CN112336147A - Ceramic-glass combined goblet and bonding method of container part and cup leg part thereof - Google Patents

Abstract

The invention belongs to the field of glass goblets, and relates to a ceramic-glass combined goblet, a container part thereof and a bonding method of the cup leg part. A ceramic-glass combined goblet comprises a transparent glass container part and a ceramic cup leg part. A method for bonding a container part and a cup foot part of a ceramic-glass combined goblet comprises the steps of grouting, sintering and forming, forming a concave hole, bonding and glue curing. The increase of the contact area of the drilling concave hole and the container part increases the surface area of bonding, so that the cup foot part and the container part are bonded more firmly, and glue can permeate into the radial pores of the cup foot part, so that the bonding strength of the cup foot part and the container part is greatly improved.

Description

Ceramic-glass combined goblet and bonding method of container part and cup leg part thereof

Technical Field

The invention belongs to the field of glass goblets, and particularly relates to a ceramic-glass combined goblet, a container part thereof and a bonding method of the cup leg part.

Background

The goblet usually consists of an upper container part and a lower goblet part, the ceramic goblets on the market are generally short and fat, and the ceramic goblets are generally made into slender and tall ceramic goblets which are easy to deform and soaked in detergent to decompose bonding glue when the slender and tall and thin ceramic goblets are produced, so that the goblet parts are easy to separate from the container parts, and the traditional full-ceramic goblet method is not strong in the visual experience of drinking.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a ceramic-glass combined goblet and a container part thereof as well as a method for bonding the goblet part and the container part, wherein the goblet consists of transparent glass material and ceramic material goblet part, the goblet has the beauty of a ceramic goblet, the container part of the transparent glass can enable a user to see the contents inside, the drinking experience feeling is not influenced, the bonding glue forms a stable effect similar to that of a tree root penetrating into soil in radial pores, and even if the glass goblet is soaked in a cleaning agent in the using process, due to the support of a root-shaped structure, the bonding glue has good bonding strength when being decomposed, and the cup foot part and the container part cannot be separated.

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

the embodiment of the application provides a goblet that ceramic glass combines, including container portion and cup foot portion, container portion makes for transparent glass material, cup foot portion makes for ceramic material, container portion with cup foot portion bonds through glue and is in the same place, open at cup foot portion top has the concave hole, the concave hole bottom is formed with radial hole.

Further, the glue is UV shadowless glue.

The embodiment of the application also provides a method for bonding the container part and the cup foot part of the ceramic-glass combined goblet, which comprises the following steps:

s1: grouting: inverting the cup foot mold, pouring slurry into the cup foot mold, standing for 6-20 seconds, and turning the mold;

s2: rotating the slurry: rotating the mold around the central axis of the mold to rotate the slurry in the mold, and forming radial pores inside the mold blank of the cup foot part by utilizing the slurry content and the physical characteristics of slurry shrinkage;

s3: sintering and forming: firstly, firing the porcelain at 1240 ℃ on the cup foot, glazing the cup foot, and then sintering and molding at 1120 ℃;

s4: opening a concave hole: drilling a concave hole at the center point of the top of the cup foot part model to present radial pores;

s5: bonding: injecting UV shadowless glue into the radial holes and coating the UV shadowless glue on the upper end surface of the cup foot part and the bottom surface of the container part;

s6: glue solidification: and (3) irradiating the mixture for 80-200 seconds by using a 365nm UV lamp to cure the mixture, and forming a stabilizing effect similar to the effect that the roots are inserted into the soil after the UV shadowless glue is cured.

Further, the amount of the slurry poured into the cup foot mold in the step S1 is 97% -98% of the full capacity of the cup foot mold.

Further, the size of the cavity drilled in the cup-foot type top center point described in S4 was 6mm by 3 mm.

Further, the irradiation time for curing the glue with the 365nm UV lamp described in S6 is more than 180 seconds.

The invention has the beneficial effects that: 1. the increase of the area of contact of concave cave and container portion uses glue to cohere, can increase adhesive surface area like this, make cup foot and container portion bonding more firm, and glue can permeate between the radial hole of cup foot, form the firm effect that similar root pricked into earth, even soak in the sanitizer in the use, because of the support of root column structure, even bond glue has fine bonding strength when receiving the sanitizer and decompose, can not make cup foot and container portion separation.

2. The combination of the glass container part and the ceramic cup foot part improves the defect that the contents cannot be seen in the first generation of all-ceramic products, improves the visual experience of drinking, and combines the traditional culture and the life aesthetics of things to ensure that Chinese excellent porcelain and lacquer are pushed to the world with practical, brand-new and fashionable appearances.

