CN203025119U - 360-degree rotary type X-ray detection platform - Google Patents

Abstract

The utility model provides a 360-degree rotary type X-ray detection platform. An outer rotary table and an inner rotary table are respectively arranged on a base; the outer rotary table is fixedly provided with a high-frequency high-voltage generator and an oil pump; the inner rotary table is fixedly provided with an intensifier transmission mechanism assembly and an X-ray transmission mechanism assembly; and the inner and outer rotary tables rotate around a workpiece to be detected under the driving of respective servo motors to carry out detection work. The device adopts a double-layered rotary tray mechanism and the weight of each tray is reduced, so that the problem that the self gravity of a one-layered tray is too great and the inertia is too high can be solved, and the starting and the stopping are flexible and reliable relative to the one-layered tray. A detection manner that the rotation of an X-ray tube and an image is intensified and the workpiece keeps static and immobile is adopted so that real-time image nondestructive testing of valuable articles or hazardous articles which are not suitable for rotating on the rotary table is realized.

Description

360 ° of swinging X ray detection platform

Technical field

The utility model relates to a kind of X ray the cannot-harm-detection device, especially relates to a kind of 360 ° of swinging X ray detection platform.

Background technology

Present X ray Non-Destructive Testing stage apparatus commonly used is all that workpiece is positioned on rotating disk and rotates, and recycling C type arm assembly sets up image intensifier and X-ray tube detects workpiece.This kind detection platform device is inapplicable for requiring the fixing testing environment of workpiece.

Summary of the invention

Problem for existing X ray Non-Destructive Testing stage apparatus existence, the utility model provides a kind of asking with double-layer back to carry simultaneously booster assembly of drive gear, X-ray tube assembly of drive gear, cooling device and high pressure generator on dish, workpiece is fixed on 360 ° of swinging X ray detection platform completing detection in the middle of equipment.

Addressing the above problem the technical scheme of taking is:

a kind of 360 ° of swinging X ray detection platform, it is characterized in that: base 1 is fixed on base web joint component 64, be provided with rubber cushion 2 between base 1 and base web joint component 64, the outer shroud of I extra flute profile four-point contact ball 3 is fixed on base 1, the interior ring of I extra flute profile four-point contact ball 3 is outer rotary table 8 fixedly, 8 generator seat components 24 and 1 oil pump fixed seat 19 of being respectively used to fix two high-frequency and high-voltage generators 23 and an oil pump 11 have been fixed above outer rotary table 8, two the high-tension cable guiding device components 12 adjacent with high-frequency and high-voltage generator 23 are fixed on outer rotary table 8, the external stability outer ring motor support base 5 of outer rotary table 8, fixing planetary reduction gear 6 on outer ring motor support base 5, the tail end of planetary reduction gear 6 is installed outer servomotor 7, outer ring gear 4 is installed on the head shaft of planetary reduction gear 6, outer ring gear 4 is meshed with the tooth of I extra flute profile four-point contact ball 3 outer shrouds, the outer shroud of II extra flute profile four-point contact ball 17 is fixed on the inboard of base 1, be fixed wtih inner rotary table 18 above the interior ring of II extra flute profile four-point contact ball 17, one side of inner rotary table 18 is installed inner ring motor support base 15, fixing planetary reducer 14 on inner ring motor support base 15, servomotor 13 in the tail end of planetary reducer 14 is fixing, fixing inner ring gear 16 on the head shaft of planetary reducer 14, the tooth of inner ring gear 16 and II extra flute profile four-point contact ball 17 is meshed, booster assembly of drive gear 9 and X ray assembly of drive gear 10 for detection of the detected workpiece 21 that is positioned at the device center are fixed on inner rotary table 18, between outer rotary table 8 and II extra flute profile four-point contact ball 17,180 °, interval is connecting two internal and external disk pull bar components 22, the surrounding of outer rotary table 8 has been installed three groups of slip row support components 25, lower end and the ground of slip row support component 25 are fixed, on slip row support component 25, carry the wire guide bracket component 26 that connection cable is used,

