncture structure of discharging channel to make the direct who liquid of large granule solid content in the holding intracavity flow from discharging channel.

The second technical solution adopted by the present invention to solve the above technical problems is: a beverage capsule capable of breaking large granular solid matter comprises a shell with a containing cavity for filling the large granular solid matter, wherein an opening at the upper end of the containing cavity is fixed with a packaging part for covering, and the bottom of the shell is provided with a discharge channel communicated with the outside; the method is characterized in that: the aperture of the discharge channel is larger than half of the inner diameter of the accommodating cavity, and the top of the discharge channel is covered by a bottom sealing film; the bottom sealing film is an aluminum film or a composite film, and a puncture structure is arranged in the discharge channel.

The further improvement, the puncturing structure comprises a plurality of ribs which are arranged in the radial direction, the inner ends of the ribs are connected together, and the thickness of the ribs is reduced from bottom to top, so that a puncturing cutting edge is formed at the top ends of the ribs. The large caliber of the discharge channel enables the area of the bottom sealing film to be large, the puncturing structure is composed of ribs, the thickness of the ribs is thinned from bottom to top, so that puncturing cutting edges are formed at the top ends of the ribs and are long, the bottom sealing film can be punctured in a large range, the bottom sealing film can be punctured in a long range, and large-particle solid matters can be smoothly broken through and flow out of the discharge channel through the bottom sealing film.

In a further improvement, a pricking pin protruding upwards is arranged at the joint position of the inner ends of the ribs. The puncture needle is combined with the puncture cutting edge to more conveniently puncture the bottom-layer sealing film, the puncture needle is slender and is beneficial to rapid puncture, and the punctured bottom-layer sealing film at the central position can be rapidly punctured by the strip-shaped puncture cutting edge under the action of water pressure.

Preferably, the ribs are three and radially outwardly arranged from a central position of the discharge passage. The rib is too many, punctures the blade and become too closely be difficult for puncturing the bottom seal membrane on the contrary, and intensive puncture blade for interval is little between the two, also does not benefit to the large granule solid matter and passes through, and this structure rib has three, and radial outside radiation arrangement is put from discharging channel's central point, makes to puncture the structure and is trident form, when doing benefit to and punctures the bottom seal membrane, also does benefit to the large granule solid matter and passes through from the interval between the rib.

The aperture of the discharge channel is too small to be passed by large solid particles, and the bottom sealing film is not easy to bear weight if the aperture is too large. Preferably, the aperture of the discharge channel is 20-28 mm.

Preferably, the packaging part is a plastic sheet which is welded at an opening at the upper end of the shell in a hot-pressing mode, and an aluminum foil is bonded to the top of the plastic sheet through an adhesive; the plastic sheet is the same as the shell in material, and the packaging component with a double-layer structure is convenient for heat sealing, so that good air tightness is ensured, and the filled materials in the capsule are protected from being influenced by environmental humidity and air. Or the packaging part is a plastic cover fixed at an opening at the upper end of the shell; or the packaging part is aluminum foil paper directly fixed at an opening at the upper end of the shell.

Compared with the prior art, the first technical scheme of the utility model has the advantages that: discharging channel's aperture is greater than half of holding chamber internal diameter, and discharging channel's top is equipped with the bottom seal membrane and covers, and the bottom seal membrane adopts aluminium membrane or complex film, can not dissolved by water promptly, and the aluminium membrane has the advantage that intensity and leakproofness are good, and the bottom seal membrane is under the high pressure water effect, by the puncture structure puncture back, and discharging channel's aperture is big to make the large granule solid matter of holding intracavity directly flow from discharging channel along with liquid.

Drawings

FIG. 1 is a first perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a cross-sectional view of a first embodiment of the present invention;

FIG. 4 is an exploded perspective view of the first embodiment of the present invention;

FIG. 5 is a schematic perspective view of a second embodiment of the present invention;

FIG. 6 is an exploded perspective view of a second embodiment of the present invention;

FIG. 7 is a cross-sectional view of a second embodiment of the present invention (in an un-pierced state);

FIG. 8 is a cross-sectional view of a second embodiment of the present invention (just pierced by a lancet);

fig. 9 is a cross-sectional view (punctured by a puncturing edge) of a second embodiment of the present invention.

Detailed Description

The utility model is described in further detail below with reference to the accompanying examples.

As shown in FIGS. 1 to 3, a first embodiment of the present invention is described.

A can let the large granule solid break the beverage capsule that the bag comes out, including its body 1 with the holding cavity 11 used for filling the large granule solid, the upper end opening of the holding cavity 11 is fixed with the packaging part 2 to cover, the packaging part 2 is the plastic sheet of the upper end opening of the body 1 of hot-pressing fusion, the top of the plastic sheet has aluminium foils through the adhesive bonding; or, the packaging part 2 is a plastic cover fixed at the opening of the upper end of the shell 1; or the packaging part is aluminum foil paper directly fixed at the opening at the upper end of the shell 1. The bottom of the housing 1 has a discharge channel 12 communicating with the outside.

The aperture phi 1 of the discharging channel 12 is larger than half of the inner diameter phi 2 of the accommodating cavity 11, the top of the discharging channel 12 is covered by a bottom sealing film 3, and the bottom sealing film 3 is water-soluble filter paper. The aperture phi 1 of the discharge channel 12 is 20-28 mm.

