초록 ▼

Provided is a device for the emission of X-rays. The device includes a vacuum pump including a sealed peripheral casing containing a cathode which emits a flux of electrons, a rotary anode mounted at the end of the shaft of the vacuum pump, a collection device for collecting an emitted electron beam

Provided is a device for the emission of X-rays. The device includes a vacuum pump including a sealed peripheral casing containing a cathode which emits a flux of electrons, a rotary anode mounted at the end of the shaft of the vacuum pump, a collection device for collecting an emitted electron beam and at least one cooling element, disposed opposite one of the main radial faces of the rotary anode, which is fixed to one of the vacuum pump stator or to the sealed peripheral casing.

대표청구항 ▼

The invention claimed is: 1. A device for the emission of X-rays, comprising: a vacuum enclosure, delimited by a sealed wall, a vacuum pump, comprising: a sealed peripheral casing; a stator, a rotor; and a control means enabling stable rotation of the rotor at a very high speed, wherein the vacuum

The invention claimed is: 1. A device for the emission of X-rays, comprising: a vacuum enclosure, delimited by a sealed wall, a vacuum pump, comprising: a sealed peripheral casing; a stator, a rotor; and a control means enabling stable rotation of the rotor at a very high speed, wherein the vacuum pump is connected to the vacuum enclosure to generate and maintain a vacuum therein, a cathode disposed within the vacuum enclosure which generates a flux of electrons, a rotary anode disposed within the vacuum enclosure, which is driven in rotation about a rotation axis and receives, at its periphery, the flux of electrons coming from the cathode to emit X-rays toward an exit, and at least two cooling elements, each disposed opposite respective main radial faces of the rotary anode to absorb radiated heat energy emitted by the rotary anode in operation, wherein one of the at least two cooling elements is fixed to the vacuum pump stator and another of the at least two cooling elements is fixed to the sealed peripheral casing; wherein: the rotary anode is attached to the rotor of the vacuum pump, and is disposed coaxially with the rotor, and the sealed peripheral casing of the vacuum pump itself constitutes at least a portion of the sealed wall of the vacuum enclosure. 2. A device according to claim 1, wherein the at least two cooling elements each comprises a copper or stainless steel body of sufficient thickness to absorb the flux of X-rays. 3. A device according to claim 1, wherein the at least two cooling elements each have an internal cooling circuit in which travels a heat-exchange fluid that evacuates heat to the exterior. 4. A device according to claim 1, wherein the opposite surfaces of each of the at least two cooling elements and of the rotary anode are covered with a layer of material of high emissivity. 5. A device according to claim 1, wherein the opposite surfaces of each of the at least two cooling elements and of the rotary anode are indented concentrically. 6. A device according to claim 1, further including thermal insulation means comprising a stainless steel ring disposed between a shaft and the rotary anode. 7. A device according to claim 1, further comprising means for moving the rotor along its rotation axis, thereby modifying the area of impact of the electron beam on the periphery of the rotary anode. 8. A device according to claim 7, wherein the rotor is loaded by magnetic bearings controlled by an electronic bearing control unit which determines its axial position and its radial position within the stator, wherein the electronic bearing control unit intentionally modifies at least the axial position of the rotor along its rotation axis. 9. A device according to claim 8, wherein the electronic control unit modifies the axial position of the rotor as a function of wear of the rotary anode, by moving a worn area of the rotary anode away from the area of impact of the electron beam. 10. A device according to claim 8, wherein the electronic control unit moves the rotor along its rotation axis during operation, thereby moving the area of impact of the electron beam on a peripheral surface of the rotary anode. 11. A device according to claim 8, wherein the peripheral surface of the rotary anode consists of a plurality of adjacent annular bands of different materials each adapted to produce X-rays with a different particular energy, the electronic bearing control unit enabling axial movement of the rotor to place a selected annular band under the incident beam of electrons. 12. A device according to claim 8, wherein the electronic bearing control unit further intentionally modifies the radial position of the rotor in order to adjust the wear of the rotary anode and thereby to maintain the X-ray beam focused on a precise convergence zone at the exit. 13. A device for the emission of X-rays, comprising: a vacuum enclosure, delimited by a sealed wall, a vacuum pump, comprising: a sealed peripheral casing; a stator, a rotor; and a controller which enables stable rotation of the rotor at a very high speed, wherein the vacuum pump is connected to the vacuum enclosure to generate and maintain a vacuum therein, a cathode disposed within the vacuum enclosure which generates a flux of electrons, a rotary anode disposed within the vacuum enclosure, which is driven in rotation about a rotation axis and receives, at its periphery, the flux of electrons coming from the cathode to emit X-rays toward an exit, and at least two cooling elements, each disposed opposite respective main radial faces of the rotary anode to absorb radiated heat energy emitted by the rotary anode in operation, wherein one of the at least two cooling elements is fixed to the vacuum pump stator and another of the at least two cooling elements is fixed to the sealed peripheral casing; wherein: the rotary anode is attached to the rotor of the vacuum pump, and is disposed coaxially with the rotor, and the sealed peripheral casing of the vacuum pump itself constitutes at least a portion of the sealed wall of the vacuum enclosure.