CN215278609U - Electromagnet interturn automatic detector - Google Patents

Abstract

The utility model relates to an electromagnet interturn automatic detector, which is characterized in that the device comprises a vibration disc mechanism, a material distributing mechanism, a transverse moving material taking mechanism, a detection mechanism and a swing disc mechanism; the vibrating disk mechanism is used for vibrating, sequencing and arraying the electromagnets, and vibrating, supplying and discharging materials in sequence; the distribution mechanism distributes the electromagnets into four pieces in a row; the transverse moving material taking mechanism comprises a raw material taking and placing assembly, a finished product taking and placing assembly and a transverse moving assembly, and can realize the clamping operation of the electromagnet; the detection mechanism comprises an equipment frame, an inter-turn detector, a detection tool and a touch screen, and can detect the inter-turn value of the electromagnet; the balance mechanism comprises a linear module, a carrier and a tray and is used for loading qualified product electromagnets; the utility model discloses the operation is reliable and stable, and the high-efficient compactness of action process has reduced the cost of labor by a wide margin, has alleviateed workman's intensity of labour, has improved the efficiency that the electro-magnet interturn detected, has ensured the qualification rate and the uniformity of product.

Description

Electromagnet interturn automatic detector

Technical Field

The utility model relates to an electro-magnet interturn automatic detector belongs to jacquard machine subassembly processing check out test set technical field.

Background

Electromagnets are key parts of jacquard components, and the electromagnets of the existing jacquard need to be electrified for turn-to-turn detection. According to the traditional turn-to-turn detection method, an electromagnet is manually installed on a detection tool, the detection tool is connected with a turn-to-turn instrument, the turn-to-turn instrument is manually started to detect the electromagnet, detection results of the electromagnets are displayed after the turn-to-turn instrument detects the electromagnet, qualified products are manually selected according to the detection results displayed by the turn-to-turn instrument, unqualified products are eliminated, and then the qualified products are placed on a tray.

The traditional manual operation detection mode has the advantages of low operation efficiency and productivity and high operation strength. And misoperation can occur when qualified products are manually screened and rejected, unqualified products are mixed into the qualified products, so that the unqualified products flow into the subsequent process, and the qualified product rate of the jacquard machine assembly is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving the above-mentioned various problems, and then provide an electro-magnet interturn automatic detector, this mechanism can improve the speed that jacquard machine electro-magnet detected, avoids artifical erroneous judgement when examining, realizes the automation that the electro-magnet interturn detected.

The utility model provides an electromagnet interturn automatic detector, which is characterized in that the device comprises a vibration disc mechanism, a material distributing mechanism, a transverse moving material taking mechanism, a detection mechanism and a swing disc mechanism;

the vibrating disc mechanism is used for supplying and discharging the electromagnets through vibration sorting;

the distribution mechanism is used for receiving the electromagnets from the vibration disc mechanism and positioning and distributing the electromagnets, and structurally comprises a positioning block, wherein the positioning block is provided with a plurality of groove positions for mounting the electromagnets;

the transverse moving material taking mechanism is used for clamping the electromagnet of the material separating mechanism and transferring the electromagnet to a detection station on one hand, and transferring the detected electromagnet to a disc placing station or a defective product station on the other hand; the structure comprises a raw material taking and placing component and a finished product taking and placing component which are driven and controlled by a transverse moving component;

the detection mechanism is used for carrying out turn-to-turn detection on the electromagnet transferred by the transverse moving material taking mechanism;

the balance mechanism is used for loading qualified product electromagnets.

In an embodiment of the utility model, the vibration dish mechanism includes that the circle shakes the part, directly shakes the slide and directly shakes the part, and the circle shakes the part and adopts the vibration dish structure, and the circle shakes the part and directly shakes and be connected with directly between the part and shake the slide, and the circle shakes the part and directly shakes the slide and all have two ejection of compact slides. The tail end of the direct vibration slideway is provided with a direct vibration baffle plate which is used for preventing the electromagnet from jumping out of the slideway in the advancing process of the direct vibration slideway.

