CN214536961U - Disposable film ice particles for iced beverage - Google Patents

Abstract

A disposable film ice particle for iced beverage comprises a film shell and an ice block in the film shell, wherein the ice particle is hermetically packaged in the film shell through a film shell sealing layer, when the ice block in the film ice particle is melted, the melted water can be completely sealed in the film shell and can not dilute the beverage in a beverage cup, so that the concentration of the beverage can be kept completely the same and the same taste can be kept all the time, the film of the film shell at least comprises a plastic film or an aluminum plastic film, the film ice particle frozen after the film shell is injected with water, or the film ice particle frozen after the film shell is sealed through the film at least comprises a back-sealed bag type film shell, a plastic-sucking or blow-molding type film shell or a film laminated heat-seal molding film shell.

Description

Disposable film ice particles for iced beverage

Technical Field

The utility model relates to a to the field of icing of beverage, especially a disposable film ice particle for icing beverage.

Background

In the past, the icing of cold drink is basically realized by directly freezing water into ice particles through an ice maker, and directly putting the ice particles into a drink cup to directly ice and cool the drink.

The problem that the ice particles are directly used for icing the beverage is always solved by the invention refrigerator and the ice particles are made by the refrigerator, which is started for icing the beverage for at least decades or even hundreds of years, but the invention refrigerator seems to be well-used.

Later, stainless steel ice particles are available, people drink iced beverages at home, and some people begin to drink iced beverages by using the stainless steel ice particles, so that the problem that the last drink is ice water is solved, and the concentration of the beverages can be kept consistent by using the stainless steel ice particles to drink iced beverages.

However, the cost of the stainless steel ice block is too high, one stainless steel ice particle with a square of 25mm is in the price of thirty-four or even more than ten pieces of money, if the stainless steel ice particle is used for off-store consumption scenes such as off-store consumption like milk tea, cold drink take-out and the like, the stainless steel ice particle is certainly not suitable, the lowest stainless steel ice particle is also in the price of thirty-four, one cup of milk tea is generally about ten pieces of money and is generally placed in the price of about 5 to 12 pieces of money or even more, thus the cost of the stainless steel ice particle exceeds the price of the milk tea, obviously, the adoption of the stainless steel ice particle for ice ballast of the cold drink is infeasible, and the recovery of the ice particle is not practical.

Therefore, the application provides a method for making ice particles by using a plastic film or other films to ice cold drink, namely the film ice particles can change the existing defect that the concentration of the drink is lighter and lighter by directly freezing water into the ice particles to ice the cold drink, and can also greatly reduce the cost problem of the ultra-high cost of using stainless steel ice particles, the cost of each film ice particle can be reduced to less than 0.1 minute, all the film ice particles used by one cup of drink can not exceed 1 minute, the cost difference can be several orders of magnitude, and the film ice particles are simple, practical and low in cost and can be subversive in the commercial field.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a disposable film ice particle and adopt disposable film ice particle to carry out the method of icing beverage, film ice particle has the ice particle of one deck film sealing layer shell outside the ice particle, and after the ice-cube in the film ice particle melts, the water that melts can be sealed completely in the film shell, can not dilute the beverage in the beverage cup, and here the ice particle is the ice-cube of the conventional size specification that is generally used for icing beverage, the film includes plastic film, plastic-aluminum film, aluminium foil etc. at least, adopt disposable film ice particle to carry out the method of icing beverage, mean through adding in the beverage the film ice particle carries out the icing to the beverage, the ice water after the ice-cube in the film ice particle melts is sealed completely in the film shell for the concentration of beverage can not dilute a low-cost method from beginning to end, the method is characterized in that when the film ice particles are gradually melted, the concentration of the beverage is always kept to be the same, the same taste can be always kept, more importantly, the cost is very low, and the method is very suitable for the commercial field.

The application provides the preparation mode of a simplest film ice particle at first, be exactly with the current wrapping bag of sealing on the back that is used for packing liquid sauce package, granule wrapping bag, ham and egg or other food package modifies corresponding parameter, change into the specification of conventional ice particle size, for example the cube ice particle about the ice particle specification of general iced beverage is 25mm-30mm, because the bag body of such back of sealing formula packing is very flat, consequently can adopt and slightly be greater than the specification and size of conventional ice particle, for example about 35mm, be used for the filling to purify the water after filtering, after freezing, can be used for as this application the iced use of film ice particle, very simple and practical can be taken and used, and the film can be thinner, the heat conductivity is stronger, and the cost can be lower. Of course, the volume of the film ice particles can also be increased by making the upper and lower seals of the back-sealed bag vertical.

