CN117285257A - Production process of corrosion-resistant cosmetic glass bottle - Google Patents

Abstract

The invention discloses a production process of a corrosion-resistant cosmetic glass bottle, which belongs to the technical field of glass bottle production and manufacturing, and comprises the following operation methods: the method comprises the following operation steps: a: the glass bottle has excellent corrosion resistance, can keep quality and safety for a long time, prolongs the storage life of cosmetics, improves the use effect of the cosmetics, improves the packaging grade of the cosmetics, enhances the market competitiveness, and has the advantages that the corrosion-resistant cosmetic glass bottle produced by the invention can keep good quality and appearance after long-term contact with acid-base components and effectively improves the quality and safety of the cosmetics.

Description

Production process of corrosion-resistant cosmetic glass bottle

Technical Field

The invention relates to the technical field of glass bottle production and manufacturing, in particular to a production process of a corrosion-resistant cosmetic glass bottle.

Background

Since ancient China had glass bottles, the past academy considered that glassware was very rare in ancient times, so that only a few dominant grades could be owned and used. However, recent studies have considered that ancient glassware is not difficult to produce and manufacture, but is not easy to store, so that it is rare in the future. Glass bottles are traditional beverage packaging containers in China, and glass is also a packaging material with a great history. In the case of many kinds of packaging materials coming into the market, glass containers still occupy an important place in beverage packaging, which is not separated from the packaging characteristics that it has other packaging materials cannot replace.

The glass packaging container is mainly characterized in that: no toxicity and smell; transparent, beautiful, good barrier property, air impermeability, rich and general raw materials, low price and multiple turnover. And has the advantages of heat resistance, pressure resistance and cleaning resistance, and can be sterilized at high temperature and stored at low temperature. It has many advantages, so it is the first choice for packing many beverages such as beer, fruit tea, and wild jujube juice.

The cosmetic glass bottle is widely applied to the cosmetic industry, is an important component of cosmetic packaging, and the quality of the cosmetic glass bottle directly influences the quality of cosmetics and the use experience of consumers. However, as cosmetics often contain acid-base components, the traditional glass bottle is easy to corrode after contacting the components for a long time, so that the quality of the glass bottle is reduced, and even the quality and safety of the cosmetics are influenced, and the service life and safety of the cosmetics are influenced;

for this purpose, we propose a process for producing corrosion-resistant cosmetic glass bottles.

Disclosure of Invention

The present invention has been made in view of the above and/or problems occurring in the prior art for producing a corrosion resistant cosmetic glass bottle.

It is therefore an object of the present invention to provide a process for producing a cosmetic glass bottle that is resistant to corrosion, which solves the above mentioned problems presenting the prior art.

In order to solve the technical problems, according to one aspect of the present invention, the following technical solutions are provided:

a process for producing a corrosion-resistant cosmetic glass bottle, comprising the following operating method: the method comprises the following operation steps:

a: the glass raw materials are selected, silica, quartz sand, sodium alkali, lime stone, kaolin, limestone, feldspar, borax and the like are used as main raw materials, wherein the silica and the quartz sand are main components of the glass, the sodium alkali and the lime stone can reduce the melting point of the glass, and the kaolin and the lime stone can improve the stability and the corrosion resistance of the glass;

b: pretreatment of glass raw materials;

c: melting of glass;

d: molding of glass bottles: blowing or injection molding the molten glass liquid to form a cosmetic glass bottle;

e: cooling the glass bottle: annealing the primarily molded glass bottle, gradually cooling the molded cosmetic glass bottle, eliminating internal stress, and improving the mechanical strength and heat resistance of the glass bottle so as to prevent the excessive internal stress of the glass bottle from influencing the stability and corrosion resistance of the glass bottle;

f: post-treatment of glass bottles: comprises the steps of cleaning, drying, checking, packaging and the like, and ensures the quality and the safety of cosmetic glass bottles, quality inspection and packaging. The produced glass bottles are inspected for quality to ensure compliance with relevant standards and requirements, and then packaged for shipping and sale.

