CN111297147A - Multifunctional cup and manufacturing process thereof - Google Patents

Abstract

The invention discloses a multifunctional cup, which comprises a cup body, a heat-insulating outer sleeve, a heat-insulating bottom pad and a magnetic conductive film, wherein the bottom of the cup body is provided with a bottom groove and a mounting hole; according to the invention, the combined structure of the magnetic conduction film and the heat-preservation base pad is arranged at the bottom of the cup body, when hot liquid is filled in the cup, the combined structure of the magnetic conduction film and the heat-preservation base pad can effectively play a role in preserving heat of the bottom of the liquid in the cup, so that the heat-preservation effect of the cup is further improved, the effect that people can not cool when walking tea can be realized, and the combined structure is strong in functionality.

Description

Multifunctional cup and manufacturing process thereof

Technical Field

The invention belongs to the field of multifunctional cups, and particularly relates to a multifunctional cup and a manufacturing process thereof.

Background

The cup is a common article in life, is a special vessel for containing water, has the main functions of drinking or drinking tea from ancient times to present, is small in general volume, has many integral types, has different functions, and is classified into a ceramic cup, a glass cup, a plastic cup, a stainless steel cup, a Muyu stone cup, a cloisonne cup and the like according to materials; the cup is classified into daily cups, advertisement cups, sales promotion cups, vacuum cups, health-care cups and the like according to functions; the cup can be divided into a happy cup, a lover cup, a couple cup and the like according to the moral; the cup is divided into a single-layer cup, a double-layer cup, a vacuum cup, a nanometer cup, an energy cup, an ecological cup and the like according to the structural process.

The cup used for containing water is the most common cup type, except for a vacuum cup, the traditional water containing cup is not provided with any heat insulation structure and a magnetic conduction film, so that hot water contained in the cup can be cooled quickly after a period of time, the cup does not have any heat insulation structure, the traditional cup is not coated with glaze outside, negative oxygen ions are not added into some coated glazes, the ions cannot be dissolved after soaking water, the cup is beneficial to human bodies, the cup does not have the effect of maintaining beauty and keeping young, the functionality is not good, and certain improvement is needed.

Disclosure of Invention

The invention aims to provide a multifunctional cup and a process, and aims to solve the problems that the cup for containing water, which is proposed in the background art, is the most common cup type, except for a vacuum cup, the traditional water containing cup is not provided with any heat insulation structure and a magnetic conduction film, so that hot water contained in the cup can be quickly cooled after a period of time, the cup does not have any heat insulation structure, the traditional cup is not coated with glaze on the outside, negative oxygen ions are not added into some coated glazes, the ions cannot be dissolved after the cup is soaked in water, the cup is beneficial to the human body, and the cup does not have the effects of maintaining beauty and keeping young, and the functionality is poor.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a multifunctional cup, includes cup, heat preservation overcoat, heat preservation heelpiece and magnetic conduction membrane, kerve and mounting hole have been seted up to the bottom of cup, the bowl cover is installed to the top inlay card of cup, and the top fixed mounting of bowl cover has the rim of a cup, the inside bonding of kerve is fixed with the heat preservation heelpiece, the internal rotation of mounting hole is installed and is supported the bottom shaft, be provided with the magnetic conduction membrane on the bottom surface of kerve.

As a further scheme of the invention: the cup is characterized in that a heat-insulating jacket is sleeved outside the cup body, and a cup handle is fixedly arranged on the outer surface of one side of the heat-insulating jacket.

As a further scheme of the invention: four mounting holes and four supporting bottom shafts are arranged on a concentric circle on the outer side of the bottom groove.

As a further scheme of the invention: one end of the supporting bottom shaft is located on the outer side of the mounting hole, and one end of the supporting bottom shaft is in contact with and extrudes the bottom surface of the heat-insulating bottom cushion.

