FI87241B - FOERFARANDE FOER ATT FAESTA ETT ELEKTRODARRANGEMANG SOM ANVAENDS VID KATODISK SKYDD AV BETONGKONSTRUKTIONER SAMT FAESTELEMENT. - Google Patents

Abstract

The invention relates to a method for fixing an electrode arrangement to be used in the cathodic protection of concrete structures. In the method, an anode (20) is mounted in a framework (11) and the framework with its anodes is mounted on the concrete structure at a production plant or in the mounting step before the concreting step. The invention also relates to a fixing element (10) of the electrode arrangement to be used in the cathodic protection of concrete structures, which fixing element is comprised of an anode (20) and a framework (11), which framework (11) is provided with means (15) for fixing the element (10) to the concrete structure.

Description

87241

Method for attaching an electrode arrangement used in the cathodic protection of concrete structures and an attachment element For the attachment of an electrode arrangement used in the cathodic protection of concrete structures and an attachment element to an electrode arrangement

The invention relates to a method for attaching an electrode arrangement for cathodic protection of concrete structures, which method uses a prefabricated electrode arrangement, wherein the anode of the electrode arrangement is mounted on a frame and the frame with anodes is mounted on a cast concrete structure at a production plant or installation stage before the concrete casting step.

15

The invention further relates to a fastening element for a prefabricated electrode arrangement for use in the cathodic protection of concrete structures.

Generally, in the protection of steel parts of concrete structures, e.g. reinforcing steels, the anodes of the electrode arrangement 20 are attached to an existing concrete surface and the anode is covered with shotcrete or other similar electrically conductive material. However, problems have been caused by the poor adhesion of the electrode arrangement during casting. Additional problems have also been caused by the anode being bent into contact with the steel structures to be protected during casting.

The above-mentioned problem situations have considerably made it more difficult and slower to carry out the actual concrete casting.

It is an object of the present invention to provide an anode mounting arrangement and method which does not present the above-mentioned problem situations.

It is a further object of the invention to provide a fastening arrangement 35 which is well suited for use in continuous casting applications.

In order to achieve the above and later objects, the method according to the invention is mainly characterized in that the anode element of the electrode arrangement with its frames is fastened to the steel parts of the reinforcing steel structure so that the fastening members or the like, between which concrete is poured, the anodes of the anode element being on the other side of the frame relative to said steel parts, preventing the anodes from contacting said steel parts.

The fastening element according to the invention is mainly characterized in that the fastening element consists of an anode and a frame, which frame is provided with means for fastening the element to the concrete structure to be poured before the concrete casting step.

Such a pre-cast anode element according to the invention is in certain cases the only technically sensible alternative. For example, when cathodically protecting underwater concrete structures, a considerable advantage is achieved in the manufacturing phase when the anode arrangement is elementary.

When using the anode fastening arrangement according to the invention, the weighty effect of the additional mass caused by shotcreting is avoided. In addition, the number of work steps required is reduced because the anode element is prefabricated and only the anode element needs to be attached during concreting.

25

The fastening of the anode element according to the invention is easy and saves installation time, because the separate fastening and insulation work of the anode during the installation phase is eliminated.

The element according to the invention remains attached to the reinforcing steel structures, in which case no special precautions are required during the casting phase, e.g. there is no need to use a slower casting speed.

The anode element according to the invention has a mechanically rigid structure, so that it cannot come into electrical contact with the concrete steels to be protected. Avoiding electrical contact is a function of protection; 3 87241 ta one of the basic conditions. The anode element according to the invention is also not able to move during casting due to its fastening members.

When using the element according to the invention, the uninterrupted contact of the cathodic 5 is also ensured, since the connection of all the reinforcing steel layers to the cathode circuit can be ensured via several attachment points.

The anode element according to the invention forms a system of several elements, in which each element can, if necessary, be controlled as a separate circuit. Thus, the operation of the anode system is ensured.

In the following, the invention will be described in more detail with reference to the figures of the accompanying drawing, the presentation of which, however, is in no way narrowly limited.

Figures 1Λ and 1B schematically show an anode element according to the invention.

Figure 2 shows a schematic partial view of an anode element according to the invention attached to a concrete structure.