booster assembly of drive gear 9 is by image intensifier base plate 27, image intensifier lifting line slide rail 28, image intensifier end limited block 29, image intensifier leading screw bearing 30, image intensifier stand component 31, image intensifier 32, image intensifier slide plate component 33, image intensifier web joint 34, image intensifier lifting nut 35, image intensifier follower gear 36, image intensifier driving gear 37, image intensifier lifting motor support 38, image intensifier servo deceleration motor 39, image intensifier elevating screw 40, line slide rail 41 is adjusted in the image intensifier left and right, image intensifier side-to-side movement tooth bar 42, image intensifier horizontal adjustment pinion wheel 43 and image intensifier tangential movement reducing motor 44 form and are fixed on outer rotary table 8, the concrete structure of booster assembly of drive gear 9 is: booster assembly of drive gear 9 below be provided with the image intensifier base plate 27 that is connected with outer rotary table 8, two image intensifier left and right adjustment line slide rails 41 of parallel installation and an image intensifier side-to-side movement tooth bar 42 on image intensifier base plate 27, still image booster stand component 31 on line slide rail 41 is adjusted in the image intensifier left and right, installation diagram image intensifier tangential movement reducing motor 44 on image intensifier stand component 31 bottom plates, installation diagram image intensifier horizontal adjustment pinion wheel 43 on the lower end output shaft of image intensifier tangential movement reducing motor 44, image intensifier horizontal adjustment pinion wheel 43 is meshed with image intensifier side-to-side movement tooth bar 42, two image intensifier lifting line slide rails 28 that are parallel to each other are installed on image intensifier stand component 31, installation diagram image intensifier slide plate component 33 on image intensifier lifting line slide rail 28, the upper surface installation diagram image intensifier web joint 34 of image intensifier slide plate component 33, image intensifier 32 is connected with image intensifier slide plate component 33 by image intensifier web joint 34, image intensifier stand component 31 an image intensifier leading screw bearing 30 that still image booster elevating screw 40 be used for to be installed respectively is installed up and down, image intensifier lifting nut 35 is fixed on the back side of image intensifier slide plate component 33 vertical planes and screws with image intensifier elevating screw 40, the upper end installation diagram image intensifier follower gear 36 of image intensifier elevating screw 40, image intensifier stand component 31 back side, upper end still image booster lifting motor supports 38, still image booster servo deceleration motor 39 on image intensifier lifting motor support 38, installation diagram image intensifier driving gear 37 on image intensifier servo deceleration motor 39 upper end output shafts, image intensifier driving gear 37 and 36 engagements of image intensifier follower gear, article two, two image intensifier end limited blocks 29 are installed respectively at the two ends of image intensifier left and right adjustment line slide rail 41, image intensifier end limited block 29 is fixed on image intensifier base plate 27,

