CN113768382A - Beverage package and preparation method thereof - Google Patents

Abstract

The invention discloses a beverage package, which comprises a shell with an opening and a foaming piece arranged in the shell, wherein a step surface used for being welded with the foaming piece is arranged in the shell, and the foaming piece is welded and fixed on the step surface. Correspondingly, the invention also discloses a preparation method of the beverage package. By adopting the invention, the production cost is low, the beverage can be beaten to form corresponding foam, and the use is convenient; and the process is simple, the production efficiency is high, and the mass production is convenient.

Description

Beverage package and preparation method thereof

Technical Field

The invention relates to the technical field of beverage packages, in particular to a beverage package and a preparation method thereof.

Background

With the improvement of living standard, people have higher and higher demands on drinks. Especially coffee, tea and other beverages, and the taste of the beverage is greatly improved by adding milk foam or other foams to meet the taste requirements of the general public. The existing equipment and tools for foaming milk foam have complex structures, are not easy to carry and have high production cost.

On the other hand, although the simple and portable foaming tool has a relatively low production cost, the cost of the foaming tool is extremely high when the foaming tool is applied to packaging of disposable beverages in large batches.

Disclosure of Invention

The invention aims to solve the technical problem of providing a foaming machine which has simple structure, low production cost, convenient use and capability of foaming beverages to form corresponding foams.

The technical problem to be solved by the invention is to provide a preparation method of the beverage package, which has simple process and high production efficiency and is convenient for mass production.

In order to solve the technical problem, the invention provides a beverage package, which comprises a shell with an opening and a foaming piece arranged in the shell, wherein a step surface used for being welded with the foaming piece is arranged in the shell, and the foaming piece is welded and fixed on the step surface.

As an improvement of the scheme, the foaming piece is at least provided with a flow channel so as to communicate the upper space and the lower space of the mesh in the shell.

As an improvement of the above scheme, the foaming piece is a mesh, and the pore diameter of the flow channel is larger than that of the mesh;

at least one flow channel is provided at the center of the mesh.

As an improvement of the scheme, the step surface is provided with a bulge part for welding;

the foaming piece is a nylon net, a PP net or a PET net, and the step surface is made of PP material.

Correspondingly, the invention also provides a preparation method of the beverage package, which comprises the following steps:

s1, providing a shell with an opening, wherein a step surface is arranged in the shell;

s2, providing a foaming piece matched with the step surface of the shell;

s3, placing the foaming piece on a processing table;

s4, buckling the shell into a processing table on which the foaming piece is placed, wherein the shell is supported on the processing table through the step surface so that the foaming piece is clamped between the step surface and the processing table;

s5, pressing the shell to the processing table through a pressing mechanism to enable the foaming piece and the step surface to be attached tightly;

and S6, welding the foaming piece and the step surface together by heating or ultrasonic waves.

As an improvement of the above scheme, S1, providing a housing with an opening, wherein a step surface is arranged in the housing;

s2, providing a foaming piece matched with the step surface of the shell, wherein a flow channel is formed in the center of the foaming piece;

s3, placing the foaming piece on a processing table, wherein the top end of the processing table is provided with a positioning column corresponding to the flow channel, and the flow channel of the foaming piece is sleeved in the positioning column to limit the processing position of the foaming piece;

s4, buckling the shell into a processing table on which the foaming piece is placed, wherein the shell is supported on the processing table through the step surface so that the foaming piece is clamped between the step surface and the processing table;

s5, pressing the shell to the processing table through a pressing mechanism to enable the foaming piece and the step surface to be attached tightly;

and S6, welding the foaming piece and the step surface together by heating or ultrasonic waves.

As an improvement of the above scheme, the step surface is provided with a boss, and the shell, the step surface and the boss are of an integrated structure;

when the shell is buckled into a processing table provided with the foaming piece, the shell is supported on the processing table through the bulge at the step surface, and then the shell is pressed towards the processing table so as to enable the foaming piece and the bulge to be tightly attached; and finally, welding the foaming piece and the bulge together by heating or ultrasonic waves.

