CN114994068A - Adaptively-adjustable fluorescence penetration detection device and detection method thereof - Google Patents

Abstract

The invention discloses a fluorescence penetration detection device capable of being adaptively adjusted and a detection method thereof, and belongs to the technical field of fluorescence penetration detection devices.

Description

Adaptively-adjustable fluorescence penetration detection device and detection method thereof

Technical Field

The invention relates to a fluorescence penetration detection device, in particular to an adaptively adjustable fluorescence penetration detection device, and also relates to a detection method of the fluorescence penetration detection device, in particular to a detection method of the adaptively adjustable fluorescence penetration detection device, belonging to the technical field of fluorescence penetration detection devices.

Background

The penetration detection, also called penetration inspection, is a surface nondestructive detection method, which utilizes the capillary action of liquid to permeate penetrating fluid into the opening defect on the surface of a solid material. And then the permeated penetrating fluid is precipitated to the surface by the developer to show the existence of defects. Belongs to one of five conventional methods for nondestructive testing.

In the prior art, the equipment adopted when the fluorescence penetration detection device is carried out is usually designed in a flow line structure, and the design occupies a large space and is not suitable for small factories or detection centers;

in addition, the fluorescence penetration detection device in the prior art cannot conveniently adjust the detected workpiece and has the function of leading out the workpiece after detection is finished;

secondly, the fluorescence penetration detection device in the prior art cannot perform high-efficiency sealing to form a dark environment for detection when performing detection, and cannot prevent the sprayed fluorescence from splashing;

therefore, an adaptively adjustable fluorescence penetration detection device and a detection method thereof are designed to solve the problems.

Disclosure of Invention

The invention mainly aims to provide a fluorescence penetration detection device capable of being adaptively adjusted and a detection method thereof, a workpiece to be detected is placed on a transmission roller, a transmission motor is started to adjust the transmission roller to move to drive the workpiece to move to a proper position, an electric clamping rod is started to adjust a workpiece clamping plate to clamp and limit the workpiece, a first electric telescopic rod is started to adjust an arc-shaped cover to cover the outer side of the workpiece, a water pump is started to spray fluorescent powder to be sprayed on the outer side of the workpiece and flow into a side drawer to be collected, after the spraying is finished, the electric clamping rod is started to release the clamping of the workpiece through the workpiece clamping plate, an adjusting motor is started to adjust a rotary plate to rotate, a dark room is formed on the workpiece by adjusting a dark room cover through a second electric telescopic rod, and for the workpieces with different heights, a lifting motor can be started to adjust the height of a lifting slide block on the outer side of a lifting screw rod so as to adjust the distance between the rotary plate and the workpiece, spraying then can start the rotation motor after accomplishing with the detection and adjust the rotatory side fixed plate that drives of U type swivel mount rotatory, the work piece that detects the completion is exported toward different position to the rotatory adjustable work piece through side fixed plate, then starts conveying motor and drives the motion of conveying cylinder and adjust work piece automatic output, pours the phosphor powder of retrieving into to the box through pulling side drawer and collects the recycle and prevent through the side guard plate that sprays the in-process and splash.

The purpose of the invention can be achieved by adopting the following technical scheme:

a fluorescence penetration detection device capable of being adaptively adjusted comprises a fluorescent powder recovery assembly, wherein side protection plates are installed on two sides of the fluorescent powder recovery assembly, a middle fixing plate is installed in the middle of the top of the fluorescent powder recovery assembly, a rotating frame assembly is installed in the middle of the top of the middle fixing plate, a workpiece conveying and adjusting assembly is installed at the top of the rotating frame assembly, a U-shaped working frame is installed on one side of the fluorescent powder recovery assembly, a height adjusting frame assembly is arranged in the middle of the side of the U-shaped working frame, a lifting slide block meshed with the height adjusting frame assembly is arranged on the inner side of the height adjusting frame assembly, a side adjusting electric rod is installed at the outer end of the lifting slide block, a connecting plate is installed at the output end of the side adjusting electric rod, a rotary disc adjusting assembly is installed on the connecting plate, and an arc-shaped fluorescent powder spraying assembly is installed on one side of the bottom of the rotary disc adjusting assembly, the darkroom detection assembly is installed to the bottom opposite side of carousel adjusting part, the inboard of work piece conveying adjusting part is equipped with work piece centre gripping subassembly.