The utility model discloses an in the embodiment, feed mechanism's locating piece has four trench to give locating piece lift, sideslip function, for this reason will the locating piece is installed on crosscut slip table cylinder, is fixed in the crosscut slip table cylinder on the lift slip table cylinder, drives the locating piece through lift slip table cylinder and goes up and down in order to dodge the interior electro-magnet of directly shaking the slide.

In an embodiment of the present invention, the raw material taking and placing component and the finished product taking and placing component of the traverse material taking mechanism are integrated together, and are installed on the traverse component one by one, and can realize left and right traverse through the traverse component;

the transverse moving assembly is used for driving the raw material taking and placing assembly and the finished product taking and placing assembly to transversely move left and right to an appointed operation position, and structurally comprises a transverse moving linear module and an intermediate bracket arranged on a transverse moving linear groove group, wherein the raw material taking and placing assembly and the finished product taking and placing assembly are respectively arranged on the left side and the right side of the intermediate bracket through linear guide rail sliders;

furthermore, the raw material taking and placing assembly comprises an air cylinder corner piece connected with the middle support through a linear guide rail slider, the top of the air cylinder corner piece is in output connection with a raw material clamping jaw lifting air cylinder, a base bearing and a swing air cylinder are oppositely arranged on the air cylinder corner piece, one end of an air cylinder rotating shaft is arranged on the base bearing, the other end of the air cylinder rotating shaft is arranged on a rotary table of the swing air cylinder, a clamping jaw air cylinder mounting plate is fixedly arranged on the air cylinder rotating shaft, four raw material taking and placing clamping jaw air cylinders are arranged on the clamping jaw air cylinder mounting plate, and two raw material clamping jaws are arranged on each raw material taking and placing clamping jaw air cylinder;

further, finished product is got and is put subassembly includes the connecting plate through linear guide slider and intermediate strut connection, the connecting plate top is by finished product clamping jaw lift cylinder output connection, one side of connecting plate has linked firmly the cylinder mounting panel, install four finished products on the cylinder mounting panel and get and put clamping jaw cylinder, every finished product is got and is installed two finished product clamping jaws on the clamping jaw cylinder.

In an embodiment of the present invention, the structure of the detection mechanism includes a safety grating, a detection tool, a turn-to-turn detector, a three-color lamp, a touch screen, and a defective product collection box; the safety grating is arranged on the left side and the right side of the front of the equipment frame and is used as safety protection; the detection tool is used for installing the electromagnet and is connected with the inter-turn detector in a connecting way, and the inter-turn detector is used for electrifying the electromagnet through the detection tool and carrying out inter-turn detection; the defective product collecting box is used for collecting the defective product electromagnet. The touch screen is used for operating the equipment and displaying turn-to-turn detection results; the three-color lamp is arranged on the touch screen, and the running state of the equipment is prompted by light;

further, the detection tool comprises four current-conducting plates and four sensors which are communicated with the turn-to-turn detector, the turn-to-turn detector is used for electrifying the electromagnet through the current-conducting plates to detect, and the sensors are used for detecting whether the current-conducting plates are inserted in place.

In an embodiment of the present invention, the swing mechanism includes a swing linear module, a carrier and a tray, the swing linear module is installed on the equipment frame, the carrier is installed on the swing linear module, and the tray is installed on the carrier.

The utility model discloses an electro-magnet interturn automatic detector through the cooperation between vibration dish mechanism, feed mechanism, sideslip extracting mechanism, detection mechanism, the balance mechanism, has realized the automatic interturn of a jacquard machine electro-magnet and has detected, and whole equipment operation is reliable and stable, and the high-efficient compactness of action process has reduced the cost of labor by a wide margin, has alleviateed workman's intensity of labour, has improved the efficiency that the electro-magnet interturn detected, has ensured the qualification rate and the uniformity of product.

