DE10201800A1 - Renovation method for concrete drain or sewer using corrosion resistant coating, comprises fixing anchors in concrete surface before applying coating material - Google Patents

Abstract

Anchors (2) are fixed in the concrete surface (1) of the drain prior to applying the coating material (7). These anchors are evenly distributed over the concrete surface. The drain is cleared of any corrosive material (e.g. hydrogen sulphide), then dried and then coated. An Independent claim is also included for the anchor.

Description

The invention relates to a method for the rehabilitation of a sewage structure made of concrete according to the preamble of claim 1 and a corresponding means for Execution of the method according to the preamble of claim 3.

Such procedures and the corresponding means are used in the renovation of Sewage structures made of concrete, especially in drainage networks of Water management companies used.

The general decline in water consumption and the associated low level Wastewater accumulation causes long residence times, both domestic and industrial Wastewater in shafts, pipelines and other wastewater structures. It works Wastewater in the anaerobic state and thus favors the formation sulfide-containing wastewater from which hydrogen sulfide escapes.

The hydrogen sulfide has disadvantageous properties. For one thing Hydrogen sulfide extremely bad smelling and harmful to health. Second is Hydrogen sulfide, which is converted into highly aggressive sulfuric acid by biochemical processes converts to the cause of biochemical corrosion. Are of biochemical corrosion mainly wastewater structures made of concrete and cement-bound building materials, in particular pumping stations, manholes and inlet structures of sewage treatment plants affected. The lifespan of 50 to 70 planned for such concrete sewage structures Years is not achieved due to biochemical corrosion, instead these show considerable damage after only about 10 years. When a critical one is reached The depth of corrosion can endanger the wastewater structure until it collapses. Thereby there is considerable economic damage.

To ensure the planned service life of concrete sewage works in To achieve drainage networks it is necessary to have both the biochemical Corrosion affected as well as all new wastewater structures with a suitable one To provide corrosion protection. The renovation comes from existing and already biochemical corrosion of affected sewage structures made of concrete a special one Meaning too.

On the one hand, linings are made of plastic sheets for wastewater structures Concrete known. Holes are drilled into the cleaned concrete surface Dowels are used. The plastic plates are then attached to the dowels. A disadvantage of such linings is the high effort, a dense surface sure. Since the entire concrete surface has to be lined, especially with asymmetrical wastewater structures, the time to adapt individual ones Segments of the plastic plates and the corresponding pre-assembly of the dowels negative noticeable. In the event of significant geometric changes in the shape of the Sewage construction can use elaborate hand laminates instead of plastic plates become necessary. In addition, the bumps between each Plastic plate segments and the dowels are sealed. Despite linings, the If the wastewater runs behind the plastic plate segments, so that again biochemical corrosion can take place. It is special disadvantageous that the effects of biochemical corrosion behind the Plastic panels often go undetected during subsequent inspections of the wastewater structure stay.

On the other hand, coatings for wastewater structures made of concrete are known a coating compound on the cleaned and dried concrete surface is applied evenly. Epoxy resin or Polyurethane used. The consistency of the coating mass is the proportion of solvents can be matched to the corresponding application process. That I volatilizing solvents allow the coating material to harden. It forms the actual coating. A disadvantage is the low adhesion of the Coating compound on the concrete surface. There is no material connection so that the one acting between the concrete surface and the coating compound osmotic pressure the coating mass first in the form of bubbles, later completely replaces. A bursting or tearing of the bubbles and the associated running behind of the wastewater lead to renewed biochemical corrosion. Also act disadvantageously the different temperature expansions of concrete and Coating compound. These lead to shear forces that cause the coating mass to come off additionally reinforce.

The invention is therefore based on the object of a generic method for Rehabilitation of a wastewater structure made of concrete and a corresponding means for Execute the process to develop the adherence of the Coating compound on the concrete surface of the sewage construction in need of renovation is improved.

On the procedural side, this task is characterized by the characteristic features of the Claim 1 solved. A useful embodiment results from the subclaim 2. In relation to the means for carrying out the method, the task is performed by the characterizing features of claim 3 solved. Useful configurations result from subclaims 4 and 5.

The inventive method for the renovation of a sewage structure made of concrete and the corresponding means for performing the method eliminates the above Disadvantages of the prior art.

On the procedural side, it is advantageous if the holding elements are marked on previously Positions in the concrete surface can be fixed using a bolt pusher because of this is very quick and therefore inexpensive to implement.

