【発明の詳細な説明】[Detailed description of the invention]
本発明は、刷子用摺動接点材料の改良に関す
る。
従来、摺動接点材料としては各種材料が用いら
れ、とりわけ刷子用摺動接点材料としては、硬
さ、耐蝕性、ばね性等の優れた、Pd30〜50重量
%、Ag20〜40重量%、Cu20〜40重量%より成る
合金材料が広く用いられていた。
然し乍ら、この合金材料で製作した刷子接点で
は、整流子との摺動時に軟化して凝着するため摩
耗粉が生じ易く、接触抵抗が不安定で、ノイズ発
生の原因となつていた。
本発明は、斯かる欠点を解消すべくなされたも
のであり、前記合金材料を基材としてこれに特定
の材料を僅かに添加させて、軟化を防止し、耐凝
着性を向上させた刷子用摺動接点材料を提供せん
とするものである。
本発明の刷子用摺動接点材料は、組成比で
Pd30〜50重量%、Ag20〜40重量%、Cu20〜40重
量%のPd−Ag−Cuが95〜99.5重量%及び残部が
Co、Sn及びTiの少なくとも一種を合計で0.5〜5
重量%から成るものである。
本発明の刷子用摺動接点材料に於いて、組成比
でPd30〜50重量%、Ag20〜40重量%、Cu20〜40
重量%のPd−Ag−Cuが95〜99.5重量%及び残部
がCo、Sn及びTiの少なくとも一種を合計で0.5〜
5重量%としている理由は、前記従来の合金材料
の耐凝着性を向上すべく析出物によつて摺動時の
軟化を防止する為で、Co、Sn及びTiのうち少な
くとも一種を合計で0.5重量%未満ではその効果
を発揮できず、Co、Sn及びTiのうち少なくとも
一種を合計で5重量%を超えると酸化物の発生量
が多くなり、接触抵抗が高くなり、その上不安定
となるものである。またPd、Ag、Cuの含有量
は、前記従来の合金材料の組成比に変更を加えな
い範囲とすることにより、従来の合金材料の特性
は損なわれることなく発揮されることとなるもの
である。
次に従来の合金材料を基材とし、これにCoを
添加し表の実施例1に示す成分組成の刷子用摺動
接点材料とし、以下同様にして表に示す成分組成
の本発明による刷子用摺動接点材料と従来の刷子
用摺動接点材料を用いて夫々線径0.7mmの刷子線
材を作り、これを各々長さ8mmに切断し、2本並
列させて一端を幅10mm、長さ13mm、厚さ0.2mmの
台材に溶接し、他端に2Rの円弧状の接触部を曲
成して刷子接点を作つた。そして夫々の刷子接点
を円盤状の整流子に接触させ、整流子を正逆回転
させて下記の試験条件にて摺動試験を行い、摩耗
量及び接触抵抗を測定した処、下記の表の右欄に
示すような結果を得た。
試験条件
電流:直流0.6A
電圧:12V
負荷:抵抗負荷
回転速度:1000回転/分
周速:130〜120m/min
接触力:100g
試験時間:7時間
The present invention relates to improvements in sliding contact materials for brushes. Conventionally, various materials have been used as sliding contact materials, and in particular, as sliding contact materials for brushes, materials with excellent hardness, corrosion resistance, spring properties, etc., such as Pd 30 to 50% by weight, Ag 20 to 40% by weight, Cu20 Alloy materials consisting of ~40% by weight were widely used. However, brush contacts made of this alloy material soften and adhere when sliding against the commutator, which tends to generate abrasion powder, resulting in unstable contact resistance and causing noise. The present invention has been made to eliminate such drawbacks, and provides a brush that uses the above-mentioned alloy material as a base material and slightly adds a specific material to the brush to prevent softening and improve adhesion resistance. The present invention aims to provide a sliding contact material for use in the present invention. The sliding contact material for brushes of the present invention has a composition ratio of
Pd-Ag-Cu is 95-99.5% by weight and the balance is 30-50% by weight of Pd, 20-40% by weight of Ag, 20-40% by weight of Cu.
At least one of Co, Sn, and Ti in total of 0.5 to 5
% by weight. In the sliding contact material for brushes of the present invention, the composition ratio is 30 to 50% by weight of Pd, 20 to 40% by weight of Ag, and 20 to 40% by weight of Cu.
Pd-Ag-Cu in weight% is 95 to 99.5% by weight and the balance is at least one of Co, Sn and Ti in total of 0.5 to 99.5% by weight
The reason why it is set at 5% by weight is to prevent softening during sliding due to precipitates in order to improve the adhesion resistance of the conventional alloy material. If it is less than 0.5% by weight, the effect cannot be exhibited, and if the total content of at least one of Co, Sn, and Ti exceeds 5% by weight, the amount of oxides generated increases, contact resistance becomes high, and it becomes unstable. It is what it is. Furthermore, by setting the contents of Pd, Ag, and Cu within a range that does not change the composition ratio of the conventional alloy material, the characteristics of the conventional alloy material can be exhibited without being impaired. . Next, a conventional alloy material is used as a base material, and Co is added thereto to obtain a brush sliding contact material having the composition shown in Example 1 in the table. Brush wires with a wire diameter of 0.7 mm were made using the sliding contact material and the conventional sliding contact material for brushes, each was cut to a length of 8 mm, and two wires were placed in parallel with one end having a width of 10 mm and a length of 13 mm. A brush contact was made by welding to a 0.2 mm thick base material and bending a 2R arc-shaped contact part at the other end. Then, each brush contact was brought into contact with a disc-shaped commutator, the commutator was rotated forward and backward, and a sliding test was conducted under the following test conditions, and the wear amount and contact resistance were measured. The results shown in the column were obtained. Test conditions Current: DC 0.6A Voltage: 12V Load: Resistance load Rotation speed: 1000 rotations/divided speed: 130-120m/min Contact force: 100g Test time: 7 hours
【表】
上記の表で明らかなように実施例1〜15の刷子
接点は従来例の刷子接点に比し摩耗量が著しく少
なく、接触抵抗が低く安定していることが判る。
これはひとえに実施例1〜15の刷子接点の刷子線
材を構成している本発明の刷子用摺動接点材料
が、Co、Sn、Tiの少なくとも一種により摺動時
の軟化が防止され、耐凝着性が向上するからに他
ならない。
以上詳記した通り本発明による刷子用摺動接点
材料によれば、従来の刷子用摺動接点材料に比べ
著しく耐摩耗性に優れ、摩耗粉の発生量が極めて
少なく、ノイズの発生が殆んど無く、また従来の
刷子用摺動接点材料による場合よりも低く安定し
た接触抵抗を有する刷子接点を得ることができる
という効果がある。[Table] As is clear from the above table, it can be seen that the brush contacts of Examples 1 to 15 had significantly less wear than the conventional brush contacts, and the contact resistance was low and stable.
This is because the brush contact material of the present invention, which constitutes the brush wire of the brush contacts of Examples 1 to 15, is prevented from softening during sliding by at least one of Co, Sn, and Ti, and is resistant to freezing. This is because it improves adhesion. As detailed above, the sliding contact material for brushes according to the present invention has significantly superior wear resistance compared to conventional sliding contact materials for brushes, generates extremely little wear powder, and generates almost no noise. This has the advantage that it is possible to obtain a brush contact having a lower and more stable contact resistance than when using conventional brush sliding contact materials.