CN111982937A

CN111982937A - Automatic calibrating installation of X-ray flaw detection

Info

Publication number: CN111982937A
Application number: CN202010874359.7A
Authority: CN
Inventors: 吴鹤林; 吴迁
Original assignee: Daye Flaw Detector Co ltd
Current assignee: Daye Flaw Detector Co ltd
Priority date: 2020-08-26
Filing date: 2020-08-26
Publication date: 2020-11-24
Anticipated expiration: 2040-08-26
Also published as: CN111982937B

Abstract

The invention discloses an automatic X-ray flaw detection calibrating device, which comprises an X-ray flaw detector and a rectangular base, wherein a lifting support structure is arranged on the rectangular base, the X-ray flaw detector is arranged on the lifting support structure, a shielding structure for protecting the X-ray flaw detector is arranged on the lifting support structure, and an article bearing structure is arranged on the upper wall surface of the rectangular base and positioned at the right side of the X-ray flaw detector. Meanwhile, the use position can be adjusted, and the detection position can be adjusted when the article is detected.

Description

Automatic calibrating installation of X-ray flaw detection

Technical Field

The invention relates to the field of X-ray flaw detection, in particular to an automatic X-ray flaw detection calibrating device.

Background

X-ray flaw detection refers to a detection method which utilizes X-rays to penetrate through metal materials, and because of different absorption and scattering effects of the materials on the X-rays, the films are not sensitive to light, and then images with different blackness degrees are formed on the films, so that the conditions of internal defects of the materials are judged.

When metal material article carry out inside examination, in order to guarantee that the inside quality of metal material article is qualified, can use the X-ray inspection mode, traditional X-ray inspection appearance structure singleness, when using, the high unable adjustment support in position, need artifical manual adjustment, and when article were put, the article that need adjust manual adjustment and put use the height, it has certain limitation to lead to the operation of X-ray inspection mode, and after X-ray inspection instrument used, do not have reasonable depositing, lead to X-ray inspection instrument to often receive the damage of colliding with, lead to the loss of X-ray inspection instrument, when serious, lead to X-ray inspection instrument unable normal use, error appears when leading to X-ray inspection instrument examination.

Disclosure of Invention

The invention aims to solve the problems and designs an automatic X-ray flaw detection calibrating device.

The technical scheme of the invention is that the automatic X-ray flaw detection calibrating device comprises an X-ray flaw detector and a rectangular base, wherein a lifting support structure is arranged on the rectangular base, the X-ray flaw detector is mounted on the lifting support structure, a shielding structure for protecting the X-ray flaw detector is arranged on the lifting support structure, and an article bearing structure is arranged on the upper wall surface of the rectangular base and positioned on the right side of the X-ray flaw detector;

the elevating support structure includes: the device comprises a support frame, a first lead screw module and a storage box;

the support frame is installed in rectangular base upper wall, and is close to the left end, first bar recess has been seted up to support frame lateral wall face, first lead screw module is installed inside first bar recess, first lead screw module removes to serve and installs the support, deposit the case and install on the support, rectangular base upper wall just is located the support frame right side and is fixed with a type frame, wall just is close to four corners department on the support and has all seted up first circular through-hole, the annular frame is equipped with in the interpolation of first circular through-hole, wall is installed under the type frame and is run through the guide arm in the annular frame.

The shielding structure comprises: a second lead screw module and a baffle;

the side wall surface of the storage box is provided with a first rectangular through hole, the side wall surface of the storage box and two sides of the first rectangular through hole are provided with second strip-shaped grooves, the second screw modules are respectively arranged in each second strip-shaped groove, a first bracket is jointly arranged on the moving ends of a pair of the second screw modules, the baffle plate is arranged on the first bracket, the lower wall surface of the storage box is provided with a pair of strip-shaped chutes, rollers are inserted in the strip-shaped chutes, a bearing plate is jointly arranged on the pair of rollers, the X-ray flaw detector is arranged on the bearing plate, the upper wall surface in the storage box is provided with a third strip-shaped groove, a strip-shaped slide rail is arranged in the third strip-shaped groove, the strip-shaped slide rail is arranged on a moving wheel, the inner side wall surface of the third strip-shaped groove is provided with, the lower wall surface of the movable wheel is provided with a connecting frame, the connecting frame is connected with an X-ray flaw detector, and a fluorescent screen is fixed on the left side of the rectangular base.