Preferably, the fluorescent powder recovery assembly comprises a side drawer and a recovery base, the side drawer is inserted into the side part of the recovery base, side protection plates are installed on the two sides of the recovery base, and a middle fixing plate is installed in the middle of the top of the inner side of the recovery base.

Preferably, the swivel mount subassembly includes rotating electrical machines, output pivot and U type swivel mount, the top middle part department of well fixed plate installs the rotating electrical machines, the output pivot is installed to the output of rotating electrical machines, and U type swivel mount is installed to the top department of this output pivot, work piece conveying adjusting part is installed at the top of U type swivel mount.

Preferably, the workpiece conveying and adjusting assembly comprises a side fixing plate, a conveying roller, a conveying motor, an adjusting gear and a conveying chain, wherein the side fixing plate is installed on two sides of the top of the U-shaped rotating frame, the conveying motor is installed at the outer end of the side fixing plate, the conveying roller is arranged on the inner side of the side fixing plate at equal intervals, the adjusting gear is installed at one end, located in the side fixing plate, of the conveying roller, the conveying chain is sleeved on the outer side of the adjusting gear, and the end of the conveying roller is fixed to the end of the side fixing plate through the output end of the group of conveying motors.

Preferably, the height adjusting frame assembly comprises a vertical sliding groove, a lifting motor, a lifting screw and a lifting slide block, the vertical sliding groove is formed in the middle of the side of the U-shaped working frame, the lifting motor is installed at the top of the vertical sliding groove, the output end of the lifting motor penetrates through the vertical sliding groove to be installed with the lifting screw, and the lifting slide block is meshed outside the lifting screw.

Preferably, carousel adjusting part includes accommodate motor, connection bull stick and carousel, the top middle part department of connecting plate installs accommodate motor, accommodate motor's output runs through the connecting plate and installs the connection bull stick, the carousel is installed to the bottom of connecting the bull stick, arc phosphor powder spraying assembly and darkroom detection module are installed respectively to the bottom both sides of carousel.

Preferably, the arc phosphor powder spraying assembly comprises a first electric telescopic handle and an arc cover, the first electric telescopic handle is installed on one side of the bottom of the rotary table, the arc cover is installed at the output end of the first electric telescopic handle, a plurality of groups of spraying holes are formed in the bottom of the arc cover, the arc cover is externally connected with a water pump, and the water pump is connected with a phosphor powder storage bin.

Preferably, the darkroom detection subassembly includes second electric telescopic handle, darkroom cover and detects the head, second electric telescopic handle is installed to the bottom opposite side of carousel, just the darkroom cover is installed to second electric telescopic handle's output, the interior top middle part department of darkroom cover installs and detects the head, just the darkroom cover is mutually supported with the work piece.

Preferably, the workpiece clamping assembly comprises an electric clamping rod, a workpiece clamping plate and a wear-resistant layer, the electric clamping rod is installed at the upper portion in the inner side of the side fixing plate, the workpiece clamping plate is installed at the output end of the electric clamping rod, and the wear-resistant layer is laid on the outer side of the workpiece clamping plate.

A detection method of an adaptively-adjustable fluorescence permeation detection device comprises the following steps:

the method comprises the following steps: placing a workpiece to be detected on a conveying roller, and then starting a conveying motor to adjust the conveying roller to move so as to drive the workpiece to move to a proper position;

step two: starting an electric clamping rod to adjust a workpiece clamping plate to clamp and limit a workpiece, and then starting a first electric telescopic rod to adjust an arc-shaped cover to cover the outer side of the workpiece;

step three: starting a water pump to spray the fluorescent powder to be sprayed on the outer side of the workpiece, and flowing into a side drawer for collection;

