JPH1034544A - Flexible grinding tool - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent early coming-off of abrasive grains, in a flexible grinding tool used in finish work or the like of a free curved surface. SOLUTION: A fine steel wire having elasticity is twisted together, a stranded steel wire 1 having flexibility is formed. In a tip end part of this stranded steel wire 1, a substrate plating layer 2 formed by a nickel system plating means is provided. On a surface of this substrate plating layer 2, a metal bond material 5 formed by a separate plating means is used, an abrasive grain 3, composed of diamond or cubic system boron nitride (CBN), is mounted. A plurality of the stranded steel wire 1 with the abrasive grain 3 thus formed are collectively bundled, this bundle is mounted in a flange-shaped holding part 66 formed in a tip end part of a rotary unit 6. In a lower part of this holding part 66, a binder 7 composed of elastic material is mounted, so as to prevent excessively spreading of the stranded steel wire 1.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flexible grinding tool based on a stranded steel wire and provided with abrasive grains of diamond or cubic boron nitride (CBN) at its tip. In particular, the present invention relates to a flexible grinding tool in which two plating layers including a base plating layer are provided at a place where the abrasive grains are attached, thereby attaching the abrasive grains.

[0002]

2. Description of the Related Art Conventional flexible grinding tools, particularly those used for finishing a free-form surface or those used for removing burrs formed at corners of a machined product, are known.
For example, as shown in FIG. 4, a sandpaper 30 or the like is provided at a flange 110 formed at the tip of the rotating body 10 via a cushioning material such as a cushion rubber 20. Then, abrasive grains (sand) 33 attached on the surface of the sandpaper 30 or the like.
With 0, the curved surface portion or the like of the work (work) is ground. However, in this case, since the sandpaper 30 itself is of a disposable type, the abrasive grains (sand) are not removed during grinding.
330 will easily fall off the surface of the sandpaper 30. Therefore, during the grinding operation,
There is a problem that the work of replacing the sandpaper 30 must be frequently performed, and the work efficiency is not good. Also,
There is a problem that the dropped abrasive grains (sand) 330 are scattered around the work site, thereby deteriorating the work environment.

[0003]

By the way, as shown in FIG. 3, apart from the above-mentioned sandpaper type, abrasive grains 330 are mixed into a resilient thermoplastic wire 50, and such a plastic There is a type in which a plurality of wires 50 are bundled and attached to the flange 110 of the rotating body 10. In this case, the tip of the plastic wire 50 moves along a curved surface or the like by rotating the rotating body 10, and as a result, the abrasive grains mixed in the plastic wire 50. The reference numeral 330 is for grinding a curved surface portion or the like of the workpiece. However, this one also
During the grinding process, the plastic wire 50 mixed with the abrasive grains 330 generates heat and is relatively easily melted. As a result, the drop of the abrasive grains 330 becomes severe, and the melted and dropped abrasive grains 330 are removed.
However, a large amount is scattered around the work. That is, the working environment at the work site may be deteriorated, and the working efficiency may be reduced. In order to solve such problems, it was made to prevent the abrasive particles from falling off early,
It is an object (problem) of the present invention to provide a grinding tool having a flexible grinding part.

[0004]

Means for Solving the Problems In order to solve the above problems, the present invention takes the following measures. That is, in the invention described in claim 1, a plurality of fine steel wires are collectively used for a flexible grinding tool which is used for finishing a free-form surface and is formed based on a flexible member. Based on the twisted steel wire formed by twisting up, one end portion is provided with a base plating layer formed by plating, and formed on such a base plating layer by plating means Abrasive grains made of at least one of diamond and cubic boron nitride (CBN) are provided through the metal bond material to be formed, and a twisted steel wire with abrasive grains having such a configuration is further provided. A plurality of pieces are collected, and the ends opposite to the side where the abrasive grains are provided are bundled, and further, these are attached to a flange portion or the like of the rotating body. It was.

[0005] By adopting such a configuration, the present invention has the following functions. In other words, this grinding tool is flexible, that is, the portion where the abrasive grains actually engaged in grinding are formed on the basis of a stranded steel wire, Is to be provided. Therefore, in the processing (grinding) of the curved surface portion of the work, the ground surface, that is, the surface on which the abrasive grains are provided, deforms along the processed surface and adapts to the processed surface. As a result, when the free-form surface portion is ground by the use of the present grinding tool, the machined surface composed of the curved surface portion is finished with high accuracy.

