JPH0210330Y2 - - Google Patents

Description

[Detailed explanation of the idea] This proposal concerns ropes for control cables.

As disclosed in Japanese Utility Model Publication No. 54-25500, conventional ropes for control cables are made by twisting together multiple individual wires made by drawing steel wire with a zinc layer, and after twisting, a tin layer is applied to the outside of the wire. or, as disclosed in Japanese Utility Model Application No. 57-111898, a plurality of single wires made of drawn steel wire provided with a zinc layer are twisted together, and after the twisting, the outer side is electroplated. There are wires with a solder layer provided by the method, but all of them are made by drawing steel wires with zinc plating, twisting multiple wires together, and after twisting, the outer circumferential surface is plated with tin or tin alloy. Therefore, pinholes are formed in the tin plating layer or tin alloy plating layer, and there is a drawback that rust is likely to occur due to the pinholes even though the tin layer or tin alloy layer is provided. Also, after the twisting process, the outer circumferential surface is plated with tin or tin alloy, so it is difficult to form a tin layer or a tin alloy layer on the center side of the rope, and there is only one layer of zinc.
It has drawbacks such as poor corrosion resistance. Furthermore, the outermost layer is a plating layer of tin or tin alloy, which is uneven and lacks luster, so it has drawbacks such as insufficient lubricity.

The present invention was devised to eliminate these drawbacks, and the purpose of the present invention is to provide a control cable rope that is corrosion resistant and highly slippery. In this case, a copper layer or a copper alloy layer is provided on a zinc layer or a zinc alloy layer, and a plurality of individual wires are twisted together by drawing a steel wire with a nickel layer or a nickel alloy layer provided thereon. The main points are as follows.

Next, an embodiment of the rope according to the present invention will be described based on the drawings.

1 is a steel wire, and a zinc layer or a zinc alloy layer 2 is provided on the entire outer peripheral surface of the steel wire 1 by plating means,
A copper layer or copper alloy layer 3 is provided on the entire outer peripheral surface of this zinc layer or zinc alloy layer 2 by plating means. Further, a nickel layer or nickel alloy layer 4 is provided on the entire outer peripheral surface of the copper layer or copper alloy layer 3 by plating means, and the nickel alloy may be, for example, an alloy of nickel + iron, nickel + chromium, nickel + cobalt, etc. Further, as the copper alloy, it is preferable to use an alloy such as copper+zinc or copper+tin, and as the zinc alloy, it is preferable to use an alloy such as zinc+tin, zinc+lead, or zinc+iron.

Since the zinc layer or zinc alloy layer 2, the copper layer or copper alloy layer 3, and the nickel layer or nickel alloy layer 4 are provided by plating means, each of the layers 2,
Pinholes inevitably occur in layers 3 and 4, but the pinholes that occur in layer 2 are caused by layer 3.
The pinholes formed in the wire are closed by the layer 4, and are also closed by the wire drawing process.

Furthermore, since the pinholes formed in the layer 4 are crushed by the wire drawing process, corrosion resistance is improved.

Furthermore, since the nickel layer or nickel alloy layer 4 is stretched during wire drawing, the surface is smooth and has excellent slipperiness. The wire A is constructed as described above, and the rope of the present invention is constructed by twisting a plurality of wire A.

Furthermore, when a tin layer or a tin alloy layer 5 is provided by plating on the entire outer peripheral surface of the rope constructed as described above, even better corrosion resistance and slipperiness can be obtained. It is preferable to use an alloy such as tin+cobalt or tin+zinc.

However, in the conventional product, tin plating or tin alloy plating is applied after drawing the galvanized steel wire, so plating means is required twice, but in the present product, the above method is applied. When electroplating is used as the plating means, a zinc tank or zinc alloy tank, a copper tank or copper alloy tank, and a nickel tank or nickel alloy tank are installed in close proximity to each other to coat the zinc layer or zinc alloy layer. A copper layer or a copper alloy layer can be continuously formed on the copper layer or a nickel layer or a nickel alloy layer on the copper layer or copper alloy layer, and the processing steps can be simplified.

In addition, since the steel wire 1 is coated with the three plating layers 2, 3, and 4, the rust prevention ability of the rope is improved, and the rust resistance is 5 to 8 times that of a conventional galvanized rope with the same thickness. It has anti-rust properties.

Furthermore, it has approximately twice the rust-preventing power as compared to a rope made of galvanized steel wire that is further plated with tin as described above.

Furthermore, since the surface is a smooth nickel layer or nickel alloy layer, it has excellent slipperiness and improves the operating efficiency of the rope.

Furthermore, in forming the nickel layer or nickel alloy layer 4, since the copper layer or copper alloy layer 3 is provided as described above, the nickel layer or nickel alloy layer 4 can be directly formed on the zinc layer or zinc alloy layer 2. The adhesion of the nickel layer or nickel alloy layer 4 is better than that when
The nickel layer or nickel alloy layer 4 does not peel off.

In the above, a zinc layer or a zinc alloy layer 2 is formed on the steel wire 1, and a copper layer or a copper alloy layer 3 is formed on the layer 2.
, and the method of drawing the wire after forming the nickel layer or nickel alloy layer 4 on the layer 3 has been explained, Then, the layer 3 may be provided on the layer 2, and the layer 4 may be provided on the layer 3.

As is clear from the above description, since the product of the present invention is constructed as described above, it has the remarkable effect of providing a product with markedly improved corrosion resistance and high lubricity.

[Brief explanation of the drawing]

The drawing is a sectional view of an embodiment of the control cable rope according to the present invention. 1... Steel wire, 2... Zinc layer or zinc alloy layer, 3... Copper layer or copper alloy layer, 4... Nickel layer or nickel alloy layer, 5... Tin layer or tin alloy layer, A... Single wire.

Claims (1)

[Scope of Claim for Utility Model Registration] (1) A wire obtained by drawing a steel wire in which a copper layer or copper alloy layer is provided on a zinc layer or zinc alloy layer, and a nickel layer or nickel alloy layer is further provided on top of the copper layer or copper alloy layer. A rope for control cables that is made by twisting multiple single pieces together. (2) A rope for a control cable according to claim 1 of the utility model registration claim, characterized in that a tin layer or a tin alloy layer is provided on the nickel layer or nickel alloy layer. rope.