RU186354U1 - X-ray installation - Google Patents

Abstract

The utility model relates to the field of fluoroscopy, namely, industrial fluoroscopic systems designed to provide non-destructive testing of various objects for cracks, chips, dents and other defects. The technical result of the claimed utility model is to reduce the complexity of obtaining x-ray images of the inspected product and increase the reliability of fluoroscopic installations. The task to which the claimed utility model is directed is to create a fluoroscopic installation that provides the positioning of the inspected sample to obtain x-ray images on a fluoroscopic unit in the required positions without the need for numerous devices of different dimensional characteristics. A distinctive feature of the claimed utility model is that it additionally introduced the positioning unit of the inspected sample, which allows to obtain images in different positions for subsequent inspection of defects without the need for multiple olnitelnyh devices and improve the reliability of fluoroscopic system.

Description

The utility model relates to the field of fluoroscopy, namely to industrial fluoroscopic systems designed to provide non-destructive testing of various objects for cracks, chips, dents and other defects.

Known x-ray system model SRE MAX company Bosello High Technologies srl [1], which includes a source of x-ray radiation, an x-ray receiver, a rotary table made with the possibility of rotation by 360 degrees, the control panel.

The disadvantage of this system is the high complexity of obtaining x-ray images of the inspected product, due to the need to use additional devices (stands) for positioning the inspected product in order to scan it in various positions. For example, to obtain the required angle of the inspected sample, the operator must lay various devices under it that have different overall characteristics, which significantly increases the complexity of such work. Another disadvantage is the low reliability due to the fact that the inspected sample, in the case of using additional devices, is not fixed on them, which can lead to its capsizing during rotation of the rotary table, and consequently, damage to the fluoroscopic system.

The technical result of the claimed utility model is to reduce the complexity of obtaining x-ray images of the inspected product and increase the reliability of the x-ray installation.

The task to which the claimed utility model is directed is to create a fluoroscopic unit that provides the positioning of the inspected sample to obtain x-ray images on the fluoroscopic unit in the required positions without the need for numerous devices of various overall characteristics.

The problem is solved due to the fact that the x-ray installation containing an x-ray source, an x-ray receiver, a rotary table configured to rotate 360 degrees, the control panel, according to a utility model, further comprises an inspected sample positioning unit, consisting of an inspected sample holder made in the form of a circular faceplate with radial grooves and having a cylindrical pipe perpendicular to the plane of the mounting surface of the plate washers, holder tilt mechanism, consisting of a ring mounted on a support connecting the ring to the turntable by means of a base plate and perpendicular to the plane of the mounting surface of the turntable, the ring has two longitudinal grooves and is connected to the cylindrical tube of the holder of the inspected product by means of a mounting device consisting of a bracket having holes for connection with the longitudinal grooves of the ring, and a cylindrical pipe whose diameter is greater than the diameter of the cylindrical tube of the holder and of the product to be inspected, the cylindrical tube of the holder and the cylindrical tube of the mounting device have holes for their connection by means of screws.

A distinctive feature of the claimed utility model is the positioning unit of the inspected sample, which allows you to change its position without the need for numerous additional devices, which allows you to get x-rays in one operation of installing the inspected sample on the holder. After installing the inspected sample, the operator of the fluoroscopic system has the ability to change its position by rotating with the holder, tilting with the ring, and rotating with the turntable without removing the inspected sample from the holder. In addition, due to the fact that the inspected sample is securely fixed to the holder, and the positioning unit is securely fixed to the turntable, the probability of the overturning of the inspected sample and damage to the fluoroscopic system is eliminated.

Figure 1 shows the appearance of the fluoroscopic unit model SRE MAX.

Figure 2 presents a view in section of a fluoroscopic installation made in accordance with the claimed utility model.

Figure 3 presents the appearance of the tilt mechanism.

