AT516868B1 - Adhesion and crack-resistant insulating layer construction and topcoat paint construction for current transformer housing and an associated manufacturing process - Google Patents

Abstract

The invention has for its object to provide a paint system for current transformer housing, which has a good adhesion with the converter housing and between paint and casting compound of the coils and good electrical properties, such as good insulation and at the same time a magnetic decoupling. Furthermore, prevention of electrostatic electricity as well as antistatic equipment must be given the envelope condition of the CT coils over at least five sides. Furthermore, no abrasion effect in the paint build when pouring the coils with the potting compound should occur. As a basis for the later Stromwandlereinbau in the current transformer housing (1) a base filler (2) based on a 2K Füllprimers and an electrically conductive paint (3) as Oberschichtlack (3) and as a coupling layer (3) applied one above the other in the same layer thickness. Beforehand, a cleaning of the current transformer housing (1) by flaming, then the blowing out with ionized air and then the removal of moisture.

Description

description

RELIABLE AND CRACKSAFE INSULATED LAYER CONSTRUCTION AND MACHINE LAYER CONSTRUCTION FOR CURRENT TRANSFORMER HOUSING AND RELATED MANUFACTURING METHOD

Adhesion and risers Isolierschichtaufbau and Oberschichtlackaufbau for current transformer housing and an associated manufacturing process for the subsequent installation of the current transformer coils with Vergusschnologie.

The current transformer coils are cast during installation in the current transformer housing. This and the later use of the current transformer quickly cracks and various liability problems between potting the current transformer coil and the current transformer housing on. This problem has already been dealt with in various writings. Thus, the document DE 25 14 607 describes a process for the production of insulating lacquer layers and an insulating layer produced by the process. Here, a material with very high specific electrical strength, such as mica or aluminum oxide in the form of small scales is added to the paint used. These flakes are embedded in the lacquer layer as it is applied to the conductor or coil and form dipoles there. As a result, a substantial increase in electrical strength is achieved. At the same time, the presence of these lumps causes the lacquer layer to obtain a much greater mechanical compressive strength. The structure of the lacquer layer can be done by the method according to the invention by means of electrophoresis and / or electrostatic spraying. According to one variant, the orders can also be made in two or more layers.

In DE 10 2006 014 199 a method for improving the adhesion to the substrate and to reduce cracking of insulation coatings on transducer housings is described. After a surface treatment with a solvent-containing cleaning liquid, a bonding agent and then an insulating varnish is applied. On the insulating varnish, a separating layer is additionally applied, which reduces the subsequent casting of the transducer, a power transmission of the resin to the insulating varnish.

The invention has for its object to provide a paint system for current transformer housing, which has a good adhesion with the converter housing and between paint and casting compound of the coils and good electrical properties, such as good insulation and at the same time a magnetic decoupling. Furthermore, prevention of electrostatic electricity as well as antistatic equipment must be given the envelope condition of the CT coils over at least five sides. Furthermore, no abrasion effect in the paint build when pouring the coils with the potting compound should occur.

The invention task is solved with the features of the main claim and by the technology of the method.

The achievable with the present invention consist in addition to the tasks specified in the inventive solutions further in that the usual in the past operation of applying an additional separation layer can be omitted and thus a working time saving is made possible.

An embodiment of the invention is illustrated in the drawing and at the same time the method for implementing the invention will be described in more detail below. The drawing shows the Isolierschichtaufbau and Oberschichtlackaufbau with a cast-in coil in the current transformer housing.

The isolation and color structure on the inside of the current transformer housing 1 consists of a layer of primer filler 2 as a primer 2 and as an insulating layer 2 on the basis of a 2K Füllprimers. On top of this layer is a layer of electrically conductive lacquer 3 of pigmented polyester as topcoat lacquer 3 and as coupling layer 3. The coupling layer 3 has an enlarged adhesive surface. Both layers, the base filler 2 and the coupling layer 3 preferably have an approximately equal layer thickness of preferably 10 μm.