Furthermore, as shown in fig. 1, the back-sealing bag is preferably changed into a film shell a1 of a corner-inserting bag body, so that more water can be filled for freezing, the volume is smaller, the occupied space is smaller, and the back-sealing bag is more suitable for being placed in a beverage cup for freezing.

As shown in fig. 2, the film casing of the film ice particles can be made into a cubic structure, which is shown as a cube film casing b1, and the film casing can be made into a hollow film casing cavity structure by plastic suction or blow molding through a mold, so that the hollow film casing cavity structure has fewer folds, after water is injected into the cavity of the film casing for freezing, the hollow film casing cavity structure is closer to the cubic shape of the conventional ice particles, obviously, other hollow structures, such as a heart shape, a circle shape, an octahedron shape and even various cartoon shapes, can be made.

Film casing b1 has film casing water injection pipe b10, can pass through film casing water injection pipe b10 injects the purification water, film casing water injection pipe b10 mouth of pipe has harder mouth of pipe ring b100, and the water injector intubate inserts when making things convenient for the water injection carry out the water injection in the water injection pipe of film casing, and the card of being convenient for simultaneously can play the effect of blocking the location in supporting special water injection supporter.

Further, folding lines are designed in the mold, and the formed film shell is provided with folding lines for facilitating compression folding, such as folding line b11 shown in fig. 3, so as to facilitate compression package and transportation.

Further, as shown in fig. 4, after the shaping film casing b1 can also be through the extrusion or suck away the air and flatten, and mouth of pipe ring b100 department will seal the dribbling b2 pressfitting through ultrasonic wave or hot pressing and seal, prevent that the air from getting into in film casing b1, both made things convenient for the packing transportation, reduce the space and occupy, can make things convenient for the automatic water injection of professional equipment again, seal dribbling b2 plays and connects each film casing's effect plays fixed position effect simultaneously, and can pass through seal dribbling b2 will be many film casing reel chain becomes the disc, and the follow-up automation of user of being convenient for is accomplished water injection, heat seal and is decided the separation each film casing. Blow molding and heat seal, reel packing can be accomplished the back packing completely in the mill and transport the user to raise the efficiency reduce cost, certainly, big user also can adopt special blow molding, filters water injection, heat seal and decides, the fashioned all-in-one of freezing.

Furthermore, the sealing tape b2 may be provided with a positioning mark b23 to facilitate positioning during water injection.

As shown in fig. 5, a user places a film casing reel on a reel shaft of a dedicated film ice particle maker, inserts a water injector insertion tube b50 of the film ice particle maker into a tube opening ring b100 by positioning to inject water, and after the water injection is completed, heat sealing is performed by a heat sealing and cutting device to cut a film casing water injection tube b10, and the film casing b1 after the water injection enters a freezing device of the ice maker to be frozen into film ice particles.

The water after the purification is preferably injected during the water injection, prevents that the film shell breaks and influences food safety, because the film has certain heat-proof quality, the refrigeration speed can be slower than traditional hydrologic cycle ice grid ice maker relatively, so preferably inject the water of cooling to being close to the freezing point during the water injection, be convenient for accelerate freezing speed, earlier pour into after cooling to the freezing point with the purification water promptly in the film shell. The flooded film shell is preferably placed into a refrigeration circuit of an evaporator coil of an ice machine freezing unit for freezing to increase the rate of freezing into film ice particles.

Since the methods for manufacturing the film shells of the film ice particles are too many, at least including the methods of back-sealed bag type, plastic forming, blow molding, compression molding and the like, it is obvious that the present application is difficult to exhaust all the methods for designing and manufacturing the film shells, so that the present application cannot describe the manufacturing of each film shell in detail, and only individual cases help to describe the originality of the film ice particles, and meanwhile, the freezing device of the ice maker for freezing the film ice particles and the methods for manufacturing the film ice particles can be designed in many ways, so the present application will not describe the freezing device of the ice maker for film ice particles, because too many methods for realizing the method for manufacturing the film ice particles with the closed film shells are required.