Drawings

FIG. 1: a schematic diagram of an electromagnet interturn automatic detector according to the first embodiment;

FIG. 2: a schematic view of a vibrating disk mechanism;

FIG. 3: a schematic view of a material distribution mechanism;

FIG. 4: a schematic diagram of a traversing material taking mechanism;

FIG. 5: a raw material picking and placing assembly schematic diagram;

FIG. 6: a finished product picking and placing assembly schematic diagram;

FIG. 7: a traverse assembly schematic;

FIG. 8: a schematic view of a detection mechanism;

FIG. 9: a schematic diagram of a detection tool;

FIG. 10: schematic diagram of a wobble plate mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one

An electromagnet interturn automatic detection device for a jacquard comprises a vibration disc mechanism 1, a material distribution mechanism 2, a transverse moving material taking mechanism 3, a detection mechanism 4 and a swing disc mechanism 5. The vibrating disc mechanism 1 is used as a feeding mechanism and is arranged on a support 17 of a front end station, and the material distributing mechanism 2, the transverse moving material taking mechanism 3, the detecting mechanism 4 and the disc swinging mechanism 5 are sequentially arranged on an equipment frame 41 adjacent to the support 17 according to the sequence of working procedures.

The composition and function of each mechanism will be described in detail below.

The vibrating disk mechanism 1 comprises a circular vibrating part 11, a straight vibrating slideway 13, a straight vibrating baffle 14, a straight vibrating part 15 and a straight vibrating support 16. The circular vibration part 11 adopts a vibration disc structure, the direct vibration part 15 is fixedly arranged on a bracket 17 through a direct vibration support 16, the discharge end of the circular vibration part 11 is connected with a direct vibration slideway 13, and the bottom of the tail end of the direct vibration slideway 13 is provided with the direct vibration part 15 which provides vibration for an electromagnet 12 on the direct vibration slideway 13; the whole vibrating disk mechanism 1 has the function that the electromagnets 12 sequentially pass through the circular vibrating part 11 and the straight vibrating part 15 to be vibrated, sequenced and aligned, and finally supplied with materials through the straight vibrating slide way 13; the circular vibration part 11 and the straight vibration slide way 13 of the embodiment are both designed with 2 discharging slide ways, the electromagnet 12 output by the circular vibration part 11 through vibration enters the straight vibration slide way 13, the straight vibration baffle 14 is installed at the tail end of the straight vibration slide way 13, and the straight vibration baffle 14 is used for preventing the electromagnet 12 from jumping out of the slide way in the advancing process of the straight vibration slide way 13.

The material distributing mechanism 2 is arranged at the discharging end of the vibrating disk mechanism 1 and is used for receiving the electromagnets 12 coming out of the straight vibrating slide way 13 and positioning and arranging the electromagnets 12 in a preset number. Its structure is including being fixed in the cylinder angle block 25 on the equipment frame 41, lift slip table cylinder 24 is installed to cylinder angle block 25 one side, lift slip table cylinder 25 links to each other with the horizontal slip table cylinder 22 of top via connecting block 23, locating piece 21 is installed on horizontal slip table cylinder 22. The positioning block 21 of this embodiment is provided with 4 slots for installing the electromagnets 12, and when the material distribution mechanism 2 is in an initial state, the transverse sliding table cylinder 22 retracts and the lifting sliding table cylinder 24 retracts, and the positioning block 21 is in butt joint with the direct vibration slideway 13 to receive 2 electromagnets 12 coming from the direct vibration slideway 13. Then the lifting sliding table cylinder 24 extends and rises, the transverse sliding table cylinder 22 extends, the lifting sliding table cylinder 24 retreats and falls, the other 2 vacant slot positions of the positioning block 21 face the alignment vibration slide way 13 and receive 2 electromagnets 12, and thus 4 electromagnets 12 are installed on the positioning block 21.

The transverse moving material taking mechanism 3 is arranged between the material separating mechanism 2 and the detection mechanism 4 and used for clamping 4 electromagnets 12 of the positioning block 21 and then transferring the electromagnets to the detection mechanism 4, unqualified products in the electromagnets 12 are placed in the defective product collecting box 47 after the detection is finished, and qualified products are placed in the tray 53. The structure of the traverse reclaiming mechanism 3 comprises a raw material taking and placing component 31, a finished product taking and placing component 32 and a traverse component 33. The raw material taking and placing assembly 31 and the finished product taking and placing assembly 32 are integrated, and are arranged on the transverse moving assembly 33 in a left-right mode, and the transverse moving assembly 33 can realize left-right transverse moving.

