Insulation piece for a pipeline

Pipe joints or couplings – With casing – lining or protector – Insulated

Reexamination Certificate

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Details

C285S239000, C138S108000, C174S03100S

Reexamination Certificate

active

06685231

ABSTRACT:

BACKGROUND OF THE INVENTION
Field of the Invention
The invention relates to an insulation piece for a pipeline for conveying electrically conductive liquids, in particular water-based varnish, from a point that is at a ground potential to a point connected to a high voltage. The liquid is conveyed discontinuously by portion-by-portion transport due to a carriage flow of the liquid being interrupted at times, so that the insulation piece is periodically free, or substantially free, of the liquid, corresponding to the interruptions in the carriage flow. The insulation piece is in the form of a hollow body whose unobstructed width is equal to or greater than that of the pipeline to be connected to. Connecting pieces for connecting the pipeline are provided on the end faces of the insulation piece, which are closed at least in places by terminating elements, and which connecting pieces are of the same diameter as the adjacent pipeline.
In certain applications, liquids are subjected to a high voltage in order to achieve a specific technical effect. For example, this is frequently the case with varnishing or painting processes, in order to improve the efficiency of the coating application method. Specifically, if the varnish or paint is subjected to a high voltage, for example 80 kV, and the work piece to be varnished or painted is at a ground potential, then the electrically charged varnish (paint) particles are not only sprayed on, but are also attracted to the work piece as a consequence of the electrostatically acting force.
One problem in this case is that the varnish or paint normally needs to be at a high-voltage level before the start of the varnishing or painting process. The entire varnish or paint application device, for example the varnishing or painting robot, is thus also at a high voltage. If the varnish or paint is now electrically conductive, as is the case in particular in modern water-based varnishes or paints, a problem arises in that the varnish or paint passes on the electrical charge. The varnish or paint supply containers are thus also at a high voltage, and these are frequently located a distance from the painting or varnishing point, for example in separate buildings or building parts. Such a concept is thus feasible only with major technical complexity and by using special insulation technology.
One alternative to this is formed by what is referred to as insulation paths. These are used as section elements in the feed line. Major components of the insulation path are two pipe pieces, which are at a specific distance from one another and are connected by an insulation pipe piece. In this case, the electrical conduction in the feed line is interrupted in places. In addition, the insulation path is virtually free of electrically the conductive liquid at times. Thus, during this time, the high-voltage area cannot be discharged via the electrically conductive fed medium. At times, the insulation path completely insulates the two pipe ends, which are connected to the feed line, from one another. In these time periods, varnishing or painting can be carried out at a high voltage, with the varnish or paint for the varnishing or painting process then often being taken from an intermediate reservoir, which is on the high-voltage side of the feed line. This is then replenished during the feed phases, in which the insulation path is also filled with the feed medium, and during which no high voltage may be present.
However, this has the disadvantage that the opposite pipe ends in the insulation path have high edge field strengths when the high voltage is applied. This increases the risk of an electrical flashover. Furthermore, the distance between the pipe ends must be configured and constructed to be correspondingly large, so that this results in a correspondingly large amount of space being required here.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide an insulation piece for a pipeline which overcomes the above-mentioned disadvantages of the prior art devices of this general type, in which the risk of inadvertent electrical flashovers is avoided, or at least reduced, and, the insulation piece has a reduced space requirement.
With the foregoing and other objects in view there is provided, in accordance with the invention, an insulation piece for a pipeline conveying an electrically conductive liquid from a point that is at a ground potential to a point connected to a high voltage. The liquid is conveyed discontinuously by portion-by-portion transport due to a flow of the liquid being interrupted at times, so that the insulation piece is one of periodically free and substantially free, of the liquid, corresponding to interruptions in the flow. The insulation piece contains a hollow body having end faces and an unobstructed width equal to or greater than a width of the pipeline to be connected to. Terminating elements are disposed in the hollow body in a region of the end faces of the hollow body and the terminating elements close off at least in places parts of the end faces. Connecting pieces are provided for connecting to the pipeline. The connecting pieces each have a diameter equivalent to a diameter of the pipeline. The connecting pieces each have an external end prepared for connection to the pipeline, an internal end disposed in the hollow body, and a toroidal-shaped attachment formed on an outside area of the internal end. Each of the connecting pieces passes through an associated one of the terminating elements and rests against the associated terminating element to form a seal.
Accordingly, the connecting pieces pass through the terminating elements, resting against them to form a seal, and each have a toroidal-form attachment at their inner end. Furthermore, the external ends are prepared for connection to the pipeline.
The approximately toroidal inner pipe section ends results in that the electrical lines of force are distributed on a surface which is large in comparison to a pipe end, so that no local concentrations of the field strength occur. This advantageously reduces the risk of inadvertent voltage and current flashovers.
Furthermore, the distance between the inner pipe section ends can advantageously be reduced until the critical field strength is reached, and it is necessary to be concerned about a voltage or current flashover.
If the toroidal-form attachment rests against the associated terminating element, as is proposed according to the invention, the advantages just mentioned are achieved in a particularly simple manner. It is easier to fit the connecting piece to the associated terminating element, since the toroidal-form attachment also acts as a stop.
One advantageously simple configuration of the insulation piece overall is for the closed hollow body to be a pipe piece or a pipeline.
The hollow body of the insulation piece according to the invention can be closed particularly easily at its open ends by flanges, covers or similar terminating elements, with the flanges, covers or similar terminating elements being prepared to hold the connecting piece. For example, recesses are then provided in the flanges, covers or similar terminating elements, through which the connecting pieces are passed, and the two elements are firmly connected in the region of the contact surface between the terminating element and the connecting piece.
Polyethylene, plexiglass or other electrically insulating plastics have been found to be particularly suitable for use as the material for the hollow body. Plexiglass provides very good electrical insulation and, owing to its transparency, also offers the capability to observe the processes in the interior of the hollow body.
It is also advantageous, for example, to connect the pipe sections to the flanges, covers or similar terminating elements such that the distance between the inner pipe section ends is adjustable. Therefore, an insulation piece can be flexibly matched to different insulation tasks, and pipeline installation tolerances can be compensated for very easily.
In accordanc

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