JP2013016432A - X-ray generator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an X-ray generator having high reliability over a long period of time.SOLUTION: An X-ray generator includes: a high voltage connector 2; an X-ray tube 1; a fixing member 5; and a spring. The high voltage connector 2 includes an electrical insulating material having an end surface S22 formed thereon, and a high voltage output terminal 23. The X-ray tube 1 includes a high voltage input terminal 14, a high voltage insulating part in which an adhering surface S13 adhered directly or indirectly to the end surface 22 is formed, and a gap forming surface S11. The fixing member 5 has the gap forming surface S5, and is fixed directly or indirectly to the high voltage connector 2. The spring is in contact with the gap forming surface S11 and the gap forming surface S5.

Description

  Embodiments described herein relate generally to an X-ray generator.

  X-ray generators are used in various applications such as medical diagnosis, nondestructive inspection, and analytical evaluation. The X-ray generator includes an X-ray tube, a high voltage connector, an adapter, and an insulating rubber plate. The X-ray tube includes a cathode that emits electrons, an anode target that emits X-rays when the electrons collide, a vacuum envelope that contains the cathode and the anode target and has an X-ray transmission window, And a voltage input terminal. A part of the vacuum envelope is formed of a ceramic envelope.

  The X-ray tube is fixed to the adapter by a fixing screw. The insulating rubber plate is inserted between the electrical insulating material of the high voltage connector and the ceramic envelope of the X-ray tube. The high voltage connector has an electrical insulating material and a high voltage output terminal. The adapter is fixed to the high voltage connector by a fixing screw. By tightening the fixing screw, the ceramic envelope of the X-ray tube compresses the insulating rubber plate to generate a surface pressure for high voltage connection.

  As described above, the insulating rubber plate is kept in close contact with the electrical insulating material and the ceramic envelope at a constant surface pressure, thereby maintaining the insulation of the high voltage connection. The surface pressure of the high voltage connection is set by adjusting the tightening amount of the fixing screw and adjusting the compression amount of the insulating rubber plate.

Japanese Patent Laid-Open No. 2002-216682 JP 2008-293868 A

By the way, during the operation of the X-ray generator, the X-ray tube generates heat, so that the X-ray tube and the adapter are thermally expanded due to the influence of heat. Since the X-ray tube and the adapter are also thermally expanded in the opposite directions, the compression amount of the insulating rubber plate may change. The surface pressure for high voltage connection generally needs 0.5 to 1 MPa. On the other hand, the insulating rubber plate has a change in surface pressure of approximately 1 MPa / mm with respect to the compression direction. For this reason, since the surface pressure of the high voltage connection changes due to the change in the compression amount of the insulating rubber plate due to thermal expansion or the elastic change of the insulating rubber plate over time, the high voltage insulation is maintained for a long time. It was difficult.
The present invention has been made in view of the above points, and an object of the present invention is to provide an X-ray generator having high reliability over a long period of time.

An X-ray generator according to an embodiment
A high voltage connector having an electrically insulating material having an end face exposed to the outside, and a high voltage output terminal exposed to the outside together with the end face;
A high voltage input terminal that is disposed opposite to the high voltage connector in a first direction facing the end face, is electrically connected to the high voltage output terminal, and is exposed to the outside, and is exposed to the outside together with the high voltage input terminal. X-rays having a high-voltage insulating part formed with a close contact surface that is directly or indirectly intimately contacted with an end surface of the electrical insulating material and a gap forming surface exposed to the outside in the first direction can be emitted. An X-ray tube;
There is another gap forming surface disposed opposite to the high voltage connector in the first direction and facing the gap forming surface at an interval in the first direction, and directly or indirectly to the high voltage connector. A fixing member fixed to,
A spring disposed between the gap forming surface and the other gap forming surface and in contact with the gap forming surface and the other gap forming surface.

FIG. 1 is a side view showing an X-ray generator according to an embodiment, and is a view showing a partial cross-sectional structure. FIG. 2 is an exploded perspective view showing the X-ray generator. FIG. 3 is a schematic configuration diagram showing a modification of the X-ray generator.

  Hereinafter, an X-ray generator according to an embodiment will be described in detail with reference to the drawings. FIG. 1 is a side view showing an X-ray generator, showing a partial cross-sectional structure, and showing a connection state of an X-ray tube and a high voltage connector. FIG. 2 is an exploded perspective view showing the X-ray generator, and shows a connection state of the X-ray tube and the high voltage connector.