The film ice particles are prepared by firstly manufacturing a film shell and then injecting water to freeze the film ice particles, obviously, the method for melting the film ice particles and then sealing the water in the film shell so as not to dilute the beverage can be achieved, the method can also be a method for freezing the water into the ice particles and then placing the ice particles into a film for sealing and packaging, and can also achieve basically the same effect. Therefore, the film ice particles comprise film ice particles which are frozen after water is filled in a film shell, and also comprise film ice particles which are sealed and packaged by using a film after the frozen ice particles are frozen.

The application relates to a disposable film ice particle, which is characterized in that the film ice particle is a disposable ice particle for icing beverage, the film ice particle comprises a film shell and an ice particle in the film shell, the film ice particle is a film ice particle which is hermetically packaged in the film shell through a film shell sealing layer outside the film ice particle, after the ice particle in the film ice particle is melted, the melted water can be completely sealed in the film shell, the beverage in a beverage cup cannot be diluted, and the concentration of the beverage can be kept to be completely the same.

The application discloses a method for icing a beverage by adopting disposable film ice particles, which is characterized in that the method is used for adding the disposable film ice particles into the beverage to ice the beverage, the film ice particles are disposable ice particles with a layer of film shell sealing layer outside the ice particles, and after ice cubes in the film ice particles are melted, the melted water can be completely sealed in the film shell, so that the concentration of the beverage cannot be diluted all the time, and the concentration of the beverage can be always kept at the same concentration to always keep the same taste.

The application the film of film shell includes plastic film or plastic-aluminum film at least, the film ice grain includes the film ice grain that freezes into behind the film shell water injection, perhaps for passing through the film with the ice grain that freezes and seal the film ice grain that becomes.

The film shell at least comprises one of a back-sealed bag type film shell, a plastic-absorbing or blow-molding type film shell or a film laminated heat-seal molding type film shell.

The plastic-uptake or blow-molding type film shell is provided with a film shell cavity and a film shell water injection pipe, and after water is injected into the film shell cavity through the film shell water injection pipe, the film shell cavity is sealed and cut, and then the film shell is frozen into film ice particles.

The film lamination heat seal molding type film shell is formed by laminating 2 layers or more than 2 layers of films and then punching or rolling the films into a whole or whole film shell heat seal molding line through a heat seal die, wherein the heat seal line of the film shell comprises a film shell water injection pipe capable of injecting water to the whole or whole film shells together, and the film shell water injection pipe can inject water to the whole or whole film shells.

Film stromatolite heat seal shaping film casing includes hand and tears formula film stromatolite film casing, hand tears formula film stromatolite film casing has the film non return membrane, the non return membrane is carried out the stromatolite by 2 layers of films, and film limit position is in the film casing, after injected water or injected water freeze into the film ice grain, can directly tear with the hand and need not seal through the heat seal, water or the water after melting can not follow the film casing and flow.

The film lamination of the hand-tearing film lamination film shell is arranged regularly, the center line of the film of the middle layer is taken as the central axis from inside to outside, the film belt close to the outside vertically clamps the film belt close to the inside, and the like, the part of the film belt close to the inside clamped by the film belt close to the outside is taken as the non-return film part, meanwhile, the part of the film belt close to the inside is taken as the part of the film belt close to the inside clamped by the film belt close to the inside and taken as the part of the punching film shell, and the like, the part of the film belt of the middle layer clamped by the film belt of the outer layer of the middle layer is also taken as the non-return film part, and the middle part is only taken as the part of the water injection pipe of the film shell.

Through the application, the concentration of the beverage can not be diluted by adopting the stainless steel ice particle iced beverage, the taste of the beverage is kept, and the problem that the high-cost stainless steel ice particle cannot be used for one time and is commercialized can be solved.

Drawings

Fig. 1 is a schematic view of a corner-tucked back-seal bag-type membrane housing.

Fig. 2 is a schematic view of a blow molded cube-front film envelope.

Fig. 3 is a schematic view of a fold line of a blown cube film envelope.

FIG. 4 is a schematic view of a chain type reel of film cases formed by sealing a plurality of film cases with sealing tapes.

FIG. 5 is a schematic diagram of water injection into a chained membrane housing.

Fig. 6 is a schematic of a film stack using a 2-film laminated film housing stamp.

Fig. 7 is a schematic line drawing of a continuous laminated film skin stamped or rolled through a heat sealing die.

FIG. 8 is a simplified schematic diagram of a water-filling, heat-sealing, separating and forming device for film ice particles of an automatic film ice particle ice maker.

FIG. 9 is a schematic of a thin film laminated ice pellet frozen into a round shape after flooding.

