CN111362574A - Green's high strength cosmetics glass bottle - Google Patents

Abstract

The invention relates to the field of cosmetic glass bottles, in particular to a green and environment-friendly high-strength cosmetic glass bottle which comprises a bottle body, wherein a bottle opening is formed in one end of the bottle body, and a bottle cover is detachably connected to the bottle opening; the bottle body is made of green environment-friendly high-strength glass; the green environment-friendly high-strength glass comprises the following components in parts by mass: 100 parts of silicon dioxide; 20-30 parts of waste glass; 10-12 parts of alumina; 1-2 parts of cesium sulfate; 0.3 to 0.5 portion of indium phosphide. The invention has the advantages that the cosmetic glass bottle is not easy to be damaged due to impact, the cosmetic can be carried frequently and is not easy to be damaged after collision in the carrying process, and the cosmetic glass bottle is popular with consumers.

Description

Green's high strength cosmetics glass bottle

Technical Field

The invention relates to the technical field of cosmetic glass bottles, in particular to a green and environment-friendly high-strength cosmetic glass bottle.

Background

At present, with the development of society, people have more and more demands for cosmetics, and the main components of the cosmetics are chemical raw materials and plant extracts, so that the cosmetics are easily oxidized and deteriorated when being exposed to air.

In order to better preserve the existing cosmetics, the glass bottle for the cosmetics is usually made of glass materials to store the cosmetics, the better sealing performance of the glass materials is fully utilized, oxygen atoms in the outside air are prevented from entering the bottle, and further the oxidative deterioration of the cosmetics is effectively delayed, so that the cosmetics can be preserved for a long time.

The above prior art solutions have the following drawbacks: however, the common glass material is generally brittle and is easily damaged when being impacted, so that the cosmetic glass bottle made of the glass material is easily damaged when falling due to improper use such as unstable taking, cosmetics are leaked and wasted, and therefore, the improvement space is provided.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a green and environment-friendly high-strength cosmetic glass bottle which has the effect of being not easy to damage.

The above object of the present invention is achieved by the following technical solutions:

the green and environment-friendly high-strength cosmetic glass bottle comprises a bottle body, wherein a bottle opening is formed in one end of the bottle body, and a bottle cap is detachably connected to the bottle opening;

the bottle body is made of green environment-friendly high-strength glass;

the green environment-friendly high-strength glass comprises the following components in parts by mass:

100 parts of silicon dioxide;

20-30 parts of waste glass;

10-12 parts of alumina;

1-2 parts of cesium sulfate;

0.3 to 0.5 portion of indium phosphide.

By adopting the technical scheme, the cesium sulfate and the indium phosphide are added into the high-strength glass, and the cesium sulfate and the indium phosphide are matched with each other in a specific ratio, so that the shock resistance of the high-strength glass is greatly improved, the cosmetic glass bottle is not easy to damage due to impact, the cosmetic is stably stored in the cosmetic glass bottle, the cosmetic can be frequently carried, and the cosmetic is not easy to damage after collision in the carrying process, and is popular with consumers;

the waste glass is added into the high-strength glass, so that waste glass materials are fully utilized, the waste glass is greatly consumed, the pollution of the waste glass to the environment is reduced, the environment is protected, the negative influence on the shock resistance of the cosmetic glass bottle caused by the addition of the waste glass is offset through the action of cesium sulfate and indium phosphide, and the quality of the cosmetic glass bottle is better;

by adding the alumina into the high-strength glass, the air tightness of the high-strength glass is better, so that the cosmetic glass bottle has better cosmetic protection effect, the oxidative deterioration of the cosmetics is better delayed, and the quality of the cosmetic glass bottle is better.

The present invention in a preferred example may be further configured to: the bottle cap is in threaded connection with the bottle opening.

Through adopting above-mentioned technical scheme, through bottle lid and bottleneck threaded connection for the bottle lid is connected stably with the body, and utilizes threaded connection can make the leakproofness of bottle lid and bottleneck junction better, reduces the condition that outside air got into from the bottleneck.

The present invention in a preferred example may be further configured to: the bottle cap is made of polytetrafluoroethylene.

Through adopting above-mentioned technical scheme, make by polytetrafluoroethylene through the bottle lid for the bottle lid has the effect of self-lubricating, when rotatory with threaded connection with the bottleneck, required strength is less, and the operation is comfortable, utilizes polytetrafluoroethylene to possess certain elasticity simultaneously, when making bottle lid and bottleneck threaded connection to extreme condition, through the micro-deformation of bottleneck, pack better in the gap between bottle lid and bottleneck, further improve the leakproofness, reduce the condition that outside air got into from the bottleneck better.

