RU97659U1 - NET FENCE PANEL - Google Patents

Abstract

 A mesh fence panel made of longitudinal and transverse steel rods interconnected by contact electric welding and having an anti-corrosion coating, characterized in that the anti-corrosion coating is made of two layers, the first layer being galvanized zinc and the second outer layer polymer or paint coating.

Description

The utility model relates to means of restricting access to protected objects and can be used in various areas of the national economy. This may be the perimeter fence of industrial enterprises, hazardous sections of railway tracks and highways, poultry farms, rabbit farms, garden plots, as well as a fence in the form of cages for birds, animals and animals, etc.

Particularly stringent requirements are imposed on mesh fencing with the use of burglar alarm systems, which are based on the capacitive properties of mesh fencing. Corrosion of the weld, the lack of contact between the rods of the mesh fence may introduce an error in the readings on the condition of the fence of the protected objects.

Known section of the fence, consisting of a rectangular frame containing vertical sidewalls, joined together, made of aluminum rectangular profile with longitudinal T-shaped grooves and a welded wire mesh consisting of longitudinal and transverse rods, fixed in these grooves and overlapping the lumen of the frame, the edges of the protruding rods of the wire mesh are bent at a right angle to one of the planes of the mesh with the possibility of placing the bends of the rods in the T-grooves of the inner sides of the side frame and mounted in them (see patent for utility model No. 76260 with priority dated April 17, 2008).

The disadvantages of this technical solution are the use of aluminum frames with T-shaped grooves, which in addition to the complexity of the design are of high cost, as well as the use of dissimilar metals, which can lead to electrochemical corrosion.

Also known is a fence containing load-bearing racks for installation around the perimeter of the enclosed area and a metal mesh web installed on the racks, as well as connecting elements and means for detecting effects on the web. In this fence, the mesh fabric is made in the form of mesh panels connected to each other and sequentially stretched along the perimeter of steel prestressed wire with a hardened surface layer, the intersecting rods of which are welded together and then galvanized by hot galvanizing, while the rods of adjacent mesh panels are interconnected overlapping outside racks (see patent for invention No. 2333327 with priority dated February 19, 2007).

The specified technical solution as the closest analogue can be taken as a prototype.

The disadvantage of the prototype is the use of hot dip galvanizing. When hot-dip galvanizing, the panels suddenly heat up to 500 ° C. Due to thermal shock, mechanical overvoltages occur in the welds, leading to a break in the joint. There is also a general warpage of the panel. In accordance with GOST 9.307-89 "Zinc Hot Coatings. General Requirements" it is not allowed to coat hot-dip galvanized products with lap welded joints. When hot-dip galvanizing, the complex shape of the mesh panel leads to uneven swelling of the flux and zinc, leading to the formation of sagging and non-cutting spots. With hot galvanizing, the error in zinc thickness is ± 20 μm; there is an overrun of zinc, and, accordingly, a rise in price of production.

Another disadvantage of the prototype is the lack of external coating and, as a consequence, the reduction in the service life of the mesh fence.

The task to which the proposed technical solution is directed is to create a mesh fence that is resistant to corrosion, i.e. having a long service life, and suitable for use in a burglar alarm system based on the capacitive properties of the connected design.

According to the application for a utility model, this problem is solved by applying a two-layer anti-corrosion coating.

The essence of the utility model is illustrated by the drawing, which shows a General view of the mesh fence panels on the supports, deep in the ground.

The mesh fence panel consists of longitudinal 1 and transverse 2 rods interconnected by contact electric welding. Rods from calibrated cold-rolled wire according to GOST 3282 with a diameter of 4 to 6 mm. The length of the sections is preferably 2.5 meters, height 1.5-2.5 meters. A layer of zinc in the electrolyte is applied to the mesh fence panel, then a polymer or paint coating.

The application of a layer of zinc on the mesh fence panel is as follows.

First, the panel is degreased under the influence of an electric current (cathode, anode) to clean the panel from the oil film and oil products in the welds, then chemical etching is used to clean the welds from the products of combustion of scale and flake without damaging the welded joints themselves. After that, a zinc layer in the electrolyte with a temperature of 25 ° C is galvanically applied, while the high-temperature effect on the mesh panel is excluded. During galvanizing, zinc penetrates into all the pores of the metal, connecting to the base at the molecular level with a uniform thickness layer, with an error of the layer thickness of ± 1 μm, the minimum thickness of 3 μm. The outer layer is a polymer coating deposited, for example, by electrophoresis from a solution under the influence of an electric field. Paintwork can be applied by spraying or dipping.

The proposed design of a mesh fence panel protected by a two-layer anti-corrosion coating allows maximum protection of welded seams, as well as the panel itself from corrosion and ensures long-term operation, and allows the use of burglar alarm systems based on the capacitive properties of mesh fences.

Claims (1)

A mesh fence panel made of longitudinal and transverse steel rods interconnected by contact electric welding and having an anticorrosive coating, characterized in that the anticorrosive coating is made of two layers, the first layer being zinc-plated and the second outer layer polymer or paint and varnish coating.