CN219675906U - Multi-station automatic magnetic particle inspection machine - Google Patents

Abstract

The utility model relates to the technical field of magnetic particle inspection machines, in particular to a multi-station automatic magnetic particle inspection machine, which comprises a supporting frame, a mounting assembly and a cleaning assembly, wherein the mounting assembly comprises a workbench, a magnetic spraying box, a magnetic sprayer, a sliding guide rail, a sliding plate, an electric push rod, a placing baffle and a detection component, the workbench is fixedly connected with the supporting frame, the magnetic spraying box is fixedly connected with the workbench, the magnetic sprayer is fixedly connected with the magnetic spraying box, the sliding guide rail is fixedly connected with the workbench, the sliding plate is in sliding connection with the sliding guide rail, the electric push rod is fixedly connected with the sliding plate, the placing baffle is connected with the output end of the electric push rod, a workpiece to be detected is placed on the placing baffle, the placing baffle and the workpiece are pushed into the magnetic spraying box through the electric push rod, the magnetic sprayer sprays magnetism on the workpiece, and the magnetic powder on the workpiece is cleaned through the cleaning assembly, so that the problem that the magnetic powder cannot be sprayed on the detected workpiece and the subsequent magnetic powder cleaning is solved.

Description

Multi-station automatic magnetic particle inspection machine

Technical Field

The utility model relates to the technical field of magnetic particle inspection machines, in particular to a multi-station automatic magnetic particle inspection machine.

Background

The magnetic powder inspection is characterized in that after the ferromagnetic material is magnetized, magnetic lines of force on the surface and the near surface of a workpiece are locally distorted due to the existence of discontinuity, so that a leakage magnetic field (namely a magnetic field formed when magnetic lines of force leave and enter the surface) is generated, magnetic powder applied to the surface of the workpiece is adsorbed, and a magnetic mark which is visible visually under proper illumination is formed, so that the position, the shape and the size of the discontinuity are displayed, the defects such as cracks, hairlines, white spots, folding, inclusions and the like in the ferromagnetic material can be detected by the magnetic powder inspection, the detection sensitivity is very high, the position, the shape, the size and the severity of the defects can be visually displayed, the repeatability of the detection defects is good, and the magnetic powder inspection method is widely applied to the inspection of pipes, bars, sectional materials, welding parts, machined parts and forge pieces.

The utility model provides an improved magnetic particle inspection machine that multistation detected in patent CN213516985U, through setting up the defectoscope body, after defectoscope body and side defectoscope body, increase the station that detects in a plurality of positions, detect the body to detect the time measuring to detecting the body, can increase the accuracy of testing result, place the body in the standing groove, will extrude two arc side extrusion pieces, arc side extrusion piece is insulating material and makes, when the extrusion, can outwards remove, after placing, can drive arc side extrusion piece under the elasticity effect of extrusion spring and compress tightly the detection body, the detection body will remove to the detection box in, detect by last defectoscope body, after defectoscope body and side defectoscope body.

However, the existing magnetic particle inspection machine cannot automatically spray magnetic particles to an inspection workpiece and clean the magnetic particles subsequently, and the magnetic particles can pollute the working environment after being used if not treated, so that the physical health of workers can be influenced.

Disclosure of Invention

The utility model aims to provide a multi-station automatic magnetic particle inspection machine, which solves the problem that magnetic particles cannot be sprayed on an inspection workpiece automatically and the problem that the magnetic particles cannot be cleaned subsequently.

