CN210392583U

CN210392583U - Plastic sucking disc composing system

Info

Publication number: CN210392583U
Application number: CN201921143504.3U
Authority: CN
Inventors: 苏立良; 陈朝晖; 宋树华; 彭小光; 成孟龙
Original assignee: Hunan Xinxinxin Electronic Technology Co ltd
Current assignee: Hunan Xinxinxin Electronic Technology Co ltd
Priority date: 2019-07-20
Filing date: 2019-07-20
Publication date: 2020-04-24
Anticipated expiration: 2029-07-20

Abstract

The utility model provides a plastic uptake dish composing system, it is including the frame, and axial displacement subassembly is installed to frame top one end, installs two on the axial displacement subassembly and shakes the glassware, shakes and installs in the frame of glassware exit and directly shakes the subassembly, directly shakes and install in the frame of subassembly output and arrange the material subassembly, arranges the material subassembly output and installs to pick up and transplant the subassembly, picks up and transplants subassembly one side and install and receive the material subassembly. Can once absorb behind this scheme of adoption and arrange a plurality of magnetic cores of material, it arranges that material is fast, efficient.

Description

Plastic sucking disc composing system

Technical Field

The utility model belongs to the technical field of the magnetic core production technique and specifically relates to indicate plastic uptake dish composing system.

Background

Magnetic core refers to a sintered magnetic metal oxide composed of various iron oxide mixtures. The existing magnetic core discharging is that single-groove discharging is adopted, and a mechanical arm snatchs and discharges into a plastic sucking disc in sequence.

Disclosure of Invention

An object of the utility model is to overcome prior art's not enough, provide a row material fast, efficient plastic uptake dish composing system.

In order to achieve the above object, the present invention provides a technical solution: the plastic sucking disc typesetting system comprises a rack, wherein an axial moving assembly is arranged at one end of the top of the rack, two material vibrating devices are arranged on the axial moving assembly, a direct vibrating assembly is arranged on the rack at the outlet of each material vibrating device, a discharging assembly is arranged on the rack at the output end of the direct vibrating assembly, a picking and transplanting assembly is arranged at the output end of the discharging assembly, and a material receiving assembly is arranged at one side of the picking and transplanting assembly; the discharging assembly comprises a discharging plate, a discharging direct vibration, a discharging upright post and a discharging bottom plate, the discharging bottom plate is arranged on a rack, the discharging upright post is fixed at the top of the discharging bottom plate, a discharging lifting plate is movably arranged at the upper part of the discharging upright post, a discharging direct vibration is arranged at the top of the discharging lifting plate, the discharging plate is obliquely arranged at the top of the discharging direct vibration, discharging grooves with the number larger than 4 are uniformly distributed on the discharging plate, the lower end of each discharging groove is an outlet, a discharging vacuum generator is arranged on the discharging lifting plate at one side of the discharging direct vibration, a discharging baffle is arranged at the end part of the discharging plate at the outlet of the discharging groove, an air suction hole is arranged at the bottom of the outlet of the discharging groove, a material pressing plate is arranged at the; receive the material subassembly including receiving the linear module of material, plastic sucking disc fixed plate, plastic sucking disc locating plate, wherein, plastic sucking disc locating plate is fixed in the frame, plastic sucking disc locating plate after fixing is located and gets and plant linear module below, install on the plastic sucking disc locating plate and receive the linear module of material, install plastic sucking disc fixed plate on the slide at the linear module top of receipts material, plastic sucking disc fixed plate surface is fixed with at least one plastic sucking disc locating plate, the plastic sucking disc has been placed on the plastic sucking disc locating plate.

