1. Field of the Invention
The present invention concerns an expansion device for the coolant/insulating fluid in an x-ray apparatus as well as an x-ray radiator with such an expansion device.
2. Description of the Prior Art
In a medical x-ray apparatus, to reduce the heat that accumulates due to the generation of x-ray radiation it is necessary to provide cooling for the x-ray tube arranged in an x-ray radiator. For cooling it is known to surround the x-ray tube with a coolant which can (as, for example, insulating oil) exhibit insulation properties. The coolant and/or insulation must exhibit a pressure that is high enough to prevent an outgassing, since otherwise the cooling capacity and/or the ability to withstand electrical voltages are reduced, but is low enough to prevent damaging of the x-ray tube due to overpressure.
For this purpose, expansion devices are known that ensure a defined minimum pressure for the coolant and/or insulation means and allow an expansion (caused by a temperature increase) of the coolant and/or insulation within a defined range. Particularly in the case of x-ray apparatuses with rotary piston x-ray tubes rotating in coolant and/or insulation, negative pressure can be created due to the rotation movement. Such known expansion devices are formed by a reservoir in which the coolant and/or insulation means is located and a sealed air chamber (such as, for example, an airbag or a metal bellows) is provided to ensure the minimum pressure. An expansion of the coolant and/or insulation compresses the sealed air chamber, leading to an excessive, exponential increase of the pressure. If the pressure rises too high, the x-ray apparatus is deactivated (triggered by a pressure switch).
An object of the present invention is to provide a simple expansion device for an x-ray apparatus that ensures a defined minimum pressure of the coolant and/or insulation and that also prevents an excessive pressure load of the x-ray apparatus given a temperature rise.
The above object is achieved by an expansion device for an x-ray apparatus with a coolant and/or insulation having an elastic pressure element with an essentially linear force-displacement characteristic curve that still ensures a minimum pressure while allowing a linear pressure rise in a simple manner dependent on a rising temperature of the coolant and/or insulation. Given an elevated temperature, an excessive final pressure (as with an exponential pressure rise) is prevented and thus the components of the x-ray apparatus, in particular the x-ray tube in the coolant and/or insulation, are less pressure-loaded and thus can be designed overall for a lower pressure and so can be produced with less expenditure.
The term “curve” is used herein in the mathematical sense of describing a graphed relationship between two parameters, and thus encompasses a relationship that is entirely or substantially linear.
In a manner advantageous for a simple realization of the expansion device, an arrangement of the cooling and/or insulation volume is provided in an expansion reservoir so that the expanded volume presses against the elastic pressure element given an expansion of the cooling and/or insulation means volume due to the temperature rise.
In an embodiment of the invention advantageous for by low-cost production, sealing of the expansion reservoir is provided by a piston that can be shifted due to the volume increase and thus can be pressed against the elastic pressure element. In an advantageous manner, the expansion device has a piston that can be displaced along the inner wall of the expansion reservoir. At one axial (in the displacement direction) side of the piston, the coolant and insulation is enclosed by the expansion reservoir and at other axial side the expansion reservoir has an air chamber open to the outside and thus free of counter-pressure.
A further embodiment of the expansion device that can be produced in a simple and particularly compact manner seals the expansion reservoir with a bellows (in particular a metal bellows) that is compressed due to the expansion of the coolant and/or insulation and is thereby pressed against the elastic pressure element. The bellows can be arranged so as to be compressed within the expansion reservoir. On the outside of the bellows the coolant and/or insulation is enclosed by the expansion reservoir and on the inside of the bellows an air chamber is enclosed that is open to the outside.
In a further embodiment of the expansion device seals the expansion reservoir with a bellows (in particular a metal bellows) that is expanded due to the expansion of the coolant and/or insulation and thereby is pressed against the elastic pressure element. The bellows can expand within the expansion reservoir. On the inside of the bellows the coolant and/or insulation is enclosed and on the outside of the bellows the expansion reservoir encloses an air chamber open to the outside.
In a further embodiment of the invention, the expansion device has an elastic pressure element is given the elastic element with an essentially linear elastic characteristic curve by means of a biasing element. To accommodate a slow rise of the pressure, the biasing element gives the elastic pressure element a characteristic curve having a slope between 8% and 45%. According to a further embodiment of the invention, the biasing element is in the form of a gas pressure spring with an essentially linear force-displacement characteristic curve.
Although the invention can be used to advantage in an x-ray radiator with an x-ray tube in a coolant and/or insulation, the invention is not limited to, this type of apparatus.
A safety pressure switch 8 deactivates the x-ray apparatus given excessive pressure, meaning pressure endangering the rotary piston x-ray tube 9 of the x-ray radiator 2. This can lead to unwanted interruptions of examinations involving the x-ray apparatus.
The invention can be briefly summarized as follows. In an expansion device for an x-ray apparatus, in particular with a rotary piston x-ray tube with a sealed coolant and/or insulation volume under a minimum pressure and pressing with this minimum pressure against an elastic pressure element, an elastic pressure element with a linear force-displacement characteristic curve (in particular in the form of a gas pressure spring 11 with a linear elastic characteristic curve) is provided to prevent an excessive pressure load given a temperature rise.
Although modifications and changes may be suggested by those skilled in the art, it is the intention of the inventors to embody within the patent warranted hereon all changes and modifications as reasonably and properly come within the scope of their contribution to the art.
Number | Date | Country | Kind |
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10 2004 059 134.2 | Dec 2004 | DE | national |