Figure 4 presents the appearance of the faceplate.

holder of the inspected product, made in the form of a round faceplate (1),

radial grooves (2),

cylindrical pipe (3),

ring (4),

support (5),

rotary table (6),

base plate (7),

two longitudinal grooves (8),

bracket (9),

cylindrical pipe (10),

holes (11),

holes (12),

x-ray source (13),

X-ray receiver (14),

inspected item (15).

Figure 1 shows a fluoroscopic installation containing an X-ray source (13), an X-ray receiver (14), a rotary table (6) rotatable 360 degrees. The control panel is not presented, since it does not affect the essence of the claimed utility model.

Figure 2 presents the appearance of a fluoroscopic installation with a positioning unit, on which the inspected product (15) is installed. The visible parts of the fluoroscopic installation are shown: an X-ray source (13), an X-ray receiver (14), a rotary table (6), a ring (4), a support (5), a support plate (7), an arm (9). The inspected product (15) is mounted on the positioning unit, consisting of the holder of the inspected product, made in the form of a round faceplate (1) with radial grooves (2) (Fig. 4), on which the inspected sample (15) is mounted, for example, a wheel disk a car. The cylindrical pipe (3) is installed perpendicular to the plane of the mounting surface of the faceplate (1). The holder tilt mechanism consists of a ring (4) and a support (5) connecting the ring (4) to the rotary table (6) by means of a base plate (7), the support (5) is installed perpendicular to the plane of the surface of the rotary table (6). The ring (4) has two longitudinal grooves (8) (Fig. 3) and is connected to the cylindrical tube (3) of the holder of the inspected product by means of a mounting device consisting of a bracket (9) having holes (11) for connection with the longitudinal grooves (8 ) rings (4), and a cylindrical pipe (10), the diameter of which is greater than the diameter of the cylindrical pipe (3) of the holder of the inspected product. The cylindrical tube (3) of the holder and the cylindrical tube (10) of the mounting device have holes (12) for connecting them by screws.

Figure 4 presents a top view of the faceplate (1) with radial grooves (2).

The device operates as follows. The inspected product, for example, the wheel disk of a car, is mounted on the faceplate and secured in any way possible (screw connection is recommended). Then, depending on the required x-ray zone, the wheel disc is rotated at any angle in the range of 360 degrees and secured by screws in various positions. If necessary, change the inclination of the wheel disc relative to the x-ray source by positioning and fixing it on the ring of the tilt mechanism. Then, if necessary, the disk of the wheel fixed on the holder is rotated by means of a rotary table to any angle in the range of 360 degrees. After adjusting the position of the wheel disc, take an X-ray of the disc in the desired position.

Thus, the application of the claimed utility model made it possible to obtain x-ray images of the inspected sample in the necessary positions without the need for additional devices (supports), which significantly reduced the complexity of the process of obtaining x-ray images, and also increased the reliability of the x-ray installation by eliminating the likelihood of capsizing the inspected sample.

Information sources:

1. https://bosello.eu/products/sre-hex/.

Claims (1)

A x-ray installation containing an x-ray source, an x-ray receiver, a rotary table configured to rotate 360 degrees, a control panel, characterized in that it further comprises an inspected sample positioning unit, consisting of an inspected sample holder made in the form of a circular faceplate with radial grooves and having a cylindrical pipe perpendicular to the plane of the mounting surface of the faceplate, the holder tilt mechanism, consisting of A ring mounted on a support connecting the ring to the turntable by means of a base plate and perpendicular to the plane of the mounting surface of the turntable, the ring has two longitudinal grooves and is connected to the cylindrical pipe of the holder of the inspected product by means of a mounting device consisting of a bracket having holes for connection with the longitudinal grooves rings, and a cylindrical pipe, the diameter of which is greater than the diameter of the cylindrical pipe of the holder of the inspected product, the cylindrical pipe holding of Tell and cylindrical tube mounting device are provided with holes for their connection by means of screws.

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