The present invention in a preferred example may be further configured to: the green environment-friendly high-strength glass also comprises the following components in parts by mass:

3-5 parts of carbon powder.

By adopting the technical scheme, the carbon powder is added into the high-strength glass, so that the high-strength glass is clearer, a certain fluxing effect is achieved, the shock resistance of the high-strength glass is improved in a micro manner, and the quality of the prepared cosmetic glass bottle is better.

The present invention in a preferred example may be further configured to: the green environment-friendly high-strength glass also comprises the following components in parts by mass:

1-3 parts of nano montmorillonite.

By adopting the technical scheme, the nano montmorillonite is added into the high-strength glass, and the layer structure of the montmorillonite is utilized to block molecular motion, so that the air tightness of the cosmetic glass bottle is better, and meanwhile, the cosmetic glass bottle has certain heat insulation performance, so that the quality of the cosmetic glass bottle is better.

The present invention in a preferred example may be further configured to: the green environment-friendly high-strength glass also comprises the following components in parts by mass:

6-9 parts of calcium oxide;

3-5 parts of sodium oxide;

1-1.5 parts of potassium oxide.

By adopting the technical scheme, the calcium oxide, the sodium oxide and the potassium oxide are added into the high-strength glass to be matched with each other, so that a better fluxing effect is started, the fluidity of the molten glass is better, the molten glass is easy to process, the high-strength glass is clearer, and the quality of the cosmetic glass bottle is better.

The present invention in a preferred example may be further configured to: the green environment-friendly high-strength glass also comprises the following components in parts by mass:

1-1.2 parts of strontium fluoride.

Through adopting above-mentioned technical scheme, through adding strontium fluoride in order to cooperate cesium sulfate and indium phosphide in high strength glass for high strength glass's shock resistance further promotes, thereby makes cosmetic glass bottle's stability better, makes cosmetic glass bottle preserve cosmetics better, and cosmetic glass bottle's quality is preferred.

The present invention in a preferred example may be further configured to: the preparation method of the green environment-friendly high-strength cosmetic glass bottle comprises the following steps:

step 1) breaking waste glass into particles with the particle size not larger than 1 mm;

step 2), mixing silicon dioxide, waste glass particles, aluminum oxide, cesium sulfate and indium phosphide, and uniformly stirring to form a premix;

step 3), heating the premix to 1600-;

step 4), injecting the molten glass into a mold;

step 5), cooling and demolding to obtain a bottle body;

and 6) installing a bottle cap to obtain the green and environment-friendly high-strength cosmetic glass bottle.

Through adopting above-mentioned technical scheme, through earlier silica, old and useless glass granule, aluminium oxide, cesium sulfate, add the heat fusion after the indium phosphide misce bene, make with raw materials dispersion in advance even, make and heat into required churning time after the glass liquid and shorten, thereby the time in high temperature stage has been shortened, the required energy consumption of high temperature has been reduced, energy-concerving and environment-protective, it is even still to have ensured each raw materials distribution simultaneously, make the performance distribution of cosmetics glass bottle even, the great condition of each position performance difference is difficult to appear, make the quality of cosmetics glass bottle preferred.

The present invention in a preferred example may be further configured to: carbon powder, nano montmorillonite, calcium oxide, sodium oxide, potassium oxide and strontium fluoride are also added in the step 2).

By adopting the technical scheme, the prepared cosmetic has good impact resistance and air tightness, can be stored stably, is not easy to damage and has good quality.

In summary, the invention includes at least one of the following beneficial technical effects:

1. by adding cesium sulfate and indium phosphide into the high-strength glass and mutually matching the cesium sulfate and the indium phosphide in a specific ratio, the shock resistance of the high-strength glass is greatly improved, so that the cosmetic glass bottle is not easy to damage due to shock, the cosmetic glass bottle can stably store cosmetics, the cosmetics can be frequently carried, and the cosmetics are not easy to damage after collision in the carrying process and are popular with consumers;

2. the waste glass is added into the high-strength glass, so that waste glass materials are fully utilized, the waste glass is greatly consumed, the pollution of the waste glass to the environment is reduced, the environment is protected, the negative influence on the shock resistance of the cosmetic glass bottle caused by the addition of the waste glass is offset through the action of cesium sulfate and indium phosphide, and the quality of the cosmetic glass bottle is better;

3. through adding strontium fluoride in high strength glass in order to cooperate cesium sulfate and indium phosphide for high strength glass's shock resistance further promotes, thereby makes the stability of cosmetics glass bottle better, makes cosmetics glass bottle preserve cosmetics better, and cosmetics glass bottle's quality is preferred.