The article carrying structure comprises: the electric sliding rail, the sleeve and the servo motor;

the utility model discloses a support frame, including rectangle base, support frame, electric slide rail, sleeve, stand, servo motor drive end, wall, support frame, electric slide rail, rectangular plate, servo motor drive end, wall, servo motor, support frame, a pair of third bar groove has been seted up on the rectangle base upper wall and is located the support frame left side, electric slide rail installs respectively in every inside the third bar groove, install the rectangular plate on the electric slide rail removal end jointly, the wall all is fixed with the stand on the rectangular plate, the sleeve is installed on the stand, and is a plurality of install the mount on the sleeve jointly, a plurality of circular recesses have all been seted up on the mount, every the circular through-hole of second has all been seted up to.

First movable supporting component comprises first pulley, bar slide and first ejector pin, the wall is located third bar recess both sides and has seted up fourth bar recess under the rectangle base upper wall just is located the rectangular plate, the bar slide is installed inside fourth bar recess, first ejector pin is installed under the rectangular plate the wall just is located fourth bar recess inside, the gyro wheel is installed under first ejector pin the wall, and with bar slide looks overlap joint.

The second removes supporting component and comprises second pulley, annular slide and second ejector pin, set up the annular groove in the circular recess, the annular slide is installed inside the annular groove, the second ejector pin is installed under the brace table the wall and inserts inside the annular groove, the gyro wheel is installed under the second ejector pin the wall and with annular slide looks overlap joint.

The lower wall surface of the rectangular base is fixedly provided with a support column, and a base plate is arranged on the lower wall surface of the support column.

The side wall surface of the sleeve is provided with a first threaded hole, the side wall surface of the upright post is provided with a first threaded groove matched with the first threaded hole, and a first screw matched with the first threaded groove is inserted in the first threaded hole.

The side wall surface of the annular frame is provided with a second threaded hole, the guide rod is provided with a second threaded groove matched with the second threaded hole, and a second screw which is in lap joint with the second threaded groove is inserted in the second threaded hole.

Deposit the case lateral wall and seted up the bar spout, install the gag lever post that inserts in the bar spout on the baffle, deposit the case lateral wall and seted up and run through the mouth, it has transparent glass to run through the interpolation of mouth.

A pair of limiting ports is formed in the support, and a second limiting frame penetrating through the limiting holes is installed on the supporting frame.

According to the automatic X-ray flaw detection calibrating device manufactured by the technical scheme, the lifting support structure is convenient for the X-ray flaw detector to lift and adjust the use height, manual operation is not needed, time and labor are saved in operation, the X-ray flaw detector is shielded and protected through the shielding structure and cannot be blocked from being used, the X-ray flaw detector is exposed when the automatic X-ray flaw detection calibrating device is used and is protected when the automatic X-ray flaw detection calibrating device is not used, an article to be calibrated is placed and supported through the article bearing structure, the use position can be adjusted, and the calibration position can be adjusted when the article is detected conveniently.

Drawings

FIG. 1 is a schematic structural diagram of an automatic X-ray flaw detection calibrating device according to the invention;

fig. 2 is a top view of an automatic X-ray inspection calibrating apparatus according to the present invention.

Fig. 3 is a top view of a support of an automatic X-ray flaw detection calibrating apparatus according to the present invention.

FIG. 4 is a side view of a rectangular plate of an automated X-ray inspection calibrating apparatus according to the present invention.

Fig. 5 is a top view of a fixing frame of an automatic X-ray flaw detection calibrating apparatus according to the present invention.

FIG. 6 is a front cross-sectional view of a storage box of the automatic X-ray inspection calibrating apparatus of the present invention.

Fig. 7 is a front view of a second lead screw module of the automatic X-ray flaw detection calibrating apparatus according to the present invention.