X ray assembly of drive gear 10 is by X-ray tube base plate 45, X ray pipe end limited block 46, X-ray tube lifting linear slide rail 47, X-ray tube 48, X ray pipe support 49, X-ray tube elevating screw bearing component 50, X-ray tube stand component 51, X-ray tube tube head lifter slide 52, X-ray tube tube head lead blocks 53, X-ray tube lifting nut 54, X-ray tube lifting follower gear 55, X-ray tube lifting driving gear 56, X-ray tube lifting motor support 57, X-ray tube lifting servomotor 58, X-ray tube elevating screw 59, X-ray tube horizontal adjustment linear slide rail 60, X-ray tube horizontal adjustment tooth bar 61, X-ray tube horizontal adjustment pinion wheel 62, X-ray tube horizontal adjustment reducing motor 63 forms, the concrete structure of X ray assembly of drive gear 10 is: X ray assembly of drive gear 10 below be provided with the X-ray tube base plate 45 that is connected with outer rotary table 8, two X-ray tube horizontal adjustment linear slide rails 60 of parallel installation and an X-ray tube horizontal adjustment tooth bar 61 on X-ray tube base plate 45, X-ray tube stand component 51 is installed on X-ray tube horizontal adjustment linear slide rail 60, X-ray tube horizontal adjustment reducing motor 63 is installed in the lower end of X-ray tube stand component 51, X-ray tube horizontal adjustment reducing motor 63 lower ends are X-ray tube horizontal adjustment pinion wheel 62 fixedly, ray tube horizontal adjustment pinion wheel 62 and 61 engagements of X-ray tube horizontal adjustment tooth bar, two X-ray tube lifting linear slide rails 47 that are parallel to each other are installed on X-ray tube stand component 51, the X-ray tube tube head lifter slide 52 that is used for connecting X ray pipe support 49 is installed in X-ray tube lifting linear slide rail 47 tops, X-ray tube 48 is fixed on X ray pipe support 49, an X-ray tube tube head lead that is used for restriction x-ray bombardment angle has been installed on the window of X ray pipe support 49 has been blocked 53, respectively the installing up and down one the fixedly X-ray tube elevating screw bearing component 50 of X-ray tube elevating screw 59 be used for to be installed of X-ray tube stand component 51, X-ray tube lifting nut 54 is arranged on the back side of X-ray tube tube head lifter slide 52 vertical planes and screws with X-ray tube elevating screw 59, X-ray tube lifting follower gear 55 is installed in the upper end of X-ray tube elevating screw 59, the back side, upper end of X-ray tube stand component 51 is X-ray tube lifting motor support 57 fixedly, fixing X-ray tube lifting servomotor 58 on X-ray tube lifting motor support 57, X-ray tube lifting driving gear 56 is installed on the output shaft of X-ray tube lifting servomotor 58 upper ends, X-ray tube lifting driving gear 56 screws with X-ray tube lifting follower gear 55, article two, an X ray pipe end limited block 46 is respectively installed at the two ends of X-ray tube horizontal adjustment linear slide rail 60, X ray pipe end limited block 46 and X-ray tube horizontal adjustment linear slide rail 60 are fixed on X-ray tube base plate 45, the receiving plane of image intensifier 32 is relative with the window of X-ray tube 48.

The beneficial effects of the utility model: the utility model adopts the double-layer back disc mechanism that asks, and reduces the weight of each pallet, has solved the one way pallet because the too high problem of the excessive inertia of deadweight, starts to stop with respect to the single level trays flexibility and reliability.The utility model adopts X-ray tube and figure image intensifying revolution and workpiece keeps standing motionless detection mode, the real time imagery Non-Destructive Testing that has solved some valuables that should not rotate or dangerous material on turntable.

Description of drawings

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the left view of Fig. 1;

Fig. 3 is the vertical view of Fig. 1;

Fig. 4 is the structural representation of booster assembly of drive gear in the utility model;

Fig. 5 is the left view of Fig. 4;

Fig. 6 is the vertical view of Fig. 4;

Fig. 7 is the structural representation of X ray assembly of drive gear in the utility model;

Fig. 8 is the left view of Fig. 7;

Fig. 9 is the vertical view of Fig. 7.

In figure:

base 1, rubber cushion 2, I extra flute profile four-point contact ball 3, outer ring gear 4, outer ring motor support base 5, planetary reduction gear 6, outer servomotor 7, outer rotary table 8, booster assembly of drive gear 9, X ray assembly of drive gear 10, oil pump 11, high-tension cable guiding device component 12, interior servomotor 13, planetary reducer 14, inner ring motor support base 15, inner ring gear 16, II extra flute profile four-point contact ball 17, inner rotary table 18, oil pump fixed seat 19, high-tension cable 20, detected workpiece 21, internal and external disk pull bar component 22, high-frequency and high-voltage generator 23, generator seat component 24, slip row support component 25, wire guide bracket component 26, image intensifier base plate 27, image intensifier lifting line slide rail 28, image intensifier end limited block 29, image intensifier leading screw bearing 30, image intensifier stand component 31, image intensifier 32, image intensifier slide plate component 33, image intensifier web joint 34, image intensifier lifting nut 35, image intensifier follower gear 36, image intensifier driving gear 37, image intensifier lifting motor support 38, image intensifier servo deceleration motor 39, image intensifier elevating screw 40, line slide rail 41 is adjusted in the image intensifier left and right, image intensifier side-to-side movement tooth bar 42, image intensifier horizontal adjustment pinion wheel 43, image intensifier tangential movement reducing motor 44, X-ray tube base plate 45, X ray pipe end limited block 46, X-ray tube lifting linear slide rail 47, X-ray tube 48, X ray pipe support 49, X-ray tube elevating screw bearing component 50, X-ray tube stand component 51, X-ray tube tube head lifter slide 52, X-ray tube tube head lead blocks 53, X-ray tube lifting nut 54, X-ray tube lifting follower gear 55, X-ray tube lifting driving gear 56, X-ray tube lifting motor support 57, X-ray tube lifting servomotor 58, X-ray tube elevating screw 59, X-ray tube horizontal adjustment linear slide rail 60, X-ray tube horizontal adjustment tooth bar 61, X-ray tube horizontal adjustment pinion wheel 62, X-ray tube horizontal adjustment reducing motor 63, base web joint component 64.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described further.