The inventive method for the preparation of an adhesion and crack-proof inner coating of a current transformer housing 1 made of metal is characterized by the following steps. The process begins with a surface pretreatment process. Removal of organic substances by a brief flaming instead of the use of solvents or so-called adhesive cleaners. Subsequently, the removal of inorganic contaminants, in particular electrostatic charge carriers by blowing with ionized air and at the end of the pretreatment, the removal of moisture by ice drying or heat.

After the surface pretreatment, a bonding agent 2 in the form of a base filler 2 is applied to the current transformer housing 1 by means of a high-pulsed blasting process. The pulsation of the beam is much greater than the pulsation of the current transformer housing 1, d. H. the pulse frequency of the beam is much larger than the natural frequency of the current transformer housing 1 selected. As a result, an increase in the adhesive surface is achieved and thus a better coupling to the overlying layer is produced. The bonding agent 2 dipoles are added, which cause depending on the charge strength of an electrical and magnetic decoupling and thus provides an electrical insulation.

On the Grundfüller 2, an electrically conductive paint 3 is then applied as a coupling layer 3 on the basis of pigmented polyester. This achieves a Faraday paradox and thus avoids electrostatic charge. Thus, the required envelope condition of the current transformer, at least five sides, met and achieved good adhesion to the potting compound 5 and thus prevents detachment of the coupling layer 3 upon shrinkage of the potting compound 5. There will be no abrasive effect in pouring the potting compound 5 when overcoating is avoided, i. an equal layer thickness of the adhesion promoter 2 and of the coupling layer 3 of preferably approximately 10 μm is applied.

COMPOSITION OF SUBSTITUTES 1 - current transformer housing 2 - primer, primer, insulation layer 3 - electrically conductive lacquer, topcoat, coupling layer 4 - current transformer 5 - potting compound

Claims (5)

claims 1. adhesion and risssicher Isolierschichtaufbau and Oberschichtlackaufbau for current transformer housing (1), characterized in that as the basis for the later current transformer installation with Vergusschnologie in the current transformer housing (1) a Grundfüller (2) as an intermediate layer (2), as a primer (2) and as insulation layer (2) on the basis of a 2K-Füllprimers and an electrically conductive paint (3) as an upper layer paint (3) and as a coupling layer (3) are applied to each other. 2. adhesion and risssicher insulating layer and Oberschichtlackaufbau according to claim 1, characterized in that the electrically conductive paint (3) consists of pigmented polyester. 3. adhesion and risssicher insulating layer and Oberschichtlackaufbau according to claim 1 and 2, characterized in that the Grundfüller (2) and the Oberschichtlack (3), both in each case in an equal layer thickness of about 10 microns are applied. 4. A method for producing a adhesion and crack-resistant Isolierschichtaufbaus and Oberschichtlackaufbaus for current transformer housing (1), characterized in that the cleaning of the current transformer housing (1) takes place in several steps, for the removal of organic substances, a short-term flaming, then for removing inorganic contaminants in particular of electrostatic charge carriers, the blowing with ionized air and then the removal of moisture by ice drying or heat input and then an adhesion promoter (2) in the form of a base filler (2) as an intermediate layer (2) with a defined layer thickness in the current transformer housing (1) made of metal is applied, with simultaneous introduction of dipoles and an enlarged adhesion surface, which is produced by means of high-pulsed blasting process, and onto this intermediate layer (2) a conductive coupling layer (3) in the form of an electrically conductive lacquer (3), as a basis for a later assembly of the current transformer housing (1) with a current transformer (4) by means of casting technology, is applied. 5. A process for producing an adhesion and fracture-resistant Isolierschichtaufbaus and Oberschichtlackaufbaues according to claim 4, characterized in that the Grundfüller (2) in addition before application, a dilution of less than 10% to the total volume is mixed. For this 1 sheet drawings