High voltage transformer

X-ray or gamma ray systems or devices – Electronic circuit – X-ray source power supply

Reexamination Certificate

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Details

C378S112000, C363S059000

Reexamination Certificate

active

06836534

ABSTRACT:

OBJECT OF THE INVENTION
As stated in the title of this description, this invention refers to a high voltage transformer which presents a novel distribution of the elements determining a configuration of small size, with less weight and lower price.
These characteristics of the high voltage transformer enable it to be combined into electronic equipment, in such a way that they have a smaller volume and lower price and cost. In order to achieve this, the concept of the novel distribution of the elements constituting the transformer is also adopted in the configuration or distribution of the elements constituting the rest of the electronic equipment.
The invention is preferably applicable to radiogenic vessels used for taking radiographs, but it can evidently also be used in any piece of electronic equipment requiring the use of a high voltage transformer.
BACKGROUND OF THE INVENTION
Conventional X-ray rooms basically consist of an X-ray tube, which is powered by a high voltage transformer. This high voltage transformer is normally located several metres away (between 4 and 30 metres) from the X-ray tube. The connection between the two is done with special high voltage cables, which have the disadvantage of being expensive.
Owing to their bulkiness, the high voltage cables also display the added inconvenience that they hinder the mobility of the X-ray tube for positioning the beam in the right place.
With the aim of simplifying the installation, cutting the cost and reducing the overall volume of the equipment, the use of radiogenic vessels is known, which consist of a device combining the X-ray tube and the high voltage transformer into a single receptacle, making it unnecessary to use high voltage cables.
The greatest difficulty in the design of a radiogenic vessel consists of achieving the necessary electrical insulation among the different elements it comprises (transformers, high voltage connectors, rectifiers, filters, voltage dividers, shunts, dischargers, cabling, etc.). The insulation can be done in three different ways:
A) Vacuum filling in a dry environment of the whole of the interior of the vessel with an insulating liquid or gaseous fluid, normally silicone oil or mineral oil on account of their ease of handling and low cost.
B) Using solid insulating pieces such as plastics, glass, porcelains, resins, etc.
C) Encapsulating the entire unit with high voltage insulating resins or silicones under vacuum.
In any case, in order to achieve a good insulation, the different components or elements need to be kept separated by a certain distance as a function of the voltage applied between the components.
Evidently, the components of the radiogenic vessel have various geometric shapes and different sizes, and it is absolutely necessary to maintain the minimum insulating distance between the points with the greatest voltage. In the majority of cases this implies that the insulation distance between less critical points is excessive. Consequently, the total volume of the radiogenic vessel is greater than that strictly necessary. In addition, the excess of volume has to be occupied with insulating material, which considerably increases the weight and, above all, the cost of the vessel.
In order to mitigate this problem, the use of high voltage transformers with high frequency technology is known in the state of the art, but nevertheless, although they reduce the problem, vessels continue to have a larger volume, weight and cost than what is necessary.
DESCRIPTION OF THE INVENTION
To solve the above-mentioned drawbacks, the invention has developed a new high voltage transformer characterized in that the conventional high voltage elements constituting it are located in such a way that the 0 volts level, or ground level, is located in the central zone, and from this zone the negative potential progressively increases towards one of the ends, and moreover the positive potential progressively increases towards the opposite end.
In this manner, the elements with lowest voltage are closest together and those with greatest voltage are more separated, in such a way that this structure has the major advantage that the elements do not need to be insulated from each other and the distance that they have to be separated by is considerably reduced, and as a consequence their volume, weight and cost are also reduced.
With respect to the conventional low voltage elements contained in the transformer, these are separated from the high voltage elements by insulating means.
In an embodiment of the invention, the insulating means for separation between the high and low voltage elements consist of an insulating partition.
In addition, the invention is also characterized in that the transformer that is described is combined into a piece of electronic equipment of the type that requires a high voltage power supply, in such a way that both the transformer and the rest of the components making up the electronic equipment are arranged in such a way that the ground level is located in the central zone and from there the negative potential progressively increases towards one of the ends while the positive potential progressively increases towards the opposite end, thus establishing equipotential voltages at the same distance from the ground level between the different elements constituting the electronic equipment. For this reason, no insulation is needed between them and therefore the distance that they have to be separated by becomes considerably reduced. Moreover, the elements occupying the same potential zone have absolutely no influence on the parasite capacity and therefore there are no limitations neither on their proximity nor on the facing surface between them.
Consequently, by designing the elements in such a way that their voltage levels match the potential zone they occupy, this permits the elements to be brought up to each other until they almost come in contact.
This configuration facilitates the assembly of the elements, which in turn reduces the assembly work at the same time as having greater ease of location and handling due to having a smaller volume and weight.
Moreover, it presents a higher functioning reliability and a lower reduction of the electrical stress in the high voltage insulators, consisting of the insulating fluid filling the interior of the radiogenic vessel.
In one embodiment of the invention, the progressive increment in voltage towards the ends is linear.
In order to facilitate a better understanding of this descriptive report, and forming an integral part thereof, included below is a series of figures in which, by way of illustration only and not to be regarded as restrictive, the object of the invention has been represented.


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patent: 6642829 (2003-11-01), Carmena
patent: 531189 (1993-03-01), None

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