CN215088990U - Automatic rapid detection and blanking device for magnet - Google Patents

Abstract

The utility model belongs to the technical field of mechanical equipment makes, especially, relate to an automatic short-term test of magnet and unloader, including workstation and processing carousel, processing carousel fixed mounting be in on the workstation, center on processing carousel has set gradually along clockwise, automatic feeding part for the magnet that will wait to detect transmits to on the processing carousel, first automatic detection part for openly detect magnet, first unloading part, be used for with first automatic detection part detects for unqualified magnet is followed transmit corresponding position on the processing carousel, magnet upset part for put back again after 180 degrees with magnet upset on the processing carousel, second automatic detection part is used for right warp magnet after magnet upset part overturns detects, second unloading part, is used for will warp second automatic detection part detects for unqualified magnet and follows transmit corresponding position on the processing carousel to And (4) placing.

Description

Automatic rapid detection and blanking device for magnet

Technical Field

The utility model belongs to the technical field of mechanical equipment makes, especially, relate to an automatic short-term test of magnet and unloader.

Background

Currently, the surface defects formed after machining and electroplating of the magnet seriously affect the application of customers. The surface defects not only have great influence on the surface magnetic distribution, the magnetic performance uniformity and other characteristics of the magnet, but also reduce the corrosion resistance of the magnet.

At present, in the process of producing magnets by domestic enterprises, the detection of surface defects of the magnets is generally mainly carried out by manual visual inspection, and tools such as a magnifying glass, a microscope and the like are assisted. However, the manual visual inspection is prone to cause missed inspection and erroneous judgment due to fatigue of the inspector, and the efficiency of manual inspection is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic short-term test of magnet and unloader aims at solving and has the technical problem such as missing the detection easily appearing, erroneous judgement and inefficiency through artifical detection magnet surface defect existence among the prior art.

In order to achieve the above object, the embodiment of the utility model provides a pair of automatic short-term test of magnet and unloader, including workstation and processing carousel, processing carousel fixed mounting be in on the workstation, center on the processing carousel has set gradually along the clockwise:

the automatic feeding part is used for transmitting the magnet to be detected to the processing turntable;

the first automatic detection component is used for detecting the front face of the magnet;

the first blanking part is used for transmitting the magnet detected as unqualified by the first automatic detection part to a corresponding position from the processing turntable;

the magnet overturning component is used for overturning the magnet by 180 degrees and then putting the magnet back on the processing turntable again;

the second automatic detection component is used for detecting the magnet turned by the magnet turning component;

and the second blanking part is used for transmitting the magnet which is detected to be unqualified by the second automatic detection part to a corresponding position from the processing turntable.

Optionally, the automatic feeding part is including material loading vibration dish, be provided with on the material loading vibration dish with magnet assorted material loading passageway, the one end of material loading passageway with material loading vibration dish fixed connection, the other end of material loading passageway with processing carousel upper surface butt.

Optionally, first automated inspection part detects camera and automated inspection light ring including automated inspection base, automated inspection driving piece, automated inspection mount pad, CCD, automated inspection base fixed mounting is in on the workstation, be provided with the automated inspection guide rail on the automated inspection base lateral wall face, install the automated inspection slider on the automated inspection guide rail, the automated inspection driving piece fixed mounting be in automated inspection base upper end, the one end of automated inspection mount pad with automated inspection slider fixed connection, the upper end of automated inspection mount pad with the automated inspection driving piece is connected, CCD detects camera fixed mounting be in first half of the automated inspection mount pad, the automated inspection light ring fixed mounting be in the automated inspection mount pad lower half.

Optionally, first unloading part is including unloading driving piece, unloading connecting axle, unloading installation piece, group's piece and unloading board, unloading driving piece fixed mounting be in on the workstation, the one end of unloading connecting axle with the unloading driving piece is connected, unloading installation piece fixed mounting be in on the other end of unloading connecting axle, the one end of group's piece with unloading installation piece fixed connection, the other end of group's piece with processing carousel upper surface butt, the one end of unloading board with unloading installation piece fixed connection, the unloading board is located processing carousel below.