The invention also provides a manufacturing process of the multifunctional cup, which comprises the following steps:

s1, taking materials, respectively containing sufficient potassium feldspar, Guizhou soil, magnesium and kaolin raw materials in different containers, and attaching corresponding raw material labels to the outer parts of the containers;

s2, blending, namely taking a larger container, and respectively taking a certain amount of potassium feldspar, Guizhou soil, magnesium and kaolin raw materials into the container by using a taking spoon;

s3, preparing, namely adding sufficient aqueous solution into a container which is used for adding various mixed raw materials into the S2, taking a glass rod, and stirring the mixed raw materials for a period of time to fully mix and dissolve the raw materials;

s4, adding CMC (carboxymethyl cellulose) with proper concentration into the stirred mixed solution, placing the mixed solution on a heating device, heating the mixed solution to a certain temperature, and continuously stirring for a period of time while heating;

s5, taking down the stirred and heated container, finding out a magnetic block with iron screening, putting the magnetic block into the iron screening container, slowly pouring the mixed solution in the container into the iron screening container, carrying out iron-absorbing sieving and slurry-dissolving treatment on the mixed solution, taking a new container, and pouring the mixed slurry subjected to iron-absorbing sieving and slurry-dissolving treatment into the new container;

s6, taking a combined gypsum mold for producing the cup, placing the combined gypsum mold on a workbench in a positive mode, fixing the position of the combined gypsum mold through a fixing structure, keeping the stability of the mold, slowly pouring the mixed slurry in a new container into the combined gypsum mold, and standing for a period of time;

s7, detaching the fixed structure, taking down the combined gypsum mold, slowly turning over the combined gypsum mold, and slowly pouring out the excess slurry in the combined gypsum mold;

s8, disassembling the combined gypsum mold to obtain a model embryo of the cup, and performing fine plastic treatment on the model embryo according to the external and internal structure requirements of the cup;

s9, placing the mould embryo after plasticity into a dryer, increasing the drying temperature, and drying for a period of time;

s10, taking out the dried model embryo, and smearing some glaze with negative oxygen ions on the outside and inside of the model embryo to make the glaze evenly smeared;

and S11, placing the glazed model embryo into a kiln for firing, cooling after firing, and taking out the finished product cup.

As a further scheme of the invention: in the S2, the content of potassium feldspar is 15-18 parts (250 meshes, more than 10% of potassium content), the content of Guizhou soil is 5-8 parts (10 meshes, more than 37% of aluminum content), the content of magnesium is 5-8 parts (400 meshes, more than 32% of magnesium content), and the content of kaolin is 70-75 parts (325 meshes, more than 30% of aluminum content).

As a further scheme of the invention: in the S3, the stirring time is 5 min.

As a further scheme of the invention: in the S4, the concentration of CMC (carboxymethyl cellulose) is 1-2%, the heating temperature is 90-110 ℃, and the heating and stirring time is 10-15 min.

As a further scheme of the invention: and in the S6, the standing time is 15-20 min.

As a further scheme of the invention: in the S9, the drying temperature is 235-275 ℃, and the drying time is 20 min.

Compared with the prior art, the heat-insulating jacket with the cup handle is sleeved outside the cup body, and when hot liquid is contained in the cup, the heat-insulating jacket can play a certain heat-insulating effect on the outer side of the liquid in the cup, so that the liquid in the cup is prevented from being rapidly cooled;

according to the invention, the combined structure of the magnetic conduction film and the heat preservation bottom pad is arranged at the bottom of the cup body, when hot liquid is filled in the cup, the combined structure of the magnetic conduction film and the heat preservation bottom pad can effectively play a role in preserving heat of the bottom of the liquid in the cup, so that the heat preservation effect of the cup is further improved, the effect of 'people can not feel cool when walking tea' can be realized, and the functionality is strong;

according to the process, the glaze with negative oxygen ions is coated in the glazing process, so that the ions can be dissolved after the cup is soaked in water, the cup is beneficial to human bodies, the effects of maintaining beauty and keeping young are achieved, and the overall functionality of the cup is greatly improved;

the process has the advantages of wide sintering range, good whiteness, low cost, simple operation, improved product quality, no pinhole phenomenon and greatly improved overall production quality of the cup.

Drawings

Fig. 1 is a schematic perspective view of a multifunctional cup supporting device.

Fig. 2 is a schematic view of the bottom structure of a multifunctional cup supporting device.