Drawings

FIG. 1 is a schematic flow chart of a method for preparing a green environmental-friendly high-strength cosmetic glass bottle according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The information on the source of the raw materials used in the following examples and comparative examples is shown in Table 1

TABLE 1

Examples 1 to 4

The utility model provides a green's high strength cosmetics glass bottle, includes the body, and the body becomes cylindricly, and body open-ended one end is the bottleneck, and the bottleneck is equipped with the external screw thread, and bottleneck department can dismantle and be connected with the bottle lid, and the bottle lid is equipped with the internal thread, bottle lid and bottleneck screw-thread fit.

The cap is made of polytetrafluoroethylene.

The bottle body is made of green environment-friendly high-strength glass.

The green environmental high strength glass of examples 1-4 comprises the following components:

silicon dioxide, waste glass, aluminum oxide, cesium sulfate and indium phosphide.

The amounts (in Kg) of the ingredients added in examples 1-4 are detailed in Table 2

TABLE 2

	Example 1	Example 2	Example 3	Example 4
					Silicon dioxide	100	100	100	100
Waste glass	20	25	30	26
					Alumina oxide	10	11	12	10.5
Cesium sulfate	1	1.5	2	1.22
					Indium phosphide	0.3	0.4	0.5	0.33

Referring to fig. 1, the method for preparing the green environmental-friendly high-strength cosmetic glass bottle of examples 1 to 4 includes the steps of:

step 1) putting waste glass into a crusher, and crushing the waste glass into particles with the particle size of 0.9mm +/-0.1 mm;

step 2) adding silicon dioxide, waste glass particles, aluminum oxide, cesium sulfate and indium phosphide into a stirring kettle, stirring at the rotating speed of 80r/min for 5min to form a premix;

step 3), heating the premix to 1620 ℃, rotating at the speed of 60r/min, and stirring for 3min to form molten glass;

step 4), injecting the molten glass into a mold;

step 5) placing the mould into a constant-temperature oven, cooling at the speed of 1 ℃/min, and demoulding to obtain a bottle body after cooling to normal temperature;

and 6) connecting the bottle cap with the bottle opening through threads to complete the installation of the bottle cap, so as to obtain the green and environment-friendly high-strength cosmetic glass bottle.

Example 5

Compared with example 4, the difference is only that:

step 1), putting waste glass into a crusher, and crushing the waste glass into particles with the particle size of 0.5mm +/-0.1 mm;

and 3) heating the premix to 1600 ℃, stirring for 3min at the rotating speed of 60r/min, and forming molten glass.

Example 6

Compared with example 4, the difference is only that:

step 1), putting waste glass into a crusher, and crushing the waste glass into particles with the particle size of 0.1mm +/-0.1 mm;

and 3) heating the premix to 1650 ℃, stirring for 3min at the rotating speed of 60r/min, and forming molten glass.

The principle of implementation of examples 1 to 6 is: through mixing silica, old and useless glass, aluminium oxide, cesium sulfate, indium phosphide earlier in order to form the premix for each component distributes evenly, when making the premix heat into the glass liquid, required churning time shortens, is favorable to reducing the high temperature stage, reduces the energy consumption, and green makes the component distribute evenly simultaneously, makes each part performance difference of green's high strength cosmetics glass bottle less, and the quality is even.

Examples 7 to 9

Compared with example 4, the difference is only that:

the green environment-friendly high-strength glass also comprises the following components:

carbon powder.

The amounts (in Kg) of the ingredients added in examples 7-9 are detailed in Table 3

TABLE 3

	Example 7	Example 8	Example 9
				Silicon dioxide	100	100	100
Waste glass	26	26	26
				Alumina oxide	10.5	10.5	10.5
Cesium sulfate	1.22	1.22	1.22
				Indium phosphide	0.33	0.33	0.33
Carbon powder	3	4	5

Adding the carbon powder, the silicon dioxide, the waste glass particles, the aluminum oxide, the cesium sulfate and the indium phosphide into the stirring kettle in the step 2) and uniformly stirring.

Examples 10 to 12

Compared with example 4, the difference is only that:

the green environment-friendly high-strength glass also comprises the following components:

and (3) nano montmorillonite.

The amounts (in Kg) of each component charged in examples 10 to 12 are specified in Table 4

TABLE 4

Adding the nano montmorillonite, the silicon dioxide, the waste glass particles, the aluminum oxide, the cesium sulfate and the indium phosphide into the stirring kettle in the step 2) and uniformly stirring.

