JPH09209117A - Production of game ball - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a process for producing game balls capable of forming film layers having excellent corrosion resistance and wear resistance and high adhesion property. SOLUTION: The pin ball 1 or 10 or 20 is obtd. by subjecting the outer peripheral surface of an iron original ball 2 to an ion nitriding treatment or ion plating treatment or electroless plating treatment directly or after formation of a hard chrome plating layer 3 of a thin film thereon, thereby forming a nitrided layer 4 or titanium layer 14 or nickel-phosphorus alloy layer 24 of a thin film on the outer peripheral surface of the hard chrome plating 3.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for manufacturing play balls such as pachinko balls.

[0002]

2. Description of the Related Art Conventionally, in the method of manufacturing play balls such as pachinko balls, in consideration of corrosion resistance, high strength and high hardness, the original balls of heat-treated stainless steel pachinko balls are hard-chrome plated. Was completed. However, in order to reduce its wearability, noise, surface scratches, etc. by improving the new material,
For example, as shown in JP-A-63-309281,
It has been proposed to coat ceramics on the surface and to use zirconia as a basic material as disclosed in JP-A-1-97478 in order to improve colorability.

[0003]

However, in the accelerating amusement industry, a game ball having further corrosion resistance and abrasion resistance of its surface and excellent coloring property and uniformity of its colored surface layer has been developed. It was demanded that the longevity of the play balls and the distinction from other stores be preferred.

The present invention solves the above-mentioned problems, and improves the corrosion resistance and abrasion resistance, and makes it possible to form a surface layer having excellent colorability and uniformity. The purpose is to provide a method.

[0005]

In the method for manufacturing a game ball according to the present invention, the original ball of the game ball is plated with hard chrome, and then surface-treated by ion nitriding. Is.

Further, the method is characterized in that the original ball of the play ball is plated with hard chrome, and then surface-treated by ion plating.

The original ball of the game ball is characterized by being plated with hard chrome, and then subjected to surface treatment by CVD coating.

Further, the method is characterized in that the original ball of the game ball is subjected to surface treatment by electroless plating.

Further, in the method for producing a pachinko ball according to the present invention, the heat-treated ball of the pachinko ball is plated with hard chrome, and thereafter, surface treatment by ion nitriding or ion plating is performed. It is a method characterized by that.

Further, the pachinko ball according to the present invention is
A thin hard chromium plating layer is formed on the outer peripheral surface of an iron or stainless steel original ball, and a thin nitride layer or titanium layer is further formed on the outer peripheral surface of the hard chromium plating layer.

Further, on the outer peripheral surface of the iron or stainless steel original ball, ion nitriding or ion plating,
Alternatively, the method is characterized in that surface treatment is performed by CVD coating or electroless plating.

Further, the pachinko ball according to the present invention is
A thin nitride layer, a titanium layer, or a nickel-phosphorus alloy layer is formed on the outer peripheral surface of an original ball of iron or stainless steel.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the drawings.

FIG. 1A shows a pachinko ball 1 which has been subjected to a surface treatment of ion nitriding in which nitrogen gas is vacuum-deposited,
A thin-film hard chrome plating layer 3 is formed on the heat-treated iron original ball 2, and a thin-film nitride layer 4 is formed on the outer periphery of the hard chrome plating layer 3. And the surface is formed in golden color.

(B) is a pachinko ball 10 which has been subjected to a surface treatment of ion plating for vacuum deposition of titanium powder or a surface treatment of CVD coating. A chromium plating layer 3 is formed, and a thin titanium layer 1 is formed on the hard chromium plating layer 3.
4 are formed. And the surface is formed in golden color.

(C) is a pachinko ball 20 which has been subjected to a surface treatment by electroless plating, and a thin film nickel-phosphorus alloy layer 24 is directly formed on the heat treated iron original ball 2. And the surface is formed in black.

In FIG. 1, the hard chromium plating layer 2 and the nitride layer 4, the vapor deposition layer 14, the nickel-phosphorus alloy layer 2 are used.
Thin film layers such as No. 4 are thin films having a thickness of about 5 to 10 .mu.m, and each thin film layer is shown large in the figure for easy understanding.

The state in which the hard chrome plating layer 3 is formed on the outer peripheral surface of the original iron ball 2 is the same as that of a conventional pachinko ball, and the feature of the present invention is that the hard chrome plating layer 3 is formed on the outer peripheral surface. There is a method of manufacturing a thin film to be formed.