As a preferable scheme of the production process of the corrosion-resistant cosmetic glass bottle, the invention comprises the following steps: the raw materials in the step A are selected from silica, quartz sand, sodium alkali, lime base, kaolin, limestone, feldspar and borax, wherein the mass ratio of the silica to the quartz sand is 3:1, the mass ratio of the sodium alkali to the lime base is 1:1, the mass ratio of the kaolin to the limestone is 1:2, and the mass ratio of the feldspar to the borax is 1:0.5, mixing according to proportion.

As a preferable scheme of the production process of the corrosion-resistant cosmetic glass bottle, the invention comprises the following steps: the pretreatment in the step B is as follows: the raw materials are subjected to pretreatment such as grinding, mixing and drying to be in a state suitable for melting, wherein the grinding granularity is 200 meshes, the mixing time is 30 minutes, and the drying temperature is 105 ℃.

As a preferable scheme of the production process of the corrosion-resistant cosmetic glass bottle, the invention comprises the following steps: in the step C, the pretreated materials are mixed in proportion and then are smelted at a high temperature of 1600 ℃ for 4 hours to form uniform glass liquid.

As a preferable scheme of the production process of the corrosion-resistant cosmetic glass bottle, the invention comprises the following steps: and D, forming the glass bottle, namely blowing the molten glass, wherein the blowing pressure is 0.5MPa, and the blowing time is 10 minutes, so as to form the cosmetic glass bottle.

As a preferable scheme of the production process of the corrosion-resistant cosmetic glass bottle, the invention comprises the following steps: in the step E, when the formed glass bottle is cooled, the formed cosmetic glass bottle is cooled at the temperature of 500 ℃, the cooling time is 2 hours, and the breakage of materials caused by rapid decrease in the cooling of the glass bottle temperature is reduced.

As a preferable scheme of the production process of the corrosion-resistant cosmetic glass bottle, the invention comprises the following steps: in the step E, a layer of corrosion-resistant coating is coated on the surface of the glass bottle which is thoroughly cooled to normal temperature, the coating is composed of a corrosion-resistant material and a binder, so that corrosion of corrosive substances in cosmetics to the glass bottle can be effectively prevented, and the glass bottle coated with the corrosion-resistant coating is baked at 200 ℃ to enable the coating to be tightly combined with the surface of the glass bottle to form an integrated corrosion-resistant layer.

As a preferable scheme of the production process of the corrosion-resistant cosmetic glass bottle, the invention comprises the following steps: in the step F, in the post-treatment of the glass bottle, the cooled cosmetic glass bottle is subjected to post-treatment such as cleaning, drying, checking, packaging and the like, wherein the cleaning solution is 1% of a stone alkali solution, the drying temperature is 60 ℃, and the checked items comprise appearance, size, thickness, transparency and the like.

As a preferable scheme of the production process of the corrosion-resistant cosmetic glass bottle, the invention comprises the following steps: the raw materials in the step A are selected from silica, quartz sand, sodium alkali, lime alkali, kaolin, limestone, feldspar and borax, wherein the raw materials comprise the following components in percentage by weight: quartz sand: sodium base: limestone: kaolin: feldspar: borax = 4:3:2:3:1:1:0.5, mixing according to proportion.

Compared with the prior art:

the corrosion resistance of the glass bottle is effectively improved by coating the corrosion-resistant coating on the surface of the glass bottle, so that the glass bottle has excellent corrosion resistance, the quality and safety of the glass bottle can be kept for a long time, the storage life of cosmetics is prolonged, the use effect of the cosmetics is improved, the packaging grade of the cosmetics is improved, the market competitiveness is enhanced, and experiments prove that the produced corrosion-resistant cosmetic glass bottle can still keep good quality and appearance after being contacted with acid-base components for a long time, and the quality and safety of the cosmetics are effectively improved.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in further detail below.

