JPH05154640A - Method for making surface of valve member porous - Google Patents
Method for making surface of valve member porousInfo
- Publication number
- JPH05154640A JPH05154640A JP32024191A JP32024191A JPH05154640A JP H05154640 A JPH05154640 A JP H05154640A JP 32024191 A JP32024191 A JP 32024191A JP 32024191 A JP32024191 A JP 32024191A JP H05154640 A JPH05154640 A JP H05154640A
- Authority
- JP
- Japan
- Prior art keywords
- valve member
- porous
- melting point
- mold
- valve
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Coating By Spraying Or Casting (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、弁部材表面多孔質化方
法に関し、更に詳しくは、互いに摺動自在な弁体と弁座
のうちの少なくとも一方の弁部材に対し、その摺動部分
にオイル含浸用の多孔質部分を形成する弁部材表面多孔
質化方法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for making a surface of a valve member porous, and more specifically, to a sliding member of at least one of a valve body and a valve seat which are slidable with respect to each other. The present invention relates to a method for making a valve member surface porous by forming a porous portion for oil impregnation.
【0002】[0002]
【従来の技術】ガスコック等の弁構造(栓構造)におい
て、弁体と弁座との摺動部分のシールには、グリースが
一般に使用されている。しかし、そのグリースは経年劣
化して硬化し、シール性能が低下するようになる。そこ
で、グリースと相溶性の良いオイル(例えば、ヒマシ油
等)を弁体に含浸させ、その含浸オイルを継続的に滲出
させることにより、前記シール性能の低下を回避するよ
うにしていた。そして、前記弁体へのオイルの含浸は、
従来、弁体の摺動部分に黄銅等の金属を溶射して多孔質
部分を形成し、その多孔質部分にオイルを含浸させるよ
うにしていた。2. Description of the Related Art In a valve structure (plug structure) such as a gas cock, grease is generally used for sealing a sliding portion between a valve body and a valve seat. However, the grease deteriorates over time and hardens, and the sealing performance deteriorates. Therefore, the oil having a good compatibility with grease (for example, castor oil) is impregnated in the valve body, and the impregnated oil is continuously exuded to avoid the deterioration of the sealing performance. And the impregnation of the valve body with oil is
Conventionally, a metal such as brass is sprayed on a sliding portion of a valve body to form a porous portion, and the porous portion is impregnated with oil.
【0003】[0003]
【発明が解決しようとする課題】かかる金属の溶射を実
施することにより、前記弁体等の弁部材の表面にオイル
含浸用の多孔質部分を形成する場合、前記金属を溶射す
るために大掛かりな溶射設備(電源やガス源等の付帯設
備も含む)が必要となるので、前記弁部材等の弁部材の
製造コストが高くなるという問題がある。また、金属の
溶射過程で、前記弁部材の表面に付着しない金属があ
り、材料ロスが生じて歩留りが悪い上、その付着しない
金属が飛散するようになって粉塵公害が発生するという
問題がある。更に、前記弁部材の表面に形成される多孔
質部分の性質を変更したい場合は、金属の溶射条件を根
本的に変更せざるを得ず、その変更は一般に面倒である
という問題があった。本発明は、かかる実情に着目して
なされたものであり、上述の問題を一挙に解消し得る手
段を提供することを目的としている。When forming a porous portion for impregnating oil on the surface of a valve member such as the valve body by carrying out the thermal spraying of the metal, it is not necessary to spray the metal. Since thermal spraying equipment (including auxiliary equipment such as a power source and a gas source) is required, there is a problem that the manufacturing cost of the valve member such as the valve member becomes high. In addition, there is a problem that there is a metal that does not adhere to the surface of the valve member in the process of spraying the metal, resulting in material loss and poor yield, and the non-adhesive metal is scattered to cause dust pollution. .. Further, when it is desired to change the properties of the porous portion formed on the surface of the valve member, there is no choice but to fundamentally change the thermal spraying conditions of the metal, and there is a problem that the change is generally troublesome. The present invention has been made by paying attention to the actual situation, and an object thereof is to provide a means capable of solving the above problems all at once.