A kind of 360 ° of swinging X ray detection platform, as extremely shown in Figure 9 in Fig. 1: base 1 is fixed by bolts on base web joint component 64, cushion the rubber cushion 2 for the Whole Equipment damping between base 1 and base web joint component 64, the outer shroud of I extra flute profile four-point contact ball 3 is fixed by bolts on base 1, the interior ring of I extra flute profile four-point contact ball 3 is outer rotary table 8 fixedly, fix 8 generator seat components 24 and 1 oil pump fixed seat 19 by screw above outer rotary table 8, be respectively used to fix two high-frequency and high-voltage generators 23 and an oil pump 11.High-frequency and high-voltage generator 23 is for the device of high-frequency high-voltage being provided for X-ray tube 48, and oil pump 11 is to carry out cooling device to X-ray tube 48.Two the high-tension cable guiding device components 12 adjacent with high-frequency and high-voltage generator 23 are screwed on outer rotary table 8, be used for supporting high-tension cable 20 between high-frequency and high-voltage generator 23 and X-ray tube 48, what make high-frequency high-voltage safety and stability that high-frequency and high-voltage generator 23 produces is transferred to X-ray tube 48.The outside of outer rotary table 8 also is fixed wtih outer ring motor support base 5, outer ring motor support base 5 is used for fixedly planetary reduction gear 6, the tail end of planetary reduction gear 6 up, outer servomotor 7 is installed, outer ring gear 4 is installed on the head shaft of planetary reduction gear 6, and outer ring gear 4 is meshed with the tooth of I extra flute profile four-point contact ball 3 outer shrouds.The power of outer servomotor 7 can act on the external toothing of I extra flute profile four-point contact ball 3 by outer ring gear 4, makes outer rotary table 8 can produce rotation with respect to base 1.The outer shroud of II extra flute profile four-point contact ball 17 is fixed on the inboard of base 1, be fixed wtih inner rotary table 18 above the interior ring of II extra flute profile four-point contact ball 17, one side of inner rotary table 18 is installed an inner ring motor support base 15, inner ring motor support base 15 is used for fixedly planetary reducer 14, servomotor 13 in the tail end of planetary reducer 14 is fixing, fixing inner ring gear 16 on the head shaft of planetary reducer 14, the tooth of inner ring gear 16 and II extra flute profile four-point contact ball 17 is meshed.The power that interior servomotor 13 produces acts on the ring gear of II extra flute profile four-point contact ball 17 by inner ring gear 16, makes inner rotary table 18 also can produce rotation with respect to base 1.Fixedly booster assembly of drive gear 9 and X ray assembly of drive gear 10 on inner rotary table 18 are for detection of the detected workpiece 21 that is positioned at the device center.Between outer rotary table 8 and II extra flute profile four-point contact ball 17,180 °, interval is connecting two internal and external disk pull bar components 22, be used for guaranteeing outer rotary table 8 and inner rotary table 18 to relatively rotate deviation not too large.The surrounding of outer rotary table 8 has been installed three groups of slip row support components 25, and the lower end of slip row support component 25 and ground are fixing not along with equipment rotates.The top carry of slip row support component 25 the wire guide bracket component 26 that connection cable is used, and is used for equipment and sets up the cable use.