The invention provides a production process of a corrosion-resistant cosmetic glass bottle, which has the advantage of solving the problem of easy corrosion and comprises the following operation steps:

a: the glass raw materials are selected, silica, quartz sand, sodium alkali, lime stone, kaolin, limestone, feldspar, borax and the like are used as main raw materials, wherein the silica and the quartz sand are main components of the glass, the sodium alkali and the lime stone can reduce the melting point of the glass, and the kaolin and the lime stone can improve the stability and the corrosion resistance of the glass;

b: pretreatment of glass raw materials;

c: melting of glass;

d: molding of glass bottles: blowing or injection molding the molten glass liquid to form a cosmetic glass bottle;

e: cooling the glass bottle: annealing the primarily molded glass bottle, gradually cooling the molded cosmetic glass bottle, eliminating internal stress, and improving the mechanical strength and heat resistance of the glass bottle so as to prevent the excessive internal stress of the glass bottle from influencing the stability and corrosion resistance of the glass bottle;

f: post-treatment of glass bottles: the method comprises the steps of cleaning, drying, checking, packaging and the like, and ensures the quality and safety of the cosmetic glass bottle:

the pretreatment in the step B is as follows: the raw materials are subjected to pretreatment such as grinding, mixing and drying to be in a state suitable for melting, wherein the grinding granularity is 200 meshes, the mixing time is 30 minutes, and the drying temperature is 105 ℃.

In the step C, the pretreated materials are mixed in proportion and then smelted at a high temperature to form uniform glass liquid.

And D, forming the glass bottle, namely blowing the molten glass to form the cosmetic glass bottle.

In the step E, when the formed glass bottle is cooled, the formed cosmetic glass bottle is cooled in a return box, and the breakage of materials caused by rapid decrease of the temperature of the glass bottle during cooling is reduced.

In the step E, a layer of corrosion-resistant coating is coated on the surface of the glass bottle which is thoroughly cooled to normal temperature, and the coating is composed of a corrosion-resistant material and a binder, so that an integrated corrosion-resistant layer is formed, and corrosion of corrosive substances in cosmetics to the glass bottle can be effectively prevented.

In the step F, in the post-treatment of the glass bottle, the cooled cosmetic glass bottle is subjected to post-treatment such as cleaning, drying, checking, packaging and the like, wherein the cleaning solution is 1% of stone alkali solution, the drying temperature is 60 ℃, and the checked items comprise appearance, size, thickness, transparency and the like, and quality inspection and packaging. The produced glass bottles are inspected for quality to ensure compliance with relevant standards and requirements, and then packaged for shipping and sale.

Embodiment one:

in the raw material selection, the components of silica, quartz sand, sodium alkali, caustic soda, kaolin, limestone, feldspar and borax are mixed in a ratio of 3:1:1:1:1:2:1:0.5, and the pretreatment in the step B is as follows: the raw materials are subjected to pretreatment such as grinding, mixing, drying and the like, so that the raw materials reach a state suitable for melting, wherein the grinding granularity is 200 meshes, the mixing time is 30 minutes, and the drying temperature is 105 ℃;

the melting temperature is 1600 ℃, the time is four hours, uniform glass liquid is formed, the molten glass is blown, the blowing pressure is 0.5MPa, the blowing time is 10 minutes, the cosmetic glass bottle is formed, the cooling annealing temperature is 500 ℃, the cooling is carried out for 2 hours, and the breakage of the material caused by rapid decrease of the glass bottle temperature during cooling is reduced.

The inner wall and the outer wall of the cooled glass bottle are coated with a corrosion-resistant layer, the coating is tightly combined with the surface of the glass bottle after being baked for two minutes at 200 ℃ to form an integrated corrosion-resistant layer, then the glass bottle is cleaned and dried, the cleaned solution is 1% of an alkaline solution, and the drying temperature is 60 ℃.