FIG. 10 is a schematic view of a film stack with two additional films as check valve films in the film housing.

FIG. 11 is a schematic view of a thin film housing line stamped with a check film by a die.

Fig. 12 is a schematic view of a multi-layer film stack of a hand-tear film housing.

FIG. 13 is a schematic drawing of a press line for full-size film case press plates for 4 rows of circular film cases formed by pressing a multilayer film with a heat-seal press die.

FIG. 14 is a schematic view of a longitudinal membrane housing fill tube portion separated to allow for filling of an integral membrane laminate membrane housing.

Detailed Description

Further embodiments of the disposable thin film ice pellets and methods of using the disposable thin film ice pellets to ice beverages described herein are illustrated by the following examples.

First embodiment, fig. 6-9 show a schematic diagram of an embodiment of the disposable thin film ice particles of the present application, which is a solution of a thin film laminated heat-seal molding type thin film shell formed by mold pressing and heat-sealing by using a double-layer thin film, and a double-layer circular plane thin film shell is manufactured by a heat-sealing mold for injecting water and freezing to form the approximately circular thin film ice particles, and the solution is basically a very simple and mature low-cost implementation by using the existing manner of manufacturing disposable PE gloves.

Fig. 6 is a schematic diagram showing the layering of 2 films used in this embodiment, wherein the bottom film c14 is a whole film, the upper films c111 and c112 are respectively 2 films, and the middle part of the intersection of the upper films c111 and c112 has a certain overlapped part of the back seal overlapped material, and the same function as the overlapped part of the middle of the films when the back seal bag is made is used for pressing and heat sealing the film into a film water injection pipe by a heat sealing mechanism before water injection, and the heat sealing process is completely the same as the function of sealing the back of the bag body when the back seal bag is made, and the films c14, c111 and c112 can be 3 independent films, or can be a 2-layer folded structure in which the whole film is folded to break the middle part and overlap a part, and this embodiment is a schematic diagram of the whole film folding, and these three parts are respectively named as films c14, c111 and c 112.

Fig. 7 is a schematic view showing that the folded 2-layer film is pressed or rolled into a continuous film cover by a heat sealing mold, and a continuous film cover line c20 is shown to include a plurality of circular film covers c3 having water injection ports c30 and a film cover water injection pipe c31 communicating with each water injection port c30 of the film cover c3 and injecting water after being sealed back into a film water injection pipe by heat sealing. The stamping or rolling can be performed by a conventional electric heating die or by an ultrasonic die. After the thermal synthesis molding, the whole film shell and the waste material part are preferably rolled into a film shell semi-finished product reel together, so that a user can automatically make round film ice particles on a reel shaft of a film shell ice maker.

Fig. 8 is a schematic view showing a solution for manufacturing the film ice particles by using the above-mentioned film case reel, which is a simple schematic view of a film ice particle water injection heat-sealing separation molding device of an automatic film ice particle ice maker, and is almost the same as a charging and sealing machine of a general back sealing bag, the film case reel c33 is installed on a reel support c51 of the separation molding device, a reel of the film case reel naturally hangs down, a back sealing overlapping material separator c52 is installed at the middle part, and the overlapping films of the back sealing overlapping material can be separated from the middle part and are separated from the inside and outside and folded by 90 degrees to be in a left-right parallel overlapping state, so that the overlapping material part is conveniently thermally synthesized into the water injection pipeline c31 in the next step.

The separator c52 is provided with a water injector inserting pipe c50, the separator c52 is provided with a heat sealing device c53 below, films which are overlapped in parallel are thermally sealed into a film shell water injection pipe c31 through the heat sealing device c53, the water injector inserting pipe c50 is inserted into the film shell water injection pipe c31, the generated water pressure can inject water into each film shell c3 below, the heat sealing process of the heat sealing device c53 for the films is basically the same as that of the back sealing bag, the heat sealing device c53 can adopt electric heat or ultrasonic waves, and can adopt a punching type or a rolling type, the embodiment adopts a rolling type, and the uninterrupted rolling type can be carried out. The level sensors controlling the fill level are omitted from the figure and do not represent nothing.

The heat-sealing separation forming device of the embodiment is provided with a film casing roll supporting splint, the splint comprises a longitudinal splint c61 and a transverse splint c62, the joint part of the longitudinal splint c61 and the transverse splint c62 is an arc-shaped structure, the film casing c3 with the lower part injected with water can naturally slide down to the transverse splint c62, the arc-shaped part is provided with a waste collecting slit c63, and waste materials on two sides of the film casing roll can be collected and removed from the waste collecting slit c63 through a waste collector 641 c.