【0004】[0004]
【課題を解決するための手段】本発明に係る弁部材表面
多孔質化方法は、弁部材における摺動部分と型との間に
隙間を形成しつつ前記弁部材を前記型に対して配置する
と共に、融点の異なる複数種の粉体の混合物を前記隙間
に充填した後、前記混合物を、低融点の粉体の融点以上
の温度に加熱して前記低融点の粉体を溶融させ、その溶
融に基づいて高融点の粉体同士を接着させることによ
り、前記摺動部分に前記多孔質部分を形成することを特
徴構成としている。In the method for making a valve member surface porous according to the present invention, the valve member is arranged with respect to the mold while forming a gap between a sliding portion of the valve member and the mold. In addition, after filling the gap with a mixture of a plurality of powders having different melting points, the mixture is heated to a temperature equal to or higher than the melting point of the low melting point powder to melt the low melting point powder, and the melting The porous portion is formed in the sliding portion by adhering the high melting point powders to each other based on the above.
【0005】[0005]
【作用】かかる本発明方法によれば、前記弁部材の摺動
部分と型との間に前記隙間を形成し、その隙間に前記粉
体の混合物を充填した後、その混合物を上述の如く加熱
することにより、従来の溶射設備のように大掛かりな設
備を使用することなく、前記摺動部分に前記多孔質部分
を簡易に形成することができる。また、前記隙間に充填
された前記混合物は、全て、前記接着によって前記摺動
部分に付着するようになり、従来のような材料ロスの発
生も、材料の飛散も生じない。更に、弁部材の表面に形
成される多孔質部分の性質を変更したい場合は、容易に
変更できる混合物の粒度や混合割合や加熱温度等の条件
を変えるだけで変更することができる。According to the method of the present invention, the gap is formed between the sliding portion of the valve member and the mold, the mixture of the powder is filled in the gap, and the mixture is heated as described above. By doing so, the porous portion can be easily formed in the sliding portion without using a large-scale equipment such as a conventional thermal spraying equipment. Further, all the mixture filled in the gap comes to adhere to the sliding portion due to the adhesion, so that neither material loss nor material scattering as in the conventional case occurs. Furthermore, when it is desired to change the properties of the porous portion formed on the surface of the valve member, the change can be made simply by changing the conditions such as the particle size and mixing ratio of the mixture and the heating temperature that can be easily changed.
【0006】[0006]
【発明の効果】かくして、従来の溶射設備のような大掛
かりな設備を使用することなく前記多孔質部分を形成す
ることができるので、弁部材の製造コストが従来に比し
て低く抑えられ、従来のコストの問題が解消されるよう
になる。また、前記混合物が前記摺動部分に全て付着す
るようになるので、材料ロスの発生が抑えられ、歩留り
が悪いという従来の問題が解消される上、材料の飛散も
生じないので、粉塵公害も発生しないようになる。更
に、前記容易に変更できる条件を変えるだけで、弁部材
の表面に形成される多孔質部分の性質を変更することが
でき、その性質の変更が簡易に行えるようになる。As described above, since the porous portion can be formed without using large-scale equipment such as the conventional thermal spray equipment, the manufacturing cost of the valve member can be kept low as compared with the conventional one. The cost problem will be solved. Further, since the mixture comes to adhere to all the sliding parts, the generation of material loss is suppressed, the conventional problem of poor yield is solved, and the material does not scatter, so dust pollution also occurs. It will not occur. Further, the property of the porous portion formed on the surface of the valve member can be changed by simply changing the condition that can be easily changed, and the change of the property can be easily performed.