..... An anode element 10 according to the invention shown in Figures 1A and 1B comprises a frame 11, anodes 20 and fastening members 15. The frame 11 is made of an electrically insulating material, such as e.g. plastic or ceramic, or an electrolytically conductive material, e.g. concrete , of plastic or ceramic. If necessary, in order to improve the strength properties of the frame 11, e.g. steel or the like reinforcement is used, which, however, is not necessary.

30

In a preferred embodiment of the invention, the frame 11 of the anode element 10 is made of concrete, because then good adhesion to the concrete casting is achieved. In addition, when making the frame 11 from concrete, possible harmful thermal expansion phenomena are eliminated.

35 87241 4

The anode element 10 is fixed to the concrete surface, reinforcing bars or other fixed or installation parts of the structure by fastening members 15 of the frame 11, e.g. with metal or plastic hooks, nails, wires, screws or the like. The fastening members 15 shown in Figures 1A and 1B are made of reinforcing steel pins which are fastened to the steels of the actual rebar structure.

The anode 20 is placed in the casting of the frame 11 or the anode 20 is mechanically fastened to the frame 11, e.g. with metal or plastic nails, screws, 10 anchors, strips or the like.

The anode 20 is located on the side opposite the fastening members 15 of the frame 11.

15 The anode 20 is a mesh, wire, strip, rod, plate or the like.

The material of the anode 20 is a composite material, e.g. an alloy-metal coated titanium, magnetite, platinum-plated titanium or an iron alloy, e.g. iron or graphite or a precious metal, e.g.

20 platinum or electrically conductive plastic.

As described above, the anode element 10 may consist of either the material of the anode 20 or the material of the anode 20 and other material connected thereto. A plurality of anode elements 10 form a system 25 for cathodically protecting the steel parts of the concrete structure. Electricity is supplied to the ano-dielement 20, e.g. via a conductor 30. Electricity is supplied separately to each anode element 20 from one or more of its points or to all anode elements 20 of the system together or via some combination of the previous two.

30

The frame 11 of the anode element is formed in the form of a wedge so that the width of the cross-section of the frame 11 is greater on the anode 20 side than on the fastening member 15 side, so that during casting concrete can flow well inside the frame.

35 l! 5 8 7 2 41

According to Figure 2, the anode element 10 is fixed to the steel parts 50 of the reinforcing steel structure so that the fastening members 15 of the anode element 10 are fastened to the steels 50, the anode element 10 being fitted between the outer reinforcing steel layer and the concrete casting board 60.

As shown in Figure 2, the anodes 20 of the anode element 10 are on the other side of the frame 11 relative to the steel parts 50 of the concrete structure, whereby the anode 20 does not come into contact with the steel parts 50.

10

The invention has been described above with reference only to one of its preferred embodiments. However, this is in no way intended to limit the invention to this example only, but many modifications and variations are possible within the scope of the inventive idea defined in the following claims.

Claims (6)

A method for attaching an electrode arrangement for cathodic protection of concrete structures, the method using 5 prefabricated electrode arrangements, wherein the anode (20) of the electrode arrangement is mounted on a frame (11) and the frame (11) with anodes (20) is mounted on a cast concrete structure that the anode element (10) of the electrode arrangement with its frames (11) is fixed to the steel parts (50) of the rebar 10 so that the fastening members (15) of the anode element (10) are fastened to said steel parts (50), and that the frame (11) and between the concrete board (60) or the like, into which concrete (70) is poured, the anodes 15 (20) of the anode element (10) being on said side of the frame (11) relative to said steel parts (50), preventing the anodes (20) from contacting said steel parts (50). Method according to Claim 1, characterized in that the anode (20) is made of a composite material, an iron alloy, graphite, a precious metal or an electrically conductive plastic. Method according to Claim 1 or 2, characterized in that a net-like, wire-like, strip-like, rod-like, plate-like or similar type of anode is used as the anode (20). 25 Fastening element for a prefabricated electrode arrangement for cathodic protection of concrete structures, characterized in that the fastening element (10) consists of an anode (20) and a frame (11), the frame (11) being provided with means (15) for fastening the element (10) to the cast concrete structure before the concrete pouring stage. Fastening element according to Claim 4, characterized in that the anode (20) is made of a composite material, an iron alloy, graphite, a precious metal or an electrically conductive plastic. and 87241 Fastening element according to Claim 4 or 5, characterized in that the anode (20) is a net, a wire, a strip, a rod, a plate or the like. 87241