Examples 13 to 15

Compared with example 4, the difference is only that:

the green environment-friendly high-strength glass also comprises the following components:

calcium oxide, sodium oxide, potassium oxide.

The amounts (in Kg) of the ingredients added in examples 13-15 are specified in Table 5

TABLE 5

	Example 13	Example 14	Example 15
				Silicon dioxide	100	100	100
Waste glass	26	26	26
				Alumina oxide	10.5	10.5	10.5
Cesium sulfate	1.22	1.22	1.22
				Indium phosphide	0.33	0.33	0.33
Calcium oxide	6	7.5	9
				Sodium oxide	3	4	5
Potassium oxide	1	1.25	1.5

Adding calcium oxide, sodium oxide and potassium oxide, silicon dioxide, waste glass particles, aluminum oxide, cesium sulfate and indium phosphide into the stirring kettle in the step 2) and uniformly stirring.

Examples 16 to 18

Compared with example 4, the difference is only that:

the green environment-friendly high-strength glass also comprises the following components:

and (3) strontium fluoride.

The amounts (in Kg) of the ingredients added in examples 16-18 are specified in Table 6

TABLE 6

	Example 16	Example 17	Example 18
				Silicon dioxide	100	100	100
Waste glass	26	26	26
				Alumina oxide	10.5	10.5	10.5
Cesium sulfate	1.22	1.22	1.22
				Indium phosphide	0.33	0.33	0.33
Strontium fluoride	1	1.1	1.2

Adding strontium fluoride, silicon dioxide, waste glass particles, aluminum oxide, cesium sulfate and indium phosphide into the stirring kettle in the step 2) and uniformly stirring.

Examples 19 to 21

Compared with example 4, the difference is only that:

the green environment-friendly high-strength glass also comprises the following components:

carbon powder, nano montmorillonite, calcium oxide, sodium oxide, potassium oxide and strontium fluoride.

The amounts (in Kg) of each component charged in examples 19 to 21 are specified in Table 7

TABLE 7

	Example 16	Example 17	Example 18
				Silicon dioxide	100	100	100
Waste glass	26	26	26
				Alumina oxide	10.5	10.5	10.5
Cesium sulfate	1.22	1.22	1.22
				Indium phosphide	0.33	0.33	0.33
Carbon powder	3	4	5
				Nano montmorillonite	1	2	3
Calcium oxide	6	7.5	9
				Sodium oxide	3	4	5
Potassium oxide	1	1.25	1.5
				Strontium fluoride	1	1.1	1.2

Adding carbon powder, nano montmorillonite, calcium oxide, sodium oxide, potassium oxide and strontium fluoride in the step 2) together with silicon dioxide, waste glass particles, aluminum oxide, cesium sulfate and indium phosphide into a stirring kettle, and uniformly stirring.

Comparative example 1

Compared with example 4, the difference is only that:

in step 2), cesium sulfate is replaced with an equal amount of silica.

Comparative example 2

Compared with example 4, the difference is only that:

in the step 2), indium phosphide is replaced by silicon dioxide in equal amount.

Comparative example 3

Compared with example 4, the difference is only that:

in the step 2), the same amount of silicon dioxide is adopted to replace cesium sulfate and indium phosphide.

Experiment 1

And (3) testing the impact resistance of the high-strength glass.

The detection method adopts a ball falling impact resistance test of a toughened glass part.

The molten glass prepared in each example and comparative example was poured into a mold for preparing a 4mm thick plate glass sample, and the plate glass sample was cooled and demolded according to the cooling process of each example and comparative example to obtain a 4mm thick plate glass sample, and a ball drop impact test was performed on each plate glass sample by a tempered glass part ball drop impact tester (model JJ-CJJ-005, tokyo ge instruments ltd, shanghai) using 1040g of a steel ball to detect the initial height of the steel ball from the plate glass sample when each plate glass sample was crushed by the impact of the steel ball.

Specific detection data are shown in Table 8

TABLE 8

	Impact resistance (initial height of steel ball/mm)
		Example 1	1632
Example 2	1635
		Example 3	1634
Example 4	1637
		Example 5	1636
Example 6	1635
		Example 7	1673
Example 8	1676
		Example 9	1677
Example 10	1636
		Example 11	1638
Example 12	1638
		Example 13	1639
Example 14	1636
		Example 15	1638
Example 16	1713
		Example 17	1716
Example 18	1718
		Example 19	1752
Example 20	1755
		Example 21	1756
Comparative example 1	1003
		Comparative example 2	1005
Comparative example 3	1001

According to the comparison of the data of comparative examples 1-3 and example 4 in table 8, cesium sulfate or indium phosphide is added to the high-strength glass, which has no obvious influence on the impact resistance of the high-strength glass, but when cesium sulfate and indium phosphide are added to the high-strength glass simultaneously and are mixed in a specific ratio, the impact resistance of the high-strength glass is effectively improved, so that the high-strength glass has better stability, and the prepared cosmetic glass bottle has a stable structure and is not easy to break.