In order to achieve the above object, the utility model provides a multi-station automatic magnetic particle inspection machine, which comprises a supporting frame, a mounting component and a cleaning component, wherein the mounting component comprises a workbench, a magnetic spraying box, a magnetic spraying device, a sliding guide rail, a sliding plate, an electric push rod, a placing baffle and a detection component, the workbench is fixedly connected with the supporting frame and positioned at one side of the supporting frame, the magnetic spraying box is fixedly connected with the workbench and positioned at one side of the workbench, the magnetic spraying device is fixedly connected with the magnetic spraying box and positioned at the inner side of the magnetic spraying box, the sliding guide rail is fixedly connected with the workbench and positioned at one side of the workbench, the sliding plate is in sliding connection with the sliding guide rail and positioned at one side of the sliding guide rail far away from the workbench, the electric push rod is fixedly connected with the sliding plate and positioned at one side of the sliding plate, the placing baffle is connected with the output end of the electric push rod, the detection component is connected with the workbench, a workpiece to be detected is placed on the workbench, the electric push rod is placed on the electric baffle, the electric push rod is driven by the electric push rod to be detected, the electric push rod is driven by the electric push rod to move the electric push rod to the workpiece to be cleaned, the workpiece is placed on the magnetic particle cleaning component to be cleaned by the magnetic particle cleaning component, the magnetic particle cleaning component is driven by the electric push rod to move the magnetic particle inspection component, and the magnetic particle inspection component is placed on the workbench, therefore, the problem that the detection workpiece cannot be automatically sprayed with magnetic powder and the follow-up magnetic powder is solved.

The detection component comprises a detection box, an upper flaw detector body, a side flaw detector body and a rear flaw detector body, wherein the detection box is fixedly connected with the workbench and is positioned at one side of the workbench, which is close to the magnetic spraying box; the upper flaw detector body is fixedly connected with the detection box and is positioned in the detection box; the side flaw detector body is fixedly connected with the detection box and is positioned in the detection box; the rear flaw detector body is fixedly connected with the detection box and is positioned in the detection box.

The mounting assembly further comprises a moving member, wherein the moving member comprises a fixed plate, a pushing cylinder and a pushing rod, and the fixed plate is fixedly connected with the workbench and is positioned on one side of the workbench, which is close to the sliding guide rail; the pushing cylinder is fixedly connected with the fixed plate and is positioned at one side of the fixed plate; one end of the pushing rod penetrates through the fixing plate to be connected with the output end of the pushing cylinder, and the other end of the pushing rod is fixedly connected with the sliding plate.

The cleaning assembly comprises a cleaning box, a filter screen, a water tank and a flushing component, wherein the cleaning box is fixedly connected with the workbench and is positioned on one side of the workbench; the water tank is fixedly connected with the workbench and is communicated with the cleaning box through the workbench; the filter screen is detachably connected with the water tank and is positioned in the water tank; the flushing member is connected with the water tank.

The flushing component comprises a water suction pump, a flow guide pipe and a spray head, wherein the water suction pump is fixedly connected with the water tank and is positioned in the water tank; the guide pipe is communicated with the water suction pump and penetrates through the water tank and the cleaning tank; the spray head is communicated with the guide pipe and is positioned at one end of the guide pipe, which is close to the cleaning box.

The utility model relates to a multi-station automatic magnetic particle inspection machine, which comprises a supporting frame, a mounting component and a cleaning component, wherein the mounting component comprises a workbench, a magnetic spraying box, a magnetic spraying device, a sliding guide rail, a sliding plate, an electric push rod, a placement baffle and a detection component, the detection component comprises a detection box, an upper flaw detector body, a side flaw detector body and a rear flaw detector body, the mounting component also comprises a moving component, the moving component comprises a fixed plate, a pushing cylinder and a pushing rod, the cleaning component comprises a cleaning box, a filter screen, a water tank and a flushing component, the flushing component comprises a water suction pump, a guide pipe and a spray head, the workbench is fixedly connected with the supporting frame and is positioned at one side of the supporting frame, the magnetic spraying box is fixedly connected with the workbench and is positioned at one side of the workbench, the magnetic spraying device is fixedly connected with the magnetic spraying box and is positioned at the inner side of the magnetic spraying box, the sliding guide rail is fixedly connected with the workbench and is positioned at one side of the workbench, the sliding plate is in sliding connection with the sliding guide rail and is positioned at one side of the workbench, the electric guide rail is positioned at one side of the electric guide rail and is far away from the workbench, the electric push rod is required to be placed at one side of the electric guide plate and is far from the workbench, the workpiece is placed at one side of the detection baffle and is required to be placed at the detection end of the push rod, the push rod is placed at the detection baffle and the front side of the workpiece is placed at the detection end of the magnetic spraying baffle is placed, the electric putter will place baffle and work piece push away in the detecting member, detecting member detects the work piece, after the detection is accomplished electric putter drives place the baffle resets, moving member is driving the sliding plate removes to before the clearance subassembly, through electric putter will place baffle and work piece promote in the clearance subassembly, clearance subassembly is clearing up the magnetic powder on the work piece to the unable automatic problem of spraying magnetic powder and follow-up magnetic powder clearance to detecting the work piece of having solved.

