JPH0517237Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Field of Application] The present invention relates to a synthetic resin-coated iron wire used for outer wire mesh fences, rock fall prevention wire mesh fences, tension wires for various fruit tree trellises, etc.

[Conventional technology]

Conventionally, it is well known that the surface of iron wire is double coated with synthetic resin. For example, Jikko 57-
No. 15804 relates to a synthetic resin-coated iron wire in which a synthetic resin inner layer made of modified polyethylene or modified polyvinyl chloride colored black is formed on the iron wire, and a colored synthetic resin outer layer is formed on the outer wall of the iron wire.

[Problem that the invention attempts to solve]

These synthetic resin-coated iron wires look colorful and beautiful because they are coated with colored resin, but when used for long periods of time in fences, etc., the resin surface layer gradually deteriorates, causing water to leak through minute cracks on the resin surface. The iron wires inside were corroded without even realizing it.

Since the synthetic resin coating layer of this type of coated iron wire is opaque, it is difficult to tell from the surface how much the iron inside has corroded, and if it is used as a protective fence, it may cause an unexpected accident. There is a possibility that it may be connected. Furthermore, when synthetic resin-coated iron wire is woven into a fence, the strength of the fence is generally approximately proportional to the tensile strength of the iron wire, but in order to make the fence stronger, the higher the tensile strength, the better. The reason for this is that when making fences, synthetic resin-coated iron wire is put through a knitting machine, but at that time, a strong impact force and frictional force are applied to the surface of the iron wire by the spatula, and iron wire with too high tensile strength is used. In this case, there was a problem of scratches on the synthetic resin surface. However, although this problem can be solved by providing an impact-resistant resin layer on the surface of the synthetic resin-coated iron wire, another problem has arisen. Generally speaking, there are few impact-resistant resins that have good transparency. Further, even if a material with good transparency is available, its impact resistance deteriorates rapidly in a low temperature range, and it has the disadvantage that it cannot be used for fences. The present invention solves these problems by providing a synthetic resin-coated iron wire that has a metallic luster, can manufacture a strong fence that can withstand long-term use, and can be seen from the outside when the iron wire is corroded. The purpose is to

[Means for solving problems]

In order to achieve the above objectives, the synthetic resin-coated iron wire of the present invention has a base layer of transparent soft or semi-hard polyvinyl chloride resin on the surface of the metal-plated iron wire via an adhesive. The main feature is that an impact-resistant polyvinyl chloride resin surface layer with a thickness of 0.1 to 0.2 mm is formed on the outer wall.

[Effect]

According to the synthetic resin-coated iron wire constructed in this way, the surface layer is made of impact-resistant polyvinyl chloride resin.
Since it is formed from an extremely thin layer of 0.1 to 0.2 mm, it has good light transmission. Therefore, the light incident on the surface layer of the iron wire also passes through the transparent base layer and is reflected by the metal plating layer, giving the iron wire a metallic luster. Furthermore, even if the iron wire should become rusted for some reason, it can be seen from the outside, so if the safety of the fence becomes a problem due to long-term use, it can be quickly replaced.

In addition, although it is a thin layer, there is an impact-resistant polyvinyl chloride resin layer on the surface layer, so it is possible to manufacture strong fences that are less likely to be scratched by the spatula of the knitting machine during fence manufacturing. However, even if the surface is hit by a stone or other object, the underlayer cushions the impact, making the coating less likely to tear or peel off easily. Furthermore, even if the synthetic resin coating layer is damaged, the plating layer prevents corrosion of the iron.

〔Example〕

FIG. 1 shows a synthetic resin-coated iron wire according to an embodiment of the present invention, in which 1 is the iron wire, 2 is a metal plating layer, 3 is an adhesive layer, 4 is a base layer, and 5 is a surface layer. The iron wire 1 can have a tensile strength of 60Kgf/mm ² to 100Kgf/mm ² , preferably 65Kgf/mm ² to 85
Kgf/mm ² is good, and those in this range are easy to process into wire mesh and have little room for deformation as wire mesh.
A well-ordered fence with little deflection can be obtained over a long period of time. The metal plating 2 is usually zinc plating, but is not particularly limited as long as it is other metal plating and has gloss.
Further, the amount of plating deposited is about 25 μm to 135 μm, which is what is called type 1 to type 3 plating. The thickness of the plating can be selected depending on the application, but regardless of the plating thickness, it is preferable to apply a bright finish to the plating surface of any thickness. By doing so, the plating surface becomes more glossy and light shines on the plating surface, resulting in an iron wire that has excellent metallic luster even though it is a synthetic resin-coated iron wire.