Embodiment two:

in the raw material selection, the components of silica, quartz sand, sodium alkali, caustic soda, kaolin, limestone, feldspar and borax are mixed in a ratio of 3:1:1:1:1:2:1:0.5, and the pretreatment in the step B is as follows: the raw materials are subjected to pretreatment such as grinding, mixing, drying and the like, so that the raw materials reach a state suitable for melting, wherein the grinding granularity is 200 meshes, the mixing time is 30 minutes, and the drying temperature is 105 ℃;

the melting temperature is 1800 ℃, the time is 2 hours, a uniform glass liquid is formed, the molten glass is blown, the blowing pressure is 0.5MPa, the blowing time is 10 minutes, a cosmetic glass bottle is formed, the cooling annealing temperature is 600 ℃, the cooling annealing temperature is 1.5 hours, and the breakage of the material caused by the rapid drop of the glass bottle temperature during cooling is reduced.

1) Coating corrosion-resistant layers on the inner wall and the outer wall of the cooled glass bottle, baking at 200 ℃ for two minutes to enable the coating to be tightly combined with the surface of the glass bottle to form an integrated corrosion-resistant layer, cleaning and drying, wherein the cleaning solution is 1% of a caustic soda solution, and the drying temperature is 60 ℃;

2) And coating corrosion resistant layers on the inner wall and the outer wall of the cooled glass bottle, tightly combining the cooled glass bottle with the surface of the glass bottle after air drying to form an integrated corrosion resistant layer, and then cleaning and drying, wherein the cleaning solution is 1% of an alkali solution, and the drying temperature is 60 ℃.

Embodiment III:

the raw materials are selected from silica, quartz sand, sodium alkali, caustic soda, kaolin, limestone, feldspar and borax, and the proportion of the components is 4:3:2:3:1:1:0.5, wherein the pretreatment in the step B is as follows: the raw materials are subjected to pretreatment such as grinding, mixing, drying and the like, so that the raw materials reach a state suitable for melting, wherein the grinding granularity is 200 meshes, the mixing time is 30 minutes, and the drying temperature is 105 ℃;

the melting temperature is 1600 ℃, the time is 4 hours, a uniform glass liquid is formed, the molten glass is blown, the blowing pressure is 0.5MPa, the blowing time is 10 minutes, a cosmetic glass bottle is formed, the cooling annealing temperature is 500 ℃, the cooling annealing temperature is 2 hours, and the breakage of the material caused by rapid decrease of the glass bottle temperature during cooling is reduced.

1) Coating an anti-corrosion layer on the inner wall and the outer wall of the cooled glass bottle, baking at 200 ℃ for two minutes to enable the coating to be tightly combined with the surface of the glass bottle to form an integrated anti-corrosion layer, and then cleaning and drying, wherein the cleaning solution is 1% of a caustic soda solution, and the drying temperature is 60 ℃;

2) The inner wall and the outer wall of the cooled glass bottle are coated with corrosion-resistant layers, and the cooled glass bottle is tightly combined with the surface of the glass bottle after being air-dried to form an integrated corrosion-resistant layer, and then the glass bottle is cleaned and dried, wherein the cleaning solution is 1% of an alkaline solution, and the drying temperature is 60 ℃.

Embodiment four:

the raw materials are selected from silica, quartz sand, sodium alkali, caustic soda, kaolin, limestone, feldspar and borax, and the proportion of the components is 4:3:2:3:1:1:0.5, wherein the pretreatment in the step B is as follows: the raw materials are subjected to pretreatment such as grinding, mixing, drying and the like, so that the raw materials reach a state suitable for melting, wherein the grinding granularity is 200 meshes, the mixing time is 30 minutes, and the drying temperature is 105 ℃;

the melting temperature is 1800 ℃, the time is 2 hours, a uniform glass liquid is formed, the molten glass is blown, the blowing pressure is 0.5MPa, the blowing time is 10 minutes, a cosmetic glass bottle is formed, the cooling annealing temperature is 600 ℃, the cooling annealing temperature is 1.5 hours, and the breakage of the material caused by the rapid drop of the glass bottle temperature during cooling is reduced.

