Vacuum plating rhinestone and manufacturing method thereof

A manufacturing method and vacuum plating technology, applied in the field of rhinestones, can solve the problems of high thickness cost, environmental pollution, large water consumption, etc., and achieve the effects of improving high temperature resistance and corrosion resistance, improving metal luster, and appropriate roughening speed.

Inactive Publication Date: 2016-07-06
潘晓
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Existing rhinestones still rely on experience to polish and polish several cut surfaces that form a certain angle with each other, which cannot fully show the fire effect of crystal glass, and scientific calculations and experiments are needed to find the best angle.
Existing rhinestones generally increase brightness through silver plating on the pavilion, usually through chemical silver plating. However, chemical silver plating needs to consume a lot of water, and will produce silver-containing wastewater containing heavy metal silver, which will cause environmental damage. a lot of pollution
At present, there is no relevant information publicly available. Other methods can be used to coat the rhinestone pavilion with a reflective layer or other layered structures with special functions. The traditional reflective layer is only a silver-plated layer, which is relatively simple and requires a certain thickness and cost

Method used

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  • Vacuum plating rhinestone and manufacturing method thereof
  • Vacuum plating rhinestone and manufacturing method thereof
  • Vacuum plating rhinestone and manufacturing method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0103] A method for manufacturing vacuum-coated rhinestones, comprising the steps of:

[0104] Step 1, wetting and rough washing: Soak the rhinestones after absorbing film in 0.5% detergent for 0.5 hours;

[0105] Step 2, put the water drill treated in step 1 into the ultrasonic wave of No. 1 degreasing solution and clean it for 20 minutes. The solution of No. 1 degreasing solution comprises by weight percentage: 4% sodium phosphate, 2% sodium carbonate , 0.5% sodium silicate, 4% sodium hydroxide, 3% detergent, and the balance is water;

[0106] Step 3, use a brush cleaning machine to scrub the water stones treated in step 2 to remove the No. 1 degreasing liquid and dirt attached to the surface of the water stones, and then rinse them with clean water;

[0107] Step 4, put the water drill treated in step 3 into ultrasonic waves equipped with No. 2 degreasing solution and clean it for 35 minutes. The solution of No. 2 degreasing solution comprises by weight percentage: 3% sodi...

Embodiment 2

[0124] A method for manufacturing vacuum-coated rhinestones, comprising the steps of:

[0125] Step 1, wetting and rough washing: Soak the rhinestones after absorbing film in 2% detergent for 4 hours;

[0126] Step 2, put the water drill treated in step 1 into the ultrasonic wave of No. 1 degreasing solution and clean it for 15 minutes. The solution of No. 1 degreasing solution comprises by weight percentage: 2% sodium phosphate, 1% sodium carbonate , 0.1% sodium silicate, 2% sodium hydroxide, 0.1% detergent, and the balance is water;

[0127] Step 3, use a brush cleaning machine to scrub the water stones treated in step 2 to remove the No. 1 degreasing liquid and dirt attached to the surface of the water stones, and then rinse them with clean water;

[0128] Step 4, put the water drill treated in step 3 into ultrasonic waves equipped with No. 2 degreasing solution and clean it for 40 minutes. The solution of No. 2 degreasing solution comprises by weight percentage: 4% sodium...

Embodiment 3

[0145] A method for manufacturing vacuum-coated rhinestones, comprising the steps of:

[0146] Step 1, wetting and rough washing: Soak the rhinestones after absorbing film in 1% detergent for 2 hours;

[0147] Step 2, put the water drill treated in step 1 into the ultrasonic wave of No. 1 degreasing solution and clean it for 18 minutes. The solution of No. 1 degreasing solution comprises by weight percentage: 3% sodium phosphate, 1.5% sodium carbonate , 0.3% sodium silicate, 3% sodium hydroxide, 0.8% detergent, and the balance is water;

[0148] Step 3, use a brush cleaning machine to scrub the water stones treated in step 2 to remove the No. 1 degreasing liquid and dirt attached to the surface of the water stones, and then rinse them with clean water;

[0149] Step 4: Put the water drill treated in Step 3 into ultrasonic waves equipped with No. 2 degreasing liquid and clean it for 38 minutes. The solution of No. 2 degreasing liquid comprises: 3.5% sodium hydroxide, ten Sodi...

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Abstract

The invention discloses a vacuum plating rhinestone which comprises a crown, a pavilion and a waist, wherein a vacuum plating reflection layer and a protective layer are sequentially arranged on the outer surface of the pavilion from the interior to exterior. The vacuum plating rhinestone disclosed by the invention can be customized with different colors according to needs, is matched with the most scientific angle and fully achieves a fire effect. According to the manufacturing method of the vacuum plating rhinestone disclosed by the invention, the process is simple, the adhesion force of each plating layer is improved, the phenomenon that the plating layer is yellowed, blackened and whitened is avoided, environmental-friendly raw materials and vacuum plating processes are used, and heavy metal wastewater is not produced.

Description

technical field [0001] The invention belongs to the technical field of water drills, in particular, the invention relates to a vacuum-coated water drill and a manufacturing method thereof. Background technique [0002] Rhinestone is a widely used jewelry accessory, mainly used in jewelry, handicrafts, clothing, footwear and other fields. At present, the manufacturing process of rhinestones is mainly divided into two steps. The first part is the shape manufacturing of rhinestones (semi-finished products), which mainly rely on equipment (grinding machines, polishing machines) to be realized by manual operation, automatic or semi-automatic control. The second part refers to the semi-finished products. Subsequent processing, the process is mainly composed of cleaning, mold suction, inspection, re-cleaning, silver plating, painting and other processes. Existing rhinestones still rely on experience to polish and polish several cut surfaces that form a certain angle with each othe...

Claims

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Application Information

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IPC IPC(8): A44C17/00C23C14/18C09D5/10C09D1/00
CPCA44C17/00C09D1/00C09D5/10C23C14/18
Inventor 张序虎张甜甜
Owner 潘晓
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