CN215768320U - X-ray flaw detection device - Google Patents

Abstract

An X-ray flaw detection device comprises a mounting base plate; be provided with two curb plates on the mounting plate side by side, be provided with conveying mechanism between two curb plates, mounting plate's top is provided with the carriage, be provided with X ray inspection machine on the carriage, be provided with the power unit that drives X ray inspection machine and remove on the carriage, conveying mechanism's one side is provided with accepts the board, the bottom both ends of accepting the board all are provided with the backup pad, it passes through backup pad and mounting plate fixed connection to accept the board, conveying mechanism and accept and be provided with the upset roller between the board, the upset roller rotates and sets up between two curb plates, be provided with on the curb plate and be used for driving upset roller pivoted servo motor, the centre gripping hole has been seted up on the upset roller, be provided with the grip block in the centre gripping hole, be provided with the first cylinder that is used for driving the grip block and removes on the upset roller. The utility model can drive the panel to turn over, has more comprehensive detection and high operation efficiency, and reduces the process of manual participation.

Description

X-ray flaw detection device

Technical Field

The utility model relates to the technical field of radiographic inspection devices, in particular to an X-ray inspection detection device.

Background

The present ray flaw detector is a nondestructive testing device, which is widely used in industry to judge whether a workpiece is qualified or not, and the detection principle is that when a ray beam with uniform intensity is transmitted to an object, if a defect or a difference exists in the local area of the object, the ray attenuation of the object is changed, so that the transmitted ray intensities of different parts are different, and then the transmitted ray intensity is detected, so as to judge the defect and the material distribution in the object, which is generally divided into an X-ray flaw detector and a gamma-ray flaw detector.

When detecting a flaw to panel, current X-ray flaw detection device can only carry out the work of detecting a flaw to the one side of panel, will adopt the manual work to overturn panel when carrying out the another side and detecting a flaw, has reduced detection efficiency, and the practicality is not strong.

SUMMERY OF THE UTILITY MODEL

Objects of the utility model

In order to solve the technical problems in the background art, the utility model provides an X-ray flaw detection device which can drive a plate to turn over, is more comprehensive in detection and high in operation efficiency, and reduces the process of manual participation.

(II) technical scheme

The utility model provides an X-ray flaw detection device, which comprises an installation bottom plate; be provided with two curb plates on the mounting plate side by side, be provided with conveying mechanism between two curb plates, mounting plate's top is provided with the carriage, the both ends of carriage are fixed respectively and are set up on the curb plate of both sides, be provided with X ray inspection machine on the carriage, be provided with the power unit that drives X ray inspection machine and remove on the carriage, one side of conveying mechanism is provided with accepts the board, the bottom both ends of accepting the board all are provided with the backup pad, and accept the board and pass through backup pad and mounting plate fixed connection, conveying mechanism and accept and be provided with the upset roller between the board, the upset roller rotates and sets up between two curb plates, be provided with the first servo motor that is used for driving upset roller pivoted on the curb plate, the centre gripping hole has radially been seted up along it on the upset roller, be provided with the grip block in the centre gripping hole, be provided with the first cylinder that is used for driving the grip block and removes on the upset roller.

Preferably, conveying mechanism includes driving roller, conveyer belt and second servo motor, and the driving roller is provided with a plurality ofly side by side, and a plurality of driving rollers all rotate the setting between two curb plates, and the conveyer belt cover is established on a plurality of driving rollers, and second servo motor sets up on the curb plate and its output shaft is connected with the driving roller transmission.

Preferably, an installation shell is fixedly arranged on the upper end face of the installation bottom plate, the installation shell is arranged in a downward opening mode, a moving plate is arranged on the inner side of the installation shell in a sliding mode, a plurality of second cylinders used for driving the moving plate to ascend and descend are arranged on the installation shell, a plurality of universal wheels are installed at the bottom end of the moving plate, and through holes for the universal wheels to penetrate through are formed in the installation bottom plate.

Preferably, when the turning roller is in the initial state, the bottom end of the clamping hole is parallel to the upper end face of the bearing plate and the upper end face of the conveying belt.

Preferably, the turning roller is provided with a containing groove for the clamping plate to move in.

Preferably, one end of the bearing plate, which is adjacent to the overturning roller, is provided with a rectangular hole for the first air cylinder to rotate and penetrate through.

Preferably, a cushion pad is arranged on the lower end face of the mounting base plate.

Preferably, the power mechanism is a linear motor.

Preferably, the clamping plate is provided with a first rubber plate, the inner side of the clamping hole is provided with a second rubber plate, and the first rubber plate and the second rubber plate are arranged oppositely.