The axial moving assembly comprises a base, a ball screw and a stepping motor inductor, wherein the base is rectangular, two linear guide rails are respectively fixed on two sides of the length direction of the top of the base, a moving seat is movably mounted on each linear guide rail through a slider, the inductors which are matched with each other are mounted between the bottom of the moving seat and the top of the base, the ball screw is mounted on the base between the two linear guide rails, the length direction of the mounted ball screw is consistent with the length direction of the linear guide rails, the slider on the ball screw is connected with the bottom of the moving seat, the stepping motor is mounted on the base at one end of each linear guide rail, a transmission shaft of the stepping motor is connected with the ball screw, two groups of lifting assemblies are fixed on the top of the moving seat, and; the lifting component comprises two hinge arms, a groove plate, an adjusting screw and side plates, wherein the two groove plates are arranged, the groove bodies of the two installed groove plates are opposite, the end parts of the two groove plates are connected and fixed through the side plates, the hinge arms are formed by two groups of hinge arms which are hinged into an X shape, the two fork arms at one end of the bottom of the hinge arms are hinged with one end of the groove plate through a pin shaft, the other end of the groove plate is provided with a long strip-shaped limiting groove, the two fork arms at the other end of the bottom of the hinge arms are connected through a synchronizing shaft, the end parts of the synchronizing shaft penetrate through the fork arms and are movably inserted into the limiting groove, the center of the side plate at one end of the pin shaft is provided with a bearing ring, the center of the synchronizing shaft is movably hinged with an adjusting sleeve, internal threads are arranged in the adjusting sleeve, the adjusting screw is arranged in the bearing, and a limit shaft is arranged on the fork arm at the other end of the top of the hinge arm and sleeved in a chute at the bottom of the material shaking device.

The direct vibration assembly comprises a direct vibration plate, a material blocking cylinder, a track plate and a track, wherein the direct vibration plate is fixed on a rack, two direct vibration stand columns are fixed at the top of the direct vibration plate, the tops of the two direct vibration stand columns are fixedly connected through a stand column top plate, a direct vibration adjusting plate is movably installed between the upper parts of the two direct vibration stand columns, the top of the direct vibration adjusting plate is provided with a track direct vibration, the track plate is installed at the top of the track direct vibration, a concave guide chute is arranged on one side of the surface of the track plate, the material blocking plate is installed on the other side of the surface of the track plate at the outlet of the guide chute, the material blocking cylinder is installed at the top of the material blocking plate, a piston rod of the material blocking cylinder is downwards located right above the outlet of the guide chute, an inductor installing rod is; the two track plates are respectively positioned on two sides of the straight vibrating top of the track, the track plate after installation inclines by 10-25 degrees, the lower end of the track plate is an outlet, the higher end of the track plate is connected with the corresponding outlet of the vibrator, the guide grooves on the two track plates are parallel, the sensor support plate is L-shaped when overlooking, one arm is connected with the sensor installation rod, the other arm is provided with two long-strip-shaped sensor installation grooves, the guide sensors are installed on the sensor installation grooves through corresponding bolts, and each guide sensor corresponds to one guide groove.

Pick up and transplant subassembly including getting and planting the seat, get and plant linear module, guide rail cylinder, suction nozzle, get and plant the seat and fix in the frame, get and plant linear module and be horizontal installation and install vertical mounting panel on getting the slider of planting linear module, guide rail cylinder is installed to vertical mounting panel lower part, guide rail cylinder's piston rod is connected with suction nozzle mounting panel top downwards, a plurality of suction nozzle is installed to suction nozzle mounting panel bottom, the suction nozzle is connected through transition pipe and material vacuum generator, it installs and takes and plant a both sides of upper portion to get material vacuum generator.

The bottom of a discharge baffle at the outlet of the discharge groove is provided with an air pipe, one end of the air pipe is sealed, the other end of the air pipe is connected with a discharge vacuum generator through a connecting pipe, the surface of the air pipe is provided with an air exhaust hole, each air exhaust hole corresponds to one discharge groove, and the air exhaust holes are located below the pressure plate.

After the scheme is adopted, the magnetic cores are sequentially sent into the discharge groove of the discharge assembly through the circular vibration assembly and the direct vibration assembly; the picking and transplanting assembly descends to adsorb a row of magnetic cores, then ascends, moves above the plastic sucking disc quickly, and descends to release the magnetic cores to positioning holes of the plastic sucking disc; until each row of hole of plastic uptake dish material is full, can once absorb behind this scheme of adoption and arrange a plurality of magnetic cores of material, it arranges that material is fast, efficient.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the axial moving assembly of the present invention.