In the figure, 1, an X-ray flaw detector; 2. a rectangular base; 3. a support frame; 4. a first lead screw module; 5. a storage box; 6. a support; 7. folding frame; 8. an annular frame; 9. a guide bar; 10. a baffle plate; 11. a first bracket; 12. a roller; 13. a carrier plate; 14. a strip-shaped slide rail; 15. a moving wheel; 16. a telescopic motor; 17. a connecting frame; 18. a fluorescent screen; 19. an electric slide rail; 20. a sleeve; 21. a second lead screw module; 22. a servo motor; 23. a rectangular plate; 24. a column; 25. a fixed mount; 26. a connecting rod; 27. a support table; 28. a first pulley; 29. a strip-shaped slideway; 30. a first ejector rod; 31. a second pulley; 32. an annular chute; 33. a second ejector rod; 34. a support pillar; 35. a first screw; 36. a second screw; 37. a limiting rod; 38. a second limiting frame.

Detailed Description

The invention is described in detail with reference to the accompanying drawings, and as shown in fig. 1-7, an automatic X-ray flaw detection calibrating device comprises an X-ray flaw detector 1 and a rectangular base 2, wherein a lifting support structure is arranged on the rectangular base 2, the X-ray flaw detector 1 is mounted on the lifting support structure, a shielding structure for protecting the X-ray flaw detector 1 is arranged on the lifting support structure, and an article bearing structure is arranged on the upper wall surface of the rectangular base 2 and positioned at the right side of the X-ray flaw detector 1; the elevating support structure comprises: the device comprises a support frame 3, a first lead screw module 4 and a storage box 5; the support frame 3 is arranged on the upper wall surface of the rectangular base 2 and is close to the left end, a first strip-shaped groove is formed in the side wall surface of the support frame 3, the first lead screw module 4 is arranged in the first strip-shaped groove, a support 6 is arranged at the moving end of the first lead screw module 4, the storage box 5 is arranged on the support 6, a folding frame 7 is fixed on the upper wall surface of the rectangular base 2 and is positioned on the right side of the support frame 3, first circular through holes are formed in the upper wall surface of the support 6 and are close to the four corners, an annular frame 8 is inserted into the first circular through holes, and a guide rod 9 penetrating through the annular frame 8 is arranged; the shielding structure comprises: a second screw module 21 and a baffle 10; a first rectangular through hole is arranged on the side wall surface of the storage box 5, second strip-shaped grooves are arranged on the side wall surface of the storage box 5 and positioned at two sides of the first rectangular through hole, second screw modules 21 are respectively arranged in each second strip-shaped groove, a first bracket 11 is jointly arranged on the moving ends of a pair of second screw modules 21, a baffle 10 is arranged on the first bracket 11, a pair of strip-shaped chutes are arranged on the lower wall surface of the storage box 5, rollers 12 are inserted in the strip-shaped chutes, a bearing plate 13 is jointly arranged on the pair of rollers 12, the X-ray flaw detector 1 is arranged on the bearing plate 13, a third strip-shaped groove is arranged on the upper wall surface in the storage box 5, a strip-shaped slide rail 14 is arranged in the third strip-shaped groove, a movable wheel 15 is arranged on the strip-shaped slide rail 14, a telescopic motor 16 is arranged on the side wall surface in the third, the connecting frame 17 is connected with the X-ray flaw detector 1, and a fluorescent screen 18 is fixed on the left side of the rectangular base 2; the article carrying structure includes: an electric slide rail 19, a sleeve 20 and a servo motor 22; a pair of third strip-shaped grooves is formed in the upper wall surface of the rectangular base 2 and positioned on the left side of the support frame 3, the electric slide rails 19 are respectively installed inside each third strip-shaped groove, a rectangular plate 23 is installed on the moving end of each electric slide rail 19 together, an upright post 24 is fixed on the upper wall surface of each rectangular plate 23 and close to the four corners, sleeves 20 are installed on the upright posts 24, a fixing frame 25 is installed on each sleeve 20 together, a plurality of circular grooves are formed in each fixing frame 25, a second circular through hole is formed in the lower wall surface of each circular groove, a servo motor 22 is installed inside each second circular through hole, a connecting rod 26 is installed on the driving end of the servo motor 22, a support table 27 which is horizontal to the fixing frame 25 is installed on the connecting rod 26, a first movable support component is arranged on the lower wall surface of; the first movable supporting assembly is composed of a first pulley 28, a strip-shaped slideway 29 and a first ejector rod 30, wherein the upper wall surface of the rectangular base 2, the lower wall surface of the rectangular plate 23, the third strip-shaped groove and the fourth strip-shaped groove are respectively formed in two sides of the strip-shaped slideway 29, the first ejector rod 30 is installed on the lower wall surface of the rectangular plate 23 and is positioned in the fourth strip-shaped groove, and the roller 12 is installed on the lower wall surface of the first ejector rod 30 and is in lap joint with the strip-shaped slideway 29; the second movable supporting assembly consists of a second pulley 31, an annular slide way 32 and a second ejector rod 33, an annular groove is formed in the circular groove, the annular slide way 32 is installed in the annular groove, the second ejector rod 33 is installed on the lower wall surface of the supporting platform 27 and inserted into the annular groove, and the roller 12 is installed on the lower wall surface of the second ejector rod 33 and is overlapped with the annular slide way 32; a support column 34 is fixed on the lower wall surface of the rectangular base 2, and a cushion plate is arranged on the lower wall surface of the support column 34; a first threaded hole is formed in the side wall surface of the sleeve 20, a first threaded groove matched with the first threaded hole is formed in the side wall surface of the upright post 24, and a first screw 35 matched with the first threaded groove is inserted into the first threaded hole; a second threaded hole is formed in the side wall surface of the annular frame 8, a second threaded groove matched with the second threaded hole is formed in the guide rod 9, and a second screw 36 lapped with the second threaded groove is inserted into the second threaded hole; a strip-shaped sliding groove is formed in the side wall surface of the storage box 5, a limiting rod 37 inserted into the strip-shaped sliding groove is installed on the baffle 10, a through hole is formed in the side wall surface of the storage box 5, and transparent glass is inserted into the through hole; a pair of limiting ports is arranged on the support 6, and a second limiting frame 38 penetrating through the limiting holes is arranged on the support frame 3.

