KR200452960Y1 - Barrel Plating Saddle equipment - Google Patents

Abstract

The present invention reduces the power loss and the efficiency of the plating equipment due to the contact resistance and heat generation resistance of the barrel plating birds for Korea, thereby improving the production efficiency, thereby reducing the contact loss and heating resistance, thereby reducing the power loss and the efficiency of the plating equipment. It is effective in improving the quality of the product and increasing the product quality and productivity.

Barrel, Plating, Saddle, Solenoid, Contact Resistance, Heat Resistance

Description

Barrel Plating Saddle equipment

The present invention relates to a saddle device for barrel plating. Since the loss of power and efficiency of plating equipment are reduced due to contact resistance and heating resistance, the productivity is remarkably decreased, thereby improving the contact resistance and heating resistance to reduce power loss and plating equipment. It is a saddle device for barrel plating that improves the efficiency of the product and increases the product quality and productivity.

Plating refers to coating a thin layer of another material for the purpose of improving the surface condition of an article, and to coating a thin layer of another metal or alloy on a metal surface.

Generally speaking, plating refers to electroplating.

In other words, the decorative surface, anti-corruption and wear resistance, and improved contact resistance.

Although there are some differences depending on the plating method and use, the general process of electroplating is the order of dehydration → polishing → degreasing → chemical dipping treatment → electroplating → post-treatment → drying.

When classified according to the purpose of improving the plating, the anticorrosive purpose is to coat metals that can withstand specific environments in order to compensate for the lack of corrosion resistance of raw materials.

Next, for the purpose of surface hardening, a thin layer of a metal harder than a material is applied to withstand wear, and chromium plating of copper alloy products is typical.

In addition, for the purpose of beautifying the surface, gold plating of jewelry is a common example. A thin layer of precious metal or color metal alloy is attached to the surface of an object to make it look beautiful.

In order to perform the plating operation for this purpose, in the automatic plating operation on the plated object, fix the plated object one by one with a fixing tool on the edge sieve connected to the cathode.

It is fixed there and plated with an edge sieve attached with a plurality of plating objects in a plating tank.

In addition, an automatic plating method has been proposed in which plating targets are moved horizontally in a plating tank one by one individually and continuously to be plated efficiently.

In general, saddle devices used by plating companies use V-groove saddle devices and cover saddle devices, and the cover saddle devices and V-groove saddle devices have heat (heating) due to poor contact (contact resistance) at the charging part. Resistance) occurs, resulting in power loss and equipment efficiency and productivity drop.

In addition, when the rectifier efficiency is 80% in the existing SCR rectifier DC voltage 15V current 1000A, when the product is plated using the 800A individual rectifier and the product is plated, DC voltage 15V real current 367A flows, and the facility efficiency is 45.8%. There is a problem that the quality of the plated product is not improved due to the loss, the efficiency of the facility and the productivity are low.

The present invention relates to a saddle device for barrel plating. Barrel plating is used to reduce contact loss (contact resistance) and heat (heat generation resistance) of the charging part, thereby reducing power loss, improving the efficiency of plating equipment, and improving product quality and productivity. The purpose is to provide a saddle device for.

The present invention relates to a saddle device for barrel plating, which reduces power loss (heat resistance) and heat (heating resistance) of the charging part to reduce power loss, improve the efficiency of plating equipment, and improve product quality and productivity. will be.

Barrel plating saddle device according to a feature of the present invention for achieving the above object is to facilitate the flow of current of the copper casing of the birds and the left / right side cooling processing hole of the copper casing of the role that serves to reduce the heat resistance; A left / right fixing hole for the movement of the birds, which serves to fix the movements of the birds, a back entrance hole for the back of the movement of the birds, which serves to draw water into the movement of the birds, and the back A central jet hole of the bird's copper hole which plays a role of ejecting water from the inlet hole, a front outlet hole of the bird's copper hole which plays a role of discharge of water introduced from the rear inlet hole, and one side of the bird Installed in the water supply and receiving a signal that the barrel is seated on the bird's copper movement to supply water to the bird's copper movement and the bird's copper movement When not on the barrel may include a solenoid valve (Solenoid Valve) to block the water supply to the copper casting of the birds.

Barrel plating saddle device of the present invention has the effect of reducing contact loss (contact resistance), heat (heating resistance) of the charging part to reduce the power loss, improve the efficiency of the plating equipment, improve the quality of the product and increase the productivity .

Referring to the drawings attached to the present invention in detail as follows.

1 is a front view of the barrel plating saddle device of the present invention.

Figure 2 is a plan view of the saddle device for barrel plating of the present invention

Figure 3 is a cross-sectional view of the solenoid control method of the barrel plating saddle device of the present invention.

4 is a V groove saddle device of the general plating company (the contact surface is less heat generated).

5 is a typical saddle-covered saddle device (heating due to contact resistance soot is formed on the enclosed itself to interfere with the energization).

Fig. 6 is a view of the saddle plating device for barrel plating in the present article.

The saddle device for barrel plating of FIG. 1 provides a left / right side cooling hole 1 of the copper casting 10 of the birds, which serves to smooth the flow of current to the copper casting 10 of the birds and reduce the heat resistance. Form.