step four: after spraying is finished, the electric clamping rods are started to loosen the clamping of the workpiece through the workpiece clamping plate, then the adjusting motor is started to adjust the rotating disc to rotate, and the darkroom cover is adjusted through the second electric telescopic rod to cover on the workpiece to form a darkroom;

step five: for workpieces with different heights, the lifting motor can be started to adjust the height of the lifting slide block outside the lifting screw rod so as to adjust the distance between the rotary table and the workpieces;

step six: after the spraying and the detection are finished, a rotating motor can be started to adjust the rotation of the U-shaped rotating frame to drive the side fixing plate to rotate;

step seven: the rotation of the side fixing plate can adjust the workpiece to output the detected workpiece to different directions, and then the conveying motor is started to drive the conveying roller to move to adjust the workpiece to be automatically output;

step eight: pour the phosphor powder of retrieving into to the box through pulling side drawer and collect and recycle and prevent through the side guard plate that the in-process of spraying splashes.

The invention has the beneficial technical effects that:

the invention provides a fluorescence penetration detection device capable of being adaptively adjusted and a detection method thereof, a workpiece to be detected is placed on a transmission roller, then a transmission motor is started to adjust the transmission roller to move to drive the workpiece to move to a proper position, an electric clamping rod is started to adjust a workpiece clamping plate to clamp and limit the workpiece, then a first electric telescopic rod is started to adjust an arc-shaped cover to cover the outer side of the workpiece, a water pump is started to spray fluorescent powder to be sprayed on the outer side of the workpiece and flow into a side drawer to be collected, after the spraying is finished, the electric clamping rod is started to loosen the clamping of the workpiece through the workpiece clamping plate, then an adjusting motor is started to adjust a rotary plate to rotate, a darkroom is formed on the workpiece by adjusting a darkroom cover through a second electric telescopic rod, for the workpieces with different heights, a lifting motor can be started to adjust the height of a lifting slide block outside a lifting screw rod so as to adjust the distance between the rotary plate and the workpiece, spraying then can start the rotating electrical machines after accomplishing with the detection and adjust the rotatory side fixed plate that drives of U type swivel mount rotatory, the work piece that detects the completion is exported toward different position to the rotatory adjustable work piece through side fixed plate, then starts the conveying motor and drives the motion of conveying drum and adjust work piece automatic output, pours the phosphor powder of retrieving into to the box through pulling side drawer and collects and recycle and prevent through the side guard plate that the in-process of spraying splashes.

Drawings

FIG. 1 is a schematic view of an overall first-perspective three-dimensional structure of an apparatus according to a preferred embodiment of an adaptable fluorescence penetration detection apparatus and a detection method thereof;

FIG. 2 is a schematic diagram of an overall second-perspective three-dimensional structure of an apparatus according to a preferred embodiment of an adaptable fluorescence penetration detection apparatus and a detection method thereof;

FIG. 3 is a schematic diagram illustrating an overall third-perspective three-dimensional structure of an apparatus according to a preferred embodiment of an adaptive fluorescent penetrant testing apparatus and its testing method;

FIG. 4 is a schematic perspective view of a preferred embodiment of an adaptable fluorescence penetration testing device and a testing method thereof, showing the combined structure of a regulating disc assembly, a spraying assembly and a testing assembly;

FIG. 5 is a perspective view of the combination of the splash guard assembly, the workpiece placement roller assembly, the rotating assembly and the recycling assembly in accordance with a preferred embodiment of the adaptable fluorescence penetration testing apparatus and method of testing thereof in accordance with the present invention;

FIG. 6 is a side sectional view of a preferred embodiment of an adaptable fluorescence penetration test apparatus and method of testing the same, showing the combined lifting assembly, conditioner disk assembly, spray assembly and test assembly;

FIG. 7 is a perspective view of the clamping assembly, the workpiece placement roller assembly, the rotating assembly and the recycling assembly of a preferred embodiment of an adaptable fluorescence penetration testing apparatus and testing method thereof according to the present invention;

FIG. 8 is an enlarged view of the structure at the position a of a preferred embodiment of an adaptable fluorescence penetration testing device and a testing method thereof according to the present invention.