3. The traditional glass wine set is totally discarded when being broken at any place, and is not environment-friendly because the traditional glass wine set can not be recycled. The bonding process can be used for performing reverse repair when the container part made of glass is broken and the cup foot part is complete in a thermal decomposition mode, so that the container has a recycling function, and the requirement of an environment-friendly concept is met.

Drawings

Fig. 1 is a perspective view of the stem cup of the present invention.

FIG. 2 is a top view of the stem cup of the present invention.

FIG. 3 is a schematic view of the process for bonding the cup leg portion and the container portion according to the present invention.

Wherein the figures include the following reference numerals: 1. container part, 2, cup foot part, 3, concave hole, 4 and pore.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

It is noted that, unless otherwise indicated, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

In the present invention, unless stated to the contrary, use of the directional terms "upper and lower" are generally directed to the orientation shown in the drawings, or to the vertical, or gravitational direction; likewise, for ease of understanding and description, "left and right" are generally to the left and right as shown in the drawings; "inner and outer" refer to the inner and outer relative to the profile of the respective member itself, but the above directional terms are not intended to limit the present invention.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In order to solve the problem that the ceramic goblets on the market are generally in a short and fat type, the thin and long goblets are easy to deform and separate from the goblet legs easily when the thin and thin ceramic goblets are produced, and the traditional all-ceramic goblet method is not strong in the visual experience of drinking because the contents are seen. "to solve the above problems, embodiments of the present invention provide a ceramic-glass bonded stemware, a vessel part thereof, and a method of bonding the stemware part to the vessel part.

The invention is further described below with reference to the accompanying drawings.

The first embodiment is as follows:

as shown in fig. 1-2, the present embodiment provides a ceramic-glass combined goblet, which includes a container portion 1 and a cup leg portion 2, wherein the container portion 1 is made of transparent glass material, the cup leg portion 2 is made of ceramic material, the container portion 1 and the cup leg portion 2 are bonded together by glue, a 6mm × 3mm concave hole 3 is formed at the top of the cup leg portion 2, which is beneficial to increase the bonding area between the cup leg portion 2 and the container portion 1, a radial pore 4 is formed at the bottom of the concave hole 3, in the process of bonding by using the glue, the glue permeates into the radial holes 4, and forms a stable effect similar to that of a tree root penetrating into soil after the glue is solidified, even if the cup is soaked in the cleaning agent in the using process, due to the support of the root-shaped structure, the glue has good bonding strength when being decomposed, the cup foot part 2 and the container part 1 cannot be separated, and the glue is UV shadowless glue.

The ceramic cup foot part 2 can be glazed in Chinese traditional series, limitation of western moderate-temperature bone china on the glaze is eliminated, oriental elements are injected into the western drinking culture, the western drinking culture model is combined with the east traditional culture and the life aesthetics, Chinese excellent porcelain and lacquer are pushed to the world with practical, brand-new and fashionable appearances, and the combination of the transparent glass container part 1 and the ceramic cup foot part 2 improves the defect that the first generation of all-ceramic products cannot see contents, and the visual experience of drinking is improved.

As shown in fig. 3, the present embodiment also provides a method for bonding a vessel part 1 and a leg part 2 of a ceramic-glass bonded stemware, comprising the steps of:

s1: grouting: inverting the mold of the cup foot part 2, then pouring slurry into the mold of the cup foot part 2, standing for 6-20 seconds, and turning the mold;

s2: rotating the slurry: rotating the mould around the central axis of the mould to rotate the slurry in the mould, and forming radial pores 4 in the mould blank of the cup foot part 2 by utilizing the content of the slurry and the physical characteristics of slurry shrinkage;

s3: sintering and forming: firstly firing the cup foot part 2 into porcelain at 1240 ℃, glazing the cup foot part 2, and then sintering and molding at 1120 ℃;

s4: opening a concave hole: drilling a concave hole at the center point of the top of the model 2 of the cup foot part to present radial pores;

s5: bonding: injecting UV shadowless glue into the radial holes 4 and coating the UV shadowless glue on the upper end surface of the cup foot part 2 and the bottom surface of the container part;

s6: glue solidification: and (3) irradiating the mixture for 80-200 seconds by using a 365nm UV lamp to cure the mixture, and forming a stabilizing effect similar to the effect that the roots are inserted into the soil after the UV shadowless glue is cured.

Further, the amount of the slurry poured into the mold for the cup leg portion 2 in S1 is preferably 97% to 98% of the full capacity of the mold for the cup leg portion 2, and the space left in the mold is just enough to allow the slurry in S3 to rotate sufficiently uniformly and form the radial voids 4 inside the molding blank.

Further, the size of the cavity drilled in the top center point of the cup leg 2 type described in S4 is preferably 6mm × 3mm, and a size larger than this will destroy the structure of the cup leg 2 type itself, and a size smaller than this will not allow the radial pores in the cup leg 2 type to be exposed.