Further, the transverse supporting plate c62 is provided with a pressing plate c65, water in the film case water injection pipe c31 is pressed into the film case c3 through the pressing plate c65, and excessive water in the film case water injection pipe is pressed to the front end.

Further, the pressing plate c65 is followed by a heat sealing cutter c66, the water inlet of the water-injected film casing c3 is heat sealed into the sealed film casing c3 by the cutter c66, and at the same time, the water injection pipe c31 of the film casing c3, which is already used as waste material in the middle of the film casing roll, is cut apart, and the cut-apart water-injected film casing c3 is slid down into the evaporator pipe of the freezing device to be frozen into the film ice particles c 300. The cutting device is basically similar to the common back sealing bag, can be cut by punching or rolling, can adopt electric heat or ultrasonic waves and the like, and adopts a rolling type heat sealing and cutting device in the embodiment, so that the film ice particles can be heat sealed and cut without intermission. The transverse supporting plate c62 can be in a non-horizontal state and slightly has a slight inclination, slope or arc surface, so that the film shell c3 after heat seal cutting and water injection can automatically slide into an evaporator freezing pipeline or a designated freezing tray for freezing. For ease of illustration, the support frame portion of the machine assembly is not shown and is not meant to be absent, and the basic sensor arrangement and piping arrangement is omitted from this application and is not meant to be absent.

Further, the waste film housing water injection pipe c31 in the middle of the roll is partially collected by the waste collector c642 and also serves as a pulling mechanism for pulling the film housing coil web backward.

Fig. 9 is a schematic view of a film ice particle c300 frozen after water is injected, due to the expansion phenomenon of water after freezing into ice, the adjustment of the selection, thickness and water injection pressure of the film ice particle needs debugging and testing according to actual conditions, and due to the existence of the film, compared with the ice making speed of the traditional water-spraying ice grid ice making machine, the ice making speed is slower, so that water is preferably pre-cooled to be close to the freezing point and then is injected into the film shell, the water-injected and cut film shell enters a pipeline type evaporator, and is cooled through a pipeline with a certain length, and the water is frozen into the film ice particle, so that the freezing speed can be increased, and the freezing efficiency can be improved.

The present application does not describe the thin film ice maker in detail, and since there are many alternative ways, devices that can achieve the same function of making and freezing the thin film ice should be equivalent to the present application.

Further, as shown in fig. 10, a film lamination diagram of a film case in which two films are added to the film case c3 as check valve films is shown, two films, i.e., 4 films, are added between the two films of fig. 6, and in order from the bottom layer to the upper layer, a bottom film d14, an upper film d111, d112, which are materials for heat sealing the film case, and intermediate 2 films d121, d122 and an intermediate 3 d13, which are check valves, are used for preventing backflow of injected water, wherein the intermediate 2 films d121, d122 are partially overlapped as the films c111, c112 of fig. 6 to serve as portions back-sealed to a water injection pipe of the film case, and the upper films d111, d112 are separated and are not overlapped.

Fig. 11 is a schematic view showing the lines of the film cover d30 punched by the die, so that the film cover d30 is formed without backflow after water is injected. If adopt stamping forming mode, the both ends of film shell water injection pipe lines can set up a segment slash d311, can prevent that film shell water injection pipe lines from linking up the phenomenon of leaking that appears in the position not, can reduce the tolerance precision of punching press in order to reduce equipment cost.

86003399 is added with a check film for preventing water in the film shell from flowing out after water injection, the cutter c66 can separate the film shell without heat seal and heat cutting, and can directly adopt a cutter to cut off in cold cutting.

Second embodiment, fig. 12 to 14 are diagrams illustrating an embodiment of a film ice particle that can be directly finished by hand tearing, that is, after the whole film shell is punched and water is injected, or after the film ice particle is completely frozen, each film shell or film ice particle can be torn by hand, or cut by scissors, or cut by a knife to form a single film ice particle.

As shown in fig. 12, which is a schematic view of a multi-layer film lamination of the hand-tear film casing, from top to bottom, there are a first layer e111, e112, a second layer e121, e122, a third layer e13, a fourth layer e14, a fifth layer e151, e152, and a sixth layer e161, e162 in sequence, and since the middle third layer e13 does not need to be overlapped at the middle position like the back-sealing bag, the water injection pipe of the hand-tear film casing of the present embodiment is a whole film e13, so that the films d121, d122 need to be separated into 2 films and overlapped.