In the figure: 1-U-shaped working frame, 2-side protection plate, 3-recovery base, 4-side drawer, 5-side fixing plate, 6-conveying motor, 7-conveying roller, 8-middle fixing plate, 9-rotating motor, 10-vertical chute, 11-darkroom cover, 12-adjusting motor, 13-connecting plate, 14-rotating disc, 15-first electric telescopic rod, 16-arc cover, 17-lifting slide block, 18-workpiece clamping plate, 19-electric clamping rod, 20-connecting rotating rod, 21-second electric telescopic rod, 22-U-shaped rotating frame, 23-side adjusting electric rod, 24-detection head, 25-lifting screw rod and 26-lifting motor.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-8, the fluorescence penetration detecting apparatus capable of adaptive adjustment provided in this embodiment includes a fluorescent powder recovering assembly, side protection plates 2 are installed on two sides of the fluorescent powder recovering assembly, a middle fixing plate 8 is installed in the middle of the top of the fluorescent powder recovering assembly, a rotating frame assembly is installed in the middle of the top of the middle fixing plate 8, a workpiece conveying and adjusting assembly is installed at the top of the rotating frame assembly, a U-shaped working frame 1 is installed on one side of the fluorescent powder recovering assembly, a height adjusting frame assembly is installed in the middle of the side of the U-shaped working frame 1, a lifting slider 17 engaged with the height adjusting frame assembly is installed inside the height adjusting frame assembly, a side adjusting electric rod 23 is installed at the outer end of the lifting slider 17, a connecting plate 13 is installed at the output end of the side adjusting electric rod 23, and a rotary table adjusting assembly is installed on the connecting plate 13, the arc-shaped fluorescent powder spraying assembly is installed on one side of the bottom of the rotary table adjusting assembly, the darkroom detecting assembly is installed on the other side of the bottom of the rotary table adjusting assembly, and the workpiece clamping assembly is arranged on the inner side of the workpiece conveying adjusting assembly.

A workpiece to be detected is placed on the conveying roller 7, the conveying motor 6 is started to adjust the conveying roller 7 to move to drive the workpiece to move to a proper position, the electric clamping rod 19 is started to adjust the workpiece clamping plate 18 to clamp and limit the workpiece, the first electric telescopic rod 15 is started to adjust the arc-shaped cover 16 to cover the outer side of the workpiece, the water pump is started to spray fluorescent powder to be sprayed on the outer side of the workpiece and flow into the side drawer 4 to be collected, after the spraying is finished, the electric clamping rod 19 is started to loosen the clamping of the workpiece through the workpiece clamping plate 18, the adjusting motor 12 is started to adjust the rotary table 14 to rotate, the dark chamber cover 11 is adjusted through the second electric telescopic rod 21 to cover the workpiece to form a dark chamber, the lifting motor 26 can be started to adjust the height of the lifting slide block 17 outside the lifting screw 25 to adjust the distance between the rotary table 14 and the workpiece for workpieces with different heights, but spraying and detection then start the rotation that rotating electrical machines 9 adjusted U type swivel mount 22 and drive side fixed plate 5 rotatory after accomplishing, the work piece that detects the completion is exported toward different position to the rotatory adjustable work piece through side fixed plate 5, then start conveying motor 6 and drive conveying roller 7 motion regulation work piece automatic output, pour the phosphor powder of retrieving into to the box through pulling side drawer 4 and collect and recycle and prevent through side guard plate 2 that the in-process of spraying splashes.

In this embodiment, the phosphor powder recycling assembly comprises a side drawer 4 and a recycling base 3, the side drawer 4 is inserted into the side part of the recycling base 3, a side protection plate 2 is installed above two sides of the recycling base 3, and a middle fixing plate 8 is installed in the middle of the inner side top of the recycling base 3.