booster assembly of drive gear 9 is mainly by image intensifier base plate 27, image intensifier lifting line slide rail 28, image intensifier end limited block 29, image intensifier leading screw bearing 30, image intensifier stand component 31, image intensifier 32, image intensifier slide plate component 33, image intensifier web joint 34, image intensifier lifting nut 35, image intensifier follower gear 36, image intensifier driving gear 37, image intensifier lifting motor support 38, image intensifier servo deceleration motor 39, image intensifier elevating screw 40, line slide rail 41 is adjusted in the image intensifier left and right, image intensifier side-to-side movement tooth bar 42, image intensifier horizontal adjustment pinion wheel 43, image intensifier tangential movement reducing motor 44 forms, and be fixed by bolts on inner rotary table 18.the concrete structure of booster assembly of drive gear 9 is, booster assembly of drive gear 9 below be the image intensifier base plate 27 that is connected for inner rotary table 18, two image intensifier left and right adjustment line slide rails 41 of parallel installation and an image intensifier side-to-side movement tooth bar 42 on image intensifier base plate 27, still image booster stand component 31 on line slide rail 41 is adjusted in the image intensifier left and right, installation diagram image intensifier tangential movement reducing motor 44 on image intensifier stand component 31 bottom plates, installation diagram image intensifier horizontal adjustment pinion wheel 43 on the lower end output shaft of image intensifier tangential movement reducing motor 44, image intensifier horizontal adjustment pinion wheel 43 meshes with the tooth of image intensifier side-to-side movement tooth bar 42, the power that image intensifier tangential movement reducing motor 44 produces is delivered on image intensifier side-to-side movement tooth bar 42 by image intensifier horizontal adjustment pinion wheel 43, booster assembly of drive gear 9 can be adjusted in the image intensifier left and right carry out the horizontal adjustment motion under leading of line slide rail 41.Image intensifier stand component 31 is installed two image intensifier lifting line slide rails 28 that are parallel to each other, installation diagram image intensifier slide plate component 33 on image intensifier lifting line slide rail 28, the upper surface installation diagram image intensifier web joint 34 of image intensifier slide plate component 33, image intensifier web joint 34 is web members that image intensifier slide plate component 33 is connected with image intensifier 32.Image intensifier stand component 31 an image intensifier leading screw bearing 30 respectively has been installed up and down, be used for installing still image booster elevating screw 40.Image intensifier lifting nut 35 is fixed on the back side of the vertical plane of image intensifier slide plate component 33, screws with image intensifier elevating screw 40.Image intensifier follower gear 36 has been installed in the upper end of image intensifier elevating screw 40, image intensifier stand component 31 back side, upper end still image booster lifting motor supports 38, still image booster servo deceleration motor 39 on image intensifier lifting motor support 38, installation diagram image intensifier driving gear 37 and 36 engagements of image intensifier follower gear on image intensifier servo deceleration motor 39 upper end output shafts.The power that image intensifier servo deceleration motor 39 provides is delivered on image intensifier elevating screw 40 by image intensifier driving gear 37 and the image intensifier follower gear 36 that is engaged with, and the image intensifier lifting nut 35 that screws with image intensifier elevating screw 40 can drive the image intensifier slide plate component 33 that is attached thereto and drive image intensifiers 32 and carry out elevating movement.Article two, two image intensifier end limited blocks 29 have all been installed respectively at the two ends of image intensifier left and right adjustment line slide rail 41; image intensifier end limited block 29 is fixed on image intensifier base plate 27 by screw; be used for the tangential movement stroke of restriction booster assembly of drive gear 9, equipment is played a protective role.

