RU2695637C1 - Multi-projection shooting device - Google Patents

Abstract

FIELD: physics.SUBSTANCE: invention relates to means of producing images in bundles of waves or particles. Multifunctional survey device comprises a fixed radiation source for generating a radiation beam in form of waves or particles; rotating two-arm support, both arms of which are located on opposite sides of its rotation axis, which coincides with axis of radiation beam; at least one bent capillary, each of which is intended for transmission of radiation beam and is fixed on one arm of double-arm support so that its input end faces stationary source of radiation, and the output end is directed at a given angle to the axis of rotation and shifted relative to said axis of rotation by a first predetermined value; radiation detector for detecting a radiation beam, rigidly fixed on the other arm of the double-arm support opposite to the outlet ends of the bent capillaries and shifted relative to the axis of rotation by a second predetermined value; rotation drive configured to rotate a double-arm support around the detachable object, placed on the axis of rotation between the output ends of the curved capillaries and the radiation detector.EFFECT: technical result is broader functional capabilities when taking a tomogram from fixed objects in a simplified mode of operation.9 cl, 1 dwg

Description

FIELD OF THE INVENTION

The present invention relates to methods for obtaining images in beams of waves or particles, and specifically to a device for multi-projection shooting.

State of the art

Various multiprojection survey devices are known, using, in particular, x-rays.

For example, in RF patent No. 2618510 (published on 05/04/2017), a method of fluoroscopy is described, which is implemented by a device containing at least four x-ray emitters directed in the same plane to the object under study, behind which there is a multi-element linear detector along an arc. The disadvantage of this device is the presence of several radiation sources that complicate the design.

U.S. Application No. 2016/0041110 (published February 11, 2016) discloses an X-ray device for translucent samples, in which a capillary beam (polycapillary) is connected to the output of a single x-ray source, converting the radiation of the source into a line of parallel emitters, past which the sample is moving over sensor in the form of a CCD matrix (charge-coupled device). This device is suitable for determining the thickness of the test sample, but it is almost impossible to use for taking tomograms.

The closest analogue of the present invention can be considered a scanning x-ray device according to the patent of the Russian Federation No. 2120234 (publ. 10/20/1998), which includes a stationary radiation source, forming a beam of x-ray radiation; capillary designed to transmit a beam of radiation; and a stationary radiation detector for detecting a radiation beam. The capillary can deviate under the action of a deflecting electromagnetic system, which ensures scanning of the object under study by x-ray radiation passing through the capillary from the radiation source.

The disadvantage of this technical solution is its limited functionality that does not allow you to take tomograms due to the need to rotate the object under study at different angles.

Disclosure of invention

Thus, the object of the present invention is to provide a multi-directional survey device with enhanced functionality, providing the ability to take tomograms from stationary objects in a simplified mode of operation.

To solve this problem and achieve the specified result, the present invention proposes a multi-projection shooting device, comprising: a fixed radiation source, configured to form a radiation beam in the form of waves or particles for shooting; a rotating two-arm bearing, both shoulders of which are located on opposite sides of its axis of rotation, coinciding with the axis of the radiation beam; at least one curved capillary, each of which is designed to transmit a radiation beam and is mounted on one shoulder of a two-arm support so that its input end faces a stationary radiation source and the output end is directed at a given angle to the axis of rotation and is offset relative to this axis of rotation by the first set value; a radiation detector for detecting a radiation beam, fixedly mounted on the other shoulder of the two-arm support opposite the output ends of the curved capillaries and offset from the axis of rotation by a second predetermined amount; a rotation drive configured to rotate a two-arm support around a removable object placed on the axis of rotation between the output ends of the curved capillaries and the radiation detector.

A feature of the device of the present invention is that curved capillaries can form at least one bundle.

In this case, the bundles may have a cross section extending to the output ends of the curved capillaries.

Another feature of the device of the present invention is that the radiation detector can be multi-channel.

Another feature of the device of the present invention is that it can additionally contain at the output of a stationary radiation source a focusing element for forming a beam of waves or particles in a narrow direction.

Another feature of the device of the present invention is that the radiation may be x-ray radiation.

Another feature of the device of the present invention is that the specified angle to the axis of rotation can be selected equal to π / 2.

Another feature of the device of the present invention is that the first and second predetermined displacement values relative to the axis of rotation can be selected so as to ensure placement of the captured object between the output ends of the curved capillaries and the radiation detector.

In this case, the first and second predetermined displacement values with respect to the axis of rotation can be chosen equal.

The present invention is illustrated by the attached drawing.

Detailed Description of Embodiments

The multi-projection survey device of the present invention comprises a fixed radiation source 1 configured to generate a radiation beam in the form of waves or particles for imaging. As such a source, an X-ray source used, for example, in tomography, or a source of electrons or other particles, can be used. Preferably, a focusing element 2 is mounted at the output of the radiation source 1 to form a narrow beam of waves or particles. A focusing element 2 is used if focusing of the output beam of waves or particles is not provided in the radiation source 1 itself. Preferably, the beam of waves or particles from the radiation source 1 should have a divergence of not more than 10 mrad.

