CN112962124A - Fishhook production process for improving surface brightness of fishhook - Google Patents

Abstract

The invention discloses a fishhook production process for improving the surface brightness of a fishhook, which comprises the following steps: s1: pretreating the fishhook to be treated; s2: plating nickel on the fishhook; s3: metal elements with brightening effect are electroplated on the fishhook after nickel plating; s4: plating color paint on the fishhook in an electrophoresis mode; the color paint layer obtained by the electrophoresis method has uniform thickness, uniform paint coverage, strong light reflecting capacity, bright color of the fishhook and good strength performance of the obtained fishhook.

Description

Fishhook production process for improving surface brightness of fishhook

Technical Field

The invention belongs to the technical field of fishing tackle, and particularly relates to a fishhook production process for improving the surface brightness of a fishhook.

Background

A fishhook is a tool for hanging bait to attract fish to get on the hook when fishing. The existing fishhook has the advantages that the development is fast, the fishhook is various in types, the fishhook is made of stainless steel and alloy steel made of carbon materials, and the fishhook is also more in size and type classification; the anti-corrosion effect is achieved by changing the material used by the fishhook, and the water quality used by the fishhook is variable, so that the anti-corrosion effect of 100 percent can not be achieved by changing the material.

Disclosure of Invention

Aiming at the problems that the existing fishing water quality is variable, and the corrosion prevention effect of 100 percent can not be achieved by changing the material, the invention provides a fishhook production process for improving the surface brightness of a fishhook.

The technical scheme of the invention is as follows: a fishhook production process for improving the surface brightness of fishhooks comprises the following steps:

s1: pretreating the fishhook to be treated;

s2: plating nickel on the fishhook;

s3: metal elements with brightening effect are electroplated on the fishhook after nickel plating;

s4: the colored paint is plated on the fishhook in an electrophoresis mode, and the colored paint can be uniformly deposited on the fishhook in the electrophoresis mode, so that the color of the fishhook is more gorgeous.

The beneficial effects or the working principle of the invention are as follows: by covering the surface of the fishhook with three layers, on one hand, the base material of the fishhook is protected by multiple layers and is not easy to directly contact with water, thereby ensuring corrosion resistance; on the other hand, the color of the paint can be completely reflected, bright color is presented, fish can be attracted better, and success of fishing is improved.

The paint and the enhanced bright layer are both weak in bonding ability with the material of the fishhook and easy to fall off, so that the nickel plated layer is used for enhancing the bonding strength with the material of the fishhook; because the nickel layer has weak light reflecting capacity, the paint is directly coated on the nickel layer, so that the color of the paint cannot be brightened, and the effect of attracting fish is achieved; the metal element with brightening effect can enhance the light reflecting capacity of the paint, has high bonding strength with the paint, and can be firmly bonded with the nickel layer, so that the corrosion resistance is greatly improved.

The color paint layer obtained by the electrophoresis method has uniform thickness, uniform paint coverage, strong light reflecting capacity, bright color of the fishhook and good strength performance of the obtained fishhook.

Further, in step S3, the metal element is silver or tin.

Further, each liter of the plating solution in the step S2 contains 280g of nickel sulfate, 40-60g of nickel chloride and 35-50g of boric acid.

Further limiting, the electroplating time in the step S2 is 30-70 minutes.

Further, in step S3, each liter of the plating solution contains 150g of potassium chloride 100-.

Further limiting, the electroplating time in step S3 is 1-3 minutes.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention are described in detail and completely, and it is obvious that the described embodiments are a part of the embodiments of the present invention, but not all of the embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Example 1

A fishhook production process for improving the surface brightness of fishhooks comprises the following steps:

s1: cleaning a fishhook to be treated;

s2: plating nickel on the fishhook, wherein each liter of electroplating solution contains 180g of nickel sulfate, 40g of nickel chloride and 35g of boric acid; the electroplating time is 30 minutes;

s3: the fishhook electroplating finished by nickel plating has a brightening effect, and the metal element is silver or tin; when the metal element is silver, 100g of potassium chloride and 3g of silver potassium cyanide are contained in each liter of electroplating solution, and the electroplating time is 1 minute;

s4: and (4) plating the color paint on the fishhook in an electrophoresis mode.