Fig. 3 is a schematic view of the lifting assembly of the present invention.

Fig. 4 is a schematic view of the direct vibration assembly of the present invention.

Fig. 5 is a side view of the direct vibration assembly of the present invention.

Fig. 6 is a schematic view of the discharging assembly of the present invention.

Fig. 7 is a schematic view of the picking and transplanting assembly of the present invention.

Fig. 8 is a schematic view of the material receiving assembly of the present invention.

Detailed Description

The present invention will be further explained with reference to the drawings, and the preferred embodiment of the present invention is: referring to fig. 1 to 8, the plastic sucking disc typesetting system described in this embodiment includes a frame, an axial moving component is installed at one end of the top of the frame, two material vibrators 212 are installed on the axial moving component, a direct vibrating component is installed on the frame at the outlet of the material vibrators 212, a discharging component is installed on the frame at the output end of the direct vibrating component, a picking and transplanting component is installed at the output end of the discharging component, and a material receiving component is installed at one side of the picking and transplanting component; the discharging assembly comprises a discharging plate 401, a discharging straight vibration 402, a discharging upright post 403 and a discharging bottom plate 404, wherein the discharging bottom plate 404 is arranged on a rack, the discharging upright post 403 is fixed at the top of the discharging bottom plate 404, a discharging lifting plate 405 is movably arranged at the upper part of the discharging upright post 403, the discharging straight vibration 402 is arranged at the top of the discharging lifting plate 405, the discharging plate 401 is obliquely arranged at the top of the discharging straight vibration 402, the discharging grooves 406 with the number larger than 4 are uniformly distributed on the discharging plate 401, the lower end of each discharging groove 406 is an outlet, a discharging vacuum generator 407 is arranged on the discharging lifting plate 405 at one side of the discharging straight vibration 402, a discharging baffle 408 is arranged at the end part of the discharging plate 401 at the outlet of the discharging groove 406, an air suction hole is arranged at the bottom of the outlet of the discharging groove 406, a pressure plate is arranged at the top; an air pipe 409 is installed at the bottom of a discharge baffle 408 at the outlet of the discharge groove 406, one end of the air pipe 409 is sealed, the other end of the air pipe 409 is connected with a discharge vacuum generator 407 through a connecting pipe, the surface of the air pipe 409 is provided with an air suction hole, each air suction hole corresponds to one discharge groove 406, and the air suction holes are located below the pressure plate. Receive the material subassembly including receiving the linear module 101 of material, plastic sucking disc fixed plate 102, plastic sucking disc 103, plastic sucking disc locating plate 104, wherein, plastic sucking disc locating plate 104 is fixed in the frame, fixed plastic sucking disc locating plate 104 is located and gets and plant linear module 502 below, install on the plastic sucking disc locating plate 104 and receive the linear module 101 of material, install plastic sucking disc fixed plate 102 on the slide at the linear module 101 top of receipts material, plastic sucking disc fixed plate 102 fixed surface has at least one plastic sucking disc locating plate 104, plastic sucking disc 103 has been placed on the plastic sucking disc locating plate 104.

The axial moving assembly comprises a base 201, a ball screw 202 and a stepping motor 203 sensor 209, wherein the base 201 is rectangular, two linear guide rails 210 are respectively fixed on two sides of the top of the base 201 in the length direction, a moving seat is movably mounted on each linear guide rail 210 through a slider, the sensor 209 matched with each other is mounted between the bottom of the moving seat and the top of the base 201, the ball screw 202 is mounted on the base 201 between the two linear guide rails 210, the length direction of the mounted ball screw 202 is consistent with the length direction of the linear guide rails 210, the slider on the ball screw 202 is connected with the bottom of the moving seat, the stepping motor 203 is mounted on the base 201 at one end of each linear guide rail 210, a transmission shaft of the stepping motor 203 is connected with the ball screw 202, two groups of lifting assemblies are fixed on the top of the moving seat, and a; the lifting assembly comprises two hinge arms 204, two groove plates 205, an adjusting screw 207 and side plates 208, wherein the groove plates 205 are arranged, the groove bodies of the two installed groove plates 205 are opposite, the end parts of the two groove plates 205 are fixedly connected through the side plates 208, the hinge arm 204 is composed of two groups of hinge arms which are hinged into an X shape, two fork arms at one end of the bottom of the hinge arm 204 are hinged with one end of the groove plate 205 through a pin shaft, the other end of the groove plate 205 is provided with a strip-shaped limiting groove 213, the two fork arms at the other end of the bottom of the hinge arm 204 are connected through a synchronizing shaft 214, the end part of the synchronizing shaft 214 penetrates through the fork arms and is movably inserted into the limiting groove 213, the center of the side plate 208 at one end of the pin shaft is provided with a bearing ring 215, the center of the synchronizing shaft 214 is movably hinged with an adjusting sleeve 216, internal threads are arranged in the adjusting sleeve 216, the, the fork arm at one end of the top of the hinge arm 204 is hinged with one side of the bottom of the material vibrator 212, the fork arm at the other end of the top of the hinge arm 204 is provided with a limiting shaft, and the limiting shaft is sleeved in a sliding groove at the bottom of the material vibrator 212.