The method for producing a pachinko ball shown in FIG. 1 (a) utilizes glow discharge, which is one of the vacuum discharges. The glow discharge encloses a machine body having a gas pressure of 10 ^-3 torr or more. In this method, a series voltage is applied to the electrode tube in the container to gradually increase the voltage, and the treatment is performed in the region of abnormal glow discharge.

The pachinko ball 1 shown in (a) is manufactured by an ion nitriding treatment in the ion nitriding apparatus shown in FIG. In the ion nitriding apparatus T, a pachinko ball (hereinafter referred to as a pachinko ball 1A) in which a hard chromium plating layer 3 is formed on a heat-treated iron original ball 2 is arranged in a vacuum furnace body 6. A gas mixer 7 is connected to the vacuum furnace body 6,
The gas is sealed in the furnace body 6, and the electric unit 8 is connected to the furnace body 6 and the pachinko ball 1A. Further, a vacuum pump 9 is connected to bring the inside of the furnace body 6 into a vacuum state.

In a low-pressure nitrogen gas atmosphere, the furnace body 6 serves as an anode and the pachinko ball 1A serves as a cathode, and a DC voltage is applied between them to generate glow discharge. At this time, the nitrogen gas in the furnace body 6 is ionized to emit electrons and collide with the pachinko balls 1A at high speed. The kinetic energy at this time is converted into heat energy, the surface of the pachinko ball 1A is heated, and elements such as Fe, C, and O are knocked out from the surface. Then, the knocked out Fe atoms combine with atomic nitrogen in the plasma generated by the glow discharge to form iron nitride, which is adsorbed on the outer peripheral surface of the pachinko ball 1A to form the nitride layer 4. Pachinko balls 1 are manufactured.

In this manufacturing process, a large number of pachinko balls 1 are inserted into a net-shaped frame and arranged at predetermined positions in the furnace. Then, the net-shaped frame is slowly rotated in the furnace, and surface treatment is performed so that the nitride layer is uniformly attached to the surface of each pachinko ball 1.

The pachinko ball 10 shown in (b) is a pachinko ball in which the hard chromium plating layer 3 is formed on the heat-treated iron original ball 2 (hereinafter referred to as the pachinko ball 10A).
It is manufactured by subjecting titanium powder as an evaporant to an ion plating treatment on the outer peripheral surface of, and glow discharge of an inert gas in a vacuum to ionize the titanium powder, thereby making the pachinko ball 10A It is manufactured by depositing titanium layer 14 on the surface.

Regarding the method of ionizing or vaporizing the titanium powder, any of the generally known methods such as the Matox method, the bias rope method, the HCD method and the low pressure plasma method may be adopted. .

FIG. 3 shows a vapor deposition method by a low pressure plasma method, in which a pachinko ball 10A is arranged in a vacuum chamber 11. Titanium powder 12 as a vapor deposition source is placed on heater 13 and plasma voltage P is applied to evaporate titanium powder 12 and attach it to pachinko balls 10A.

The method for manufacturing the pachinko balls 10 is CVD.
It can be performed by surface treatment by coating. C
The VD coating method is similar to the chemical coating method, and includes plasma CVD method, atmospheric pressure CVD method and low pressure CVD method.
Methods are known, but the surface treatment may be performed by any method.

FIG. 4 shows the atmospheric pressure CV as the atmospheric gas treatment.
It shows CVD coating by the D method, and pachinko balls 10A are arranged in a vacuum furnace 15. A mixed gas 16 composed of titanium tetrachloride, hydrogen and nitrogen is used in a vacuum furnace 15.
When it is sent to the inside and heated in the heating furnace 17, pachinko balls 1
Titanium nitride (TiN) is attached to OA.

The mixed gas is titanium tetrachloride, hydrogen,
It may be composed of methane. In this case, pachinko balls 10
Titanium carbide (TiC) is attached to A, and pachinko balls 1
The 0 surface is gray.

If the mixed gas is composed of titanium tetrachloride, methane, hydrogen and nitrogen, a Ti (C, N) coating is applied and various colors are formed by changing the ratio of methane and nitrogen. .

In the manufacturing process of the ion plating method and the CVD coating method, all the pachinko balls are inserted into a net-shaped frame and surface-treated while the net-shaped frame is rotated, like the ion nitriding method. It is a thing.

The pachinko ball 20 shown in (c) is a heat-treated iron original ball 2 (hereinafter referred to as a pachinko ball 20A).
It is manufactured by subjecting the outer peripheral surface of the above to electroless nickel plating, and electroless plating is performed using hypophosphite as a reducing agent.