【0007】[0007]
【実施例】以下、本発明の実施例について説明する。図
1(イ)において、1は、本発明方法の適用によって摺
動部分にオイル含浸用の多孔質部分が形成される弁部材
の一例としての弁体であり、その弁体1は、全体形状が
略分銅状を呈し且つ中央部横向きに貫通孔1aが存在す
る状態に鋳込まれた鋳物(鋳鉄)にて母体が構成されて
いる。EXAMPLES Examples of the present invention will be described below. In FIG. 1 (a), reference numeral 1 denotes a valve body as an example of a valve member in which a porous portion for oil impregnation is formed in a sliding portion by applying the method of the present invention. Has a substantially weight shape, and the mother body is made of a casting (cast iron) that is cast in a state in which the through hole 1a exists in the lateral direction of the central portion.
【0008】前記弁体1の外周部分1bは、弁座(図
外)との摺動部分に相当するようになっており、前記弁
体1及び弁座は、その両者の摺動部分同士が接する状態
に組み立てられ、もって、ガスコック等の弁構造(栓構
造)が構成されるようになっている。尚、前記弁座に
は、円周2箇所(180度ずれた対向位置2箇所)に前
記弁体1の貫通孔1aに対応する貫通孔が開設されてい
る。The outer peripheral portion 1b of the valve body 1 corresponds to the sliding portion with the valve seat (not shown), and the sliding portions of the valve body 1 and the valve seat are both. The valve structure (plug structure) such as a gas cock is constructed by being assembled in contact with each other. In addition, through holes corresponding to the through holes 1a of the valve body 1 are formed in the valve seat at two places on the circumference (two opposite positions that are offset by 180 degrees).
【0009】かかる構成の弁構造を開閉操作する場合に
は、固定状態の弁座に対して前記弁体1を適宜回転させ
ることにより、前記弁体1の貫通孔1aと前記弁座の貫
通孔とを一致させた状態(開栓状態)と、前記弁体1の
貫通孔1aと前記弁座の貫通孔とを一致させない状態
(閉栓状態)とを選択的に現出させ、前記開閉操作が行
われるようになっている。When opening and closing the valve structure having such a structure, the through hole 1a of the valve body 1 and the through hole of the valve seat are appropriately rotated by rotating the valve body 1 with respect to the valve seat in a fixed state. And a state where the through hole 1a of the valve body 1 and a through hole of the valve seat do not coincide (closed state) are selectively exposed, and the opening / closing operation is performed. It is supposed to be done.
【0010】前記弁体1と弁座との摺動部分のシールに
はグリースが使用されるが、そのグリースの経年劣化
(硬化)を抑えてシール性能の低下を防止するのに、前
記弁体1の摺動部分に多孔質部分を形成し、その多孔質
部分に、グリースと相溶性の良いオイル(例えば、ヒマ
シ油等)を含浸させ、その含浸オイルを継続的に滲出さ
せるようにする。前記弁体1の摺動部分に多孔質部分を
形成するのは、図1(ロ)(ハ)に示す手順によって行
われる。Grease is used to seal the sliding portion between the valve body 1 and the valve seat. To prevent deterioration of the grease (aging) and prevent deterioration of the sealing performance, the valve body is used. A porous portion is formed on the sliding portion of No. 1 and the porous portion is impregnated with oil having a good compatibility with grease (for example, castor oil), and the impregnated oil is continuously exuded. The porous portion is formed in the sliding portion of the valve body 1 by the procedure shown in FIGS.
【0011】先ず、本発明方法を実施するために型2が
準備される。その型2は、耐熱性の素材を用いて上面開
口の容器状に形成された金型よりなる。その金型2の内
面形状は、その金型2内に前記弁体1が配置された状態
の両者間に前記多孔質部分が形成されるべきスペースと
なる隙間Sが形成されるように設定されている。First, a mold 2 is prepared for carrying out the method of the present invention. The mold 2 is a mold formed of a heat-resistant material and formed in a container shape having an upper surface opening. The inner surface shape of the mold 2 is set so that a gap S, which is a space in which the porous portion is to be formed, is formed between the two in a state where the valve body 1 is arranged in the mold 2. ing.
