CN217332241U - X-ray flaw detection device convenient for position adjustment - Google Patents

Abstract

The utility model provides a pair of make things convenient for adjusting position's X-ray radiographic inspection device, including chassis base, the extension board is installed in chassis base's upper surface rear side, and the surface slip cover of extension board has fixed cover frame, and the inside of fixed cover frame is provided with the radiographic inspection bottle, and the X-ray inspection probe carries out X-ray radiographic inspection work through the common cooperation of the radiographic inspection bottle of conveying wire and detection base upside. The utility model provides a pair of make things convenient for X-ray inspection device of adjusting position, the detection baffle through chassis base front side can utilize the threaded rod to drive embedded sliding block automatic movement around the inside of open slot, the automatic rising bar of cooperation upside can change the position of X-ray detection probe as required in real time, and can drive the probing angle that X-ray detection probe was adjusted to the bull stick through the servo rotation motor of second, can conveniently adjust different positions and carry out X-ray inspection, operator's work load has been reduced, the efficiency of detecting a flaw is improved.

Description

X-ray flaw detection device convenient for position adjustment

Technical Field

The utility model relates to a technical field that detects a flaw especially relates to a make things convenient for adjusting position's X-ray radiographic inspection device.

Background

The method comprises the steps of detecting cracks or defects in a metal material or part, inspecting an inner cavity, and inspecting defects such as surface cracks, peeling, bracing wires, scratches, pits, bulges, spots, corrosion and the like.

The radiographic inspection is a method for inspecting defects inside a weld by using a certain type of radiation, and by using this property, when the radiation passes through the weld to be inspected, the intensity of the radiation falling on the film is different due to the difference in the absorption capacity of the weld defect to the radiation, and the degree of sensitivity of the film is different, so that the shape, position and size of the defect can be accurately, reliably and nondestructively displayed, the X-ray transillumination time is short, the speed is high, and when the inspection thickness is less than 30mm, the sensitivity of displaying the defect is high.

However, in the actual use process of the existing X-ray flaw detection device, an operator needs to carry a ray detection bottle and a ray detection probe to irradiate and detect the welding position on the outer surface of the metal material, the existing probe does not have the function of automatically adjusting the angle irradiation, in the actual flaw detection process, the operator is often required to change different postures or use an auxiliary support to detect flaws, and the overall adjustment degree is not high, so that the X-ray flaw detection device with the position convenient to adjust needs to be provided to solve the technical problems.

Disclosure of Invention

The utility model provides a make things convenient for X-ray inspection device of adjusting position has solved the not high problem of current X-ray inspection device global adjustment degree.

In order to solve the technical problem, the utility model provides a pair of make things convenient for adjusting position's X-ray radiographic inspection device, include: a chassis base;

the X-ray detector comprises a supporting plate, a fixed sleeve frame, a ray detection bottle, a detection base, a transmission lead and an X-ray detection probe, wherein the supporting plate is arranged on the rear side of the upper surface of the chassis base;

the X-ray detection probe is matched with the ray detection bottle on the upper side of the detection base through the transmission lead to carry out X-ray flaw detection.

The X-ray detection bottle, the detection base, the data box, X-ray detection probe are the inherent device of current X-ray flaw detection device, wholly connect through the conveying wire, and the in-process of detecting a flaw is passed through X-ray detection probe cooperation the X-ray detection bottle detects, through the data box detection base feedback result.

Preferably, the fixed sleeve frame is of a detachable semicircular sleeve frame structure, a square sleeve frame is arranged on the rear side of the fixed sleeve frame and is arranged on the surface of the support plate in a sliding mode, and the conveying wire is of an elastic thread-shaped wire structure with the length of the bottom capable of being randomly selected.

Preferably, chassis base's front side surface mounting has the detection baffle, the surperficial left and right sides that detects the baffle all is provided with the open slot, the inside of open slot all passes through chassis base inside motor output is connected with the threaded rod.

Preferably, the surface cover of threaded rod has embedded sliding block, the upside surface mounting of embedded sliding block has the data box, the data box can pass through the threaded rod rotates and is in the inside back-and-forth movement of open slot.

Preferably, the inside upper surface of data box installs automatic lifting module, automatic lifting module's upside is connected with first servo rotating motor through automatic lifting rod, first servo rotating motor's upside surface is connected with U type frid.

The automatic lifting module and the automatic lifting rod are the existing automatic lifting equipment.

Preferably, U type frid can pass through first servo motor action of rotating carries out 360 degrees rotations, the outside of U type frid is connected with the servo motor of rotating of second, the inside of U type frid is passed through the output of the servo motor of rotating of second is connected with the bull stick, the internal connection of bull stick has X ray detection probe, X ray detection probe can pass through the servo motor control of rotating of second is adjusted and is rotated and change fixed angle.

Preferably, the auxiliary moving frame is installed on the lower bottom surface of the front side of the detection guide plate, and universal wheels are installed at four side corners of the lower bottom surface of the chassis base.

Preferably, push plates are arranged on the left side and the right side of the chassis base through movable round buckles.