As a modification of the above, in step S6, the outer side wall of the housing is provided with an outer step surface corresponding to the step surface;

the shape of the pressing piece is matched with that of the outer step surface, and an opening used for avoiding contact with the outer step surface is formed in the pressing piece.

The pressing mechanism comprises a pressing piece only contacting the outer step surface, ultrasonic waves are conducted through the processing table or the pressing piece, the frequency of the ultrasonic waves is 10-100KHz, and the welding processing time of the ultrasonic waves is 0.1-4 s.

As a modification of the above, in step S6, the top of the processing table is heated to fuse the foaming piece and the shell together;

the top temperature of the processing table is higher than the melting point of the shell, and the melting point of the shell_≤The melting point of the foam.

As an improvement of the scheme, the temperature of the top of the processing table is more than 170 ℃, and the heating time is 0.5-2 s.

The beverage package provided by the invention is suitable for one-time foaming.

The implementation of the invention has the following beneficial effects:

according to the beverage package, the step surface is arranged in the shell, so that a sufficient welding area is provided in the production process, and the package product can completely bear the impact of internal beverage in the process of hand-cranking foaming. Meanwhile, the foaming piece is ensured to be positioned at the optimal height position for foaming in the shell in the production process. The beverage package is suitable for being used as a disposable foaming beverage package, and has the advantages of convenient use, sanitation, convenience and low cost.

Accordingly, the preparation method of the beverage package only needs to place the specific foaming piece on the processing table, then the shell is buckled into the processing table on which the foaming piece is placed, the shell is pressed towards the processing table, the foaming piece and the step surface are tightly attached, and finally the foaming piece and the step surface are welded together. The preparation method has simple process and low requirement on production equipment, and only needs a workbench, a pressing mechanism and welding equipment. In addition, in the fusion welding production process, the fusion welding station is not changed, and only the foaming piece and the shell are sequentially placed on the processing table, so that the operation flow is greatly simplified, the mass automatic production is facilitated, and the standardized operation is also facilitated.

Drawings

FIG. 1 is a schematic view of a beverage package according to the present invention;

FIG. 2 is a schematic view of a welding process of a first embodiment of a method of making a beverage package according to the present invention;

fig. 3 is a schematic view of a welding process of a second embodiment of a method of preparing a beverage package according to the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is only noted that the invention is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the invention.

Referring to fig. 1, the specific structure of the beverage package of the present invention includes a housing 1 having an opening, and a foaming member 2 disposed in the housing, wherein a step surface 11 for welding with the foaming member is disposed in the housing, and the foaming member 2 is welded and fixed on the step surface 11. Therefore, the step surface 11 is arranged in the shell 1 to provide enough welding area in the production process, so that the foaming piece of the packaging product can completely bear the impact of the internal beverage without falling off in the process of hand-cranking foaming. Meanwhile, the foaming piece is ensured to be positioned at the optimal height position for foaming in the shell in the production process.

Preferably, the casing is cup-shaped, and at this moment, beverage package is for having the cup of foaming function, can obtain the same use experience with the cup, conveniently holds, facilitates the use.

Further, in order to facilitate the beverage to pass through the foaming member back and forth relatively smoothly between the upper space and the lower space in the housing, the foaming member 2 is provided with at least one flow channel 21 for communicating the upper space and the lower space of the mesh sheet in the housing. The foaming piece 2 is preferably a mesh, and the pore diameter of the flow channel is larger than that of the mesh;

so set up, can let the user when rocking at every turn, can beat the foaming to the beverage step by step to let the user can control the degree of beating of beverage better. In the use experience, the beverage in the shell can smoothly follow the frequency of shaking of the user, so that the user can better grasp the hand feeling of the beverage.

Moreover, the beverage package is suitable for being used as a disposable foaming beverage package, and has the advantages of convenient use, sanitation, convenience and low cost.

It is emphasized that the present invention, although suitable for use as a disposable foam, can be recycled many times as long as the housing 1 and the foam 2 are sustainable items. In the aspect of application, the product is extremely suitable for packaging raw materials of beverage manufacturers, the product can be directly used for filling beverages, then the conventional film sealing machine in the industry is used for sealing, and meanwhile, the product can be used universally for off-line retail on-site products.