【0012】前記金型2内へ図1(ロ)に示す如く前記
弁体1を装入することにより、前記弁体1と前記金型2
との間に前記隙間Sを形成する。そして、その隙間Sに
融点の異なる複数種の粉体3L,3Hの混合物を図1
(ハ)に示す如く充填する。その混合物は、例えば、粒
径が10μm程度の黄銅(融点:895〜955°C)
の粉体3H、及び、粒径が10μm程度で且つ黄銅より
も融点の低い亜鉛(融点:419°C)の粉体3Lの2
種の粉体の混合物である。尚、その混合比率は、黄銅が
体積比で半分以上となるように設定する。そして、低融
点の粉体3Lの融点以上の温度(低融点の粉体3Lが亜
鉛粉体である場合、419°C以上)に加熱して前記低
融点の粉体3Lを溶融させ、その溶融に基づいて高融点
の粉体3H同士を接着させることにより、前記弁体1の
外周面1b(即ち、前記摺動部分)に前記多孔質部分を
形成した後、その多孔質部分が形成された弁体1を前記
金型2から取り出す。その結果、図2に示す如く摺動部
分が多孔質化された弁体1が得られる。By loading the valve body 1 into the mold 2 as shown in FIG. 1B, the valve body 1 and the mold 2 are inserted.
The gap S is formed between and. Then, in the gap S, a mixture of plural kinds of powders 3L and 3H having different melting points is shown in FIG.
Fill as shown in (c). The mixture is, for example, brass having a particle size of about 10 μm (melting point: 895 to 955 ° C.)
Powder 3H and powder 3L of zinc (melting point: 419 ° C.) having a particle size of about 10 μm and a melting point lower than that of brass 2
It is a mixture of seed powders. The mixing ratio is set so that the brass has a volume ratio of more than half. Then, it is heated to a temperature equal to or higher than the melting point of the low melting point powder 3L (when the low melting point powder 3L is zinc powder, 419 ° C. or higher) to melt the low melting point powder 3L, and the melting After the high melting point powder 3H is adhered to each other based on the above, the porous portion is formed on the outer peripheral surface 1b of the valve body 1 (that is, the sliding portion), and then the porous portion is formed. The valve body 1 is taken out from the mold 2. As a result, as shown in FIG. 2, the valve body 1 in which the sliding portion is made porous is obtained.
【0013】尚、前記混合物の加熱に際してその混合物
を加圧するようにすると、前記多孔質部分が前記弁体1
に対してよく密着するようになり、その密着性が向上す
るようになる。また、前記加熱に際し、前記混合物にお
ける温度勾配を、弁体1の外周面1bから金型2の内周
面にかけて低くなるように付けることとすると、前記弁
体1と前記多孔質部分との融合がよくなる上、前記多孔
質部分が表層において崩れない状態に形成されるように
なる。また、前記混合物の混合比率を任意に変えること
により、任意の多孔質部分が形成されるようになる。If the mixture is pressurized when the mixture is heated, the porous portion will become the valve body 1.
It will come into close contact with, and its adhesion will be improved. When the temperature gradient in the mixture is set so as to decrease from the outer peripheral surface 1b of the valve body 1 to the inner peripheral surface of the mold 2 during the heating, the fusion of the valve body 1 and the porous portion is performed. In addition, the porous portion is formed so as not to collapse in the surface layer. Also, by arbitrarily changing the mixing ratio of the mixture, an arbitrary porous portion can be formed.
【0014】次に、別実施例について説明する。前記摺
動部分にオイル含浸用の多孔質部分が形成される弁部材
は、弁座の方であってもよい。それが弁座である場合、
その弁座を台上に、漏れ防止状態(弁座と台との隙間か
らの前記混合物の漏れを防止し得る状態)に載置し、そ
の弁座の内側に中子状の型を配置して前記隙間Sを形成
し、その隙間S内へ、前記混合物を充填するようにす
る。その充填後は、上述の場合と同様の手順の処理を行
うようにする。Next, another embodiment will be described. The valve member in which the oil impregnated porous portion is formed in the sliding portion may be a valve seat. If it is a valve seat,
Place the valve seat on the base in a leak-proof state (a state that can prevent the mixture from leaking from the gap between the valve seat and the base), and place a core-shaped mold inside the valve seat. To form the gap S, and the gap S is filled with the mixture. After the filling, the same procedure as the above case is performed.