Optionally, the magnet overturning component comprises an automatic overturning component and a pushing component:

the automatic overturning assembly is fixedly arranged on the workbench and used for adsorbing the magnet and overturning the magnet by 180 degrees;

the material pushing assembly is fixedly installed on one side of the automatic overturning assembly and used for pushing the magnets on the automatic overturning assembly to the processing turntable.

Optionally, the automatic turnover assembly comprises an automatic turnover base, a first automatic turnover driving piece, an automatic turnover mounting seat, a second automatic turnover driving piece and a turnover metal plate, the automatic turnover base is fixedly mounted on the workbench, an automatic turnover sliding rail is arranged on a side wall surface of the automatic turnover base, an automatic turnover sliding block is mounted on the automatic turnover sliding rail, the first automatic turnover driving piece is fixedly mounted at the upper end of the automatic turnover base, the side wall surface of the automatic turnover mounting seat is fixedly connected with the automatic turnover sliding block, the second automatic turnover driving piece is fixedly mounted on the automatic turnover mounting seat, one end of the turnover metal plate is connected with the second automatic turnover driving piece, and the other end of the turnover metal plate is located above the processing turntable;

the material pushing assembly comprises a material pushing base, a first material pushing driving piece, a material pushing mounting seat, a second material pushing driving piece, a third material pushing driving piece and a material pushing plate, wherein the material pushing base is fixedly mounted on one side of the automatic restaurant assembly, the first material pushing driving piece is fixedly mounted on the material pushing base, the material pushing mounting seat is connected with the first material pushing driving piece, the second material pushing driving piece is fixedly mounted on the material pushing mounting seat, the third material pushing driving piece is connected with the second material pushing driving piece, and one end of the material pushing plate is connected with the third material pushing driving piece.

Optionally, a first induction block is arranged at the bottom end of the automatic overturning mounting base, and a first photoelectric door is arranged on the first automatic overturning base.

Optionally, a second sensing block is fixedly arranged at the bottom end of the material pushing mounting seat, a second photoelectric gate is arranged on the material pushing base, and the second sensing block is located right above the second photoelectric gate.

The embodiment of the utility model provides a pair of above-mentioned one or more technical scheme in automatic short-term test of magnet and unloader have one of following technological effect at least: when the magnet detection device is used, a magnet to be detected is placed into the automatic feeding part, the automatic feeding part transmits the magnet to the processing rotary disc one by one, the processing rotary disc rotates to drive the magnet to move to the position below the first automatic detection part, then the first automatic detection part detects and compares the magnet, when the magnet is detected to have defects, namely unqualified products, the processing rotary disc drives the magnet to move to the position of the first feeding part, then the first feeding part transmits the magnet to a unqualified product containing box from the processing rotary disc, when the magnet is detected to be normal products, the processing rotary disc drives the magnet to move to the position below the magnet overturning part, the magnet overturning part overturns the magnet by 180 degrees, so that the lower surface of the magnet is changed into an upper surface, then the magnet moves to the position below the second automatic detection part along with the movement of the second automatic detection part, the second automatic detection part detects the magnet again, when the other surface of the magnet has defects, the processing carousel will drive magnet and rotate the automatic unloading part department of second, the automatic unloading part of second transmits magnet to an defective work receiver from the processing carousel, when detecting magnet still for the certified products, the processing carousel drives magnet and moves to next machining-position department to realized the automatic short-term test of magnet and the automatic unloading of defective products, automatic accurate distinguish certified products and defective products, avoided appearing lou examining and the wrong condition of judging, improved production efficiency.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is the embodiment of the utility model provides an automatic short-term test of magnet and unloader's schematic structure diagram.