In addition, the left / right fixing hole (2) of the bird's copper 10, which serves to fix the bird's copper (10) is formed. And, the inlet processing hole (3) and the back inlet processing hole (3) of the back of the inlet processing hole (3), which serves as the inlet of water into the copper casting (10) of the birds, The central jet hole processing hole 4 of the bird's copper casting (10) and the front discharge hole processing hole (5) of the bird's copper casting (10) to serve as a discharge of water introduced from the rear inlet processing hole (3) ).

In addition, the operation is provided with a solenoid valve (Solenoid Valve) receives a signal that the barrel is seated on the movement of the birds 10, the solenoid valve is operated to supply water to the movement of the birds (10), the barrel When the saddle is not on the casting 10, the solenoid valve is composed of a saddle device for barrel plating adopting a control method to block the supply of water.

In the above, the present invention has been illustrated and described by way of specific preferred examples, but the present invention is not limited to the above-described embodiments and is provided to those skilled in the art without departing from the spirit of the present invention. Various changes and modifications will be possible.

For example, the efficiency of the saddle plating facility of a barrel plating facility equipped with a 15 V 1000 A SCR rectifier. However, the efficiency (typically) of the SCR rectifier is 80%.

I: Reference current P: Power P ₁ : Power before improvement P ₂ : Power after improvement

I ': Real current V: Voltage

Reference current = current of SCR rectifier * efficiency

I = 1000 A * 0.8% = 800 A

General formula) Equipment efficiency = real current / reference current power = voltage * real current

        Equipment Efficiency ∂ = I '/ I Power P = VI

General formula 1) Product weight: 60Kg, Current set value: 700A, Real current before improvement: 340A,

           Real current after improvement: 680A

           Voltage before and after improvement: 15.3V

θ = 340/800 = 0.425 in terms of percentage θ = 340/800 * 100 = 42.5%

P ₁ = 340 * 15.3 = 5202VA

θ = 680/800 = 0.85 in terms of percentage θ = 680/800 * 100 = 85%

P ₂ = 680 * 15.3 = 10404 VA

General formula 2) Weight: 60Kg, Current set value: 400A, Real current before improvement: 390A

Real current after improvement: 396A, voltage before improvement: 13V, voltage after improvement: 8V

Power before improvement P ₁ = 390 * 13 = 5070VA, power after improvement P ₂ = 396 * 8 = 3168VA When the same product is plated and plated, the difference between power before and after improvement remains. Therefore P ₁ -P ₂ is 5070VA-3168VA = 1902VA

There is power loss, and using the saddle after improvement can reduce the power loss of 1902VA.

Note in Table 1

If Ohm's law is applied, if the formula is V = IR and I = V / R, decreasing the resistance value will decrease the voltage and increase the current.

Graph of Current in Table 1

Sometimes the current setpoint and the graphs before and after improvement illuminate on the same line. At this time, there is no difference in the load current, but it can be seen that the voltage difference appears as shown in the graph of the voltage in Table 1. You will notice that the voltage is open because of the resistance.

Graph of Voltage in Table 1

The difference between the voltage before and after the improvement can be seen.

When the voltage before and after the improvement is on the same line, the current difference appears as shown in the graph of the current in Table 1.

When the voltage before the saddle improvement and the voltage before the saddle improvement are on the same line, it can be seen that the voltage is open for the resistance component before the improvement, and that the voltage is open for the load current after the improvement. You will know.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front view of a saddle plating device for barrel plating of a bone (in practical).

2 is a plan view of the saddle plating device for barrel plating of the present invention (utility model).

3 is a sectional view of the solenoid control method of the saddle plating device for barrel plating of the present invention (utility model).

4 is a V-plating saddle device for barrel plating of a general plating company (the contact surface is less heat)

5 is a saddle-covered saddle device for a general plating company (heat generation due to contact resistance, soot is formed on the enclosed bar itself to prevent electricity)

6 is a view of the saddle device for barrel plating of the present invention

1: cooling hole 2: saddle fixing hole

3: Water inlet hole 4: Water outlet hole

5: water outlet hole

Claims (1)

In the saddle device for barrel plating, Left and right side cooling processing holes (1) of the bird's copper casting (10) to facilitate the flow of current in the bird's copper casting (10) and to reduce heat generation resistance; Left and right fixing hole (2) of the bird's copper (10) which serves to fix the bird's copper (10); A back inlet processing hole (3) of the bird's copper casting (10) to serve as a water inlet to the bird's copper casting (10); A central ejection hole processing hole (4) of the bird's copper casting (10) to serve as a jet of water introduced from the rear inlet processing hole (3); A front outlet processing hole (5) of the bird's copper casting (10) to serve as a discharge of water introduced from the rear inlet processing hole (3); And When installed on one side of the birds, when the barrel is seated on the movements of the birds 10 receives the signal to supply the water to the movements of the birds 10, when there is no barrel on the movements of the birds 10 Barrel plating saddle device, characterized in that it comprises a solenoid valve (Solenoid Valve) for blocking the supply of water to the copper casting (10) of the birds.

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