JPH0436943A - X-ray tube - Google Patents

Abstract

PURPOSE:To emit X-rays in parallel beam by arranging parabolic mirrors, in which the focus is located at the target position and which shape X-rays from the target into parallel beam, around the target. CONSTITUTION:Rotary parabolic surface mirrors 15, 16 rotate in a single piece relative to a base 10 and a casing 13 in response to operation of a motor. If in this condition power is supplied to a filament 20, electrons are emitted at a high speed. This high speed electron beam runs against a target 11 to generate X-rays, which are emitted from the target 11 in a wide angle range. These rays are reflected by the mirrors 15, 16, and their transfer path is varied. That is, because the focal positions of the mirrors 15, 16 are located on the target 11, the X-rays reflected by the mirrors 15, 16 are shaped into parallel beam. Thus X-rays in parallel beam can be emitted directly from the X-ray tube.

Description

[Detailed description of the invention] [Object 1-1 of the invention] (Industrial application field) The present invention relates to improvements in X-ray tubes.

(Prior Art) FIG. 2 is a block diagram of an X-ray tube. A target 2 is provided on the base 1. Also, this base 1 has a cooling pipe 3.
is piped. This cooling pipe 3 suppresses the temperature rise due to heat generated in the target 2. The base 1 is provided with a casing 4, in which an output window 5 is formed and a glass tube 6 is provided. Note that the housing 4 is made of copper. A region surrounded by the base 1, the housing 4, the output window 5, and the glass tube 6 is formed into a vacuum chamber 7. Inside this vacuum chamber 7 and target 2
A filament 8 is arranged above. This filament 8 is made of tungsten. or,
This filament 8 is led out of the vacuum chamber 7 and connected to a transformer (not shown).

With such a configuration, when electric power is supplied to the filament 8, electrons are emitted from the filament 8 at high speed. This high-speed electron beam collides with the target 2, and at the time of this collision, X-rays are generated. The X-rays are then emitted radially from the output window 5.

However, since the X-ray tube described above generates X-rays by emitting high-speed electron beams to the target 2, the X-rays are emitted over a wide angle. Therefore, the X-rays output from the output window 5 are radial. For this reason, some devices to which X-ray tubes are applied require parallel beam X-rays, and cannot be applied to such devices.

(Problems to be Solved by the Invention) As described above, there are cases where parallel beam X-rays are required instead of radial X-rays.

Therefore, an object of the present invention is to provide an X-ray tube that can output parallel beams of X-rays.

[Configuration of the Invention (Means for Solving the Problems) The present invention provides an X-ray tube that generates X-rays by projecting electrons emitted from a filament onto a target,
This is an X-ray tube that attempts to achieve the above objective by arranging parabolic mirrors around the target that focus the target position and shape the X-rays from the target into a parallel beam.

(Function) By providing such a means, the X-rays emitted from the target are shaped into a parallel beam by the parabolic mirror and output.

(Example) Hereinafter, an example of the present invention will be described with reference to a configuration diagram of an X-ray tube shown in FIG.

A target ] 1 is provided on the base 10 . or,
A cooling pipe 12 is installed in the base 10 . This cooling pipe 12 suppresses a temperature rise due to heat generated in the target 11. The base 10 is provided with a housing 13,
This housing 13 is provided with a glass tube]4. Note that the casings 1 and 3 are made of copper.

A rotating paraboloid mirror 1.
5, 1.6 are provided. These parabolic mirrors 15, 1.6 are each formed into a cylindrical shape. Concave mirrors are formed on the inner surfaces of these rotating parabolic mirrors 1516, and are arranged so that their focal positions are on the target. Note that 18 is an output window.

A vacuum chamber 19 is formed in a region surrounded by the base 10, the housing 13, the glass tube 14, the parabolic mirrors 1.5, 1.6, and the output mirror 18. This vacuum chamber 1
A filament 20 is placed inside the target 11 and on one side of the target 11.

This filament 20 is made of tungsten. Further, this filament 20 is led out of the vacuum chamber 19 and connected to a transformer (not shown).

With such a configuration, each rotating paraboloid mirror 15°]6 is rotated by the base 10 and the casing in response to the rotational drive of the motor 17.
Rotates integrally with respect to 3.

When electric power is supplied to the filament 20 in this state, electrons are emitted from the filament 20 at high speed. This high-speed electron beam contacts the target 1], and this contact generates X-rays. This X-ray is emitted from the target 1 over a wide angle range.

The emitted X-rays are reflected by each rotating paraboloid mirror 15 and 16, and their propagation path is changed.

That is, since the focal position of each paraboloid of revolution mirror 1.5.16 is placed on the target 11, the X-rays reflected by each paraboloid of revolution mirror 1.5.16 are shaped into a parallel beam.

In this way, in the above embodiment, each of the paraboloidal mirrors of revolution 15.1.6 having a focal point at the position of the target []] is arranged around the target []], so that the Can output lines.

It should be noted that the present invention is not limited to the embodiments described in Section 2 and may be modified without departing from the spirit thereof.

For example, a donut-shaped parabolic mirror may be fixed to the housing 13 in place of each of the rotating parabolic mirrors 1.5.1.6. Further, instead of forming a single vacuum chamber, a gas may be filled in the vacuum chamber.

[Effects of the Invention] As detailed above, according to the present invention,
An X-ray tube capable of outputting radiation can be provided.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of an X-ray tube according to the present invention, and FIG. 2 is a block diagram of a conventional X-ray tube. ]0...Base, 11...Target, ]2...
Cooling pipe, 13... Housing, 14... Glass tube, 1.5
, 1.6・Rotating parabolic mirror 7...Motor, 18・Output MIF] 9...Vacuum chamber, 0...Filament.

Claims (1)

[Claims] In an X-ray tube that generates X-rays by projecting electrons emitted from a filament onto a target, a parabolic mirror is installed around the target to focus the target position and shape the X-rays from the target into a parallel beam. An X-ray tube characterized in that it is arranged in a.