Compared with the prior art, the utility model provides a pair of make things convenient for adjusting position's X-ray radiographic inspection device has following beneficial effect:

the utility model provides a make things convenient for X-ray inspection device of adjusting position, the detection baffle through chassis base front side can utilize the threaded rod to drive embedded sliding block automatic movement around the inside of open slot, the automatic rising bar of cooperation upside can change the position of X-ray detection probe as required in real time, and can drive the probing angle that X-ray detection probe was adjusted to the bull stick through the servo rotation motor of second, can conveniently adjust different positions and carry out X-ray inspection, operator's work load has been reduced, the efficiency of detecting a flaw is improved.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of an X-ray inspection apparatus provided by the present invention, which facilitates position adjustment;

fig. 2 is a schematic structural diagram of an automatic lifting module of an X-ray inspection apparatus, which is convenient for adjusting the position according to the present invention;

fig. 3 is a schematic structural diagram of a second embodiment of an X-ray inspection apparatus provided by the present invention, which facilitates position adjustment;

the reference numbers in the figures: 1. chassis base, 2, universal wheel, 3, activity circle is detained, 4, push pedal, 5, the extension board, 6, fixed frame, 7, ray detection bottle, 8, detect the base, 9, the conveying wire, 10, the data box, 11, embedded sliding block, 12, detect the baffle, 13, the open slot, 14, the threaded rod, 15, the supplementary frame that removes, 16, the automatic rising module, 17, the automatic rising pole, 18, first servo rotating motor, 19, U type slotted plate, 20, second servo rotating motor, 21, the bull stick, 22, X ray detection probe, 23, semicircle curb plate, 24, U type centre gripping lagging, 25, regulation bull stick.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

First embodiment

Please refer to fig. 1 and fig. 2 in combination, wherein fig. 1 is a schematic structural diagram of a first embodiment of an X-ray inspection apparatus with a position convenient to adjust according to the present invention; fig. 2 is a schematic structural diagram of an automatic lifting module of an X-ray inspection apparatus, which is convenient for adjusting the position. An X-ray inspection apparatus facilitating position adjustment includes: a chassis base 1;

the X-ray detection device comprises a support plate 5, wherein the support plate 5 is installed on the rear side of the upper surface of a chassis base 1, a fixed sleeve frame 6 is slidably sleeved on the surface of the support plate 5, a ray detection bottle 7 is arranged inside the fixed sleeve frame 6, the lower bottom surface of the ray detection bottle 7 is connected with a detection base 8, a data box 10 is arranged on the front side of the detection base 8 through a transmission lead 9, and an X-ray detection probe 22 is arranged on the upper side of the data box 10;

wherein, the X-ray detection probe 22 is matched with the ray detection bottle 7 on the upper side of the detection base 8 through the transmission lead 9 to carry out X-ray flaw detection work.

The radiographic inspection bottle 7, the inspection base 8, the data box 10 and the X-ray inspection probe 22 are all inherent devices of the existing X-ray inspection device, the whole device is connected through a transmission lead 9, the X-ray inspection probe 22 is matched with the radiographic inspection bottle 7 to perform inspection in the inspection process, and the data box 10 and the inspection base 8 feed back results.

The fixed sleeve frame 6 is of a detachable semicircular sleeve frame structure, a square sleeve frame is arranged on the rear side of the fixed sleeve frame 6 and arranged on the surface of the support plate 5 in a sliding mode, and the conveying wire 9 is of an elastic thread-shaped wire structure with the length of the bottom capable of being randomly arranged.

Detection guide plate 12 is installed to chassis base 1's front side surface, and the surperficial left and right sides that detects guide plate 12 all is provided with open slot 13, and the inside of open slot 13 all is connected with threaded rod 14 through chassis base 1 inside motor output end.

The surface cover of threaded rod 14 has embedded sliding block 11, and the upside surface mounting of embedded sliding block 11 has data box 10, and data box 10 can pass through threaded rod 14 and rotate the inside back-and-forth movement at open slot 13.

The upper surface of the inside of the data box 10 is provided with an automatic lifting module 16, the upper side of the automatic lifting module 16 is connected with a first servo rotating motor 18 through an automatic lifting rod 17, and the upper side surface of the first servo rotating motor 18 is connected with a U-shaped groove plate 19.

The automatic lifting module 16 and the automatic lifting rod 17 are conventional automatic lifting devices.

U type frid 19 can rotate 360 degrees through the effect of first servo rotating electrical machines 18, and the outside of U type frid 19 is connected with second servo rotating electrical machines 20, and the inside of U type frid 19 is connected with bull stick 21 through the output of second servo rotating electrical machines 20, and the internal connection of bull stick 21 has X ray detection probe 22, and X ray detection probe 22 can adjust through the control of second servo rotating electrical machines 20 and rotate and change fixed angle.

The auxiliary moving frame 15 is installed on the lower bottom surface of the front side of the detection guide plate 12, and the universal wheels 2 are installed at the four side corners of the lower bottom surface of the chassis base 1.

Push plates 4 are arranged on the left side and the right side of the chassis base 1 through movable round buckles 3.