According to the comparison of the data of examples 7 to 9 and example 4 in table 8, the carbon powder is added into the high-strength glass, so that the high-strength glass is clearer, the impact resistance of the high-strength glass is slightly increased, and the structural stability of the prepared cosmetic glass bottle is effectively increased.

According to the comparison of the data of the examples 10 to 12 and the example 4 in the table 8, the nano montmorillonite is added into the high-strength glass, so that the air tightness and the heat insulation performance of the high-strength glass are effectively improved, and meanwhile, the impact resistance of the high-strength glass is not obviously influenced, so that the prepared cosmetic glass bottle has better air tightness and certain heat insulation performance, and meanwhile, the structure is stable and the quality is better.

From the comparison of the data in Table 8 between examples 13-15 and example 4, it can be seen that the addition of calcium oxide, sodium oxide and potassium oxide to the high strength glass in combination results in better fluidity of the glass liquid and better clarity of the high strength glass, without significant negative effects on the impact resistance of the high strength glass, and better quality of the cosmetic glass bottle.

According to the comparison of the data of examples 16 to 18 and example 4 in table 8, the addition of strontium fluoride in combination with cesium sulfate and indium phosphide in a specific ratio to the high-strength glass further improves the impact resistance of the high-strength glass to a limited extent, so that the prepared cosmetic glass bottle is not easily damaged by impact, thereby better protecting the cosmetic.

According to the data of examples 19 to 21 in Table 8, the cosmetic glass bottle prepared has good impact resistance, good air tightness, certain heat insulation performance and good product quality.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (9)

1. The utility model provides a green's high strength cosmetics glass bottle which characterized in that: the bottle comprises a bottle body, wherein a bottle opening is formed in one end of the bottle body, and a bottle cap is detachably connected to the bottle opening;

the bottle body is made of green environment-friendly high-strength glass;

the green environment-friendly high-strength glass comprises the following components in parts by mass:

100 parts of silicon dioxide;

20-30 parts of waste glass;

10-12 parts of alumina;

1-2 parts of cesium sulfate;

0.3 to 0.5 portion of indium phosphide.

2. The green environmentally friendly high strength cosmetic glass bottle according to claim 1, wherein: the bottle cap is in threaded connection with the bottle opening.

3. The green environmentally friendly high strength cosmetic glass bottle of claim 2, wherein: the bottle cap is made of polytetrafluoroethylene.

4. The green environmentally friendly high strength cosmetic glass bottle according to claim 1, wherein: the green environment-friendly high-strength glass also comprises the following components in parts by mass:

3-5 parts of carbon powder.

5. The green environmentally friendly high strength cosmetic glass bottle according to claim 1, wherein: the green environment-friendly high-strength glass also comprises the following components in parts by mass:

1-3 parts of nano montmorillonite.

6. The green environmentally friendly high strength cosmetic glass bottle according to claim 1, wherein: the green environment-friendly high-strength glass also comprises the following components in parts by mass:

6-9 parts of calcium oxide;

3-5 parts of sodium oxide;

1-1.5 parts of potassium oxide.

7. The green environmentally friendly high strength cosmetic glass bottle according to any one of claims 1 to 6, wherein: the green environment-friendly high-strength glass also comprises the following components in parts by mass:

1-1.2 parts of strontium fluoride.

8. The green environmentally friendly high strength cosmetic glass bottle according to claim 1, wherein: the preparation method of the green environment-friendly high-strength cosmetic glass bottle comprises the following steps:

step 1) breaking waste glass into particles with the particle size not larger than 1 mm;

step 2), mixing silicon dioxide, waste glass particles, aluminum oxide, cesium sulfate and indium phosphide, and uniformly stirring to form a premix;

step 3), heating the premix to 1600-;

step 4), injecting the molten glass into a mold;

step 5), cooling and demolding to obtain a bottle body;

and 6) installing a bottle cap to obtain the green and environment-friendly high-strength cosmetic glass bottle.

9. The green, environmentally friendly, high strength cosmetic glass bottle of claim 8, wherein: carbon powder, nano montmorillonite, calcium oxide, sodium oxide, potassium oxide and strontium fluoride are also added in the step 2).

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