It is also advantageous if the holding element that establishes the connection is a cylindrical shape with an elongated shaft followed by a tip on one side and on the opposite side a washer with a stronger one Diameter and a protruding mushroom-shaped cap with a flat head has because on the one hand the secure fixation in the concrete surface and on the other hand, an excellent form fit is achieved with the coating material.

It is particularly advantageous if the holding element is made of a metallic Material is made because the holding element thereby penetrating the hard Concrete surface allows.

The invention will be explained in more detail using an exemplary embodiment. To show:

Fig. 1 is a schematic representation of a section of a coated concrete surface of a sewage structure and

Fig. 2 is a schematic representation of Fig. 1 in section.

The cut according to the invention a coated concrete surface is shown in FIG. 1 and FIG. 2 of a concrete surface 1 of a wastewater Bauwerkes not shown, which is free of an existing corrosion attack and dry. A plurality of holding elements 2 are embedded in the concrete surface 1 . The distribution of the holding elements 2 is uniform and the horizontal and vertical distances can be adjusted accordingly to the needs. The holding elements 2 are each cylindrical and have an elongated shaft 3 with a tip 4 at the end, which is embedded in the concrete surface 1 . The other end of the holding element 2 has a washer 5 with a larger diameter, so that the holding element 2 lies against the concrete surface 1 . In addition, the holding element 2 is designed with a mushroom-shaped cap 6 with a flat head. The mushroom-shaped cap 6 is arranged so that it protrudes, so that the mushroom-shaped cap 6 projects from the concrete surface 1 into the interior of the wastewater structure, not shown. The holding elements 2 are preferably made of a metallic material, the properties of which are matched to the incorporation into the concrete surface 1 .

The entire concrete surface 1 and the mushroom-shaped caps 6 of the holding elements 2 protruding inwards from the concrete surface 1 are sealed by a coating compound 7 . The mushroom-shaped caps 6 of the holding elements 2 are surrounded on all sides by the coating compound 7 .

The coating composition 7 consists of known epoxy resin or polyurethane. Other coating compositions 7 are also conceivable which can be applied and cured in a similar manner.

The handling will now be explained using a functional description. For this purpose, the concrete surface 1 of a wastewater structure, not shown, is free of impurities and loose concrete parts, at least dry on the outer surface and provided with markings for holding elements 2 .

A person, not shown, manually introduces holding elements 2 into a bolt-pushing device, not shown, and inserts them into the concrete on the markings present on the entire concrete surface 1 . The bolt pusher is pneumatically operated and connected to a power supply (not shown) via a line (not shown). Mechanical or hydraulically operated stud pushers are also conceivable.

The person (not shown) then applies a coating compound 7 in layers to the concrete surface 1 and the mushroom-shaped caps 6 of the holding elements 2 protruding therefrom by hand using an aid. The consistency of the coating mass can be changed via its solvent content so that different application methods are possible. Thus, the coating compound 7 can be applied on the one hand by hand using a brush or spatula or on the other hand using pneumatically operated spraying machines.

The solvent evaporates in the coating composition 7 and the coating composition 7 hardens, a bond being formed between the mushroom-shaped caps 6 of the holding elements 2 and the coating composition 7 . List of reference numerals 1 concrete surface
2 holding element
3 shaft
4 tip of the shaft
5 washer
6 mushroom-shaped cap
7 coating compound

Claims (5)

1.Procedure for the rehabilitation of a wastewater structure made of concrete or cement-bound building material, in which the concrete surface ( 1 ) of the wastewater structure in need of renovation is freed from the existing corrosion attack and dried and then a corrosion-resistant coating compound ( 7 ) is applied, characterized in that before the application of the coating compound ( 7 ) holding elements ( 2 ) are fixed in the concrete surface ( 1 ) of the wastewater structure which is in need of renovation, the holding elements ( 2 ) being arranged in a uniformly distributed manner in a number which holds them. 2. The method according to claim 1, characterized in that the holding elements ( 2 ) are fixed at previously marked positions in the concrete surface ( 1 ) by means of a bolt pusher. 3. Means for carrying out the method for coating a concrete surface, characterized in that between a concrete surface ( 1 ) on the one hand and a coating compound ( 7 ) on the other hand, a positive connection through both in the concrete surface ( 1 ) and in the coating compound ( 7 ) itself engaging holding element ( 2 ) is made. 4. Means according to claim 3, characterized in that the connecting element ( 2 ) producing a cylindrical shape and thereby an elongated shaft ( 3 ) with an adjoining tip ( 4 ) on one side and on the opposite side a support disc ( 5 ) having a larger diameter and a protruding mushroom-shaped cap ( 6 ) with a flat head. 5. Means according to claim 4, characterized in that the holding element ( 2 ) is made of a metallic material.