In the figure: 1. a cup body; 2. a cup cover; 3. a cup ring; 4. carrying out cup lifting; 5. a heat preservation outer sleeve; 6. a support bottom shaft; 7. mounting holes; 8. a heat-insulating bottom pad; 9. a bottom groove; 10. a magnetically permeable membrane.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Example one

Referring to fig. 1-2, a multifunctional cup comprises a cup body 1, a heat-insulating outer sleeve 5, a heat-insulating bottom pad 8 and a magnetic conductive film 10, wherein a bottom groove 9 and a mounting hole 7 are formed in the bottom of the cup body 1, a cup cover 2 is embedded in the top of the cup body 1, a cup ring 3 is fixedly mounted on the top of the cup cover 2, the cup cover 2 is mounted, the cup ring 3 is fixedly mounted on the top of the cup cover 2, when the cup cover 2 needs to be opened, the cup cover 2 can be opened through the cup ring 3, the cup cover 2 can protect liquid in the cup body 1, the heat-insulating outer sleeve 5 is sleeved on the outer portion of the cup body 1, a cup lift 4 is fixedly mounted on the outer surface of one side of the heat-insulating outer sleeve 5, the heat-insulating outer sleeve 5 is fixedly mounted on the outer surface of one side of the heat-insulating outer sleeve 5, and when hot liquid is filled in the, avoid liquid rapid cooling to become cool in the cup, and the accessible cup is carried 4 and is taken up the cup, the inside bonding of kerve 9 is fixed with heat preservation heelpiece 8, the inside of mounting hole 7 is rotated and is installed and support bottom shaft 6, mounting hole 7 all is provided with four on the concentric circle that bottom shaft 6 all is located the kerve 9 outside with supporting, and a plurality of support bottom shafts 6 effectively improve cup 1 stability, 6 one end of support bottom shaft is located the outside of mounting hole 7, and supports 6 one end of bottom shaft and 8 bottom surfaces of heat preservation heelpiece and contact each other and extrude, through making the outside that supports 6 one end of bottom shaft and be located mounting hole 7, and support 6 one end of bottom shaft and 8 bottom surfaces of heat preservation heelpiece and contact each other and extrude, make support bottom shaft 6 can effectively carry out fixed mounting to heat preservation heelpiece 8, be provided with magnetic conduction membrane 10 on the bottom surface of kerve 9.

Example two

Referring to fig. 1-2, a multifunctional cup and a manufacturing process thereof, includes a cup body 1, a heat-insulating outer sleeve 5, a heat-insulating bottom pad 8 and a magnetic conductive film 10, wherein a bottom groove 9 and a mounting hole 7 are formed at the bottom of the cup body 1, a cup cover 2 is mounted at the top of the cup body 1 in a snap-fit manner, a cup ring 3 is fixedly mounted at the top of the cup cover 2, the cup cover 2 is opened by the cup ring 3 when the cup cover 2 is required to be opened, the cup cover 2 can protect the liquid in the cup body 1, the heat-insulating outer sleeve 5 is sleeved outside the cup body 1, a cup lift 4 is fixedly mounted on the outer surface of one side of the heat-insulating outer sleeve 5, the heat-insulating outer sleeve 5 is mounted by the heat-insulating outer sleeve 5, and the cup lift 4 is fixedly mounted on the outer surface of one side of the heat-insulating outer sleeve 5, when the hot liquid is contained in the cup, avoid liquid rapid cooling to become cool in the cup, and the accessible cup is carried 4 and is taken up the cup, the inside bonding of kerve 9 is fixed with heat preservation heelpiece 8, the inside of mounting hole 7 is rotated and is installed and support bottom shaft 6, mounting hole 7 all is provided with four on the concentric circle that bottom shaft 6 all is located the kerve 9 outside with supporting, and a plurality of support bottom shafts 6 effectively improve cup 1 stability, 6 one end of support bottom shaft is located the outside of mounting hole 7, and supports 6 one end of bottom shaft and 8 bottom surfaces of heat preservation heelpiece and contact each other and extrude, through making the outside that supports 6 one end of bottom shaft and be located mounting hole 7, and support 6 one end of bottom shaft and 8 bottom surfaces of heat preservation heelpiece and contact each other and extrude, make support bottom shaft 6 can effectively carry out fixed mounting to heat preservation heelpiece 8, be provided with magnetic conduction membrane 10 on the bottom surface of kerve 9.