Example 2

A fishhook production process for improving the surface brightness of fishhooks comprises the following steps:

s1: carrying out ultrasonic cleaning on the fishhook to be treated;

s2: carrying out nickel plating on the fishhook, wherein each liter of electroplating solution contains 253g of nickel sulfate, 50g of nickel chloride and 45g of boric acid; the electroplating time is 46 minutes;

s3: the fishhook electroplating finished by nickel plating has a brightening effect, and the metal element is silver or tin; when the metal element is silver, 130g of potassium chloride and 8g of silver potassium cyanide are contained in each liter of electroplating solution, and the electroplating time is 2 minutes;

s4: and (4) plating the color paint on the fishhook in an electrophoresis mode.

Example 3

A fishhook production process for improving the surface brightness of fishhooks comprises the following steps:

s1: carrying out ultrasonic cleaning on the fishhook to be treated;

s2: carrying out nickel plating on the fishhook, wherein each liter of electroplating solution contains 280g of nickel sulfate, 60g of nickel chloride and 50g of boric acid; the electroplating time is 70 minutes;

s3: the fishhook electroplating finished by nickel plating has a brightening effect, and the metal element is silver or tin; when the metal element is silver, 150g of potassium chloride and 15g of silver potassium cyanide are contained in each liter of electroplating solution; the electroplating time is 3 minutes;

s4: and (4) plating the color paint on the fishhook in an electrophoresis mode.

Comparative example

A fishhook production process for improving the surface brightness of fishhooks comprises the following steps:

s1: carrying out ultrasonic cleaning on the fishhook to be treated;

s2: carrying out nickel plating on the fishhook, wherein each liter of electroplating solution contains 280g of nickel sulfate, 60g of nickel chloride and 50g of boric acid; the electroplating time is 70 minutes;

s3: the fishhook electroplating finished by nickel plating has a brightening effect, and the metal element is silver or tin; when the metal element is silver, 150g of potassium chloride and 15g of silver potassium cyanide are contained in each liter of electroplating solution; the electroplating time is 3 minutes;

s4: the colored paint is stirred and then sprayed on the fishhook in an air pressure mode.

The performance analysis of the fishhooks obtained in examples 1-3 was carried out, the results of which are shown in Table 1;

TABLE 1 analysis of properties

As can be seen from Table 1, the salt spray time is significantly longer than that of the comparative example, which shows that the oxidation resistance is improved, the wear resistance is improved by at least 34%, and the hardness is improved to a certain extent.

The invention is not limited to the above alternative embodiments, and any other various forms of products can be obtained by anyone in the light of the present invention, but any changes in shape or structure thereof, which fall within the scope of the present invention as defined in the claims, fall within the scope of the present invention.

Claims (6)

1. A fishhook production process for improving the surface brightness of fishhooks is characterized by comprising the following steps:

s1: pretreating the fishhook to be treated;

s2: plating nickel on the fishhook;

s3: metal elements with brightening effect are electroplated on the fishhook after nickel plating;

s4: and (4) plating the color paint on the fishhook in an electrophoresis mode.

2. The fishhook production process of claim 1, wherein the metallic element in step S3 is silver or tin.

3. The fish hook production process as claimed in claim 1, wherein the plating solution of step S2 contains nickel sulfate 180-280g, nickel chloride 40-60g and boric acid 35-50g per liter.

4. The fishhook production process of claim 3, wherein the plating time in step S2 is 30-70 minutes.

5. The fishhook production process of claim 1, wherein each liter of the electroplating solution of step S3 contains 100g of potassium chloride and 3-15g of silver potassium cyanide.

6. The fishhook production process of claim 5, wherein the plating time in step S3 is 1-3 minutes.