Compared with the prior art, the technical scheme of the utility model has the following beneficial technical effects: the arranged power mechanism can drive the X-ray flaw detector to move on the sliding frame, so that the detection range of the X-ray flaw detector is expanded, and the detection is more comprehensive; and under the cooperation work of upset roller, first servo motor, grip block and first cylinder, can carry out the turn-over with panel and detect, detection effect is better, and operating efficiency is high, has reduced artifical process of participating in.

Drawings

Fig. 1 is a schematic structural diagram of a first view angle of an X-ray flaw detection apparatus according to the present invention.

Fig. 2 is a schematic structural diagram of a second view angle of an X-ray flaw detection apparatus according to the present invention.

Fig. 3 is an enlarged view of a structure at a in fig. 1.

Reference numerals: 1. mounting a bottom plate; 101. perforating; 2. a side plate; 3. a carriage; 4. an X-ray flaw detector; 5. a power mechanism; 6. turning over the roller; 61. a clamping hole; 611. a containing groove; 7. a first servo motor; 81. a driving roller; 82. a conveyor belt; 83. a second servo motor; 9. a bearing plate; 91. a rectangular hole; 10. a support plate; 11. a clamping plate; 12. a first cylinder; 13. installing a shell; 14. moving the plate; 15. a universal wheel; 16. a second cylinder; 17. a cushion pad; 18. a first rubber sheet; 19. a second rubber sheet.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-3, the X-ray flaw detection device provided by the utility model comprises a mounting base plate 1; the mounting base plate 1 is provided with two side plates 2 side by side, a conveying mechanism is arranged between the two side plates 2, a sliding frame 3 is arranged above the mounting base plate 1, two ends of the sliding frame 3 are respectively and fixedly arranged on the side plates 2 at two sides, an X-ray flaw detector 4 is arranged on the sliding frame 3, a power mechanism 5 for driving the X-ray flaw detector 4 to move is arranged on the sliding frame 3, a bearing plate 9 is arranged at one side of the conveying mechanism, two ends of the bottom of the bearing plate 9 are respectively provided with a supporting plate 10, the bearing plate 9 is fixedly connected with the mounting base plate 1 through the supporting plates 10, an overturning roller 6 is arranged between the conveying mechanism and the bearing plate 9, the overturning roller 6 is rotatably arranged between the two side plates 2, a first servo motor 7 for driving the overturning roller 6 to rotate is arranged on the side plates 2, a clamping hole 61 is radially arranged on the overturning roller 6, and a clamping plate 11 is arranged in the clamping hole 61, the turning roller 6 is provided with a first air cylinder 12 for driving the clamping plate 11 to move.

In an optional embodiment, the conveying mechanism includes a plurality of driving rollers 81, a conveying belt 82 and a second servo motor 83, the driving rollers 81 are arranged side by side, the plurality of driving rollers 81 are all rotatably arranged between the two side plates 2, the conveying belt 82 is sleeved on the plurality of driving rollers 81, the second servo motor 83 is arranged on the side plates 2, and an output shaft of the second servo motor is in transmission connection with the driving rollers 81.

In an alternative embodiment, a mounting housing 13 is fixedly disposed on an upper end surface of the mounting base plate 1, the mounting housing 13 is disposed in a downward opening shape, a moving plate 14 is slidably disposed inside the mounting housing 13, a plurality of second cylinders 16 for driving the moving plate 14 to ascend and descend are disposed on the mounting housing 13, a plurality of universal wheels 15 are mounted at a bottom end of the moving plate 14, and a through hole 101 for the universal wheels 15 to pass through is formed in the mounting base plate 1.

In an alternative embodiment, when the turning roller 6 is in the initial state, the bottom end of the clamping hole 61 is parallel to both the upper end surface of the receiving plate 9 and the upper end surface of the conveying belt 82.

In an alternative embodiment, the turning roller 6 is provided with an accommodating groove 611 for the holding plate 11 to move into.

In an alternative embodiment, a rectangular hole 91 for the first cylinder 12 to rotate through is formed at one end of the bearing plate 9 adjacent to the reversing roller 6.

In an alternative embodiment, a cushion pad 17 is provided on the lower end face of the mounting baseplate 1.

In an alternative embodiment, the power mechanism 5 is a linear motor.

In an alternative embodiment, the clamping plate 11 is provided with a first rubber plate 18, the inner side of the clamping hole 61 is provided with a second rubber plate 19, and the first rubber plate 18 and the second rubber plate 19 are oppositely arranged.