1) Coating an anti-corrosion layer on the inner wall and the outer wall of the cooled glass bottle, baking at 200 ℃ for two minutes to enable the coating to be tightly combined with the surface of the glass bottle to form an integrated anti-corrosion layer, and then cleaning and drying, wherein the cleaning solution is 1% of a caustic soda solution, and the drying temperature is 60 ℃;

2) The inner wall and the outer wall of the cooled glass bottle are coated with corrosion-resistant layers, and the cooled glass bottle is tightly combined with the surface of the glass bottle after being air-dried to form an integrated corrosion-resistant layer, and then the glass bottle is cleaned and dried, wherein the cleaning solution is 1% of an alkaline solution, and the drying temperature is 60 ℃.

Fifth embodiment:

the raw materials are selected from silica, quartz sand, sodium alkali, lime stone, kaolin, limestone, feldspar and borax, and the raw materials are subjected to pretreatment such as grinding, mixing and drying to be in a state suitable for melting, wherein the grinding granularity is 200 meshes, the mixing time is 30 minutes, the drying temperature is 105 ℃, after pretreatment and mixing according to a proportion, fluxing agents and additives are required to be added when melting are added into ingredients, and the adding proportion is as follows: cosolvent: additive = 2:1:0.5.

The melting temperature is 1800 ℃, the time is 2 hours, a uniform glass liquid is formed, the molten glass is blown, the blowing pressure is 0.5MPa, the blowing time is 10 minutes, a cosmetic glass bottle is formed, the cooling annealing temperature is 600 ℃, the cooling annealing temperature is 1.5 hours, and the breakage of the material caused by the rapid drop of the glass bottle temperature during cooling is reduced.

1) Coating an anti-corrosion layer on the inner wall and the outer wall of the cooled glass bottle, baking at 200 ℃ for two minutes to enable the coating to be tightly combined with the surface of the glass bottle to form an integrated anti-corrosion layer, and then cleaning and drying, wherein the cleaning solution is 1% of a caustic soda solution, and the drying temperature is 60 ℃;

2) The inner wall and the outer wall of the cooled glass bottle are coated with corrosion-resistant layers, and the cooled glass bottle is tightly combined with the surface of the glass bottle after being air-dried to form an integrated corrosion-resistant layer, and then the glass bottle is cleaned and dried, wherein the cleaning solution is 1% of an alkaline solution, and the drying temperature is 60 ℃.

Example six:

the raw materials are selected from silica, quartz sand, sodium alkali, lime stone, kaolin, limestone, feldspar and borax, and the raw materials are subjected to pretreatment such as grinding, mixing and drying to be in a state suitable for melting, wherein the grinding granularity is 200 meshes, the mixing time is 30 minutes, the drying temperature is 105 ℃, after pretreatment and mixing according to a proportion, fluxing agents and additives are required to be added when melting are added into ingredients, and the adding proportion is as follows: cosolvent: additive = 3:2:1.

The melting temperature is 1800 ℃, the time is 2 hours, a uniform glass liquid is formed, the molten glass is blown, the blowing pressure is 0.5MPa, the blowing time is 10 minutes, a cosmetic glass bottle is formed, the cooling annealing temperature is 600 ℃, the cooling annealing temperature is 1.5 hours, and the breakage of the material caused by the rapid drop of the glass bottle temperature during cooling is reduced.

1) Coating an anti-corrosion layer on the inner wall and the outer wall of the cooled glass bottle, baking at 200 ℃ for two minutes to enable the coating to be tightly combined with the surface of the glass bottle to form an integrated anti-corrosion layer, and then cleaning and drying, wherein the cleaning solution is 1% of a caustic soda solution, and the drying temperature is 60 ℃;

2) The inner wall and the outer wall of the cooled glass bottle are coated with corrosion-resistant layers, and the cooled glass bottle is tightly combined with the surface of the glass bottle after being air-dried to form an integrated corrosion-resistant layer, and then the glass bottle is cleaned and dried, wherein the cleaning solution is 1% of an alkaline solution, and the drying temperature is 60 ℃.