The traversing assembly 33 is used for driving the raw material taking and placing assembly 31 and the finished product taking and placing assembly 32 to traverse left and right to a designated operation position. The device comprises a middle support 331, an electromagnetic valve assembly 332, a transverse moving linear module 333, a base 334, a drag chain support 335, a drag chain 336 and a drag chain mounting plate 337. The middle support 331 is installed on the traverse linear module 333, the raw material taking and placing component 31 and the finished product taking and placing component 32 are respectively installed on the left side and the right side of the middle support 331 of the traverse component 33, the electromagnetic valve component 332 is installed on the middle support 331, the drag chain support 335 is installed on the middle support 331, one end of the drag chain 336 is installed on the drag chain support 335, the other end of the drag chain 336 is installed on the drag chain installation plate 337, the drag chain installation plate 337 is installed on the base 334, and the base 334 is installed on the equipment frame 41. In this embodiment, the traverse linear module 333 is driven by a servo motor and driven by a precision ball screw, and the solenoid valve assembly 332 is used for controlling the actions of the cylinders of the raw material taking and placing assembly 31 and the finished product taking and placing assembly 32.

The raw material taking and placing assembly 31 is used for taking the electromagnet 12 of the positioning block 21 and rotating the electromagnet to the vertical direction, and then the electromagnet 12 is installed in the detection tool 43. The material taking and placing device comprises a raw material clamping jaw-left 311, a raw material clamping jaw-right 312, a raw material taking and placing clamping jaw air cylinder 313, a clamping jaw air cylinder mounting plate 314, an air cylinder rotating shaft 315, a bearing with a seat 316, an air cylinder corner piece 317, a swing air cylinder 318, a raw material taking and placing linear sliding block 319, a raw material taking and placing linear sliding rail 3110 and a raw material clamping jaw lifting air cylinder 3111. Raw materials clamping jaw lift cylinder 3111 is installed at cylinder corner fitting 317 top, and raw materials is got and is put linear slide rail 3110 and install in middle support 331 left side, slidable mounting has raw materials to get on the raw materials is got and is put straight line slider 319, and raw materials is got and is put straight line slider 319 and install in one side of cylinder corner fitting 317, the opposite side of cylinder corner fitting 317 is provided with area seat bearing 316 and swing cylinder 318 relatively respectively, and the one end of cylinder pivot 315 is installed on area seat bearing 316, and the other end is installed on swing cylinder 318's carousel, fixed mounting has clamping jaw cylinder mounting panel 314 on the cylinder pivot 315, install four raw materials on the clamping jaw cylinder mounting panel 314 and get clamping jaw cylinder 313, install on every raw materials gets clamping jaw cylinder 313 that raw materials clamping jaw-left 311 and raw materials clamping jaw-right 312 are respectively one. The raw material taking and placing clamping jaw cylinder 313 is closed to drive the raw material clamping jaw-left 311 and the raw material clamping jaw-right 312 to clamp the electromagnet 12, and then the raw material clamping jaw lifting cylinder 3111 drives the raw material taking and placing clamping jaw cylinder 313, the cylinder corner piece 317, the swing cylinder 318 and the raw material taking and placing linear sliding block 319 to ascend together along the raw material taking and placing linear sliding rail 3110 by a preset height. Then the traversing assembly 33 carries the raw material taking and placing assembly 31 to traverse 200mm rightward, then the swinging cylinder 318 drives the cylinder rotating shaft 315, the clamping jaw cylinder mounting plate 314, the raw material taking and placing clamping jaw cylinder 313 and the electromagnet 12 to rotate together until the electromagnet 12 becomes vertical, then the traversing assembly 33 carries the raw material taking and placing assembly 31 to continue traversing rightward until the electromagnet 12 is positioned right above the detection tool 43, then the raw material clamping jaw lifting cylinder 3111 controls the whole raw material taking and placing assembly to fall down, and the electromagnet 12 is placed into the detection tool 43.