The X-ray flaw detector is characterized by comprising an X-ray flaw detector 1 and a rectangular base 2, wherein a lifting support structure is arranged on the rectangular base 2, the X-ray flaw detector 1 is arranged on the lifting support structure, a shielding structure for protecting the X-ray flaw detector 1 is arranged on the lifting support structure, and an article bearing structure is arranged on the upper wall surface of the rectangular base 2 and positioned on the right side of the X-ray flaw detector 1; the elevating support structure comprises: the device comprises a support frame 3, a first lead screw module 4 and a storage box 5; the support frame 3 is arranged on the upper wall surface of the rectangular base 2 and is close to the left end, a first strip-shaped groove is formed in the side wall surface of the support frame 3, the first lead screw module 4 is arranged in the first strip-shaped groove, the moving end of the first lead screw module 4 is provided with a support 6, the storage box 5 is arranged on the support 6, the upper wall surface of the rectangular base 2 and positioned on the right side of the support frame 3 are fixedly provided with a folding frame 7, the upper wall surface of the support 6 and close to the four corners are respectively provided with a first circular through hole, an annular frame 8 is inserted into the first circular through hole, the lower wall surface of the folding frame 7 is provided with a guide rod 9 penetrating through the annular frame 8, the lifting support structure is convenient for the X-ray flaw detector to lift and adjust the use height, manual operation is not needed, the operation is time-saving and labor-saving, the X-ray flaw detector is, protect it when not using, through article bearing structure, place the bearing to the article that needs the examination, can adjust the service position simultaneously, can adjust the examination position when the article of being convenient for is examined and determine the position.