In addition, the adhesive layer 3 is a base layer 4 made of polyvinyl chloride.
An adhesive such as a polyvinyl chloride adhesive, a polyvinyl chloride-polyvinyl acetate adhesive, an acrylic adhesive, or a polyester adhesive can be used to adhere the plating layer 2 and the plating layer 2. Unlike polyethylene, polypropylene, etc., polyvinyl chloride has relatively good adhesive properties, so any adhesive may be selected as long as it does not interfere with the plating gloss.

Next, the base layer 4 is a soft or semi-hard polyvinyl chloride resin layer, and is made of polyvinyl chloride resin 100%
10 to 30 parts of plasticizer per part. And the base layer 4 must be transparent. The thickness of the base layer 4 may be 0.05 to 0.2 mm,
If it is too thick, the strength of the impact-resistant layer on the surface layer will be reduced, and if it is too thin, the impact on the surface layer will not be able to be alleviated.

Next, the surface layer 5 is made of impact-resistant polyvinyl chloride resin and has a thickness of 0.1 to 0.2 mm, preferably approximately
About 0.15mm is good. If it is thinner than 0.1mm, the light transmission will be good, but the impact strength will be too low.On the other hand, if it is 0.2mm or more, the impact resistance will be high, but the light transmission will be poor, and the gloss of the plating will decrease. do. The impact-resistant polyvinyl chloride resin used in this invention is a resin obtained by graft polymerizing polyvinyl chloride with ethylene vinyl acetate, or a resin obtained by copolymerizing polyvinyl chloride with other resins such as rubber, and is manufactured by Toyo Soda Co., Ltd. Refers to products such as Lieuron Graft manufactured by Mitsui Toatsu Chemical Co., Ltd. and Graft HR manufactured by Mitsui Toatsu Chemical Co., Ltd. The impact-resistant polyvinyl chloride resin layer used for the surface layer 5 contains a processing aid, a stabilizer, a plasticizer, a lubricant, etc. in addition to the polyvinyl chloride resin.

It is also possible to add a trace amount of colorant (0.3 parts or less per 100 parts of resin) to the base layer 4 or the surface layer 5 so as not to inhibit the metallic luster.

In addition, the method for producing synthetic resin-coated iron wire of the present invention involves applying adhesive to metal-plated iron wire, and then using two extruders to first coat transparent soft or semi-hard polyvinyl chloride. and then coated with impact-resistant polyvinyl chloride.

[Effect of idea]

As described above, the synthetic resin-coated iron wire of the present invention has a thick impact-resistant polyvinyl chloride resin layer on the surface layer.
Since it is formed with a thickness of 0.1 to 0.2 mm, it is impact resistant and has light transparency, and since the base layer is made of the same resin, the two layers of resin will not peel off. Since the impact-resistant resin layer is completely integrated, the overall strength is high even though the impact-resistant resin layer is thin.Moreover, since the base layer is a soft or semi-hard transparent resin layer, most of the light that enters from the surface layer The light reaches the plating layer, and the coated iron wire emits a beautiful metallic luster due to reflection from the plating layer, giving it an excellent appearance when used for fences and the like. In addition, since there is a plating layer on the surface of the iron wire, it will of course have a long-term rust prevention effect when used for fences, etc., but even if invisible cracks or flaws occur in the resin coating layer, it will prevent infiltration. Even if the internal iron begins to corrode due to moisture etc.
Since the metal surface is visible from the outside through the resin layer, the degree of corrosion can be checked and the fence replaced when necessary. Therefore, there is no fear that using a corroded fence for a long period of time will cause an unexpected accident.

Furthermore, since impact-resistant polyvinyl chloride resin is used for the surface layer, even iron wire with high tensile strength can be processed into mesh, so there is an advantage that a fence with high strength can be manufactured.

[Brief explanation of drawings]

FIG. 1 is a sectional view showing an embodiment of the synthetic resin-coated iron wire of the present invention. 1... Iron wire, 2... Metal plating layer, 3... Adhesive, 4... Base layer, 5... Surface layer.

Claims (1)

[Scope of utility model registration request] A transparent soft or semi-hard polyvinyl chloride resin base layer is formed on the surface of the metal-plated iron wire using an adhesive, and the outer wall has a thickness.
A synthetic resin-coated iron wire with a 0.1 to 0.2 mm impact-resistant polyvinyl chloride resin surface layer.