In the working process, firstly, a plate to be detected and detected is placed on a conveying belt 82, a second servo motor 83 is started to work, the second servo motor 83 drives the conveying belt 82 to rotate, the plate is driven to slowly move towards one side of an overturning roller 6, the arranged X-ray flaw detector 4 can detect the upper end face of the plate, the arranged power mechanism 5 can drive the X-ray flaw detector 4 to move on a sliding frame 3, so that the plate can be detected comprehensively, the plate passes through a clamping hole 61 on the overturning roller 6 and moves to the upper end face of a bearing plate 9 under the transmission of the conveying belt 82, when the detection tail end of the plate moves into a clamping hole 61, a first air cylinder 12 is started to work, the first air cylinder 12 drives a clamping plate 11 to move upwards and clamps the plate, and then a first servo motor 7 is started to work, the first servo motor 7 drives one end of the board, which is close to the bearing plate 9, to turn 180 degrees towards one side of the conveying belt 82, the first air cylinder 12 is arranged to loosen the clamping of the end part of the board after the turning operation is finished, then the rotating shaft of the second servo motor 83 is controlled to rotate reversely, the board is driven to slowly move towards one side of the X-ray flaw detector 4, the other side of the board can be detected, when the device needs to be moved, the second air cylinder 16 can be started to work, the second air cylinder 16 drives the moving plate 14 and the universal wheels 15 to simultaneously move downwards until the mounting bottom plate 1 is jacked up, and when the universal wheels 15 are not used, the universal wheels can be driven to move above the mounting bottom plate 1 through the second air cylinder 16, so that the stability of the device is improved.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the utility model and are not to be construed as limiting the utility model. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (9)

1. An X-ray flaw detection device is characterized by comprising a mounting base plate (1); two side plates (2) are arranged on a mounting base plate (1) side by side, a conveying mechanism is arranged between the two side plates (2), a sliding frame (3) is arranged above the mounting base plate (1), two ends of the sliding frame (3) are respectively fixedly arranged on the side plates (2) on the two sides, an X-ray flaw detector (4) is arranged on the sliding frame (3), a power mechanism (5) for driving the X-ray flaw detector (4) to move is arranged on the sliding frame (3), a bearing plate (9) is arranged on one side of the conveying mechanism, supporting plates (10) are respectively arranged at two ends of the bottom of the bearing plate (9), the bearing plate (9) is fixedly connected with the mounting base plate (1) through the supporting plates (10), a turnover roller (6) is arranged between the conveying mechanism and the bearing plate (9), the turnover roller (6) is rotatably arranged between the two side plates (2), a first servo motor (7) for driving the turnover roller (6) to rotate is arranged on the side plates (2), the turning roller (6) is provided with a clamping hole (61) along the radial direction, a clamping plate (11) is arranged in the clamping hole (61), and the turning roller (6) is provided with a first cylinder (12) used for driving the clamping plate (11) to move.

2. The X-ray flaw detection device according to claim 1, wherein the conveying mechanism comprises a plurality of driving rollers (81), a plurality of conveying belts (82) and a second servo motor (83), the plurality of driving rollers (81) are arranged side by side, the plurality of driving rollers (81) are rotatably arranged between the two side plates (2), the conveying belts (82) are sleeved on the plurality of driving rollers (81), the second servo motor (83) is arranged on the side plates (2), and an output shaft of the second servo motor is in transmission connection with the driving rollers (81).

3. The X-ray flaw detection device according to claim 1, characterized in that a mounting case (13) is fixedly arranged on the upper end surface of the mounting base plate (1), the mounting case (13) is arranged in a downward opening shape, a moving plate (14) is slidably arranged on the inner side of the mounting case (13), a plurality of second air cylinders (16) for driving the moving plate (14) to ascend and descend are arranged on the mounting case (13), a plurality of universal wheels (15) are arranged at the bottom end of the moving plate (14), and a through hole (101) for the universal wheels (15) to penetrate through is formed in the mounting base plate (1).

4. The X-ray flaw detection apparatus according to claim 2, wherein when the reversing roller (6) is in the initial state, the bottom end of the holding hole (61) is parallel to both the upper end surface of the receiving plate (9) and the upper end surface of the conveyor belt (82).

5. The X-ray flaw detection apparatus according to claim 4, wherein the reversing roller (6) is provided with a receiving groove (611) into which the holding plate (11) is moved.

6. The X-ray flaw detection device of claim 1, wherein one end of the bearing plate (9) adjacent to the turnover roller (6) is provided with a rectangular hole (91) for the first air cylinder (12) to rotate through.

7. An X-ray flaw detection apparatus according to claim 1, characterized in that a cushion (17) is provided on the lower end face of the mounting base plate (1).

8. An X-ray flaw detection apparatus according to claim 1, characterized in that the power mechanism (5) is a linear motor.

9. An X-ray flaw detection apparatus according to claim 1, characterized in that a first rubber plate (18) is provided on the holding plate (11), a second rubber plate (19) is provided inside the holding hole (61), and the first rubber plate (18) and the second rubber plate (19) are disposed opposite to each other.

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