The invention also provides a manufacturing process of the multifunctional cup, which comprises the following steps:

s1, taking materials, respectively containing sufficient potassium feldspar, Guizhou soil, magnesium and kaolin raw materials in different containers, and attaching corresponding raw material labels to the outer parts of the containers;

s2, blending, taking a larger container, and respectively taking out 15-18 parts (250 meshes and more than 10% of potassium content) of potassium feldspar, 5-8 parts (10 meshes and more than 37% of aluminum content) of Guizhou soil, 5-8 parts (400 meshes and more than 32% of magnesium content) of magnesium and 70-75 parts of 325 meshes of kaolin raw material by using a material taking spoon, wherein the kaolin raw material contains more than 30% of aluminum;

s3, preparing, namely adding sufficient aqueous solution into a container which is used for adding various mixed raw materials into the S2, taking a glass rod, and stirring the mixed raw materials for a period of time to fully mix and dissolve the raw materials;

s4, adding 1-2% CMC carboxymethyl cellulose into the stirred mixed solution, placing the mixing container on a heating device, heating the mixed solution to a certain temperature, and continuously stirring for a period of time while heating;

s5, taking down the stirred and heated container, finding out a magnetic block with iron screening, putting the magnetic block into the iron screening container, slowly pouring the mixed solution in the container into the iron screening container, carrying out iron-absorbing sieving and slurry-dissolving treatment on the mixed solution, taking a new container, and pouring the mixed slurry subjected to iron-absorbing sieving and slurry-dissolving treatment into the new container;

s6, taking a combined gypsum mold for producing the cup, placing the combined gypsum mold on a workbench in a positive mode, fixing the position of the combined gypsum mold through a fixing structure, keeping the stability of the mold, slowly pouring the mixed slurry in a new container into the combined gypsum mold, and standing for a period of time;

s7, detaching the fixed structure, taking down the combined gypsum mold, slowly turning over the combined gypsum mold, and slowly pouring out the excess slurry in the combined gypsum mold;

s8, disassembling the combined gypsum mold to obtain a model embryo of the cup, and performing fine plastic treatment on the model embryo according to the external and internal structure requirements of the cup;

s9, placing the mould embryo after plasticity into a dryer, increasing the drying temperature, and drying for a period of time;

s10, taking out the dried model embryo, and smearing some glaze with negative oxygen ions on the outside and inside of the model embryo to make the glaze evenly smeared;

and S11, placing the glazed model embryo into a kiln for firing, cooling after firing, and taking out the finished product cup.

EXAMPLE III

Referring to fig. 1-2, a multifunctional cup and a manufacturing process thereof, includes a cup body 1, a heat-insulating outer sleeve 5, a heat-insulating bottom pad 8 and a magnetic conductive film 10, wherein a bottom groove 9 and a mounting hole 7 are formed at the bottom of the cup body 1, a cup cover 2 is mounted at the top of the cup body 1 in a snap-fit manner, a cup ring 3 is fixedly mounted at the top of the cup cover 2, the cup cover 2 is opened by the cup ring 3 when the cup cover 2 is required to be opened, the cup cover 2 can protect the liquid in the cup body 1, the heat-insulating outer sleeve 5 is sleeved outside the cup body 1, a cup lift 4 is fixedly mounted on the outer surface of one side of the heat-insulating outer sleeve 5, the heat-insulating outer sleeve 5 is mounted by the heat-insulating outer sleeve 5, and the cup lift 4 is fixedly mounted on the outer surface of one side of the heat-insulating outer sleeve 5, when the hot liquid is contained in the cup, avoid liquid rapid cooling to become cool in the cup, and the accessible cup is carried 4 and is taken up the cup, the inside bonding of kerve 9 is fixed with heat preservation heelpiece 8, the inside of mounting hole 7 is rotated and is installed and support bottom shaft 6, mounting hole 7 all is provided with four on the concentric circle that bottom shaft 6 all is located the kerve 9 outside with supporting, and a plurality of support bottom shafts 6 effectively improve cup 1 stability, 6 one end of support bottom shaft is located the outside of mounting hole 7, and supports 6 one end of bottom shaft and 8 bottom surfaces of heat preservation heelpiece and contact each other and extrude, through making the outside that supports 6 one end of bottom shaft and be located mounting hole 7, and support 6 one end of bottom shaft and 8 bottom surfaces of heat preservation heelpiece and contact each other and extrude, make support bottom shaft 6 can effectively carry out fixed mounting to heat preservation heelpiece 8, be provided with magnetic conduction membrane 10 on the bottom surface of kerve 9.