  As shown in FIGS. 1 and 2, the X-ray generator includes an X-ray tube 1, a high voltage connector 2, an insulating rubber plate 3 as an electrical insulating member, an adapter (tube housing) 4, and a fixing member. 5, a disc spring 6 as a spring, and fixing screws 7 and 8.

  The high voltage connector 2 is for applying a high voltage to the X-ray tube 1. The high voltage connector 2 includes a housing 21, an epoxy resin 22 as an electrical insulating material, and a high voltage output terminal 23. The casing 21 has an opening 21a and a plurality of screw holes 21b. The epoxy resin 22 is accommodated in the housing 21 and faces the opening 21a. The epoxy resin 22 has an end surface S22 exposed to the outside of the casing 21. The high voltage output terminal 23 is exposed to the outside of the housing 21 together with the end surface S22.

  In this embodiment, a high voltage generation source (not shown) is accommodated in the housing 21, and a high voltage can be supplied to the high voltage output terminal 23.

  The X-ray tube 1 is disposed to face the high voltage connector 2 in a direction facing the end surface S22 (hereinafter referred to as Z direction d). The X-ray tube 1 includes a vacuum envelope 11 having an X-ray transmission window 12 and a high voltage input terminal 14. Although not shown, the X-ray tube 1 includes a cathode that emits electrons, housed in a vacuum envelope 11, and an anode target that emits X-rays when the electrons collide. For this reason, the X-ray tube 1 can emit X-rays from the X-ray transmission window 12.

The high voltage input terminal 14 is exposed to the outside of the X-ray tube 1 and is electrically connected to the high voltage output terminal 23.
The vacuum envelope 11 is formed of a ceramic envelope 13 as a high voltage insulating portion or a metal envelope. The ceramic envelope 13 is formed with a close contact surface S13 exposed to the outside of the X-ray tube 1 together with the high voltage input terminal 14. The close contact surface S13 is in close contact with the end surface S22 of the epoxy resin 22 directly or indirectly.

In this embodiment, an annular insulating rubber plate 3 is interposed between the end surface S22 of the epoxy resin 22 and the close contact surface S13 of the ceramic envelope 13. For this reason, the close contact surface S13 is indirectly contacted with the end surface S22 of the epoxy resin 22.
The vacuum envelope 11 (X-ray tube 1) has a gap forming surface S11 exposed to the outside of the X-ray tube 1 in the Z direction d.

  The fixing member 5 is disposed to face the high voltage connector 2 in the Z direction d and is formed in an annular shape. The fixing member 5 is made of, for example, metal as a material exhibiting rigidity. The fixing member 5 is fixed directly or indirectly to the high voltage connector 2. In this embodiment, the fixing member 5 is indirectly fixed to the high voltage connector 2. A plurality of screw holes 51 are formed in the fixing member 5. The fixing member 5 has another gap forming surface S5 facing the gap forming surface S11 with a gap in the Z direction d.

  The adapter 4 extends in a direction parallel to the Z direction d and is formed in a frame shape. The adapter 4 has a rectangular outer peripheral surface and a cylindrical inner peripheral surface. A plurality of screw holes 41 and a plurality of screw holes 42 are formed in the adapter 4. The adapter 4 is made of, for example, metal as a material exhibiting rigidity. The adapter 4 surrounds a part of the X-ray tube 1.

  The adapter 4 joins the high voltage connector 2 and the fixing member 5 and is interposed between the high voltage connector 2 and the fixing member 5. The fixing screw 8 passes through a screw hole 41 formed in the adapter 4 and is tightened in a screw hole 21b of the housing 21 (high voltage connector 2). For this reason, the adapter 4 is fixed to the high voltage connector 2.

  Further, the fixing screw 7 is fastened to the screw hole 42 of the adapter 4 through the screw hole 51 formed in the fixing member 5. For this reason, the fixing member 5 is fixed to the adapter 4 and indirectly fixed to the high voltage connector 2.

  The disc spring 6 is disposed between the gap forming surface S11 and the gap forming surface S5, and is in contact with the gap forming surface S11 and the gap forming surface S5. Even if the gap between the gap forming surface S11 and the gap forming surface S5 changes somewhat, the disc spring 6 can continue to apply a spring load to the X-ray tube 1 in the direction opposite to the Z direction d.

  According to the X-ray generator according to the embodiment configured as described above, the X-ray generator includes the X-ray tube 1, the high voltage connector 2, the insulating rubber plate 3, the adapter 4, and the fixing member. 5, a disc spring 6, and fixing screws 7 and 8.