Further, the irradiation time of curing the glue with the 365nm UV lamp described in S6 is preferably more than 180 seconds, and too short curing time may affect the bonding strength of the glue.

The detailed implementation process of the bonding method comprises the following steps:

bonding: utilize 2 caves in cup foot portion and the increase of the area of contact of container portion 1, use the UV shadowless glue to cohere, can increase adhesive surface area like this, make cup foot portion 2 more firm with the bonding of container portion 1, and glue can permeate between the radial hole of cup foot portion 2, form the firm effect that similar root pricked into earth, even soak in the sanitizer in the use, because of the support of root column structure, also fine bonding strength when bonding glue receives the decomposition, can not make cup foot portion 2 and the separation of container portion 1.

The cup leg part 2 of the glass wine set is baked at high temperature, and then 8-30 layers of lacquer coat outside the cup leg part through lacquer, so that the strength is far higher than that of the glass container part 1, the glass container part 1 is damaged but the cup leg part 2 is still intact in the using process, the traditional glass wine set is broken at any place and is discarded wholly, and the glass wine set cannot be recycled and is not environment-friendly. The process can carry out reverse repair in a thermal decomposition mode when the glass container part 1 is broken and the cup foot part 2 is complete, so that the container has a recycling function, and the requirement of an environment-friendly concept is met.

Example two:

the difference from the first embodiment is that in the bonding method of the vessel part 1 and the leg part 2 of the ceramic-glass bonded goblet, in the step S1, the amount of the slurry poured into the mold of the leg part 2 is 95% of the full capacity of the mold of the leg part 2, at this time, the space left in the mold for rotating the slurry in the step S2 is large, and the blank of the leg part 2 after the mold is opened is cut.

Example three:

the difference from the first embodiment is that in the step S1 of the method for bonding the container part 1 and the stem part 2 of the ceramic-glass bonded goblet, the amount of the slurry poured into the mold for the stem part 2 is 99% of the full capacity of the mold for the stem part 2, and the slurry poured into the mold cannot follow the mold due to the very small space left in the mold for rotating the slurry in the step S2, and thus the radial pores 4 cannot be formed in the molding blank of the stem part 2.

Example four:

the difference from the first embodiment is that step S2 in the method for bonding the container part 1 and the leg part 2 of the ceramic-glass bonded stemware is eliminated, and the inside of the leg part 1 produced by the method is also incapable of forming the radial voids 4.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (6)

1. A ceramic glass combined goblet comprises a container part and a cup foot part, and is characterized in that:

the cup comprises a container part and a cup foot part, wherein the container part is made of transparent glass materials, the cup foot part is made of ceramic materials, the container part and the cup foot part are bonded together through glue, a concave hole is formed in the top of the cup foot part, and radial holes are formed in the bottom of the concave hole.

2. The ceramic-glass bonded goblet according to claim 1, characterized in that:

the glue is UV shadowless glue.

3. A method of bonding a vessel portion and a leg portion of a ceramic-glass bonded stemmed glass, suitable for use in a ceramic-glass bonded stemmed glass according to any of claims 1 to 2, the method comprising the steps of:

s1: grouting: inverting the cup foot mold, pouring slurry into the cup foot mold, standing for 6-20 seconds, and turning the mold;

s2: rotating the slurry: rotating the mold around the central axis of the mold to rotate the slurry in the mold, and forming radial pores inside the mold blank of the cup foot part by utilizing the slurry content and the physical characteristics of slurry shrinkage;

s3: sintering and forming: firstly, firing the porcelain at 1240 ℃ on the cup foot, glazing the cup foot, and then sintering and molding at 1120 ℃;

s4: opening a concave hole: drilling a concave hole at the center point of the top of the cup foot part model to present radial pores;

s5: bonding: injecting UV shadowless glue into the radial holes and coating the UV shadowless glue on the upper end surface of the cup foot part and the bottom surface of the container part;

s6: glue solidification: and (3) irradiating the mixture for 80-200 seconds by using a 365nm UV lamp to cure the mixture, and forming a stabilizing effect similar to the effect that the roots are inserted into the soil after the UV shadowless glue is cured.

4. The method of bonding a vessel part and a stem part of a ceramic-glass bonded stemware according to claim 3, wherein:

and in the S1, the amount of the grout poured into the cup foot mold is 97-98% of the full capacity of the cup foot mold.

5. The method of bonding a vessel part and a stem part of a ceramic-glass bonded stemware according to claim 3, wherein:

the size of the cavity drilled in the cup foot type apex center point described in S4 was 6mm by 3 mm.

6. The method of bonding a vessel part and a stem part of a ceramic-glass bonded stemware according to claim 3, wherein:

the irradiation time for curing the glue with 365nm UV lamp described in S6 was more than 180 seconds.

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