[0006] The portion of the flexible grinding tool on which the abrasive grains are provided is provided with a base plating, and the abrasive grains are attached to the place where the base plating is formed. Is what it is. In this case, any one of diamond and cubic boron nitride (CBN), or a mixture thereof is employed as the abrasive grains.
Therefore, the portion to which the abrasive grains are attached is smoothed by the base plating layer, and is in a state different from the exposed state of the twisted steel wire. Since the abrasive grains are to be mounted on such a smoothed base plating layer, the tips (blade edges) of the abrasive grains that contribute to the grinding are:
It will be formed in the state projected outside the above-mentioned twisted steel wire. Therefore, the cutting edge portion made of such abrasive grains surely comes into contact with the work surface of the work, and as a result, contributes to the grinding. That is, efficient grinding is performed.

Next, the invention according to claim 2 will be described. This is also basically the same as the first aspect. The feature is that the base plating layer provided at the tip of the twisted steel wire is made of plating means mainly composed of nickel (Ni). That is, nickel-phosphorus (Ni-P) plating means or the like is adopted as the nickel-based plating means. By adopting such a configuration, the surface hardness of the portion of the base plating layer is increased. As a result, inconveniences such as that the abrasive grains provided on such a base plating layer are sunk into the attached base due to a reaction force from the work during the grinding operation or the like. There is nothing. That is, the surface hardness of the base plating layer serving as the base on which the present abrasive grains are attached is increased by the plating means mainly composed of nickel. Since the abrasive grains are held on the hard base by another plating means, the abrasive grains are firmly fixed to the surface of the twisted steel wire. As a result, it is possible to prevent the abrasive grains from dropping off early during the grinding, and to improve the grinding efficiency.

[0008]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to FIGS. Although it relates to the embodiment of the present invention, its configuration is, as shown in FIG.
A twisted steel wire 1 which is attached in a bundled state and is formed by twisting together fine steel wires 11, and a plating layer 2, 5 at the tip of the twisted steel wire 1. And abrasive grains 3 attached thereto. In such a configuration, as shown in FIG. 1, during use of the present flexible grinding tool, the distal end of the twisted steel wire 1 may be excessively expanded by centrifugal force. A binder 7 for bundling the group of stranded steel wires 1 is further provided below the holding portion 66, which bundles the upper end portion of the stranded steel wire 1.
May be provided. And this binder 7
It is formed of an elastic member such as a rubber band or a spring band.

In such a configuration, the tip of the twisted steel wire 1 on which the abrasive grains 3 are provided is first formed with a plating layer formed so as to cover the surface of the main twisted steel wire 1 as shown in FIG. (Underlying plating layer) 2. As a result, the surface on which the abrasive grains 3 are attached is smoothed, and the abrasive grains 3 to be attached to the base plating layer 2 are buried in the recess formed by the twisted portion of the fine steel wire. It is something that does not have. The base plating layer 2 thus formed is mainly composed of a nickel-based plating layer, specifically, nickel-phosphorus (Ni
-P) It is formed by a plating layer. Further, such nickel-phosphorus (Ni-
P) After the plating means is applied, the nickel-phosphorus (Ni-P) plating layer (base plating layer) 2 is subjected to a heat treatment. Specifically, 400 ° C. to 500 ° C.
It will be heated at a temperature of ° C. As a result, the surface was hardened, and as a result of measurement with a Vickers hardness tester, about 80
Hardness of about 0 kgf / mm ² can be obtained.

[0010] The abrasive grains 3 are mounted on the base plating layer 2 by another plating means.
That is, as shown in FIG. 2, the abrasive grains 3 are attached to the tip of the twisted steel wire 1 by the metal bond material 5 made of plating means.
Innumerable through the base plating layer 2. The abrasive grains 3 attached with the metal bonding material 5 or the like based on such plating means are either diamond or cubic boron nitride (CBN), or a mixture thereof. Will be adopted. In some cases, a material obtained by appropriately mixing abrasive grains having different particle sizes is used.