In this embodiment, the rotating frame assembly comprises a rotating motor 9, an output rotating shaft and a U-shaped rotating frame 22, the rotating motor 9 is installed at the top middle part of the middle fixing plate 8, the output rotating shaft is installed at the output end of the rotating motor 9, the U-shaped rotating frame 22 is installed at the top part of the output rotating shaft, and the workpiece conveying adjusting assembly is installed at the top part of the U-shaped rotating frame 22.

In this embodiment, the workpiece conveying and adjusting assembly includes side fixing plates 5, conveying rollers 7, conveying motors 6, adjusting gears and conveying chains, the side fixing plates 5 are installed on two sides of the top of the U-shaped rotating frame 22, the conveying motors 6 are installed at the outer end portions of the side fixing plates 5, the conveying rollers 7 are arranged on the inner sides of the side fixing plates 5 at equal intervals, the adjusting gears are installed at one ends, located in the side fixing plates 5, of the conveying rollers 7, the conveying chains are sleeved on the outer sides of the adjusting gears, and the output ends of one group of conveying motors 6 penetrate through the side fixing plates 5 and are fixed to the end portions of the conveying rollers 7.

In this embodiment, the height adjusting rack assembly comprises a vertical sliding groove 10, a lifting motor 26, a lifting screw 25 and a lifting slider 17, the vertical sliding groove 10 is arranged in the middle of the side of the U-shaped working frame 1, the lifting motor 26 is installed at the top of the vertical sliding groove 10, the output end of the lifting motor 26 penetrates through the vertical sliding groove 10 and is installed with the lifting screw 25, and the outer side of the lifting screw 25 is engaged with the lifting slider 17.

In this embodiment, carousel adjusting part includes accommodate motor 12, connects bull stick 20 and carousel 14, and accommodate motor 12 is installed to the top middle part department of connecting plate 13, and accommodate motor 12's output runs through connecting plate 13 and installs and connect bull stick 20, and the carousel 14 is installed to the bottom of connecting bull stick 20, and arc phosphor powder sprays subassembly and darkroom detection subassembly respectively to the bottom both sides of carousel 14.

In this embodiment, arc phosphor powder sprays subassembly includes first electric telescopic handle 15 and arc cover 16, and first electric telescopic handle 15 is installed to bottom one side of carousel 14, and the output of first electric telescopic handle 15 installs arc cover 16, and the multiunit spraying hole has been seted up to the bottom of arc cover 16, and 16 outer joint water pumps of arc cover, phosphor powder storage storehouse is connected to the water pump.

In this embodiment, darkroom detection subassembly includes second electric telescopic handle 21, darkroom cover 11 and detection head 24, and second electric telescopic handle 21 is installed to the bottom opposite side of carousel 14, and the darkroom cover 11 is installed to the output of second electric telescopic handle 21, and the interior top middle part department of darkroom cover 11 installs detection head 24, and darkroom cover 11 mutually supports with the work piece.

In this embodiment, the workpiece clamping assembly includes an electric clamping rod 19, a workpiece clamping plate 18 and a wear-resistant layer, the electric clamping rod 19 is installed at the upper part in the inner side of the side fixing plate 5, the workpiece clamping plate 18 is installed at the output end of the electric clamping rod 19, and the wear-resistant layer is laid on the outer side of the workpiece clamping plate 18.

A detection method of an adaptively adjustable fluorescence penetration detection device comprises the following steps:

the method comprises the following steps: a workpiece to be detected is placed on the conveying roller 7, and then the conveying motor 6 is started to adjust the conveying roller 7 to move so as to drive the workpiece to move to a proper position;

step two: starting an electric clamping rod 19 to adjust a workpiece clamping plate 18 to clamp and limit a workpiece, and then starting a first electric telescopic rod 15 to adjust an arc-shaped cover 16 to cover the outer side of the workpiece;

step three: starting a water pump to spray the fluorescent powder to be sprayed on the outer side of the workpiece, and flowing into the side drawer 4 for collection;