The product pick and place assembly 32 is used to pick up the detected electromagnet 12 and then load it into the tray 53. The structure of the device comprises a finished product clamping jaw 321, a finished product taking and placing clamping jaw air cylinder 322, an air cylinder mounting plate 323, a connecting plate 324, a finished product taking and placing linear sliding block 325, a finished product taking and placing linear sliding rail 326 and a finished product clamping jaw lifting air cylinder 327. A finished product clamping jaw lifting cylinder 327 is mounted above the connecting plate 324, a finished product taking and placing linear slide rail 326 is fixed on the right side of the middle support 331, a finished product taking and placing linear slide block 325 is slidably mounted on the finished product taking and placing linear slide rail 326, the finished product taking and placing linear slide block 325 is mounted on one side of the connecting plate 324, a cylinder mounting plate 323 is mounted on the other side of the connecting plate 324, four finished product taking and placing clamping jaw cylinders 322 are mounted on the cylinder mounting plate 323, and a pair of finished product clamping jaws 321 are mounted on each finished product taking and placing clamping jaw cylinder 322; the finished product clamping jaw 321 is installed in the vertical direction and used for clamping the detected electromagnet 12. In this embodiment, after the detection of the electromagnet 12 is completed, the traverse moving assembly 33 drives the finished product taking and placing assembly 32 to move to a position right above the finished product taking and placing clamping jaw cylinder 322 and located above the electromagnet 12 in the detection tool 43, the finished product clamping jaw 321 is opened by the finished product taking and placing clamping jaw cylinder 322, then the finished product clamping jaw lifting cylinder 327 extends and descends, the finished product clamping jaw 321 descends to two sides of the electromagnet 12, the finished product taking and placing clamping jaw cylinder 322 is closed to clamp the finished product clamping jaw 321 to clamp the electromagnet 12, and then the finished product clamping jaw lifting cylinder 327 retracts and ascends. Then the transverse moving component 33 drives the finished product taking and placing component 32 to move rightwards, if the interturn detector 44 detects that the electromagnet 12 has a defective product, the finished product taking and placing component 32 moves rightwards until the electromagnet 12 is positioned above the defective product collecting box 47, the finished product gripping jaw 321 is opened by the finished product taking and placing gripping jaw cylinder 322 where the defective product electromagnet 12 is positioned, and the defective product electromagnet 12 falls into the defective product collecting box 47; if the interturn detector 44 detects that the electromagnets 12 are all good products, the finished product taking and placing assembly 32 moves rightwards until the electromagnets 12 are located at the tray swinging position above the tray 53, the finished product clamping jaw lifting cylinder 327 extends out and falls, the electromagnets 12 are installed in the tray 53, then the finished product clamping jaws 321 are opened by the finished product taking and placing clamping jaw cylinder 322, the finished product clamping jaw lifting cylinder 327 retracts and rises, and the defective product removing and good product tray swinging operations are completed.

The detection mechanism 4 is installed on the equipment frame 41, and the structure thereof comprises a safety grating 42, a detection tool 43, a turn-to-turn detector 44, a three-color lamp 45, a touch screen 46 and a defective product collection box 47. In this embodiment, the safety gratings 42 are installed on the left and right sides of the front of the device frame 41 as safety protection. The detection tool 43 is used for installing the electromagnet 12 and is connected with the inter-turn detector 44, and the inter-turn detector 44 conducts power-on the electromagnet 12 through the detection tool 43 and conducts inter-turn detection. The defective product collecting box 47 is used for collecting the defective product electromagnet 12. The touch screen 46 is used for operating the device and displaying turn-to-turn detection results. The three-color lamp 45 is mounted on the touch screen 46 and used for prompting the running state of the equipment.