Fig. 2 is one of the schematic partial enlarged views of the automatic rapid magnet detection and blanking device provided in the embodiment of the present invention.

Fig. 3 is a second schematic view of a local amplification of the automatic rapid magnet detection and blanking device according to an embodiment of the present invention.

Fig. 4 is a third schematic view of a local amplification of the automatic rapid magnet detection and blanking device according to an embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

a workbench 1, a processing turntable 2, an automatic feeding part 3, a first automatic detection part 4, a first discharging part 5, a magnet turning part 6, a second automatic detection part 7, a second discharging part 8, a feeding vibration disc 31, a feeding channel 32, an automatic detection base 41, an automatic detection driving part 42, an automatic detection mounting seat 43, a CCD detection camera 44, an automatic detection aperture 45, a discharging driving part 51, a discharging connecting shaft 52, a discharging mounting block 53, a material shifting block 54, a discharging plate 55, an automatic turning component 61, a material pushing component 62, an automatic detection guide rail 411, an automatic detection slide block 412, an automatic turning base 611, a first automatic turning driving part 612, an automatic turning mounting seat 613, a second automatic turning driving part 614, a turning metal plate 615, an automatic turning slide rail 616, a first induction block 617, a first photoelectric door 618, a material pushing base 621, a first material pushing driving part 622, a second automatic turning driving part, A material pushing mounting seat 623, a second material pushing driving member 624, a third material pushing driving member 625, a material pushing plate 626, a second sensing block 627 and a second photoelectric gate 628.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary and intended to explain the embodiments of the present invention and are not to be construed as limiting the present invention.

In the description of the embodiments of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings, which is only for convenience in describing the embodiments of the present invention and simplifying the description, and do not indicate or imply that the device or element so indicated must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as fixed or detachable connections or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

The utility model discloses an embodiment, as shown in FIG. 1, provides an automatic short-term test of magnet and unloader, including workstation 1 and processing carousel 2, processing carousel 2 fixed mounting be in on the workstation 1, center on processing carousel 2 has set gradually along the clockwise:

the automatic feeding part 3 is used for transmitting the magnet to be detected to the processing turntable 2;

the first automatic detection component 4 is used for detecting the front surface of the magnet;

the first blanking part 5 is used for transmitting the magnet detected as unqualified by the first automatic detection part 4 to a corresponding position from the processing turntable 2;

the magnet overturning component 6 is used for overturning the magnet by 180 degrees and then putting the magnet back on the processing turntable 2 again;

the second automatic detection component 7 is used for detecting the magnet turned by the magnet turning component 6;

and the second blanking part 8 is used for transferring the magnet which is detected to be unqualified by the second automatic detection part 7 to a corresponding position from the processing turntable 2.

In the embodiment, when the automatic feeding part 3 is used, magnets to be detected are placed into the automatic feeding part 3, the magnets are transmitted onto the processing turntable 2 one by the automatic feeding part 3, the processing turntable 2 rotates to drive the magnets to move to the position below the first automatic detection part 4, then the first automatic detection part 4 detects and compares the magnets, when the magnets are detected to have defects, namely unqualified products, the processing turntable 2 drives the magnets to move to the position of the first blanking part 5, then the first blanking part 5 transmits the magnets from the processing turntable 2 to an unqualified product containing box, when the magnets are detected to be normal products, the processing turntable 2 drives the magnets to move to the position below the magnet overturning part 6, the magnet overturning part 6 overturns the magnets by 180 degrees, so that the lower surfaces of the magnets become upper surfaces, then the magnet moves below the second automatic detection part 7, the second automatic detection part 7 detects the magnet again, when the other side of the magnet is detected to be defective, the processing turntable 2 drives the magnet to rotate to the second blanking part 8, the second blanking part 8 transmits the magnet to a defective storage box from the processing turntable 2, and when the magnet is detected to be still a qualified product, the processing turntable 2 drives the magnet to move to the next processing station, so that the automatic rapid detection of the magnet and the automatic blanking of the defective product are realized, the qualified product and the defective product are automatically and accurately distinguished, the situations of missing detection and wrong judgment are avoided, and the production efficiency is improved.