step four: after spraying is finished, the electric clamping rod 19 is started to release clamping on the workpiece through the workpiece clamping plate 18, then the adjusting motor 12 is started to adjust the rotary table 14 to rotate, and the darkroom cover 11 is adjusted through the second electric telescopic rod 21 to cover on the workpiece to form a darkroom;

step five: for workpieces with different heights, the lifting motor 26 can be started to adjust the height of the lifting slide block 17 outside the lifting screw rod 25 so as to adjust the distance between the turntable 14 and the workpieces;

step six: after the spraying and the detection are finished, the rotating motor 9 can be started to adjust the rotation of the U-shaped rotating frame 22 to drive the side fixing plate 5 to rotate;

step seven: the rotation of the side fixing plate 5 can adjust the workpiece to output the detected workpiece to different directions, and then the conveying motor 6 is started to drive the conveying roller 7 to move to adjust the automatic output of the workpiece;

step eight: pour the phosphor powder of retrieving into the box through pulling side drawer 4 and collect and recycle and prevent through side guard plate 2 that the in-process of spraying splashes.

The above are only further embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and its concept within the scope of the present invention.

Claims (10)

1. An adaptively adjustable fluorescence penetration detection device, characterized in that: the device comprises a fluorescent powder recovery assembly, side protection plates (2) are installed on two sides of the fluorescent powder recovery assembly, a middle fixing plate (8) is installed in the middle of the top of the fluorescent powder recovery assembly, a rotating frame assembly is installed in the middle of the top of the middle fixing plate (8), a workpiece conveying and adjusting assembly is installed at the top of the rotating frame assembly, a U-shaped working frame (1) is installed on one side of the fluorescent powder recovery assembly, a height adjusting frame assembly is arranged in the middle of the side of the U-shaped working frame (1), a lifting slide block (17) meshed with the height adjusting frame assembly is arranged on the inner side of the height adjusting frame assembly, a side adjusting electric rod (23) is installed at the outer end of the lifting slide block (17), a connecting plate (13) is installed at the output end of the side adjusting electric rod (23), and a turntable adjusting assembly is installed on the connecting plate (13), the arc-shaped fluorescent powder spraying assembly is installed on one side of the bottom of the rotary disc adjusting assembly, the darkroom detecting assembly is installed on the other side of the bottom of the rotary disc adjusting assembly, and the workpiece clamping assembly is arranged on the inner side of the workpiece conveying adjusting assembly.

2. The adaptable fluorescence penetration test device of claim 1, wherein: the fluorescent powder recovery assembly comprises a side drawer (4) and a recovery base (3), the side drawer (4) is inserted into the side part of the recovery base (3), side protection plates (2) are installed on the two sides of the recovery base (3), and a middle fixing plate (8) is installed in the middle of the inner side top of the recovery base (3).

3. The adaptable fluorescence penetration test device of claim 2, wherein: the rotating frame assembly comprises a rotating motor (9), an output rotating shaft and a U-shaped rotating frame (22), the rotating motor (9) is installed at the middle of the top of the middle fixing plate (8), the output rotating shaft is installed at the output end of the rotating motor (9), the U-shaped rotating frame (22) is installed at the top of the output rotating shaft, and the workpiece conveying and adjusting assembly is installed at the top of the U-shaped rotating frame (22).

4. An adaptable fluorescence penetration test device according to claim 3, wherein: the workpiece conveying and adjusting assembly comprises a side fixing plate (5), a conveying roller (7), a conveying motor (6), an adjusting gear and a conveying chain, wherein the side fixing plate (5) is installed on two sides of the top of the U-shaped rotating frame (22), the conveying motor (6) is installed at the outer end of the side fixing plate (5), the conveying roller (7) is arranged on the inner side of the side fixing plate (5) at equal intervals, the adjusting gear is installed at one end, located in the side fixing plate (5), of the conveying roller (7), the conveying chain is sleeved on the outer side of the adjusting gear, and the end of the conveying motor (6) in a group penetrates through the side fixing plate (5) and the conveying roller (7) to be fixed.