The number of the flow channels can be set according to the area size of the mesh, the number of the meshes and the aperture of the meshes. When the number of meshes is small or the aperture of the meshes is small, the number of the flow channels 21 can be increased or the aperture of the flow channels can be increased so as to keep the smoothness of the beverage passing back and forth between the upper space and the lower space of the mesh. At least one flow channel 21 is provided in the centre of the mesh to try to avoid that the mainly high-flow beverage is too deflected towards the edges in the housing.

In order to better fixedly connect the mesh to the step surface, the step surface 11 is provided with a convex part 12 for welding with the mesh. When the connection is carried out by adopting a hot-press welding or ultrasonic welding mode, the adhesive can be better bonded with the mesh. Preferably, the convex portion 12 is a frosted surface or a toothed surface. More preferably, the raised portion includes a plurality of spaced apart peripheral edges for bonding with the mesh when melted. The arrangement of the convex part can better adhere to the net sheet, and meanwhile, the appearance of the shell is not influenced or the situation of perforation is avoided when the shell is welded under the condition that the wall of the shell is thin, particularly the appearance of the shell on the step surface.

Preferably, the foaming piece is a nylon net or a PET net, and the step surface is made of a PP material.

Referring to fig. 2, the present invention also provides a first embodiment of a method of preparing a beverage package comprising the steps of:

s1, providing a shell 1 with an opening, wherein a step surface 11 is arranged in the shell.

The shell is cup-shaped, and can be produced in large batch by adopting the production process of disposable plastic cups. Preferably, the shell is in a shape of a cup with an inverted truncated cone, the overall wall thickness of the shell is not less than 0.2mm, and the wall thickness of the step surface is not less than 0.5mm, so that the step surface has enough welding thickness to avoid the problem of perforation.

And S2, providing a foaming piece 2 matched with the step surface of the shell. The foaming piece 2 is a mesh, and the mesh with the matched shape is cut according to the horizontal cross section shape of the shell at the position where the step surface is arranged, so that the mesh is divided into an upper space and a lower space at the position of the step surface.

S3, placing the foaming piece on a processing table 3; the foaming piece can be taken and placed through the clamping jaw or directly placed by hands.

S4, buckling the shell on a processing table on which the foaming piece is placed, wherein the shell 1 is supported on the processing table 3 through the step surface 11, so that the foaming piece 2 is clamped between the step surface 11 and the processing table 3; when the housing is in the shape of a rounded truncated cone, even if the position of the foaming member on the processing table is slightly deviated from the preset position, the inclined inner wall of the housing gradually corrects the deviation of the foaming member during the buckling-in process.

S5, after the foaming piece 2 and the shell 1 are sequentially placed on the processing table 3, pressing the shell to the processing table through a pressing mechanism to enable the foaming piece and the step surface to be attached tightly; for the pressing mechanism, a telescopic mechanism, preferably a pneumatic telescopic rod mechanism, is generally included and the pressing member 4 is used for contacting the housing.

And S6, finally, the foaming piece and the step surface can be welded together by heating or ultrasonic waves.

In the aspect of welding the step surface and the foaming piece, the thickness of the shell can be as thin as possible without influencing the welding effect of the shell and the foaming piece and the overall appearance after welding. Therefore, when the shell adopts a thinner wall thickness scheme, a good welding effect can be obtained, and the consumption of production raw materials is further reduced.

Preferably, in step S1, the step surface is provided with a protrusion 12, and the housing 1, the step surface 11 and the protrusion 12 are of an integrated structure.

Therefore, in the subsequent step, when the shell is buckled into the processing table on which the foaming piece is placed, the shell is supported on the processing table through the convex part on the step surface, and then the shell is pressed towards the processing table so as to enable the foaming piece and the convex part to be attached tightly; and finally, welding the foaming piece and the bulge together by heating or ultrasonic waves.