In the embodiment, the X-ray flaw detector comprises an X-ray flaw detector 1 and a rectangular base 2, wherein a lifting support structure is arranged on the rectangular base 2, the X-ray flaw detector 1 is arranged on the lifting support structure, a shielding structure for protecting the X-ray flaw detector 1 is arranged on the lifting support structure, and an article bearing structure is arranged on the upper wall surface of the rectangular base 2 and positioned on the right side of the X-ray flaw detector 1;

the elevating support structure comprises: the device comprises a support frame 3, a first lead screw module 4 and a storage box 5;

the support frame 3 is arranged on the upper wall surface of the rectangular base 2 and is close to the left end, a first strip-shaped groove is formed in the side wall surface of the support frame 3, the first lead screw module 4 is arranged in the first strip-shaped groove, a support 6 is arranged at the moving end of the first lead screw module 4, the storage box 5 is arranged on the support 6, a folding frame 7 is fixed on the upper wall surface of the rectangular base 2 and is positioned on the right side of the support frame 3, first circular through holes are formed in the upper wall surface of the support 6 and are close to the four corners, an annular frame 8 is inserted into the first circular through holes, and a guide rod 9 penetrating through the annular frame 8 is arranged;

it should be noted that: support frame 3 plays the supporting role, a be used for supporting first lead screw module 4, first lead screw module 4 erects and puts the installation, so first lead screw module 4 removes the end and can reciprocate, thereby the height is used in the adjustment, support 6 on first lead screw module 4 removes the end plays the supporting role, a box 5 is deposited in the support, it is used for protecting X-ray flaw detector 1 to deposit box 5, and folded type frame 7 plays to shelter from and deposits box 5 top and support frame 3, guide arm 9 on folded type frame 7 runs through the annular frame 8 in the first circular through-hole on support 6, when support 6 reciprocates, play limiting displacement, when support 6 reciprocates, can not take place the slope.

The shielding structure comprises: a second screw module 21 and a baffle 10;

a first rectangular through hole is arranged on the side wall surface of the storage box 5, second strip-shaped grooves are arranged on the side wall surface of the storage box 5 and positioned at two sides of the first rectangular through hole, second screw modules 21 are respectively arranged in each second strip-shaped groove, a first bracket 11 is jointly arranged on the moving ends of a pair of second screw modules 21, a baffle 10 is arranged on the first bracket 11, a pair of strip-shaped chutes are arranged on the lower wall surface of the storage box 5, rollers 12 are inserted in the strip-shaped chutes, a bearing plate 13 is jointly arranged on the pair of rollers 12, the X-ray flaw detector 1 is arranged on the bearing plate 13, a third strip-shaped groove is arranged on the upper wall surface in the storage box 5, a strip-shaped slide rail 14 is arranged in the third strip-shaped groove, a movable wheel 15 is arranged on the strip-shaped slide rail 14, a telescopic motor 16 is arranged on the side wall surface in the third, the connecting frame 17 is connected with the X-ray flaw detector 1, and a fluorescent screen 18 is fixed on the left side of the rectangular base 2;

it should be noted that: the first rectangular through hole on the storage box 5 is convenient for the X-ray flaw detector 1 to be exposed, and the second lead screw module 21 is vertically arranged on the storage box 5, so that the moving end of the second lead screw module 21 can move up and down to drive the baffle plate 10 on the first support 11 to move up and down, when the moving end of the second lead screw module 21 moves up, the baffle plate 10 is driven to move up, so that the first rectangular through hole is exposed, thereby the X-ray flaw detector 1 can be conveniently used, when the moving end of the second lead screw module 21 descends, the baffle plate 10 is driven to fall to shield the first rectangular through hole, then the moving wheel 15 on the strip-shaped slide rail 14 is connected with the driving end of the telescopic motor 16, the moving wheel 15 can move on the strip-shaped slide rail 14, so that when the driving end of the telescopic motor 16 is telescopic, the moving wheel 15 can be pushed to move, and when, when the driving end of the telescopic motor 16 is contracted, the movable wheel 15 is driven to move rightwards, so that the X-ray flaw detector 1 on the connecting frame 17 moves leftwards and rightwards, the lower end of the X-ray flaw detector 1 is connected with the roller 12, the X-ray flaw detector 1 cannot be prevented from moving leftwards and rightwards, when the X-ray flaw detector 1 moves leftwards, the X-ray flaw detector 1 can conveniently extend out of the first rectangular through hole, the X-ray flaw detector 1 can be conveniently used, when the X-ray flaw detector 1 moves rightwards, the X-ray flaw detector 1 can extend into the storage box 5 to protect the X-ray flaw detector 1, and meanwhile, the fluorescent screen 18 aims to enable X-rays to penetrate through an object to be detected, rays with different intensities are projected onto fluorescent screens coated with fluorescent. We can observe the defect image directly from the phosphor screen.