The detection tool 43 comprises a tool bottom plate 431, a tool long side plate 432, a tool short side plate 433, a tool left top plate 434, a tool right top plate 435, a conductive plate 436 and a sensor 437. In this embodiment, the tool bottom plate 431 is installed on the equipment frame 41, the tool long side plate 432 and the tool short side plate 433 are installed on the tool bottom plate 431, and the tool left top plate 434 and the tool right top plate 435 are installed on the tool long side plate 432 and the tool short side plate 433. The conductive plate 436 is mounted on the tool right top plate 435, and the sensor 437 is mounted on the tool left top plate 434. In this embodiment, the number of the conductive plates 436 is 4, the distance between each group is the same as that of the finished product pick-and-place clamping jaw cylinder 322, the conductive plates 436 are connected with the turn-to-turn detector 44, and the turn-to-turn detector 44 supplies electricity to the electromagnet 12 for detection through the conductive plates 436. The sensor 437 is used for detecting whether the electromagnet 12 is inserted in place or not, so that the situation that the electromagnet 12 is not inserted in place, the conductive plate 436 is in poor contact with the electromagnet 12, and further false detection is caused is avoided.

The balance mechanism 5 is used for balance operation of good- quality electromagnets 12, 4 rows of the balance can be arranged, and 28 electromagnets 12 can be arranged in each row. The automatic swinging device comprises a swinging plate linear module 51, a carrier 52 and a tray 53, wherein the swinging plate linear module 51 is installed on an equipment frame 41, the swinging plate linear module 51 is driven by a servo motor and driven by a precise ball screw, the carrier 52 is installed on the swinging plate linear module 51, and the tray 53 is installed on the carrier 52. In this embodiment, in the initial state, the tray-swinging linear module 51 drives the carrier 52 and the tray 53 to move inward to the tray-swinging position (the tray-swinging initial position of the finished product pick-and-place clamping jaw cylinder 322), the finished product pick-and-place assembly 32 drives the good-product electromagnet 12 to move to the tray-swinging position above the tray 53, the finished product clamping jaw lifting cylinder 327 extends out and falls, the electromagnet 12 is loaded into the tray 53, then the finished product pick-and-place clamping jaw cylinder 322 opens the finished product clamping jaw 321, and the finished product clamping jaw lifting cylinder 327 retracts and rises to complete the first good-product tray-swinging operation. Then the transverse moving assembly 33 carries the finished product taking and placing assembly 32 to move leftwards, the tray swinging linear module 51 drives the carrier 52 and the tray 53 to move inwards by 5.35mm to prepare a vacant position for the second time of tray swinging, and the reciprocating circulation moves by 5.35mm after each tray swinging until the set total number of the trays is reached. Then the tray linear module 51 drives the carrier 52 and the tray 53 to move outwards to the position of 10mm of the stroke of the linear module 51, the three-color lamp 45 flashes to prompt that the tray placing is completed, meanwhile, other actions of the equipment are suspended, the safety grating 42 releases protection, the tray 53 is manually taken away from the carrier 52 and then put into the empty tray 53, the touch screen 46 starting button is pressed, the safety grating 42 starts protection, and meanwhile, the equipment performs the operations of circular detection, defective product screening, tray placing and the like again.

The present invention is not limited to the embodiments discussed above. The foregoing description of the specific embodiments is intended to illustrate and describe the technical solutions of the present invention. Obvious modifications or alternatives based on the teachings of the invention should also be considered to fall within the scope of the invention. The above detailed description is provided to disclose the best mode of carrying out the invention, so that those skilled in the art can apply the invention in its various embodiments and in its various alternative ways to achieve the objects of the invention.

Claims (8)

1. An electromagnet interturn automatic detector is characterized by comprising a vibrating disc mechanism, a material distributing mechanism, a transverse moving material taking mechanism, a detecting mechanism and a swinging disc mechanism;

the vibrating disc mechanism is used for supplying and discharging the electromagnets through vibration sorting;

the distribution mechanism is used for receiving the electromagnets from the vibration disc mechanism and positioning and distributing the electromagnets, and structurally comprises a positioning block, wherein the positioning block is provided with a plurality of groove positions for mounting the electromagnets;

the transverse moving material taking mechanism is used for clamping the electromagnet of the material separating mechanism and transferring the electromagnet to a detection station on one hand, and transferring the detected electromagnet to a disc placing station or a defective product station on the other hand; the structure comprises a raw material taking and placing component and a finished product taking and placing component which are driven and controlled by a transverse moving component;

the detection mechanism is used for carrying out turn-to-turn detection on the electromagnet transferred by the transverse moving material taking mechanism;

the balance mechanism is used for loading qualified product electromagnets.