In particular, referring to fig. 3, in order to improve the foaming effect and the use hand feeling of the beverage package, a flow channel 21 is formed in the center of the foaming member 2; correspondingly, a second embodiment of a method of preparing a beverage package is provided, the method comprising the steps of;

s1, providing a shell 1 with an opening, wherein a step surface 11 is arranged in the shell;

s2, providing a foaming piece 2 matched with the step surface of the shell, wherein the center of the foaming piece is provided with a flow passage 21;

s3, placing the foaming piece 2 on a processing table 3, wherein the top end of the processing table 3 is provided with a positioning column 31 corresponding to the flow channel 21, and the flow channel 21 of the foaming piece 2 is sleeved in the positioning column 31 by utilizing the flow channel 21 of the foaming piece so as to limit the processing position of the foaming piece. Meanwhile, in order to facilitate the nesting of the foaming part 2, the top of the positioning column 31 is conical.

S4, buckling the shell 1 on a processing table 3 on which the foaming piece 2 is placed, wherein the shell 1 is supported on the processing table 3 through a step surface 11, so that the foaming piece 2 is clamped between the step surface 11 and the processing table; accordingly, the height of the positioning posts 31 does not exceed the maximum depth inside the housing 11.

S5, after the foaming piece 2 and the shell 1 are sequentially placed on the processing table 3, pressing the shell to the processing table through a pressing mechanism to enable the foaming piece and the step surface to be attached tightly; for the pressing mechanism, a telescopic mechanism, preferably a pneumatic telescopic rod mechanism, and a pressing member for contacting the housing are generally included.

And S6, finally, the foaming piece and the step surface can be welded together by heating or ultrasonic waves.

Preferably, in step S1, the step surface is provided with a protrusion 12, and the housing 1, the step surface 11 and the protrusion 12 are of an integrated structure.

Therefore, in the subsequent step, when the shell is buckled into the processing table on which the foaming piece is placed, the shell is supported on the processing table through the convex part on the step surface, and then the shell is pressed towards the processing table so as to enable the foaming piece and the convex part to be attached tightly; and finally, welding the foaming piece and the bulge together by heating or ultrasonic waves.

In summary, in step S6 of each of the above manufacturing methods, in order to better apply the ultrasonic welding method, the outer sidewall of the housing 1 is provided with an outer step surface 13 corresponding to the step surface;

the pressing mechanism comprises a pressing piece 4 only contacting the outer step surface, the shape of the pressing piece 4 is matched with that of the outer step surface, and an opening 41 used for avoiding contacting the outer step surface is arranged. The ultrasonic welding device can conduct through the processing table 3 or the pressing piece 4 to realize welding between the shell 1 and the foaming piece 2. In particular, when the conduction is performed by the pressing member having the above-described shape, the energy of the ultrasonic welding apparatus is concentrated on the outer step surface 13.

Preferably, the frequency of the ultrasonic wave is 10-100KHz, and the welding processing time of the ultrasonic wave is 0.1-4 s. The working frequency and the welding treatment time of the ultrasonic waves can be correspondingly adjusted according to the thickness of the shell, the thickness of the foaming piece, the melting point of the foaming piece and the melting point of the shell. For example, when the case 1 or the foamed member 2 is thick, the frequency of the ultrasonic wave and the time of the welding process can be suitably increased. Preferably, the foaming piece is a nylon net or a PET net, and the step surface is made of a PP material.

In addition, in the case of the method of welding by direct heating, it is avoided that the non-welded portion of the foamed material is melted and bonded together at a high temperature before the completion of welding, and the self-foaming function is not exerted. In step S6, the foaming member 2 and the housing 1 are welded together by heating the top of the processing table 3;

the top temperature of the processing table 3 is higher than the melting point of the shell, which is the melting point of the shell_≤The melting point of the foam. When a heat welding mode is adopted, the shell is preferably made of PP, and the foaming piece is preferably made of nylon net or PET net. Preferably, the top heating area of the processing table 3 is matched with the step surface of the shell.

Further, based on food safety requirements, the material of the shell is preferably PP, and the material of the foaming member 2 is preferably nylon mesh or PET mesh.