In another embodiment of the present invention, as shown in fig. 2, the automatic feeding component 3 includes a feeding vibration disk 31, a feeding channel 32 matched with the magnet is provided on the feeding vibration disk 31, one end of the feeding channel 32 is fixedly connected to the feeding vibration disk 31, and the other end of the feeding channel 32 is abutted to the upper surface of the processing turntable 2. When the automatic magnet feeding device is used, magnets to be detected are placed into the feeding vibration disc 31, the feeding vibration disc 31 starts to work, the magnets are conveyed to the processing rotary disc 2 one by one through the feeding channel 32, automatic magnet feeding is achieved, the automation degree is improved, and the production efficiency is improved.

In another embodiment of the present invention, as shown in fig. 3, the first automatic detecting unit 4 comprises an automatic detecting base 41, an automatic detecting driving member 42, an automatic detecting mounting base 43, a CCD detecting camera 44 and an automatic detecting aperture 45, the automatic detection base 41 is fixedly arranged on the workbench 1, the side wall surface of the automatic detection base 41 is provided with an automatic detection guide rail 411, an automatic detection sliding block 412 is arranged on the automatic detection guide rail 411, the automatic detection driving piece 42 is fixedly arranged at the upper end of the automatic detection base 41, one end of the automatic detection mounting seat 43 is fixedly connected with the automatic detection sliding block 412, the upper end of the automatic detection mounting seat 43 is connected with the automatic detection driving component 42, the CCD detection camera 44 is fixedly mounted on the upper half part of the automatic detection mounting seat 43, the automatic detection diaphragm 45 is fixedly arranged on the lower half part of the automatic detection mounting seat 43; the second automatic detection part 7 has the same structure as the first automatic detection part 4, and a repeated description thereof will not be provided. When in use, the automatic detection driving component 42 drives the automatic detection mounting seat 43 and the automatic detection slide rail to slide on the automatic detection guide rail 411, according to the size of the magnet to be detected, the automatic detection driving component 42 drives the automatic detection mounting seat 43 to move to a corresponding position, the CCD detection camera 44 and the automatic detection aperture 45 are then moved to the respective positions, the automatic detection aperture 45 starts to work and emit light, the CCD detection camera 44 shoots and detects the magnet through the automatic detection aperture 45, the magnet pictures shot by the CCD detection camera 44 are compared and analyzed to know whether the magnet has defects or not and whether the magnet is a qualified product or not, thereby realized the automatic short-term test to magnet, avoided the condition of missing the detection and erroneous judgement that appear easily through artifical detection, improved production efficiency.

In another embodiment of the present invention, as shown in fig. 2, the first discharging component 5 includes a discharging driving member 51, a discharging connecting shaft 52, a discharging mounting block 53, a material shifting block 54 and a discharging plate 55, the discharging driving member 51 is fixedly mounted on the working table 1, one end of the discharging connecting shaft 52 is connected to the discharging driving member 51, the discharging mounting block 53 is fixedly mounted on the other end of the discharging connecting shaft 52, one end of the material shifting block 54 is fixedly connected to the discharging mounting block 53, the other end of the material shifting block 54 is abutted to the upper surface of the processing turntable 2, one end of the discharging plate 55 is fixedly connected to the discharging mounting block 53, and the discharging plate 55 is located below the processing turntable 2; the second blanking member 8 and the first blanking member 5 have the same structure, and a repeated description thereof will not be provided. When the first automatic detection component 4 detects that the magnet has a defect and is a defective product, the blanking driving component 51 drives the blanking connecting shaft 52 to rotate, the blanking connecting shaft 52 drives the blanking connecting block to rotate, the material stirring block 54 rotates along with the rotation, the other end of the material stirring block 54 moves towards the center of the processing turntable 2, one side of the blanking plate 55 rotates to the lower part of the processing turntable 2, the magnet moves along with the processing turntable 2, the material stirring block 54 is blocked on the moving path of the magnet, then the magnet moves to the blanking plate 55 along the material stirring block 54, then the magnet falls into a defective product containing box along the blanking plate 55, when the first automatic detection component 4 detects that the magnet is a normal product, the blanking driving component 51 drives the blanking connecting shaft 52 to rotate, and the blanking connecting shaft 52 drives the blanking mounting block 53, The material stirring block 54 and the blanking plate 55 rotate, so that the other end of the material stirring block 54 is far away from the center of the processing turntable 2, namely the material stirring block 54 cannot block the movement of the magnet, the automatic blanking of unqualified magnets is realized, manual operation is not needed, and the production efficiency is improved.