The invention also provides a manufacturing process of the multifunctional cup, which comprises the following steps:

s1, taking materials, respectively containing sufficient potassium feldspar, Guizhou soil, magnesium and kaolin raw materials in different containers, and attaching corresponding raw material labels to the outer parts of the containers;

s2, blending, taking a larger container, and respectively taking out 15-18 parts (250 meshes and more than 10% of potassium content) of potassium feldspar, 5-8 parts (10 meshes and more than 37% of aluminum content) of Guizhou soil, 5-8 parts (400 meshes and more than 32% of magnesium content) of magnesium and 70-75 parts of 325 meshes of kaolin raw material by using a material taking spoon, wherein the kaolin raw material contains more than 30% of aluminum;

s3, preparing, namely adding sufficient aqueous solution into a container for adding various mixed raw materials into the S2, taking a glass rod, and stirring the mixed raw materials for 5min to fully mix and dissolve the raw materials;

s4, adding 1-2% CMC carboxymethyl cellulose into the stirred mixed solution, placing the mixed container on a heating device, heating the mixed solution to 100 ℃, and continuously stirring for 13min while heating;

s5, taking down the stirred and heated container, finding out a magnetic block with iron screening, putting the magnetic block into the iron screening container, slowly pouring the mixed solution in the container into the iron screening container, carrying out iron-absorbing sieving and slurry-dissolving treatment on the mixed solution, taking a new container, and pouring the mixed slurry subjected to iron-absorbing sieving and slurry-dissolving treatment into the new container;

s6, taking a combined gypsum mold for producing the cup, placing the combined gypsum mold on a workbench in a positive mode, fixing the position of the combined gypsum mold through a fixing structure, keeping the stability of the mold, slowly pouring the mixed slurry in a new container into the combined gypsum mold, and standing for 20 min;

s7, detaching the fixed structure, taking down the combined gypsum mold, slowly turning over the combined gypsum mold, and slowly pouring out the excess slurry in the combined gypsum mold;

s8, disassembling the combined gypsum mold to obtain a model embryo of the cup, and performing fine plastic treatment on the model embryo according to the external and internal structure requirements of the cup;

s9, placing the plastic model embryo into a dryer, increasing the drying temperature to 260 ℃, and drying for 20 min;

s10, taking out the dried model embryo, and smearing some glaze with negative oxygen ions on the outside and inside of the model embryo to make the glaze evenly smeared;

and S11, placing the glazed model embryo into a kiln for firing, cooling after firing, and taking out the finished product cup.

The working principle is as follows: when the cup is used, the external heat-insulating jacket 5 can be sleeved outside the cup body 1, after hot liquid is guided into the cup body 1, the heat-insulating jacket 5 can play a certain heat-insulating effect outside liquid in the cup, the phenomenon that the liquid in the cup is cooled quickly is avoided, the heat-insulating effect of the bottom of the liquid in the cup can be effectively played by the combined structure of the magnetic conductive film 10 and the heat-insulating bottom pad 8, the heat-insulating effect of the cup is further improved, the effect that people cannot cool when walking tea can be realized, the functionality is strong, ions can be dissolved after soaking water in the cup, the effect of benefiting the human body can be realized, the beauty and beauty maintaining effects are realized, the overall functionality of the cup is greatly improved, when the heat-insulating bottom pad 8 needs to be disassembled and replaced, the support bottom shaft 6 is directly rotated, the support bottom shaft 6 is not in contact with the heat-insulating bottom pad 8, and.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (10)

1. The utility model provides a multifunctional cup, includes cup (1), heat preservation overcoat (5), heat preservation heelpiece (8) and magnetic conduction membrane (10), its characterized in that: kerve (9) and mounting hole (7) have been seted up to the bottom of cup (1), bowl cover (2) are installed to the top inlay card of cup (1), and the top fixed mounting of bowl cover (2) has cup ring (3), the inside bonding of kerve (9) is fixed with heat preservation heelpiece (8), the internal rotation of mounting hole (7) is installed and is supported bottom shaft (6), be provided with magnetic conduction membrane (10) on the bottom surface of kerve (9).