The temperature of the processing table is higher than 170 ℃ so as to ensure that the step surface or the bulge of the shell can be melted. Meanwhile, according to the actual production efficiency, if the production efficiency needs to be improved, the temperature of the processing table can be increased to 260 ℃, and the heating time is 0.5 s. Accordingly, when a stable welding effect is required, the temperature of the processing table can be appropriately lowered, and the heating time can be prolonged. Therefore, when the temperature of the processing table tends to 170 ℃, the heating time needs to be increased to 2s accordingly.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides a beverage package, includes one and has the open-ended casing, locates foaming in the casing, be equipped with in the casing be used for with foaming welded step face, foaming butt fusion is fixed in on the step face.

2. The beverage package of claim 1 wherein said foaming element is provided with at least one flow passage for communicating upper and lower spaces of said web within said housing.

3. A beverage package according to claim 1 or 2, wherein the foaming element is a mesh, and the flow channels have a larger pore size than the mesh of the mesh;

at least one flow channel is provided at the center of the mesh.

4. A beverage package according to claim 3 wherein the step face is provided with a projection for welding;

the foaming piece is a nylon net, a PP net or a PET net, and the step surface is made of PP material.

5. A method of preparing a beverage package according to any one of claims 1 to 4, comprising the steps of:

s1, providing a shell with an opening, wherein a step surface is arranged in the shell;

s2, providing a foaming piece matched with the step surface of the shell;

s3, placing the foaming piece on a processing table;

s4, buckling the shell into a processing table on which the foaming piece is placed, wherein the shell is supported on the processing table through the step surface so that the foaming piece is clamped between the step surface and the processing table;

s5, pressing the shell to the processing table through a pressing mechanism to enable the foaming piece and the step surface to be attached tightly;

and S6, welding the foaming piece and the step surface together by heating or ultrasonic waves.

6. A method of making a beverage package according to claim 5, comprising the steps of:

s1, providing a shell with an opening, wherein a step surface is arranged in the shell;

s2, providing a foaming piece matched with the step surface of the shell, wherein a flow channel is formed in the center of the foaming piece;

s3, placing the foaming piece on a processing table, wherein the top end of the processing table is provided with a positioning column corresponding to the flow channel, and the flow channel of the foaming piece is sleeved in the positioning column to limit the processing position of the foaming piece;

s4, buckling the shell into a processing table on which the foaming piece is placed, wherein the shell is supported on the processing table through the step surface so that the foaming piece is clamped between the step surface and the processing table;

s5, pressing the shell to the processing table through a pressing mechanism to enable the foaming piece and the step surface to be attached tightly;

and S6, welding the foaming piece and the step surface together by heating or ultrasonic waves.

7. A method of preparing a beverage package according to claim 6, comprising the steps of:

the shell, the step surface and the bulge are of an integrated structure;

when the shell is buckled into a processing table provided with the foaming piece, the shell is supported on the processing table through the bulge at the step surface, and then the shell is pressed towards the processing table so as to enable the foaming piece and the bulge to be tightly attached; and finally, welding the foaming piece and the bulge together by heating or ultrasonic waves.

8. The method of preparing a beverage package according to claim 5, 6 or 7, wherein the case outer side wall is provided with an outer step surface corresponding to the step surface at step S6;

the shape of the pressing piece is matched with that of the outer step surface, and an opening used for avoiding contact with the outer step surface is formed in the pressing piece.

The pressing mechanism comprises a pressing piece only contacting the outer step surface, ultrasonic waves are conducted through the processing table or the pressing piece, the frequency of the ultrasonic waves is 10-100KHz, and the welding processing time of the ultrasonic waves is 0.1-4 s.

9. The method of preparing a beverage package according to claim 5, 6 or 7, wherein the foaming member and the housing are welded together by heating the top of the processing table at step S6;

the top temperature of the processing table is higher than the melting point of the shell, and the melting point of the shell_≤The melting point of the foam.

10. The method of making a beverage package according to claim 9, wherein the temperature at the top of the processing station is greater than 170 ℃ and the heating time is 0.5 to 2 seconds.

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