In another embodiment of the present invention, as shown in fig. 4, the magnet turning part 6 includes an automatic turning component 61 and a material pushing component 62:

the automatic overturning assembly 61 is fixedly arranged on the workbench 1, and the automatic overturning assembly 61 is used for adsorbing a magnet and overturning the magnet by 180 degrees;

the pushing assembly 62 is fixedly installed on one side of the automatic overturning assembly 61, and the pushing assembly 62 is used for pushing the magnet on the automatic overturning assembly 61 to the processing turntable 2. When the automatic overturning device is used, when the magnet moves to the position below the automatic overturning component 61, the automatic overturning component 61 adsorbs the magnet, then the automatic overturning component 61 enables the magnet to overturn for 180 degrees, then the pushing component 62 pushes the magnet back to the processing turntable 2 from the automatic overturning component 61 again, at the moment, the magnet overturns for 180 degrees, then the magnet is detected, the automatic overturning of the magnet is realized, the comprehensive detection of the magnet can be realized, and the condition of missed detection is further avoided.

In another embodiment of the present invention, as shown in fig. 4, the automatic turnover assembly 61 includes an automatic turnover base 611, a first automatic turnover driving member 612, an automatic turnover mounting seat 613, a second automatic turnover driving member 614 and a turnover metal plate 615, the automatic turnover base 611 is fixedly mounted on the working table 1, an automatic turnover sliding rail 616 is disposed on a side wall surface of the automatic turnover base 611, an automatic turnover slider is mounted on the automatic turnover sliding rail 616, the first automatic turnover driving member 612 is fixedly mounted on an upper end of the automatic turnover base 611, a side wall surface of the automatic turnover mounting seat 613 is fixedly connected to the automatic turnover slider, the second automatic turnover driving member 614 is fixedly mounted on the automatic turnover mounting seat 613, one end of the turnover metal plate 615 is connected to the second automatic turnover driving member 614, the other end of the turning metal plate 615 is positioned above the processing turntable 2;

the material pushing assembly 62 includes a material pushing base 621, a first material pushing driving member 622, a material pushing mounting seat 623, a second material pushing driving member 624, a third material pushing driving member 625 and a material pushing plate 626, the material pushing base 621 is fixedly mounted on one side of the automatic turning assembly 61, the first material pushing driving member 622 is fixedly mounted on the material pushing base 621, the material pushing mounting seat 623 is connected with the first material pushing driving member 622, the second material pushing driving member 624 is fixedly mounted on the material pushing mounting seat 623, the third material pushing driving member 625 is connected with the second material pushing driving member 624, one end of the material pushing plate 626 is connected with the third material pushing driving member 625. When in use, the first automatic turnover driving element 612 drives the automatic turnover mounting seat 613 to move downwards, the second automatic turnover driving element 614 and the turnover metal plate 615 move downwards, the turnover metal plate 615 moves downwards above the magnets on the processing turntable 2, due to magnetic force, the magnets are attracted to the turnover metal plate 615, then the second automatic turnover driving element 614 drives the turnover metal plate 615 to rotate 180 degrees, the magnets on the turnover metal plate 615 turn over 180 degrees, then the first pushing driving element 622 drives the pushing mounting seat 623 to move downwards, the second pushing driving element 624, the third pushing driving element 625 and the pushing plate 626 move downwards, then the third pushing driving element 625 drives the pushing plate 626 to move towards the turnover metal plate 615, so that the pushing plate 626 is abutted against the upper surface of the turnover metal plate 615, then, the second pushing driving element 624 drives the third pushing driving element 625 and the pushing plate 626 to move toward the center of the processing turntable 2, the pushing plate 626 moves toward the center of the processing turntable 2 along the turning metal plate 615, and the pushing plate 626 pushes the magnet on the turning metal plate 615 back to the processing turntable 2, so that the magnet is automatically and rapidly turned over without manual operation, and the production efficiency is improved.