Drawings

The utility model may be further illustrated by means of non-limiting examples given in the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of a multi-station automatic magnetic particle inspection machine according to a first embodiment of the present utility model.

Fig. 2 is a schematic diagram showing connection between a test box of a multi-station automatic magnetic particle inspection machine and the upper inspection machine body according to the first embodiment of the present utility model.

Fig. 3 is a schematic view of a multi-station automatic magnetic particle inspection machine according to a second embodiment of the present utility model.

In the figure: 101-supporting frame, 102-workbench, 103-magnetic spraying box, 104-magnetic sprayer, 105-sliding guide rail, 106-sliding plate, 107-electric push rod, 108-placing baffle, 109-detection box, 110-upper flaw detector body, 111-side flaw detector body, 112-rear flaw detector body, 113-fixed plate, 114-pushing cylinder, 115-pushing rod, 201-cleaning box, 202-filter screen, 203-water tank, 204-water suction pump, 205-flow guide pipe and 206-spray head.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

The first embodiment of the utility model is as follows:

referring to fig. 1 and 2, fig. 1 is a schematic overall structure of a multi-station automatic magnetic particle inspection machine according to a first embodiment of the present utility model, fig. 2 is a schematic connection diagram of a inspection box and an upper inspection machine body of the multi-station automatic magnetic particle inspection machine according to the first embodiment of the present utility model, and the multi-station automatic magnetic particle inspection machine includes a supporting frame 101, a mounting assembly and a cleaning assembly, wherein the mounting assembly includes a workbench 102, a magnetic spraying box 103, a magnetic spraying device 104, a sliding guide 105, a sliding plate 106, an electric push rod 107, a placing baffle 108 and an inspection member, the inspection member includes an inspection box 109, an upper inspection machine body 110, a side inspection machine body 111 and a rear inspection machine body 112, the mounting assembly further includes the moving member, and the moving member includes a fixing plate 113, a pushing cylinder 114 and a pushing rod 115, and the problem that automatic magnetic powder spraying and subsequent magnetic particle cleaning cannot be performed on an inspection workpiece is solved by the foregoing scheme.

For this embodiment, the work piece that will detect is placed place on placing baffle 108, through electric putter 107 will place baffle 108 and work piece are pushed in spout magnetic box 103, spout magnetic sprayer 104 and spout magnetism to the work piece, electric putter 107 is retrieving the output, place baffle 108 resets, moving member is driving slide plate 106 is moving to before detecting the component, electric putter 107 will place baffle 108 and work piece are pushing in detecting the component, detecting the component is detecting the work piece, after detecting, electric putter 107 drives place baffle 108 resets, moving member is driving slide plate 106 is moving to before the clearance subassembly, through electric putter 107 will place baffle 108 and work piece are pushed to in the clearance subassembly, clearance subassembly is clearing up the magnetic powder on the work piece to the unable automatic problem of spraying magnetic powder and follow-up magnetic powder clearance to detecting the work piece has been solved.