In the manufacturing process, as shown in the process diagram of FIG. 5, the pachinko balls 20A are cleaned by alkaline degreasing, electrolytic degreasing and pickling as a pre-process. Next, the pachinko balls 20A are put into a plating layer containing the nickel-phosphorus alloy liquid and water, and the plating treatment is performed by heating the liquid while stirring. The plating treatment at this time is suitable with a nickel concentration of about 5.0 g / l, a working temperature of 90 to 92 ° C., and a heating time of about 1 hour.
After plating, heat treatment is performed to improve the hardness and wear resistance of the coating, and chromic acid treatment is performed to improve corrosion resistance. Thus, the nickel-phosphorus alloy layer is formed on the outer peripheral surface of the pachinko machine 20A to manufacture the pachinko machine 20.

As the reducing agent, formaldehyde and borohydride compounds can be used in addition to hypophosphite.

Further, in the above-mentioned embodiment, the iron original balls are subjected to the hard chrome plating treatment of the thin film, but the present invention is not limited to this, and the iron original balls can be directly ion-nitrided or ion-plated. You may make it surface-treat by coating or CVD coating. Therefore, in the pachinko ball produced by this method, a thin film nitride layer or titanium layer is formed on the outer peripheral surface of the heat-treated iron original ball.

Further, in the above-mentioned embodiment, the play balls have been described as pachinko balls, but the present invention can be applied to balls other than pachinko balls, such as balls for exclusive use with a throttle machine.

The original ball of the pachinko ball may be made of stainless steel instead of iron.

[0037]

As described above, according to the method for manufacturing the play ball of the present invention, the original ball of the play ball is plated with hard chrome, and thereafter, ion nitriding or ion plating treatment by glow discharge is performed. Therefore, as compared with the conventional play balls, a film having excellent corrosion resistance and wear resistance is formed on the surface thereof. In addition, a golden-colored film with strong adhesion is formed by ion nitriding and ion plating, and a unique color can be produced.

Further, the original ball of the play ball is plated with hard chrome, and thereafter, especially by CVD by atmospheric gas treatment.
Since the surface treatment is performed by coating, a film having excellent corrosion resistance and wear resistance is formed on the surface, and a golden or gray film having strong adhesion is formed.

Further, since the original balls of the play balls are directly treated by electroless plating, they are excellent in corrosion resistance and wear resistance,
Moreover, since the film can be formed densely, a black film having strong adhesion can be formed.

According to the method for producing a pachinko ball of the present invention, the original ball of the heat-treated pachinko ball is directly or hard chrome plated, and then ion nitriding treatment or ion plating treatment or CVD coating is performed. Since the treatment or the electroless plating treatment is carried out, a film layer having strong adhesion is formed on the surface thereof, and a pachinko ball having corrosion resistance, abrasion resistance and color is manufactured.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of a surface-treated pachinko ball according to an embodiment of the present invention.

FIG. 2 is a schematic diagram showing the ion nitriding apparatus.

FIG. 3 is a schematic diagram showing the same ion plating processing apparatus.

FIG. 4 is a schematic diagram showing the CVD coating apparatus.

[FIG. 5] Manufacturing process diagram of electroless plating

[Explanation of symbols]

 1, 10 and 20 ... Pachinko balls 2 ... Iron original balls 3 ... Hard chrome plating layer 4 ... Nitriding layer 14 ... Titanium layer 24 ... Nickel-phosphorus layer

Claims (8)

[Claims] 1. A process for producing a game ball, wherein the original ball of the game ball is plated with hard chrome and then surface-treated by ion nitriding. 2. A method for manufacturing a play ball, characterized in that the original ball of the play ball is plated with hard chrome, and then surface-treated by ion plating. 3. A method of manufacturing an amusement ball, wherein the original ball of the amusement ball is plated with hard chrome, and then surface-treated by CVD coating. 4. A method of manufacturing a play ball, wherein the original ball of the play ball is subjected to surface treatment by electroless plating. 5. A method for producing a pachinko ball, which comprises subjecting a heat-treated ball of a pachinko ball to hard chrome plating, and then performing a surface treatment by ion nitriding or a surface treatment by ion plating. 6. A thin hard chromium plating layer is formed on the outer peripheral surface of an iron or stainless steel original ball, and a thin nitride layer or titanium layer is further formed on the outer peripheral surface of the hard chromium plating layer. Pachinko balls that are characterized by. 7. A method of manufacturing a game ball, wherein the outer peripheral surface of an iron or stainless steel original ball is subjected to a surface treatment by ion nitriding, ion plating, CVD coating, or electroless plating. 8. A pachinko ball characterized in that a thin nitride layer, a titanium layer, or a nickel-phosphorus alloy layer is formed on the outer peripheral surface of an original ball of iron or stainless steel.