The aperture phi 1 of the discharging channel 12 is larger than half of the inner diameter phi 2 of the accommodating cavity 11, the top of the discharging channel 12 is provided with a bottom sealing film 3 for covering, the bottom sealing film 3 adopts water-soluble filter paper, the water-soluble filter paper can be directly dissolved after meeting water, and the aperture phi of the discharging channel 12 is large, so that large-particle solid matters in the accommodating cavity 11 directly flow out from the discharging channel 12 along with liquid, and a puncture structure is inefficiently and additionally arranged. The water-soluble filter paper is made of a material similar to sugar paper.

FIGS. 4 to 9 show a second embodiment of the present invention.

A can let the large granule solid break the beverage capsule that the bag comes out, including its body 1 with the holding cavity 11 used for filling the large granule solid, the upper end opening of the holding cavity 11 is fixed with the packaging part 2 to cover, the packaging part 2 is the plastic sheet of the upper end opening of the body 1 of hot-pressing fusion, the top of the plastic sheet has aluminium foils through the adhesive bonding; or, the packaging part 2 is a plastic cover fixed at the opening of the upper end of the shell 1; or the packaging part is aluminum foil paper directly fixed at the opening at the upper end of the shell 1. The bottom of the housing 1 has a discharge channel 12 communicating with the outside.

The aperture phi 1 of the discharge channel 12 is larger than half of the inner diameter phi 2 of the accommodating cavity 11, the top of the discharge channel 12 is provided with a bottom sealing film 3 for covering, the bottom sealing film 3 is an aluminum film or a composite film, and a puncture structure is arranged in the discharge channel 12. The aperture phi 1 of the discharge channel 12 is 20-28 mm.

The puncturing structure comprises a plurality of ribs 4 which are radially arranged, the inner ends of the ribs 4 are connected together, and the thickness of the ribs 4 becomes thinner from bottom to top so as to form a puncturing cutting edge 41 at the top ends of the ribs 4. The joint position of the inner end of each rib 4 is provided with a pricking pin 5 which protrudes upwards.

The ribs 4 in this embodiment are three and are radially outwardly disposed from the center of the discharge channel 12.

The aperture phi 1 of the discharging channel 12 is larger than half of the inner diameter phi 2 of the accommodating cavity 11, the top of the discharging channel 12 is provided with a bottom sealing film 3 for covering, the bottom sealing film 3 adopts an aluminum film or a composite film, namely, the aluminum film can not be dissolved by water, the aluminum film has the advantages of good strength and sealing performance, the bottom sealing film 3 is punctured by a puncture structure under the action of high-pressure water, and the aperture phi 1 of the discharging channel 12 is large, so that large-particle solid matters in the accommodating cavity 11 directly flow out of the discharging channel 12 along with liquid.

It should be noted that in the description of the present embodiment, the terms "front, back", "left, right", "up, down", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which is only for convenience of describing the present invention and simplifying the description, but does not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Claims (8)

1. A beverage capsule capable of breaking large granular solid matter out comprises a shell (1) which is internally provided with a containing cavity (11) for filling the large granular solid matter, an opening at the upper end of the containing cavity (11) is fixed with a packaging part (2) for covering, and the bottom of the shell (1) is provided with a discharge channel (12) communicated with the outside; the method is characterized in that: the aperture (phi 1) of discharging channel (12) is greater than half of the inner diameter (phi 2) of accommodating cavity (11), the top of discharging channel (12) is equipped with bottom seal membrane (3) and covers, bottom seal membrane (3) are water-soluble filter paper.

2. A beverage capsule of claim 1 capable of breaking large particle solids, comprising: the aperture (phi 1) of the discharging channel (12) is 20-28 mm.

3. A beverage capsule capable of breaking large granular solid matter out comprises a shell (1) which is internally provided with a containing cavity (11) for filling the large granular solid matter, an opening at the upper end of the containing cavity (11) is fixed with a packaging part (2) for covering, and the bottom of the shell (1) is provided with a discharge channel (12) communicated with the outside; the method is characterized in that: the aperture (phi 1) of discharging channel (12) is greater than half of the internal diameter (phi 2) of holding chamber (11), the top of discharging channel (12) is equipped with bottom seal membrane (3) and covers, bottom seal membrane (3) are aluminium membrane or complex film, be equipped with puncture structure in discharging channel (12).

4. A beverage capsule of claim 3 capable of breaking large particle solids, comprising: the puncturing structure comprises a plurality of ribs (4) which are arranged in the radial direction, the inner ends of the ribs (4) are connected together, and the thickness of the ribs (4) is reduced from bottom to top, so that a puncturing cutting edge (41) is formed at the top ends of the ribs (4).

5. A beverage capsule of claim 4 capable of breaking large particle solids, comprising: the joint position of the inner end of each rib (4) is provided with a pricking pin (5) which protrudes upwards.

6. A beverage capsule capable of breaking large particle solids according to claim 4 or 5, wherein: three ribs (4) are arranged radially outward from the center of the discharge channel (12).

7. A beverage capsule of claim 3 capable of breaking large particle solids, comprising: the aperture (phi 1) of the discharging channel (12) is 20-28 mm.

8. A beverage capsule of claim 3 capable of breaking large particle solids, comprising: the packaging component (2) is a plastic sheet which is welded at an opening at the upper end of the shell (1) in a hot-pressing mode, and the top of the plastic sheet is bonded with an aluminum foil through an adhesive; or the packaging component (2) is a plastic cover fixed at an opening at the upper end of the shell (1); or the packaging part is aluminum foil paper directly fixed at an opening at the upper end of the shell (1).

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