Wherein the workbench 102 is fixedly connected with the support frame 101 and is positioned at one side of the support frame 101, the magnetic spraying box 103 is fixedly connected with the workbench 102 and is positioned at one side of the workbench 102, the magnetic spraying device 104 is fixedly connected with the magnetic spraying box 103 and is positioned at the inner side of the magnetic spraying box 103, the sliding guide rail 105 is fixedly connected with the workbench 102 and is positioned at one side of the workbench 102, the sliding plate 106 is slidingly connected with the sliding guide rail 105 and is positioned at one side of the sliding guide rail 105 far away from the workbench 102, the electric push rod 107 is fixedly connected with the sliding plate 106 and is positioned at one side of the sliding plate 106, the placing baffle 108 is connected with the output end of the electric push rod 107, the detecting member is connected with the workbench 102 and the workbench 102 is positioned above the support frame 101, the magnetic spraying box 103 is positioned above the workbench 102, the magnetic sprayer 104 is positioned at the top side of the interior of the magnetic spraying box 103, the sliding guide rail 105 is positioned at one side of the workbench 102 close to the magnetic spraying box 103, the sliding plate 106 slides above the sliding guide rail 105 through the moving member, the electric push rod 107 is positioned above the sliding plate 106, the placing baffle 108 is positioned in an L-shaped structure and is connected with the output end of the electric push rod 107, a workpiece to be detected is placed on the placing baffle 108, the placing baffle 108 and the workpiece are pushed into the magnetic spraying box 103 through the electric push rod 107, the magnetic sprayer 104 sprays magnetism to the workpiece, the electric push rod 107 is at the withdrawing output end, the placing baffle 108 is reset, the moving member drives the sliding plate 106 to move to the detecting member before, the electric putter 107 will place baffle 108 and work piece and push in the detecting element, detecting element detects the work piece, after the detection is accomplished electric putter 107 drives place baffle 108 resets, moving element is driving before sliding plate 106 removes to clearance subassembly, will place baffle 108 and work piece are being pushed through electric putter 107 in clearance subassembly, clearance subassembly is clearing up the magnetic powder on the work piece to the unable automatic problem of spraying magnetic powder and follow-up magnetic powder clearance to detecting the work piece has been solved.

Secondly, the detection box 109 is fixedly connected with the workbench 102 and is positioned at one side of the workbench 102 close to the magnetic spraying box 103; the upper flaw detector body 110 is fixedly connected with the detection box 109 and is positioned in the detection box 109; the side flaw detector body 111 is fixedly connected with the detection box 109 and is positioned in the detection box 109; the rear flaw detector body 112 is fixedly connected with the detection box 109 and is positioned in the detection box 109; the detection box 109 is located one side of the magnetic spraying box 103, the upper flaw detector body 110 is located on the top side inside the detection box 109, two side flaw detector bodies 111 are arranged, the side flaw detector bodies 111 are located on the left side and the right side of the opening face of the detection box 109 respectively, the rear flaw detector body 112 is located on the opposite face of the opening of the detection box 109, after a workpiece enters the detection box 109, the upper flaw detector body 110 detects a flaw above the workpiece, the side flaw detector bodies 111 detect flaws on the left side and the right side of the workpiece, and the rear flaw detector body 112 detects flaws on the rear side of the workpiece, so that multi-station detection of the workpiece is achieved.

Then, the fixing plate 113 is fixedly connected to the table 102 and located at a side of the table 102 close to the sliding rail 105; the pushing cylinder 114 is fixedly connected with the fixed plate 113 and is positioned at one side of the fixed plate 113; one end of the pushing rod 115 passes through the fixed plate 113 and is connected with the output end of the pushing cylinder 114, the other end of the pushing rod 115 is fixedly connected with the sliding plate 106, the fixed plate 113 is located above the workbench 102, the pushing cylinder 114 is located at one side of the fixed plate 113 away from the sliding guide rail 105, one end of the pushing rod 115 is connected with the sliding plate 106, the other end of the pushing rod 115 passes through the fixed plate 113 and is located at the output end of the pushing cylinder 114 and is connected with the pushing plate 106, the pushing cylinder 114 controls the pushing rod 115 to stretch and retract, and the pushing cylinder 114 drives the pushing rod 115 to move, so that the pushing rod 115 drives the sliding plate 106 to slide on the sliding guide rail 105.