The article carrying structure includes: an electric slide rail 19, a sleeve 20, a bearing 21 and a servo motor 22;

a pair of third strip-shaped grooves is formed in the upper wall surface of the rectangular base 2 and positioned on the left side of the support frame 3, the electric slide rails 19 are respectively installed inside each third strip-shaped groove, a rectangular plate 23 is installed on the moving end of each electric slide rail 19 together, an upright post 24 is fixed on the upper wall surface of each rectangular plate 23 and close to the four corners, sleeves 20 are installed on the upright posts 24, a fixing frame 25 is installed on each sleeve 20 together, a plurality of circular grooves are formed in each fixing frame 25, a second circular through hole is formed in the lower wall surface of each circular groove, a servo motor 22 is installed inside each second circular through hole, a connecting rod 26 is installed on the driving end of the servo motor 22, a support table 27 which is horizontal to the fixing frame 25 is installed on the connecting rod 26, a first movable support component is arranged on the lower wall surface of;

it should be noted that: the movable end of the electric slide rail 19 can move, and the electric slide rail 19 moves longitudinally, so that the movable end of the electric slide rail 19 can move back and forth to drive the fixing frame 25 supported by the sleeve 20 on the upright post 24 on the rectangular plate 23 to move back and forth, the sleeve 20 can be pulled on the upright post 24 to adjust the use height of the sleeve 20, the use height of the fixing frame 25 can be adjusted conveniently according to the height of the fixing frame 25, the use height of the X-ray flaw detector 1 can be adjusted along with the height of the object, the supporting table 27 supported by the connecting rod 26 on the servo motor 22 is convenient for placing the object, the driving end of the servo motor 22 can rotate simultaneously, the object can rotate conveniently, during detection, no dead angle exists in the 360-degree horizontal direction, the electric slide rail 19 moves back and forth, the objects on the plurality of supporting tables 27 can be detected by the X-ray, the checked-out articles are taken out in sequence, and the support platform 27 is used for placing new checked-out articles again.

The first movable supporting assembly is composed of a first pulley 28, a strip-shaped slideway 29 and a first ejector rod 30, wherein the upper wall surface of the rectangular base 2, the lower wall surface of the rectangular plate 23, the third strip-shaped groove and the fourth strip-shaped groove are respectively formed in two sides of the strip-shaped slideway 29, the first ejector rod 30 is installed on the lower wall surface of the rectangular plate 23 and is positioned in the fourth strip-shaped groove, and the roller 12 is installed on the lower wall surface of the first ejector rod 30 and is in lap joint with the strip-shaped slideway 29;

it should be noted that: the first pulley 28 on the first ejector pin 30 of the lower wall surface of the rectangular plate 23 is in lap joint with the strip-shaped slide way 29, and moves on the rectangular plate 23, and the first pulley 28 rotates on the strip-shaped slide rail 14, so that the rectangular plate 23 is not hindered from moving, and the rectangular plate 23 is supported.

The second movable supporting assembly consists of a second pulley 31, an annular slide way 32 and a second ejector rod 33, an annular groove is formed in the circular groove, the annular slide way 32 is installed in the annular groove, the second ejector rod 33 is installed on the lower wall surface of the supporting platform 27 and inserted into the annular groove, and the roller 12 is installed on the lower wall surface of the second ejector rod 33 and is overlapped with the annular slide way 32;

it should be noted that: the roller 12 on the second ejector pin 33 on the lower wall surface of the support platform 27 is inserted into the annular groove, so that when the support platform 27 rotates, the second ejector pin 33 drives the second pulley 31 to move in the annular slide way 32, and therefore when the support platform 27 rotates, the support platform 27 is not obstructed in use, and the support platform 27 is supported.