Next, the operation and the like of the embodiment having the above configuration will be described. The twisted steel wire 1 forming the present grinding tool has flexibility and elasticity. And, since they are thin in a single state, the familiarity with the curved surface portion of the work 9 is improved. That is, the tip portion provided with the abrasive grains 3 is deformed along the processing surface and adapts to the processing surface. As a result, by using this grinding tool,
When the free-form surface portion is subjected to grinding or the like, the processed surface of the work 9 including the curved surface portion is finished with high accuracy. The portion where the abrasive grains 3 are provided in the present flexible grinding tool is provided with a base plating, and the metal bond material 5 is used to place the abrasive grains 3 where the base plating layer 2 is provided. Is to be attached. Therefore, the part to which the abrasive grains 3 are attached is smoothed by the base plating layer 2,
The abrasive grains 3 are formed on the smoothed base plating layer 2.
Is attached, so that the tip portion (the cutting edge portion) of the abrasive grains 3 contributing to the grinding does not become buried in the twisted portion of the twisted steel wire 1 or the like. Therefore,
The cutting edge portion composed of such abrasive grains 3 reliably captures the processed surface of the work 9. As a result, it surely contributes to grinding, and efficient grinding is performed.

The undercoat layer 2 provided at the tip of the twisted steel wire 1 is made of nickel-phosphorus (Ni-P) plating means, and the nickel-phosphorus (Ni-P) plating is performed. After that, by performing a heat treatment at a predetermined temperature to increase the surface hardness of the base plating layer 2, during the grinding operation, the abrasive grains 3 Even if the grinding reaction force is input from the work 9, the abrasive grains 3 do not sink into the base on which the abrasive grains 3 are mounted. Therefore, the abrasive grains 3 are made of the twisted steel wire 1
Will be firmly fixed to the surface of the substrate. As a result, it is possible to prevent the abrasive grains 3 from falling off early during the grinding, and to improve the grinding efficiency.

[0013]

According to the present invention, a plurality of fine steel wires are collectively used for a flexible grinding tool which is used for finishing a free-form surface and is formed on the basis of a flexible member. Based on the twisted steel wire formed by twisting, on one end, a base plating layer formed by plating is provided, and in such a base plating layer, another plating means is used. Abrasive grains made of diamond or cubic boron nitride (CBN) are provided by interposing a metal bond material formed by the method described above, and a plurality of twisted steel wires with abrasive grains having such a configuration are assembled. Since a configuration is adopted in which these are bundled and attached to the flange portion of the rotating body, a highly durable curved surface grinding tool can be obtained at low cost. Further, since the abrasive grains forming the cutting edge of the grinding tool are attached with a metal bond material, the abrasive grains are prevented from falling off early during the grinding operation. That is, a flexible grinding tool with excellent wear resistance can be obtained.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view showing the overall configuration of the present invention.

FIG. 2 is a partial sectional view showing an attached state of abrasive grains at a distal end portion of a twisted steel wire forming a main part of the present invention.

FIG. 3 is a cross-sectional view showing an example of a conventional device.

FIG. 4 is a cross-sectional view showing another example of a conventional device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Twisted steel wire 11 Steel wire (fine steel wire) 2 Base plating layer 3 Abrasive grains 5 Metal bond material 6 Rotating body 66 Holder 7 Binder 9 Work

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Shinji Yanagisawa 1-54 Shiroyama, Maiki-cho, Okazaki-shi, Aichi Prefecture Inside Toyota Banmops Co., Ltd. (72) Inventor Koji Morita 1-1-1, Asahi-cho, Kariya-shi, Aichi Toyoda Koki Inside the corporation

Claims (2)

[Claims] 1. A base plating layer formed by plating one end of a twisted steel wire formed by twisting a plurality of fine steel wires together and providing a base plating layer. Abrasive grains made of at least one of diamond and cubic boron nitride (CBN) are provided on the plating layer via a metal bond material formed by plating means. Flexible grinding characterized in that it comprises a plurality of twisted steel wires with abrasive grains having different configurations, and a configuration in which the end opposite to the side where the abrasive grains are provided is bundled. tool. 2. The flexible grinding tool according to claim 1, wherein the undercoating layer provided at the end of the twisted steel wire is made of a plating layer mainly composed of nickel (Ni). Flexible grinding tool.