In another embodiment of the present invention, as shown in fig. 4, a first sensing block 617 is disposed at a bottom end of the automatic turning mounting seat 613, and a first photoelectric door 618 is disposed on the first automatic turning base 611. When the automatic reverse rotation base is used, the automatic reverse rotation base moves downwards and simultaneously drives the first sensing block 617 to move downwards, when the first sensing block 617 passes through the first photoelectric door 618, it indicates that the automatic reverse installation base 613 reaches a specified position at this time, that is, the second automatic reverse rotation driving member 614 and the reverse metal plate 615 have moved downwards to a preset position, at this time, the first reverse rotation driving member stops working, so that the second automatic reverse rotation driving member 614 and the reverse metal plate 615 stay at the preset position, accurate automatic control of magnet reverse is realized, and a situation that magnet reverse fails due to the fact that the second automatic reverse rotation driving member 614 and the reverse metal plate 615 do not move downwards in place or move downwards too much is avoided.

In another embodiment of the present invention, as shown in fig. 4, the bottom end of the material pushing mounting seat 623 is fixedly provided with a second sensing block 627, the material pushing base 621 is provided with a second photo gate 628, and the second sensing block 627 is located right above the second photo gate 628. When the second photoelectric gate 628 is installed at a designated position, the pushing material installation seat 623 moves downwards to drive the second sensing block 627 to move downwards, and when the second sensing block 627 passes through the second photoelectric gate 628, that is, the pushing material installation seat 623 reaches the designated position, it means that the second pushing material driving part 624, the third pushing material driving part 625 and the pushing material plate 626 all move downwards to the designated position, and the pushing material plate 626 abuts against the upper surface of the turnover metal plate 615, so that precise automatic control of magnet turnover is realized, the situation that the pushing material plate 626 cannot move downwards in place and cannot push the magnet back to the processing turntable 2 from the turnover metal plate 615 is prevented, and the magnet turnover can be performed normally.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides an automatic short-term test of magnet and unloader, its characterized in that, including workstation and processing carousel, processing carousel fixed mounting be in on the workstation, center on processing carousel has set gradually along clockwise:

the automatic feeding part is used for transmitting the magnet to be detected to the processing turntable;

the first automatic detection component is used for detecting the front face of the magnet;

the first blanking part is used for transmitting the magnet detected as unqualified by the first automatic detection part to a corresponding position from the processing turntable;

the magnet overturning component is used for overturning the magnet by 180 degrees and then putting the magnet back on the processing turntable again;

the second automatic detection component is used for detecting the magnet turned by the magnet turning component;

and the second blanking part is used for transmitting the magnet which is detected to be unqualified by the second automatic detection part to a corresponding position from the processing turntable.

2. The automatic magnet rapid detection and blanking device according to claim 1, wherein the automatic feeding component comprises a feeding vibration disk, a feeding channel matched with the magnet is arranged on the feeding vibration disk, one end of the feeding channel is fixedly connected with the feeding vibration disk, and the other end of the feeding channel is abutted to the upper surface of the processing turntable.