As a preferred technical solution, further, the lower wall surface of the rectangular base 2 is fixed with the supporting column 34, and the lower wall surface of the supporting column 34 is provided with a backing plate; which is used to support the device by means of support posts 34.

As a preferred technical solution, further, a first threaded hole is formed in a side wall surface of the sleeve 20, a first threaded groove matched with the first threaded hole is formed in a side wall surface of the column 24, and a first screw 35 matched with the first threaded groove is inserted into the first threaded hole; after the sleeve 20 is pulled to adjust the height through the first screw 35, the sleeve 20 is fixed, and the height of the fixed sleeve 20 and the fixed frame 25 is reached.

As a preferable technical scheme, further, a second threaded hole is formed in the side wall surface of the annular frame 8, a second threaded groove matched with the second threaded hole is formed in the guide rod 9, and a second screw 36 overlapped with the second threaded groove is inserted into the second threaded hole; the second screw 36 is convenient to be fixedly connected with the guide rod 9 and plays a role of supporting the support 6.

As a preferred technical scheme, further, a strip-shaped chute is formed in the side wall surface of the storage box 5, a limiting rod 37 inserted into the strip-shaped chute is mounted on the baffle 10, a through hole is formed in the side wall surface of the storage box 5, and transparent glass is inserted into the through hole; the stopper rod 37 functions as a stopper 10.

As a preferred technical scheme, more closely, a pair of limiting ports is arranged on the support 6, and a second limiting frame 38 penetrating through the limiting holes is arranged on the support frame 3; the second stopper frame 38 functions to support the stopper support 6.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. An automatic X-ray flaw detection calibrating device comprises an X-ray flaw detector (1) and a rectangular base (2), and is characterized in that a lifting support structure is arranged on the rectangular base (2), the X-ray flaw detector (1) is mounted on the lifting support structure, a shielding structure for protecting the X-ray flaw detector (1) is arranged on the lifting support structure, and an article bearing structure is arranged on the upper wall surface of the rectangular base (2) and positioned on the right side of the X-ray flaw detector (1);

the elevating support structure includes: support frame (3), first lead screw module (4) and deposit case (5).

Support frame (3) are installed in rectangular base (2) wall face, and are close to the left end, first bar groove has been seted up to support frame (3) side wall face, install inside first bar groove first lead screw module (4), install support (6) on first lead screw module (4) removal end, deposit case (5) and install on support (6), rectangular base (2) wall face just is located support frame (3) right side and is fixed with a type frame (7), support (6) wall face just is close to four corners department and has all seted up first circular through-hole, annular frame (8) are equipped with in the interpolation of first circular through-hole, guide arm (9) in running through annular frame (8) are installed to a type frame (7) lower wall face.

2. An automated X-ray inspection verification apparatus as claimed in claim 1, wherein the shielding structure comprises: a second screw module (21) and a baffle (10);

the X-ray flaw detector is characterized in that a first rectangular through hole is formed in the side wall surface of the storage box (5), second strip-shaped grooves are formed in the two sides of the first rectangular through hole and are formed in the side wall surface of the storage box (5), the second lead screw modules (21) are respectively installed in each second strip-shaped groove, a pair of the second lead screw modules (21) are jointly installed at the moving end of each first support (11), the baffle (10) is installed on each first support (11), a pair of strip-shaped sliding grooves are formed in the lower wall surface of the storage box (5), rollers (12) are inserted in the strip-shaped sliding grooves, bearing plates (13) are jointly installed on the pair of rollers (12), the X-ray flaw detector (1) is installed on each bearing plate (13), a third strip-shaped groove is formed in the upper wall surface of the storage box (5), a strip-shaped sliding rail (14) is installed in each third strip-shaped groove, flexible motor (16) are installed to third bar recess inside wall face, flexible motor (16) drive end is connected with removal wheel (15), remove wheel (15) lower wall face and install link (17), link (17) are connected with X-ray flaw detector (1), rectangle base (2) left side is fixed with fluorescent screen (18).