When the multi-station automatic magnetic particle inspection machine of the embodiment is used, a workpiece to be inspected is placed on the placing baffle 108, the placing baffle 108 and the workpiece are pushed into the magnetic spraying box 103 through the electric push rod 107, the magnetic spraying device 104 sprays magnetism to the workpiece, the electric push rod 107 is at the recovery output end, the placing baffle 108 is reset, the push rod 115 is controlled to stretch and retract through the push cylinder 114, the push cylinder 114 drives the push rod 115 to move, so that the push rod 115 drives the sliding plate 106 to slide on the sliding guide rail 105, the push rod 115 drives the sliding plate 106 to move to the front of the detecting box 109, the electric push rod 107 is used for carrying out flaw detection on the upper part of the workpiece after the placing baffle 108 and the workpiece are pushed into the detecting box 109, the side flaw detector body 111 is used for carrying out flaw detection on the left side and the right side of the workpiece, the rear flaw detector body 112 is used for carrying out flaw detection on the workpiece, thus the electric push rod 115 drives the sliding plate 106 to slide on the sliding guide rail 105, the electric push rod 115 is driven to move to the workpiece to the detecting box 109, and the workpiece is cleaned by the cleaning assembly is carried out after the automatic magnetic particle inspection machine is driven to move, and the cleaning assembly is cleaned by the push rod 106 is cleaned up, and the workpiece is cleaned up by the multi-station cleaning assembly is carried out after the workpiece is pushed by the moving the push rod 106 and the cleaning assembly is cleaned

The second embodiment of the utility model is as follows:

referring to fig. 3, fig. 3 is a schematic diagram of a multi-station automatic magnetic particle inspection machine according to a second embodiment of the present utility model, and the multi-station automatic magnetic particle inspection machine further includes a cleaning assembly, which includes a cleaning tank 201, a filter screen 202, a water tank 203, and a flushing member, which includes a suction pump 204, a guide pipe 205, and a nozzle 206, on the basis of the first embodiment.

For this embodiment, the placing baffle 108 and the workpiece enter the cleaning tank 201, the water in the water tank 203 is sucked into the guide pipe 205 by the water suction pump 204, the water is guided into the nozzle 206 by the guide pipe 205, the nozzle 206 sprays out the water sucked by the water suction pump 204 to flush the magnetic powder on the workpiece, the placing baffle 108 blocks the water from spraying out of the cleaning tank 201, the water flows to drive the magnetic powder to enter the filter screen 202, the filter filters the water and collects the magnetic powder, the magnetic powder is recovered after detection, and the water flows back into the water tank 203, so that the magnetic powder on the workpiece is cleaned.

Wherein, the cleaning box 201 is fixedly connected with the workbench 102 and is positioned at one side of the workbench 102; the water tank 203 is fixedly connected with the workbench 102 and is communicated with the cleaning tank 201 through the workbench 102; the filter screen 202 is detachably connected with the water tank 203 and is positioned in the water tank 203; the flushing component is connected with the water tank 203, the cleaning tank 201 is located beside the detection tank 109, the water tank 203 is located below the cleaning tank 201, the filter screen 202 is located on one side of the water tank 203, which is close to the cleaning tank 201, the placing baffle 108 and the workpiece enter the cleaning tank 201, the flushing component pumps water in the water tank 203 to flush magnetic powder on the component, the water flows to drive the magnetic powder to enter the filter screen 202, the filter filters the water and collects the magnetic powder, the magnetic powder is recovered after detection, and the water flows back to the water tank 203, so that the magnetic powder on the workpiece is cleaned.

Secondly, the water suction pump 204 is fixedly connected with the water tank 203 and is positioned inside the water tank 203; the guide pipe 205 is communicated with the water suction pump 204 and penetrates through the water tank 203 and the cleaning tank 201; the spray nozzle 206 is communicated with the flow guide pipe 205 and is positioned at one end of the flow guide pipe 205, which is close to the cleaning box 201, the water suction pump 204 is positioned at the bottom inside the water tank 203, one end of the flow guide pipe 205 penetrates through the water tank 203 and the cleaning box 201 and is fixedly connected with the cleaning box 201 and the water tank 203, the spray nozzle 206 is fixedly connected with the other end of the flow guide pipe 205 and is communicated with the water tank, the water suction pump 204 sucks water in the water tank 203 into the flow guide pipe 205, the flow guide pipe 205 guides the water into the spray nozzle 206, and therefore the spray nozzle 206 sprays water sucked by the water suction pump 204 to flush magnetic powder on a workpiece.