3. The automatic rapid magnet detecting and blanking device according to claim 1 or 2, the first automatic detection part comprises an automatic detection base, an automatic detection driving piece, an automatic detection mounting seat, a CCD detection camera and an automatic detection diaphragm, the automatic detection base is fixedly arranged on the workbench, an automatic detection guide rail is arranged on the side wall surface of the automatic detection base, the automatic detection guide rail is provided with an automatic detection slide block, the automatic detection driving piece is fixedly arranged at the upper end of the automatic detection base, one end of the automatic detection mounting seat is fixedly connected with the automatic detection sliding block, the upper end of the automatic detection mounting seat is connected with the automatic detection driving piece, the CCD detection camera is fixedly installed on the upper half part of the automatic detection installation seat, and the automatic detection diaphragm is fixedly installed on the lower half part of the automatic detection installation seat.

4. The automatic magnet rapid detection and blanking device according to claim 1 or 2, wherein the first blanking part comprises a blanking driving member, a blanking connecting shaft, a blanking mounting block, a material shifting block and a blanking plate, the blanking driving member is fixedly mounted on the worktable, one end of the blanking connecting shaft is connected with the blanking driving member, the blanking mounting block is fixedly mounted at the other end of the blanking connecting shaft, one end of the material shifting block is fixedly connected with the blanking mounting block, the other end of the material shifting block is abutted against the upper surface of the processing turntable, one end of the blanking plate is fixedly connected with the blanking mounting block, and the blanking plate is located below the processing turntable.

5. The automatic rapid magnet detection and blanking device according to claim 1 or 2, wherein the magnet turning component comprises an automatic turning component and a material pushing component:

the automatic overturning assembly is fixedly arranged on the workbench and used for adsorbing the magnet and overturning the magnet by 180 degrees;

the material pushing assembly is fixedly installed on one side of the automatic overturning assembly and used for pushing the magnets on the automatic overturning assembly to the processing turntable.

6. The automatic rapid magnet detecting and blanking device of claim 5, the automatic overturning assembly comprises an automatic overturning base, a first automatic overturning driving piece, an automatic overturning mounting seat, a second automatic overturning driving piece and an overturning metal plate, the automatic overturning base is fixedly arranged on the workbench, an automatic overturning slide rail is arranged on the side wall surface of the automatic overturning base, the automatic overturning slide rail is provided with an automatic overturning slide block, the first automatic overturning driving piece is fixedly arranged at the upper end of the automatic overturning base, the side wall surface of the automatic overturning mounting seat is fixedly connected with the automatic overturning slide block, the second automatic overturning driving piece is fixedly arranged on the automatic overturning mounting seat, one end of the turnover metal plate is connected with the second automatic turnover driving piece, and the other end of the turnover metal plate is positioned above the processing turntable;

the material pushing assembly comprises a material pushing base, a first material pushing driving piece, a material pushing mounting seat, a second material pushing driving piece, a third material pushing driving piece and a material pushing plate, wherein the material pushing base is fixedly mounted on one side of the automatic overturning assembly, the first material pushing driving piece is fixedly mounted on the material pushing base, the material pushing mounting seat is connected with the first material pushing driving piece, the second material pushing driving piece is fixedly mounted on the material pushing mounting seat, the third material pushing driving piece is connected with the second material pushing driving piece, and one end of the material pushing plate is connected with the third material pushing driving piece.

7. The automatic magnet rapid detection and blanking device according to claim 6, wherein a first sensing block is arranged at the bottom end of the automatic overturning mounting base, and a first photoelectric door is arranged on the first automatic overturning base.

8. The automatic rapid magnet detection and blanking device according to claim 6, wherein a second sensing block is fixedly arranged at the bottom end of the material pushing mounting seat, a second photoelectric door is arranged on the material pushing base, and the second sensing block is positioned right above the second photoelectric door.

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