X ray assembly of drive gear 10 is mainly by X-ray tube base plate 45, X ray pipe end limited block 46, X-ray tube lifting linear slide rail 47, X-ray tube 48, X ray pipe support 49, X-ray tube elevating screw bearing component 50, X-ray tube stand component 51, X-ray tube tube head lifter slide 52, X-ray tube tube head lead blocks 53, X-ray tube lifting nut 54, X-ray tube lifting follower gear 55, X-ray tube lifting driving gear 56, X-ray tube lifting motor support 57, X-ray tube lifting servomotor 58, X-ray tube elevating screw 59, X-ray tube horizontal adjustment linear slide rail 60, X-ray tube horizontal adjustment tooth bar 61, X-ray tube horizontal adjustment pinion wheel 62, X-ray tube horizontal adjustment reducing motor 63 forms.The concrete structure of X ray assembly of drive gear 10 is, X ray assembly of drive gear 10 below be the X-ray tube base plate 45 that is connected for inner rotary table 18, two X-ray tube horizontal adjustment linear slide rails 60 of parallel installation and an X-ray tube horizontal adjustment tooth bar 61 on X-ray tube base plate 45.X-ray tube stand component 51 is installed on X-ray tube horizontal adjustment linear slide rail 60, X-ray tube horizontal adjustment reducing motor 63 has been installed in the lower end of X-ray tube stand component 51, X-ray tube horizontal adjustment pinion wheel 62 and 61 engagements of X-ray tube horizontal adjustment tooth bar that X-ray tube horizontal adjustment reducing motor 63 lower ends are fixing.The power that X-ray tube horizontal adjustment reducing motor 63 produces is delivered on ray tube horizontal adjustment tooth bar 61 by X-ray tube horizontal adjustment pinion wheel 62, makes X ray assembly of drive gear 10 carry out horizontal adjustment under the leading of X-ray tube horizontal adjustment linear slide rail and moves.Two X-ray tube lifting linear slide rails 47 that are parallel to each other have been installed on X-ray tube stand component 51, X-ray tube tube head lifter slide 52 is installed in X-ray tube lifting linear slide rail 47 tops, be used for connecting X ray pipe support 49, X ray pipe support 49 is used for fixedly X-ray tube 48.An X-ray tube tube head lead has been installed on the window of X ray pipe support 49 has been blocked 53, be used for the irradiating angle of restriction X ray.X-ray tube stand component 51 an X-ray tube elevating screw bearing component 50 respectively has been installed up and down, X-ray tube elevating screw bearing component 50 is used for installing fixedly X-ray tube elevating screw 59.X-ray tube lifting nut 54 is arranged on the back side of X-ray tube tube head lifter slide 52 vertical planes, screws with X-ray tube elevating screw 59.X-ray tube lifting follower gear 55 has been installed in the upper end of X-ray tube elevating screw 59, X-ray tube lifting motor support 57 has been fixed at the back side, upper end of X-ray tube stand component 51, fixing X-ray tube lifting servomotor 58 on X-ray tube lifting motor support 57, X-ray tube lifting driving gear 56 has been installed on the output shaft of X-ray tube lifting servomotor 58 upper ends to be screwed with X-ray tube lifting follower gear 55, the transmission of power that X-ray tube lifting servomotor 58 is produced arrives X-ray tube lifting nut 54, make X-ray tube 48 that X ray pipe support 49 drives carry out elevating movement under the leading of X-ray tube lifting linear slide rail 47.Article two, an X ray pipe end limited block 46 has respectively been installed at the two ends of X-ray tube horizontal adjustment linear slide rail 60, X ray pipe end limited block 46 is the same with X-ray tube horizontal adjustment linear slide rail 60 to be fixed on X-ray tube base plate 45, and the receiving plane of image intensifier 32 is relative with the window of X-ray tube 48.

During the work of this device, inner rotary table 18 and outer rotary table 8 are respectively under the power that interior servomotor 13 and outer servomotor 7 provide drives, the high-frequency and high-voltage generator 23 and the oil pump 11 that carry booster assembly of drive gear 9 and the light pipe assembly of drive gear 10 that is positioned on inner rotary table 18 and be positioned on outer rotary table 8 rotate around detected workpiece 21, and detected workpiece 21 is detected operation.Booster assembly of drive gear 9 and X ray assembly of drive gear 10 can carry respectively image intensifier 32 when rotating and X-ray tube 48 synchronously carries out lifting, detects the diverse location of detected workpiece 21.Inner rotary table 18 and outer rotary table 8 synchronously rotate, and synchronously stop.