【0015】前記混合物が3種以上の粉体よりなる混合
物である場合も考えられる。その場合、融点が最も低い
粉体の融点以上の温度に加熱し、その最低融点の粉体を
溶融させることにより、他の粉体同士を接着させるよう
にする。It is also possible that the mixture is a mixture of three or more powders. In that case, the powder having the lowest melting point is heated to a temperature equal to or higher than the melting point of the powder, and the powder having the lowest melting point is melted to bond other powders to each other.
【0016】尚、特許請求の範囲の項に図面との対照を
便利にするために符号を記すが、該記入により本発明は
添付図面の構成に限定されるものではない。It should be noted that reference numerals are added to the claims for convenience of comparison with the drawings, but the present invention is not limited to the configurations of the accompanying drawings by the entry.
【図1】本発明方法の実施手順を示す縦断面図FIG. 1 is a vertical sectional view showing a procedure for carrying out the method of the present invention.
【図2】摺動部分が多孔質化された弁体を示す縦断面図FIG. 2 is a vertical cross-sectional view showing a valve body whose sliding portion is made porous.
1 弁部材 2 型 3L,3H 粉体 S 隙間 1 valve member 2 type 3L, 3H powder S gap
Claims (1)
なくとも一方の弁部材(1)に対し、その摺動部分にオ
イル含浸用の多孔質部分を形成する弁部材表面多孔質化
方法であって、 前記弁部材(1)の摺動部分と型(2)との間に隙間
(S)を形成しつつ前記弁部材(1)を前記型(2)に
対して配置すると共に、融点の異なる複数種の粉体(3
L),(3H)の混合物を前記隙間(S)に充填した後、
前記混合物を、低融点の粉体(3L)の融点以上の温度
に加熱して前記低融点の粉体(3L)を溶融させ、その
溶融に基づいて高融点の粉体(3H)同士を接着させる
ことにより、前記摺動部分に前記多孔質部分を形成する
弁部材表面多孔質化方法。1. A porous valve member surface for forming a porous portion for oil impregnation in a sliding portion of at least one valve member (1) of a valve body and a valve seat that are slidable with respect to each other. A method for disposing the valve member (1) with respect to the mold (2) while forming a gap (S) between a sliding portion of the valve member (1) and the mold (2), , Powders with different melting points (3
After filling the mixture of L) and (3H) into the gap (S),
The mixture is heated to a temperature equal to or higher than the melting point of the low melting point powder (3L) to melt the low melting point powder (3L), and the high melting point powders (3H) are bonded to each other based on the melting. A method for making a surface of a valve member porous by forming the porous portion in the sliding portion by performing the above.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP32024191A JPH05154640A (en) | 1991-12-04 | 1991-12-04 | Method for making surface of valve member porous |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP32024191A JPH05154640A (en) | 1991-12-04 | 1991-12-04 | Method for making surface of valve member porous |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH05154640A true JPH05154640A (en) | 1993-06-22 |
Family
ID=18119300
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP32024191A Pending JPH05154640A (en) | 1991-12-04 | 1991-12-04 | Method for making surface of valve member porous |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH05154640A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5409976A (en) * | 1992-04-24 | 1995-04-25 | Minnesota Mining And Manufacturing Company | Simple two-component zero-halogen flame retardant |
-
1991
- 1991-12-04 JP JP32024191A patent/JPH05154640A/en active Pending
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5409976A (en) * | 1992-04-24 | 1995-04-25 | Minnesota Mining And Manufacturing Company | Simple two-component zero-halogen flame retardant |
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