When the multi-station automatic magnetic particle inspection machine of the embodiment is used, the placing baffle 108 and a workpiece enter the cleaning box 201, the water in the water tank 203 is sucked into the guide pipe 205 by the water suction pump 204, the water is guided into the spray head 206 by the guide pipe 205, the spray head 206 sprays the water sucked by the water suction pump 204 to rinse the magnetic powder on the workpiece, the placing baffle 108 blocks the water from spraying out of the cleaning box 201, the water flows to drive the magnetic powder to enter the filter screen 202, the filter filters the water and collects the magnetic powder, the magnetic powder is recovered after detection is completed, and the water flows back into the water tank 203, so that the magnetic powder on the workpiece is cleaned.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims of this utility model, which are within the skill of those skilled in the art, can be made without departing from the spirit and scope of the utility model disclosed herein.

Claims (5)

1. A multi-station automatic magnetic particle inspection machine comprises a support frame and a cleaning component, and is characterized in that,

the device also comprises a mounting assembly;

the installation component includes workstation, spouts magnetic box, spouts magnetic instrument, sliding guide, sliding plate, electric putter, places baffle and detection component, the workstation with support frame fixed connection, and be located one side of support frame, spout magnetic box with workstation fixed connection, and be located one side of workstation, spout magnetic instrument with spout magnetic box fixed connection, and be located spout the inboard of magnetic box, sliding guide with workstation fixed connection, and be located one side of workstation, sliding plate with sliding guide sliding connection, and be located sliding guide keeps away from one side of workstation, electric putter with sliding plate fixed connection, and be located one side of sliding plate, place the baffle with electric putter's output is connected, detection component with the workstation is connected.

2. A multi-station automatic magnetic particle inspection machine according to claim 1, wherein,

the detection component comprises a detection box, an upper flaw detector body, a side flaw detector body and a rear flaw detector body, wherein the detection box is fixedly connected with the workbench and is positioned at one side of the workbench, which is close to the magnetic spraying box; the upper flaw detector body is fixedly connected with the detection box and is positioned in the detection box; the side flaw detector body is fixedly connected with the detection box and is positioned in the detection box; the rear flaw detector body is fixedly connected with the detection box and is positioned in the detection box.

3. A multi-station automatic magnetic particle inspection machine according to claim 1, wherein,

the mounting assembly further comprises a moving member, wherein the moving member comprises a fixed plate, a pushing cylinder and a pushing rod, and the fixed plate is fixedly connected with the workbench and is positioned on one side of the workbench, which is close to the sliding guide rail; the pushing cylinder is fixedly connected with the fixed plate and is positioned at one side of the fixed plate; one end of the pushing rod penetrates through the fixing plate to be connected with the output end of the pushing cylinder, and the other end of the pushing rod is fixedly connected with the sliding plate.

4. A multi-station automatic magnetic particle inspection machine according to claim 1, wherein,

the cleaning assembly comprises a cleaning box, a filter screen, a water tank and a flushing component, wherein the cleaning box is fixedly connected with the workbench and is positioned at one side of the workbench; the water tank is fixedly connected with the workbench and is communicated with the cleaning box through the workbench; the filter screen is detachably connected with the water tank and is positioned in the water tank; the flushing member is connected with the water tank.

5. A multi-station automatic magnetic particle inspection machine according to claim 4, wherein,

the flushing component comprises a water suction pump, a flow guide pipe and a spray head, wherein the water suction pump is fixedly connected with the water tank and is positioned in the water tank; the guide pipe is communicated with the water suction pump and penetrates through the water tank and the cleaning tank; the spray head is communicated with the guide pipe and is positioned at one end of the guide pipe, which is close to the cleaning box.