Claims (1)

1. one kind 360 ° swinging X ray detection platform, it is characterized in that: base (1) is fixed on base web joint component (64), be provided with rubber cushion (2) between base (1) and base web joint component (64), the outer shroud of I extra flute profile four-point contact ball (3) is fixed on base (1), the interior ring of I extra flute profile four-point contact ball (3) is outer rotary table (8) fixedly, 8 the generator seat components (24) and 1 oil pump fixed seat (19) that are respectively used to fix two high-frequency and high-voltage generators (23) and an oil pump (11) have been fixed above outer rotary table (8), two the high-tension cable guiding device components (12) adjacent with high-frequency and high-voltage generator (23) are fixed on outer rotary table (8), the external stability outer ring motor support base (5) of outer rotary table (8), the upper fixedly planetary reduction gear (6) of outer ring motor support base (5), the tail end of planetary reduction gear (6) is installed outer servomotor (7), outer ring gear (4) is installed on the head shaft of planetary reduction gear (6), outer ring gear (4) is meshed with the tooth of I extra flute profile four-point contact ball (3) outer shroud, the outer shroud of II extra flute profile four-point contact ball (17) is fixed on the inboard of base (1), be fixed wtih inner rotary table (18) above the interior ring of II extra flute profile four-point contact ball (17), one side of inner rotary table (18) is installed inner ring motor support base (15), the upper fixedly planetary reducer (14) of inner ring motor support base (15), servomotor (13) in the tail end of planetary reducer (14) is fixing, fixing inner ring gear (16) on the head shaft of planetary reducer (14), the tooth of inner ring gear (16) and II extra flute profile four-point contact ball (17) is meshed, booster assembly of drive gear (9) and X ray assembly of drive gear (10) for detection of the detected workpiece (21) that is positioned at the device center are fixed on inner rotary table (18), between outer rotary table (8) and II extra flute profile four-point contact ball (17), 180 °, interval is connecting two internal and external disk pull bar components (22), the surrounding of outer rotary table (8) has been installed three groups of slip row support components (25), lower end and the ground of slip row's support component (25) are fixed, the upper carry of slip row's support component (25) the wire guide bracket component (26) that connection cable is used,

booster assembly of drive gear (9) is by image intensifier base plate (27), image intensifier lifting line slide rail (28), image intensifier end limited block (29), image intensifier leading screw bearing (30), image intensifier stand component (31), image intensifier (32), image intensifier slide plate component (33), image intensifier web joint (34), image intensifier lifting nut (35), image intensifier follower gear (36), image intensifier driving gear (37), image intensifier lifting motor support (38), image intensifier servo deceleration motor (39), image intensifier elevating screw (40), line slide rail (41) is adjusted in the image intensifier left and right, image intensifier side-to-side movement tooth bar (42), image intensifier horizontal adjustment pinion wheel (43) and image intensifier tangential movement reducing motor (44) form and are fixed on outer rotary table (8), the concrete structure of booster assembly of drive gear (9) is: the below at booster assembly of drive gear (9) is provided with the image intensifier base plate (27) that is connected with outer rotary table (8), two image intensifier left and right adjustment line slide rails (41) of the upper parallel installation of image intensifier base plate (27) and an image intensifier side-to-side movement tooth bar (42), the upper still image booster stand component (31) of line slide rail (41) is adjusted in the image intensifier left and right, installation diagram image intensifier tangential movement reducing motor (44) on image intensifier stand component (31) bottom plate, installation diagram image intensifier horizontal adjustment pinion wheel (43) on the lower end output shaft of image intensifier tangential movement reducing motor (44), image intensifier horizontal adjustment pinion wheel (43) is meshed with image intensifier side-to-side movement tooth bar (42), two image intensifier lifting line slide rails (28) that are parallel to each other of the upper installation of image intensifier stand component (31), the upper installation diagram image intensifier slide plate component (33) of image intensifier lifting line slide rail (28), the upper surface installation diagram image intensifier web joint (34) of image intensifier slide plate component (33), image intensifier (32) is connected with image intensifier slide plate component (33) by image intensifier web joint (34), image intensifier stand component (31) an image intensifier leading screw bearing (30) that still image booster elevating screw (40) be used for to be installed respectively is installed up and down, image intensifier lifting nut (35) is fixed on the back side of image intensifier slide plate component (33) vertical plane and screws with image intensifier elevating screw (40), the upper end installation diagram image intensifier follower gear (36) of image intensifier elevating screw (40), image intensifier stand component (31) back side, upper end still image booster lifting motor support (38), the upper still image booster servo deceleration motor (39) of image intensifier lifting motor support (38), installation diagram image intensifier driving gear (37) on the output shaft of image intensifier servo deceleration motor (39) upper end, image intensifier driving gear (37) and image intensifier follower gear (36) engagement, article two, two image intensifier end limited blocks (29) are installed respectively at the two ends of image intensifier left and right adjustment line slide rail (41), image intensifier end limited block (29) is fixed on image intensifier base plate (27),