5. The adaptable fluorescence penetration test device of claim 4, wherein: altitude mixture control frame subassembly includes perpendicular spout (10), elevator motor (26), lifting screw (25) and lifting slide (17), the side middle part department of U type workstation (1) is equipped with perpendicular spout (10), elevator motor (26) are installed to the top department of perpendicular spout (10), elevator motor's (26) output runs through perpendicular spout (10) and installs lifting screw (25), the outside meshing of lifting screw (25) has lifting slide (17).

6. The adaptable fluorescence penetration test device of claim 5, wherein: carousel adjusting part includes accommodate motor (12), connects bull stick (20) and carousel (14), the top middle part department of connecting plate (13) installs accommodate motor (12), the output of accommodate motor (12) runs through connecting plate (13) and installs and connect bull stick (20), carousel (14) are installed to the bottom of connecting bull stick (20), arc phosphor powder is installed respectively to the bottom both sides of carousel (14) and is sprayed subassembly and darkroom detection subassembly.

7. The adaptable fluorescence penetration test device of claim 6, wherein: arc phosphor powder sprays subassembly includes first electric telescopic handle (15) and arc cover (16), first electric telescopic handle (15) are installed to bottom one side of carousel (14), just arc cover (16) are installed to the output of first electric telescopic handle (15), the multiunit hole of spraying has been seted up to the bottom of arc cover (16), just arc cover (16) outer joint water pump, phosphor powder storage storehouse is connected to the water pump.

8. The adaptable fluorescence penetration test device of claim 7, wherein: darkroom detection subassembly includes second electric telescopic handle (21), darkroom cover (11) and detects head (24), second electric telescopic handle (21) is installed to the bottom opposite side of carousel (14), just darkroom cover (11) is installed to the output of second electric telescopic handle (21), the department installs and detects head (24) at the middle part of the interior top of darkroom cover (11), just darkroom cover (11) and work piece are mutually supported.

9. The adaptable fluorescence penetration test device of claim 8, wherein: the workpiece clamping assembly comprises an electric clamping rod (19), a workpiece clamping plate (18) and a wear-resistant layer, the electric clamping rod (19) is installed at the upper portion in the inner side of the side fixing plate (5), the workpiece clamping plate (18) is installed at the output end of the electric clamping rod (19), and the wear-resistant layer is laid on the outer side of the workpiece clamping plate (18).

10. The method of claim 9, wherein the adaptable fluorescence penetration test apparatus comprises: the method comprises the following steps:

the method comprises the following steps: a workpiece to be detected is placed on the conveying roller (7), and then the conveying motor (6) is started to adjust the conveying roller (7) to move so as to drive the workpiece to move to a proper position;

step two: starting an electric clamping rod (19) to adjust a workpiece clamping plate (18) to clamp and limit a workpiece, and then starting a first electric telescopic rod (15) to adjust an arc-shaped cover (16) to cover the outer side of the workpiece;

step three: the water pump is started to spray the fluorescent powder to be sprayed on the outer side of the workpiece, and the fluorescent powder flows into the side drawer (4) to be collected;

step four: after spraying is finished, the electric clamping rod (19) is started to release clamping on the workpiece through the workpiece clamping plate (18), then the adjusting motor (12) is started to adjust the rotary table (14) to rotate, and the darkroom cover (11) is adjusted through the second electric telescopic rod (21) to cover on the workpiece to form a darkroom;

step five: for workpieces with different heights, a lifting motor (26) can be started to adjust the height of the lifting slide block (17) on the outer side of the lifting screw rod (25) so as to adjust the distance between the rotary table (14) and the workpieces;

step six: after the spraying and the detection are finished, a rotating motor (9) can be started to adjust the rotation of the U-shaped rotating frame (22) to drive the side fixing plate (5) to rotate;

step seven: the workpiece after detection can be output to different directions by rotating the side fixing plate (5), and then the conveying motor (6) is started to drive the conveying roller (7) to move to adjust the automatic output of the workpiece;

step eight: the recovered fluorescent powder is poured into the box body by pulling the side drawer (4) to be collected and recycled, and the side protection plate (2) is used for preventing splashing in the spraying process.

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