The multi-projection shooting device of the present invention further comprises one or more curved capillaries 3, each of which is designed to transmit a radiation beam from the radiation source 1. If there are several capillaries 3, they can form one or more bundles, the cross section of which can expand to the output ends of the capillaries 3. Such an extension is indicated in the drawing by the reference position 3b, in contrast to the unextended part marked 3a. This expansion will allow to form, for example, a line of emitters, as is the case in the above US application No. 2016/0041110.

As capillaries (polycapillaries, X-ray tubes), you can use tools known from the above prior art.

The device of the present invention further comprises a radiation detector 4 for detecting a radiation beam exiting from the capillaries 3. This radiation detector 4 may be multi-channel. In particular, a CCD array known from the aforementioned US Application No. 2016/0041110 is suitable as the radiation detector 4.

The multi-projection shooting device of the present invention furthermore comprises a rotating two-arm support 5, both arms of which are located on opposite sides of its axis of rotation, coinciding with the axis of the radiation beam emerging from the radiation source 1. This two-arm support 5 can be of any suitable design, for example, in the form of two diverging brackets, which can have a curved shape, as shown in the drawing. The specific design of the two-arm support 5 is not the subject of this invention.

Curved capillaries 3 are mounted on one shoulder of a two-arm support 5 so that the input ends of all capillaries 3 are turned to a stationary radiation source 1, and the output ends are directed at a given angle to the axis of rotation of the two-arm support 5 and are offset relative to this axis of rotation by a first predetermined value. On the other shoulder of the two-arm support, just opposite the output ends of the curved capillaries 3, a radiation detector 4 is fixedly mounted with an offset by a second predetermined value relative to the axis of rotation.

To bring the two-arm support 5 into rotation, the device of the present invention comprises a rotation drive 6 configured to rotate the two-arm support 5 around a removable object 7 located on the axis of rotation between the output ends of the curved capillaries 3 and the radiation detector 4. The rotation drive 6 can be made in the form of any means known to those skilled in the art, which makes it possible to rotate the two-arm support 5. In the drawing, the rotation drive 6 is conventionally shown in the form of rigidly mounted ball bearings.

The aforementioned predetermined angle, at which the output ends of the curved capillaries 3 are directed to the axis of rotation, is preferably π / 2. As for the first predetermined amount of displacement of the output ends of the curved capillaries 3 and the second predetermined amount of displacement of the radiation detector 4 relative to the axis of rotation, they are selected so as to ensure placement of the captured object 7 between the output ends of the curved capillaries 3 and the radiation detector 4. Preferably, but not necessarily, these values are equal. Their specific values are selected from design and operational considerations.

The multi-projection shooting device of the present invention operates as follows.

The removable object 7 is placed on the axis of rotation of the two-arm support 5 between the output ends of the curved capillaries 3 and the radiation detector 4. The beam of waves or particles emitted by the radiation source 1 passes through the curved capillaries 3 and is directed to the removed object 7. The radiation transmitted through this object is registered by the radiation detector 4. To shoot an object 7 from different angles, the two-arm support 5 is rotated, while the object 7 itself remains stationary.

Thus, the device of the present invention has enhanced functionality, allowing you to take tomograms from a stationary or moving along the axis of rotation of the object in any projection.

Claims (14)

1. A multi-projection shooting device, comprising: - a stationary radiation source, configured to form a beam of radiation in the form of waves or particles for the implementation of the said survey; - a rotating two-arm bearing, both shoulders of which are located on opposite sides of its axis of rotation, coinciding with the axis of said radiation beam; - at least one curved capillary, each of which is designed to transmit the aforementioned radiation beam and is fixed on one shoulder of the said two-arm support so that its input end faces the said stationary radiation source and the output end is directed at a given angle to the rotation axis and offset from this axis of rotation by a first predetermined amount; - a radiation detector for detecting said radiation beam, fixedly mounted on the other shoulder of said two-arm support opposite said output ends of curved capillaries and offset by a second predetermined value relative to said axis of rotation; - a rotation drive configured to rotate said two-arm support around a removable object placed on said axis of rotation between said output ends of curved capillaries and a radiation detector. 2. The device according to claim 1, wherein said curved capillaries form at least one bundle. 3. The device according to claim 2, in which the said bundles have a cross section that extends to the output ends of the said curved capillaries. 4. The device according to claim 1 or 3, wherein said radiation detector is multi-channel. 5. The device according to claim 1, additionally containing at the output of said stationary source of radiation a focusing element for forming said beam of waves or particles in a narrow direction. 6. The device according to claim 1 or 5, in which said radiation is x-ray radiation. 7. The device according to claim 1, wherein said predetermined angle to said axis of rotation is selected equal to π / 2. 8. The device according to p. 1 or 7, in which the aforementioned first and second predetermined offset values relative to the axis of rotation are selected so as to ensure the placement of the said object to be removed between the said output ends of the curved capillaries and said radiation detector. 9. The device according to p. 8, in which the aforementioned first and second predetermined offset values relative to the axis of rotation are selected equal.

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