Fig. 13 is a schematic diagram of a stamping line of a full-page membrane housing stamping plate of 4 rows of circular membrane housings d30 stamped by a multi-layer membrane through a heat-seal stamping die, wherein the stamping line comprises 4 rows of membrane housings d30 and 3 membrane housing water injection pipes d313 for water injection, 3 membrane housing water injection pipes d313 are connected to a longitudinal membrane housing water injection pipe d311 through a transverse membrane housing water injection pipe d312, the opening of the longitudinal membrane housing water injection pipe d311 can be a bell mouth d314, so that water can be directly injected without separately configuring a water injection funnel, for example, a household purification faucet can be directly injected with water against the bell mouth d 314.

The first, second, fifth and sixth layers of the present embodiment are laminated by using separate single-layer film tapes on both sides, but of course, each layer may also be laminated by using the whole film tape, which increases the material consumption, and the middle portion may be thicker, which is not easy to tear by hand, and of course, the first and sixth films on the most side may be folded by using the whole film. The lamination arrangement rule of this embodiment is a lamination manner of laminating one on another, and the film layer on the outer side sandwiches the film layer on the inner side, and so on, i.e. film e111 and film e161 sandwich film e121 and film e151, film e112 and film e162 sandwich film e122 and film e152, film e121 and film e151 sandwich the left portion of film e13 and film e14, and film e122 and film e152 sandwich the right portion of film e13 and film e 14. For convenience of illustration, one corner of the first, second and third layers of film is drawn in a rolled state, and the lower three layers are laid flat.

Meanwhile, the overlapped part of the film layer close to the inner side and the film layer close to the outer side is positioned in each film shell after being thermally sealed and stamped by a die, and can be used as a check film with the function of a check valve to prevent water injected into the film shells from flowing backwards.

Obviously, the film layers can be added on the outer sides of the outermost film e111 and the film e161, and the film e112 and the film e162 to make an entire-plate hand-tearing-type film shell stamping plate with 6 film shells, and by analogy, more than 8 hand-tearing-type film shell stamping plates can be made to improve the water injection efficiency, so that more film ice particles can be made at one time.

The film lamination is arranged in a regular way, the center line of the film of the middle-most layer is taken as the central axis, the film belt close to the outer side vertically clamps the film belt close to the inner side from inside to outside, and the like, the part of the film belt close to the inner side clamped by the film belt close to the outer side of the previous layer is taken as the non-return film part, meanwhile, the part of the film belt close to the inner side clamped by the film belt close to the upper layer is taken as the part for pressing the film shell, and the like, the part of the film belt of the middle-most layer clamped by the film belt of the outer side is also taken as the non-return film part, and the middle part is only taken as the part of the water injection pipe of the film shell. In principle, more layers can be stacked according to such a regular arrangement of layers, and more rows of film shells can be punched.

When water is injected, part of the whole film shell d30 can be flatly placed on a table top, or the whole film shell d30 is placed in a special ice particle freezing tray, part of the longitudinal film shell water injection pipe d311 is erected, as shown in fig. 14, a bell mouth d314 is separated from the middle of the film, water is injected from the bell mouth d314, the water can naturally flow into each film shell d30, as the film shell d30 is horizontally placed, the pressure after water injection is basically the same, the water injected into the film shell d30 is basically the same, the size of the water-injected swelling volume is basically the same, the effect that the water injection amount is different and the swelling volume size is different due to the fact that the pressure change of water injection is vertically hung is better than the effect that a section of the water injection pipe d311 vertical to the longitudinal film shell is added in the embodiment. The ice particle tray with the vertical supporting part can be specially designed, the longitudinal film shell water injection pipe d311 and the bell mouth d314 are hung, clamped or clamped on the vertical supporting structure, direct water injection is convenient, the longitudinal film shell water injection pipe d311 can be laid flat after water injection, redundant water in the longitudinal film shell water injection pipe d311 flows out, naturally, a check film can be added at the bell mouth d314, so that water in the film shell water injection pipe cannot flow out, and after direct freezing, ice blocks frozen in the film shell water injection pipe can also be used as ice particles. The waste material part outside the stamping line of the whole-plate film ice particle shell can be torn off before or after the water is poured. Certainly, the plastic bag can be sleeved outside the whole film shell by punching the plate when necessary, so that the film is more sanitary and cleaner.