2. The automatic electromagnet interturn detecting instrument as recited in claim 1,

the vibration disk mechanism comprises a circular vibration part, a direct vibration slideway and a direct vibration part, the circular vibration part adopts a vibration disk structure, the circular vibration part is connected with the direct vibration slideway between the direct vibration part and the circular vibration part, and the circular vibration part and the direct vibration slideway are provided with two discharging slideways.

3. The automatic electromagnet interturn detecting instrument as recited in claim 2,

the tail end of the direct vibration slideway is provided with a direct vibration baffle plate which is used for preventing the electromagnet from jumping out of the slideway in the advancing process of the direct vibration slideway.

4. The automatic electromagnet interturn detecting instrument as recited in claim 2,

the positioning block of the material distribution mechanism is provided with four groove positions, the positioning block is arranged on the transverse cutting sliding table cylinder, and the transverse cutting sliding table cylinder is fixed on the lifting sliding table cylinder.

5. The automatic electromagnet interturn test instrument as set forth in claim 4,

the raw material taking and placing assembly and the finished product taking and placing assembly of the transverse moving material taking mechanism are integrated together, one left side and one right side are arranged on the transverse moving assembly, and the transverse moving assembly is used for realizing the transverse moving left and right;

the transverse moving assembly is used for driving the raw material taking and placing assembly and the finished product taking and placing assembly to transversely move left and right to a designated operation position, and structurally comprises a transverse moving linear module and an intermediate bracket arranged on a transverse moving linear groove group, wherein the raw material taking and placing assembly and the finished product taking and placing assembly are respectively arranged on the left side and the right side of the intermediate bracket through linear guide rail sliders;

the raw material taking and placing assembly comprises an air cylinder corner piece connected with a middle support through a linear guide rail slider, the top of the air cylinder corner piece is in output connection through a raw material clamping jaw lifting air cylinder, a bearing with a seat and a swinging air cylinder are oppositely arranged on the air cylinder corner piece, one end of an air cylinder rotating shaft is arranged on the bearing with the seat, the other end of the air cylinder rotating shaft is arranged on a turntable of the swinging air cylinder, a clamping jaw air cylinder mounting plate is fixedly arranged on the air cylinder rotating shaft, four raw material taking and placing clamping jaw air cylinders are arranged on the clamping jaw air cylinder mounting plate, and two raw material clamping jaws are arranged on each raw material taking and placing clamping jaw air cylinder;

finished product is got and is put subassembly includes the connecting plate through linear guide slider and intermediate support connection, the connecting plate top is by finished product clamping jaw lift cylinder output connection, one side of connecting plate has linked firmly the cylinder mounting panel, install four finished products on the cylinder mounting panel and get and put the clamping jaw cylinder, every finished product is got and is installed two finished product clamping jaws on putting the clamping jaw cylinder.

6. The automatic electromagnet interturn detecting instrument as recited in claim 1,

the detection mechanism structurally comprises a safety grating, a detection tool, an inter-turn detector, a three-color lamp, a touch screen and a defective product collection box; the safety gratings are arranged on the left side and the right side of the front of the equipment frame and are used as safety protection; the detection tool is used for installing the electromagnet and is communicated with the turn-to-turn detector, and the turn-to-turn detector is used for electrifying the electromagnet through the detection tool and carrying out turn-to-turn detection; the defective product collecting box is used for collecting the defective product electromagnet; the touch screen is used for operating the equipment and displaying turn-to-turn detection results; the tricolor lamp is arranged on the touch screen and used for prompting the running state of the equipment.

7. The automatic electromagnet interturn test instrument as set forth in claim 6,

the detection tool comprises four current-conducting plates and four sensors which are communicated with the turn-to-turn detector, the turn-to-turn detector is used for detecting the electrification of the electromagnet through the current-conducting plates, and the sensors are used for detecting whether the current-conducting plates are inserted in place.

8. The automatic electromagnet interturn test instrument as set forth in claim 7,

the balance mechanism comprises a balance linear module, a carrier and a tray, the balance linear module is installed on the equipment frame, the carrier is installed on the balance linear module, and the tray is installed on the carrier.

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