X ray assembly of drive gear (10) is by X-ray tube base plate (45), X ray pipe end limited block (46), X-ray tube lifting linear slide rail (47), X-ray tube (48), X ray pipe support (49), X-ray tube elevating screw bearing component (50), X-ray tube stand component (51), X-ray tube tube head lifter slide (52), X-ray tube tube head lead blocks (53), X-ray tube lifting nut (54), X-ray tube lifting follower gear (55), X-ray tube lifting driving gear (56), X-ray tube lifting motor support (57), X-ray tube lifting servomotor (58), X-ray tube elevating screw (59), X-ray tube horizontal adjustment linear slide rail (60), X-ray tube horizontal adjustment tooth bar (61), X-ray tube horizontal adjustment pinion wheel (62), X-ray tube horizontal adjustment reducing motor (63) forms, the concrete structure of X ray assembly of drive gear (10) is: the below at X ray assembly of drive gear (10) is provided with the X-ray tube base plate (45) that is connected with outer rotary table (8), upper two the X-ray tube horizontal adjustment linear slide rails of parallel installation (60) of X-ray tube base plate (45) and an X-ray tube horizontal adjustment tooth bar (61), the upper X-ray tube stand component (51) of installing of X-ray tube horizontal adjustment linear slide rail (60), X-ray tube horizontal adjustment reducing motor (63) is installed in the lower end of X-ray tube stand component (51), X-ray tube horizontal adjustment reducing motor (63) lower end is X-ray tube horizontal adjustment pinion wheel (62) fixedly, ray tube horizontal adjustment pinion wheel (62) and X-ray tube horizontal adjustment tooth bar (61) engagement, two X-ray tube lifting linear slide rails (47) that are parallel to each other of the upper installation of X-ray tube stand component (51), the X-ray tube tube head lifter slide (52) that is used for connecting X ray pipe support (49) is installed in X-ray tube lifting linear slide rail (47) top, X-ray tube (48) is fixed on X ray pipe support (49), an X-ray tube tube head lead that is used for restriction x-ray bombardment angle has been installed on the window of X ray pipe support (49) has been blocked (53), respectively the installing up and down one the fixedly X-ray tube elevating screw bearing component (50) of X-ray tube elevating screw (59) be used for to be installed of X-ray tube stand component (51), X-ray tube lifting nut (54) is arranged on the back side of X-ray tube tube head lifter slide (52) vertical plane and screws with X-ray tube elevating screw (59), X-ray tube lifting follower gear (55) is installed in the upper end of X-ray tube elevating screw (59), the back side, upper end of X-ray tube stand component (51) is X-ray tube lifting motor support (57) fixedly, the upper fixedly X-ray tube lifting servomotor (58) of X-ray tube lifting motor support (57), X-ray tube lifting driving gear (56) is installed on the output shaft of X-ray tube lifting servomotor (58) upper end, X-ray tube lifting driving gear (56) screws with X-ray tube lifting follower gear (55), article two, an X ray pipe end limited block (46) is respectively installed at the two ends of X-ray tube horizontal adjustment linear slide rail (60), X ray pipe end limited block (46) and X-ray tube horizontal adjustment linear slide rail (60) are fixed on X-ray tube base plate (45), the receiving plane of image intensifier (32) is relative with the window of X-ray tube (48).

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