3. An automated X-ray inspection verification apparatus as claimed in claim 1 wherein the article carrying structure comprises: an electric slide rail (19), a sleeve (20) and a servo motor (22);

the upper wall surface of the rectangular base (2) is positioned on the left side of the support frame (3) and is provided with a pair of third strip-shaped grooves, the electric sliding rails (19) are respectively arranged inside each third strip-shaped groove, the moving ends of the electric sliding rails (19) are jointly provided with rectangular plates (23), the upper wall surface of each rectangular plate (23) is close to four corners and is fixedly provided with stand columns (24), the sleeves (20) are arranged on the stand columns (24), a plurality of fixing frames (25) are jointly arranged on the sleeves (20), the fixing frames (25) are respectively provided with a plurality of circular grooves, the lower wall surface of each circular groove is provided with a second circular through hole, the servo motor (22) is arranged inside each second circular through hole, the driving end of the servo motor (22) is provided with a connecting rod (26), the connecting rod (26) is provided with a supporting platform (27) which is horizontal to the fixing frame (25), the lower wall surface of the rectangular plate (23) is provided with a first movable supporting component, and the lower wall surface of the supporting platform (27) is provided with a second movable supporting component.

4. The automatic X-ray flaw detection calibrating device according to claim 3, wherein the first movable supporting assembly is composed of a first pulley (28), a strip-shaped slideway (29) and a first ejector rod (30), the upper wall surface of the rectangular base (2) and the lower wall surface of the rectangular plate (23) are positioned on two sides of the third strip-shaped groove, fourth strip-shaped grooves are formed in the two sides of the third strip-shaped groove, the strip-shaped slideway (29) is installed in the fourth strip-shaped grooves, the first ejector rod (30) is installed on the lower wall surface of the rectangular plate (23) and is positioned in the fourth strip-shaped grooves, and the roller (12) is installed on the lower wall surface of the first ejector rod (30) and is in lap joint with the strip-shaped slideway (29).

5. The automatic X-ray flaw detection calibrating device according to claim 3, wherein the second movable supporting assembly is composed of a second pulley (31), an annular slide way (32) and a second ejector rod (33), an annular groove is formed in the circular groove, the annular slide way (32) is installed inside the annular groove, the second ejector rod (33) is installed on the lower wall surface of the supporting platform (27) and inserted into the annular groove, and the roller (12) is installed on the lower wall surface of the second ejector rod (33) and is overlapped with the annular slide way (32).

6. The automatic X-ray flaw detection calibrating device according to claim 1, wherein a supporting column (34) is fixed to the lower wall of the rectangular base (2), and a backing plate is mounted on the lower wall of the supporting column (34).

7. The automatic X-ray flaw detection verification device according to claim 3, wherein a first threaded hole is formed in a side wall surface of the sleeve (20), a first threaded groove matched with the first threaded hole is formed in a side wall surface of the upright post (24), and a first screw (35) matched with the first threaded groove is inserted into the first threaded hole.

8. The automatic X-ray flaw detection verification device according to claim 1, wherein a second threaded hole is formed in a side wall surface of the annular frame (8), a second threaded groove matched with the second threaded hole is formed in the guide rod (9), and a second screw (36) overlapped with the second threaded groove is inserted into the second threaded hole.

9. The automatic X-ray flaw detection calibrating device according to claim 1, wherein a strip-shaped sliding groove is formed in the side wall surface of the storage box (5), a limiting rod (37) inserted into the strip-shaped sliding groove is mounted on the baffle (10), a through hole is formed in the side wall surface of the storage box (5), and transparent glass is inserted into the through hole.

10. The automatic X-ray flaw detection calibrating device according to claim 1, wherein a pair of limiting ports are formed in the support (6), and a second limiting frame (38) penetrating through the limiting holes is mounted on the support frame (3).