  The adapter 4 and the fixing member 5 hold the X-ray tube 1 by fixing the fixing member 5 to the adapter 4 with the fixing screw 7 with the disc spring 6 sandwiched between the X-ray tube 1 and the fixing member 5. ing. The adapter 4 is fixed to the high voltage connector 2 by a fixing screw 8. The insulating rubber plate 3 is compressed by the end surface S22 of the epoxy resin 22 and the close contact surface S13 of the ceramic envelope 13, thereby generating a surface pressure for high voltage connection.

  By tightening the fixing screw 8, the insulating rubber plate 3 and the disc spring 6 are compressed simultaneously.

The spring coefficient of the disc spring 6 is selected so that the surface pressure of the high voltage connection becomes a constant value when the adapter 4 and the casing 21 of the high voltage connector 2 are in contact with each other, and the spring coefficient of the insulating rubber plate 3 Is also a sufficiently small value.

For this reason, although both the X-ray tube 1 and the adapter 4 are thermally expanded by the heat generated when the X-ray tube 1 is operated, the change in the compression amount due to the difference in thermal expansion can be absorbed by the disc spring 6. The surface pressure of the high voltage connection during use of the X-ray generator can be kept within a certain range. Thereby, the discharge passage along the close interface between the end face S22 and the close contact surface S13 can be cut off, and high electrical insulation characteristics can be obtained.
From the above, it is possible to obtain a highly reliable X-ray generator for a long period of time.

  Note that the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the components without departing from the scope of the invention in the implementation stage. Various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the embodiments. For example, some components may be deleted from all the components shown in the embodiment.

  For example, as illustrated in FIG. 3, the high voltage generation source 9 may not be accommodated in the housing 21. In this case, the high voltage generation source 9 and the high voltage connector 2 may be connected using the high voltage cable 10.

The contact surface S13 may be in direct contact with the end surface S22 of the epoxy resin 22.
The electrical insulating material is not limited to the epoxy resin 22 but can be variously modified and may be formed of a material exhibiting electrical insulating properties such as insulating rubber.
The electrical insulating member is not limited to the insulating rubber plate 3 and can be variously modified, may be a silicone plate, and may be formed of a material exhibiting electrical insulation.

The fixing member 5 may be directly fixed to the high voltage connector 2.
When fixing the constituent members of the X-ray generator, screws as fasteners were used, but this is not restrictive, and various modifications are possible, such as using fasteners other than screws or using brazing. It is sufficient that the constituent members can be fixed to each other.

The spring is not limited to the disc spring 6, and various single or plural springs can be used as long as the spring load can be applied to the X-ray tube in the direction opposite to the first direction.
The present invention is not limited to the X-ray generator described above, and can be applied to various X-ray generators.

  DESCRIPTION OF SYMBOLS 1 ... X-ray tube, 2 ... High voltage connector, 3 ... Insulation rubber plate, 4 ... Adapter, 5 ... Fixing member, 6 ... Disc spring, 7, 8 ... Fixing screw, 11 ... Vacuum envelope, 13 ... Outside ceramic Envelope, 14 ... high voltage input terminal, 21 ... housing, 22 ... epoxy resin, 23 ... high voltage output terminal, S5, S11 ... gap forming surface, S13 ... close contact surface, S22 ... end surface, d ... Z direction.

Claims (4)

A high voltage connector having an electrically insulating material having an end face exposed to the outside, and a high voltage output terminal exposed to the outside together with the end face;
A high voltage input terminal that is disposed opposite to the high voltage connector in a direction opposite to the end face, is electrically connected to the high voltage output terminal, and is exposed to the outside, and is exposed to the outside together with the high voltage input terminal. An X-ray tube capable of emitting X-rays having a high-voltage insulating portion formed with a close contact surface that is directly or indirectly intimately contacted with an end surface of the insulating material, and a gap forming surface exposed to the outside in the direction; ,
There is another gap forming surface disposed opposite to the high voltage connector in the direction and facing the gap forming surface with a gap in the direction, and is directly or indirectly fixed to the high voltage connector. A fixing member;
An X-ray generator comprising: a spring disposed between the gap forming surface and another gap forming surface, and a spring in contact with the gap forming surface and the other gap forming surface. An electrical insulation member interposed between the end face of the electrical insulation material and the close contact surface of the high-voltage insulation part;
The X-ray generator according to claim 1, wherein the high-voltage insulating unit is in intimate contact with an end surface of the electrical insulating material. Further comprising an adapter interposed between the high voltage connector and a fixing member and fixed to the high voltage connector;
The X-ray generator according to claim 1, wherein the fixing member is fixed to the adapter and is indirectly fixed to the high voltage connector.   The X-ray generator according to claim 1, wherein the spring is a disc spring.

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