The full-page film shell after being watered is put into a refrigerator to be frozen into film ice particles, when in use, the film shell can be directly torn off and torn into an independent film shell by hands from the neck part of a water injection pipe connected with the film shell, and then the film shell is put into a beverage cup to be used as the ice particles for cooling the beverage. If necessary, the stamping line at the hand tearing part can be designed into a small acute angle port convenient for hand tearing, so that the hand tearing is easy.

It is clear that there are too many ways to realize the very simple thin-film ice particle thin-film casing described in this application, and the present application only illustrates the above embodiments that the present application is very simple, very easy to realize, very practical and very low cost.

The specific data, materials used, forms and proportions of the figures described in all the examples and illustrations of this application are set forth merely for the purpose of illustration and are not intended to limit the invention to the particular forms or proportions disclosed. One skilled in the relevant art may recognize, however, that one or more of the specific details, embodiments, or materials may be omitted, or other methods, components, or materials may be used, in which some embodiments are not described or are not described in detail. Furthermore, the described features, implementations, or characteristics may be combined in any suitable manner in one or more embodiments and should not be construed as limiting the present invention.

Claims (8)

1. A disposable thin film ice pellet for use in icing beverages, the disposable thin film ice pellet comprising:

the thin film ice particles are disposable ice particles for iced beverages,

the film ice particles comprise a film shell and ice particles in the film shell,

the thin film ice particles are the thin film ice particles which are sealed and encapsulated in the thin film shell through a thin film shell sealing layer outside the thin film ice particles,

when the ice particles in the film ice particles are melted, the melted water can be completely sealed in the film shell and does not dilute the beverage in the beverage cup, so that the concentration of the beverage can be kept completely the same all the time.

2. A disposable thin film ice pellet for iced beverages according to claim 1, wherein:

the film of the film shell at least comprises a plastic film or an aluminum plastic film.

3. A disposable thin film ice pellet for iced beverages according to claim 1, wherein:

the film ice particles comprise film ice particles which are frozen after the film shell is injected with water, or film ice particles which are formed by sealing the frozen ice particles through a film.

4. A disposable thin film ice pellet for iced beverages according to claim 1, wherein:

the film shell at least comprises one of a back-sealed bag type film shell, a plastic-absorbing or blow-molding type film shell or a film laminated heat-seal molding type film shell.

5. A disposable thin film ice pellet for iced beverages according to claim 4, wherein:

the plastic-uptake or blow-molding type film shell is provided with a film shell cavity and a film shell water injection pipe, and after water is injected into the film shell cavity through the film shell water injection pipe, the film shell cavity is sealed and cut, and then the film shell is frozen into film ice particles.

6. A disposable thin film ice pellet for iced beverages according to claim 4, wherein:

the film lamination heat seal molding type film shell is formed by laminating 2 layers or more than 2 layers of films and then punching or rolling the films into a whole or whole film shell heat seal molding line through a heat seal die, wherein the heat seal line of the film shell comprises a film shell water injection pipe capable of injecting water to the whole or whole film shells together, and the film shell water injection pipe can inject water to the whole or whole film shells.

7. A disposable thin film ice pellet for iced beverages according to claim 6, wherein:

film stromatolite heat seal shaping film casing includes hand and tears formula film stromatolite film casing, hand tears formula film stromatolite film casing has the film non return membrane, the non return membrane is carried out the stromatolite by 2 layers of films, and film limit position is in the film casing, after injected water or injected water freeze into the film ice grain, can directly tear with the hand and need not seal through the heat seal, water or the water after melting can not follow the film casing and flow.

8. A disposable thin film ice pellet for iced beverages according to claim 7, wherein:

the film lamination of the hand-tearing film lamination film shell is arranged regularly, the center line of the film of the middle layer is taken as the central axis from inside to outside, the film belt close to the outside vertically clamps the film belt close to the inside, and the like, the part of the film belt close to the inside clamped by the film belt close to the outside is taken as the non-return film part, meanwhile, the part of the film belt close to the inside is taken as the part of the film belt close to the inside clamped by the film belt close to the inside and taken as the part of the punching film shell, and the like, the part of the film belt of the middle layer clamped by the film belt of the outer layer of the middle layer is also taken as the non-return film part, and the middle part is only taken as the part of the water injection pipe of the film shell.

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