2. The multifunctional cup as claimed in claim 1, wherein the cup body (1) is externally sleeved with a heat-insulating jacket (5), and a cup handle (4) is fixedly arranged on the outer surface of one side of the heat-insulating jacket (5).

3. A multifunctional cup according to claim 1, characterized in that said mounting holes (7) and supporting bottom shaft (6) are arranged four on a concentric circle outside the bottom groove (9).

4. The multifunctional cup as claimed in claim 1, wherein one end of the supporting bottom shaft (6) is located outside the mounting hole (7), and one end of the supporting bottom shaft (6) is in contact with and pressed against the bottom surface of the insulating bottom pad (8).

5. A process for manufacturing a multipurpose cup according to any one of claims 1 to 4, comprising the steps of:

s1, taking materials, respectively containing sufficient potassium feldspar, Guizhou soil, magnesium and kaolin raw materials in different containers, and attaching corresponding raw material labels to the outer parts of the containers;

s2, blending, namely taking a larger container, and respectively taking a certain amount of potassium feldspar, Guizhou soil, magnesium and kaolin raw materials into the container by using a taking spoon;

s3, preparing, namely adding sufficient aqueous solution into a container which is used for adding various mixed raw materials into the S2, taking a glass rod, and stirring the mixed raw materials for a period of time to fully mix and dissolve the raw materials;

s4, adding CMC (carboxymethyl cellulose) with proper concentration into the stirred mixed solution, placing the mixed solution on a heating device, heating the mixed solution to a certain temperature, and continuously stirring for a period of time while heating;

s5, taking down the stirred and heated container, finding out a magnetic block with iron screening, putting the magnetic block into the iron screening container, slowly pouring the mixed solution in the container into the iron screening container, carrying out iron-absorbing sieving and slurry-dissolving treatment on the mixed solution, taking a new container, and pouring the mixed slurry subjected to iron-absorbing sieving and slurry-dissolving treatment into the new container;

s6, taking a combined gypsum mold for producing the cup, placing the combined gypsum mold on a workbench in a positive mode, fixing the position of the combined gypsum mold through a fixing structure, keeping the stability of the mold, slowly pouring the mixed slurry in a new container into the combined gypsum mold, and standing for a period of time;

s7, detaching the fixed structure, taking down the combined gypsum mold, slowly turning over the combined gypsum mold, and slowly pouring out the excess slurry in the combined gypsum mold;

s8, disassembling the combined gypsum mold to obtain a model embryo of the cup, and performing fine plastic treatment on the model embryo according to the external and internal structure requirements of the cup;

s9, placing the mould embryo after plasticity into a dryer, increasing the drying temperature, and drying for a period of time;

s10, taking out the dried model embryo, and smearing some glaze with negative oxygen ions on the outside and inside of the model embryo to make the glaze evenly smeared;

and S11, placing the glazed model embryo into a kiln for firing, cooling after firing, and taking out the finished product cup.

6. The process of claim 5, wherein in S2, the amount of potash feldspar is 15-18 parts (250 mesh, 10% or more potassium content), the amount of Guizhou clay is 5-8 parts (10 mesh, 37% or more aluminum content), the amount of magnesium is 5-8 parts (400 mesh, 32% or more magnesium content), and the amount of kaolin is 70-75 parts (325 mesh, 30% or more aluminum content).

7. The manufacturing process of a multifunctional cup according to claim 5, wherein in the step S3, the stirring time is 5 min.

8. The manufacturing process of the multifunctional cup as claimed in claim 5, wherein the concentration of CMC (carboxymethyl cellulose) in S4 is 1-2%, the heating temperature is 90-110 ℃, and the heating and stirring time is 10-15 min.

9. The manufacturing process of the multifunctional cup as claimed in claim 5, wherein the standing time in S6 is 15-20 min.

10. The manufacturing process of the multifunctional cup as claimed in claim 5, wherein in the step S9, the drying temperature is 235-275 ℃ and the drying time is 20 min.

Images