Although the invention has been described hereinabove with reference to embodiments, various modifications thereof may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the features of the disclosed embodiments may be combined with each other in any manner as long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of omitting the descriptions and saving resources. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (9)

1. A production process of a corrosion-resistant cosmetic glass bottle is characterized by comprising the following steps of: the method comprises the following operation steps:

a: the glass raw materials are selected, silica, quartz sand, sodium alkali, lime stone, kaolin, limestone, feldspar, borax and the like are used as main raw materials, wherein the silica and the quartz sand are main components of the glass, the sodium alkali and the lime stone can reduce the melting point of the glass, and the kaolin and the lime stone can improve the stability and the corrosion resistance of the glass;

b: pretreatment of glass raw materials;

c: melting of glass;

d: molding of glass bottles: blowing or injection molding the molten glass liquid to form a cosmetic glass bottle;

e: cooling the glass bottle: annealing the primarily molded glass bottle, gradually cooling the molded cosmetic glass bottle, eliminating internal stress, and improving the mechanical strength and heat resistance of the glass bottle so as to prevent the excessive internal stress of the glass bottle from influencing the stability and corrosion resistance of the glass bottle;

f: post-treatment of glass bottles: comprises the steps of cleaning, drying, checking, packaging and the like, and ensures the quality and the safety of the cosmetic glass bottle.

2. The process for producing the corrosion resistant cosmetic glass bottle according to claim 1, wherein in the step A, the raw materials are selected from the group consisting of silica, quartz sand, sodium base, lime base, kaolin, limestone, feldspar and borax in a mass ratio of 3:1, sodium base and lime base in a mass ratio of 1:1, kaolin and limestone in a mass ratio of 1:2, and feldspar and borax in a mass ratio of 1:0.5, mixing according to proportion.

3. The process for producing a corrosion resistant cosmetic glass bottle according to claim 1, wherein the pretreatment in step B is: the raw materials are subjected to pretreatment such as grinding, mixing and drying to be in a state suitable for melting, wherein the grinding granularity is 200 meshes, the mixing time is 30 minutes, and the drying temperature is 105 ℃.

4. The process for producing a corrosion resistant cosmetic glass bottle according to claim 3, wherein in step C, the pretreated materials are mixed in proportion and then melted at a high temperature of 1600 ℃ for 4 hours to form a uniform glass liquid.

5. The process for producing a corrosion resistant cosmetic glass bottle according to claim 1, wherein in the step D, the glass bottle is formed by blowing molten glass at a blowing pressure of 0.5MPa for 10 minutes.

6. The process according to claim 1, wherein in the step E, the molded glass bottle is cooled at 500 ℃ for 2 hours, and the rapid decrease in temperature of the glass bottle is reduced to cause breakage of the material.

7. The process for producing a corrosion-resistant cosmetic glass bottle according to claim 6, wherein in the step E, a corrosion-resistant coating layer is coated on the surface of the glass bottle which is thoroughly cooled to normal temperature, and the coating layer is composed of a corrosion-resistant material and a binder, so that corrosion of corrosive substances in cosmetics to the glass bottle can be effectively prevented, and the glass bottle coated with the corrosion-resistant coating layer is baked at 200 ℃ to tightly combine the coating layer with the surface of the glass bottle to form an integrated corrosion-resistant layer.

8. The process for producing a corrosion resistant cosmetic glass bottle according to claim 1, wherein in the step F, in the post-treatment of the glass bottle, the cooled cosmetic glass bottle is subjected to post-treatment such as washing, drying, inspection, packaging, etc., wherein the washing solution is 1% of a lye solution, the drying temperature is 60 ℃, and the inspection items include appearance, size, thickness, transparency, etc.

9. The process for producing the corrosion resistant cosmetic glass bottle according to claim 1, wherein the raw materials in the step A are selected from the group consisting of silica, quartz sand, sodium alkali, lime, kaolin, limestone, feldspar and borax, and the mixture ratio of the components is that: quartz sand: sodium base: limestone: kaolin: feldspar: borax = 4:3:2:3:1:1:0.5, mixing according to proportion.