When using, according to the needs of detecting a flaw, 4 cooperation universal wheels 2 of push pedal through 3 connections of movable circle knot in the chassis base 1 outside can carry ray detection bottle 7 rapid draing to appointed region, can utilize threaded rod 14 to drive embedded sliding block 11 automatic movement around the inside of open slot 13 through the detection baffle 12 of chassis base 1 front side, automatic rising pole 17 of 16 controls of automatic rising module of cooperation upside can change the position of X ray detection probe 22 as required in real time, and can drive the probe angle of bull stick regulation X ray detection probe 22 through second servo rotating electrical machines 20.

Compared with the prior art, the utility model provides a pair of make things convenient for adjusting position's X-ray radiographic inspection device has following beneficial effect:

the detection baffle through chassis base front side can utilize the threaded rod to drive embedded sliding block automatic movement around the inside of open slot, and the automatic rising pole of cooperation upside can change X ray detection probe's position as required in real time to can drive the measuring angle that the bull stick was adjusted X ray detection probe through the servo rotating electrical machines of second, can conveniently adjust different positions and carry out X ray inspection, reduce operator's work load, improve the efficiency of detecting a flaw.

Second embodiment

Referring to fig. 3, in particular, a difference of the X-ray inspection apparatus convenient for position adjustment according to the second embodiment of the present application is that a U-shaped clamping sleeve plate 24 is installed on a front side surface of the chassis base 1 of the X-ray inspection apparatus convenient for position adjustment.

The rear side surface of the detection guide plate 12 is provided with a semicircular side plate 23, the semicircular side plate 23 corresponds to the U-shaped clamping sleeve plate 24, and the U-shaped clamping sleeve plate 24 is movably connected with the semicircular side plate 23 through an adjusting rotating plate 25.

When in use, the semicircular side plate 23 on the inner wall of the U-shaped clamping sleeve plate 24 can be adjusted and rotated by adjusting the rotating plate 25, so that the angle of the detection guide plate 12 can be changed.

The utility model discloses further improve the regulating power of device, can adjust the semicircle curb plate that rotates U type centre gripping sleeve inboard wall through adjusting the commentaries on classics board when using as required, can change the angle that detects the baffle.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (8)

1. An X-ray inspection apparatus facilitating position adjustment, comprising: a chassis base;

the X-ray detection device comprises a supporting plate, a detection base and an X-ray detection probe, wherein the supporting plate is arranged on the rear side of the upper surface of a chassis base, a fixed sleeve frame is slidably sleeved on the surface of the supporting plate, a ray detection bottle is arranged inside the fixed sleeve frame, the lower bottom surface of the ray detection bottle is connected with the detection base, the front side of the detection base is provided with the data box through a transmission lead, and the upper side of the data box is provided with the X-ray detection probe;

the X-ray detection probe is matched with the ray detection bottle on the upper side of the detection base through the transmission lead to carry out X-ray flaw detection.

2. The X-ray flaw detection device convenient for position adjustment according to claim 1, wherein the fixed sleeve frame is of a detachable semicircular sleeve frame structure, a square sleeve frame is arranged on the rear side of the fixed sleeve frame and is slidably arranged on the surface of the support plate, and the conveying wire is of an elastic thread-shaped wire structure with optional bottom length.

3. The X-ray flaw detection device convenient for position adjustment according to claim 1, wherein a detection guide plate is mounted on the front side surface of the chassis base, open grooves are formed in the left side and the right side of the surface of the detection guide plate, and threaded rods are connected to the insides of the open grooves through motor output ends inside the chassis base.

4. The X-ray inspection device convenient for position adjustment according to claim 3, wherein an embedded sliding block is sleeved on the surface of the threaded rod, a data box is mounted on the upper surface of the embedded sliding block, and the data box can move back and forth in the open slot by rotating the threaded rod.

5. The X-ray inspection device convenient for position adjustment according to claim 4, wherein an automatic lifting module is mounted on the inner upper surface of the data box, a first servo rotating motor is connected to the upper side of the automatic lifting module through an automatic lifting rod, and a U-shaped slotted plate is connected to the upper side surface of the first servo rotating motor.

6. The X-ray inspection device of claim 5, wherein the U-shaped trough plate can rotate 360 degrees under the action of the first servo rotating motor, a second servo rotating motor is connected to the outer side of the U-shaped trough plate, a rotating rod is connected to the inner portion of the U-shaped trough plate through the output end of the second servo rotating motor, an X-ray detection probe is connected to the inner portion of the rotating rod, and the X-ray detection probe can be controlled by the second servo rotating motor to adjust and rotate to change a fixed angle.

7. The X-ray flaw detection device convenient for position adjustment according to claim 3, wherein the auxiliary moving frame is mounted on the lower bottom surface of the front side of the detection guide plate, and universal wheels are mounted at four side corners of the lower bottom surface of the chassis base.

8. The X-ray inspection device convenient for position adjustment according to claim 1, wherein push plates are mounted on the left side and the right side of the chassis base through movable round buckles.

Images