The straight vibration component comprises a straight vibration plate 301 and a material blocking cylinder 302, the device comprises a track plate 303 and a track straight vibration 304, wherein the straight vibration plate 301 is fixed on a rack, two straight vibration upright posts 305 are fixed at the top of the straight vibration plate 301, the tops of the two straight vibration upright posts 305 are fixedly connected through upright post top plates, a straight vibration adjusting plate 306 is movably arranged between the upper parts of the two straight vibration upright posts 305, the track straight vibration 304 is arranged at the top of the straight vibration adjusting plate 306, the track plate 303 is arranged at the top of the track straight vibration 304, a concave guide chute 307 is arranged on one side of the surface of the track plate 303, a material blocking plate 308 is arranged on the other side of the surface of the track plate 303 at the outlet of the guide chute 307, a material blocking cylinder 302 is arranged at the top of the material blocking plate 308, a piston rod of the material blocking cylinder 302 is downwards positioned right above the outlet of the guide chute 307, an inductor mounting rod 309; the two track plates 303 are respectively positioned on two sides of the top of the track straight vibration 304, the installed track plates 303 are inclined by 10-25 degrees, the lower ends of the installed track plates 303 are outlets, the higher ends of the installed track plates are connected with the corresponding outlets of the vibration devices 212, the guide chutes 307 on the two track plates 303 are parallel, the sensor support plates 310 are L-shaped when overlooked, one arm of the sensor support plates is connected with the sensor installation rod 309, the other arm of the sensor support plates is provided with two strip-shaped sensor installation grooves, the guide sensors are installed on the sensor installation grooves through corresponding bolts, and each guide sensor corresponds to one guide chute 307.

Pick up and transplant subassembly including getting and planting seat 501, get and plant linear module 502, guide rail cylinder 503, the suction nozzle, it fixes in the frame to get to plant seat 501, it is horizontal installation at getting and plants seat 501 top to get to plant linear module 502, get and install vertical mounting panel on the slider of planting linear module 502, guide rail cylinder 503 is installed to the vertical mounting panel lower part, guide rail cylinder 503's piston rod is connected with suction nozzle mounting panel 504 top downwards, a plurality of suction nozzle is installed to suction nozzle mounting panel 504 bottom, the suction nozzle passes through the transition pipe and is connected with material vacuum generator 505, material vacuum generator 505 is installed and is being got and plant seat 501 upper portion.

The specific process of the scheme is as follows:

a stepping motor in the axial moving assembly drives a ball screw to rotate, the ball screw rotates to drive a moving seat to travel on a linear guide rail, so that a material vibrator moves, when the height of the material vibrator needs to be adjusted, an adjusting screw rod is manually rotated, the longer the meshing length of the adjusting screw rod and an adjusting sleeve is, the higher the rising height of the material vibrator is, otherwise, the lower the material vibrator is, the height of the material vibrator only needs to be adjusted when the model of a magnetic core is changed, and the adjustment is not needed during normal production; the number of the material vibrators is two, wherein one material vibrator is clockwise circular vibration, and the other material vibrator is anticlockwise circular vibration;

the height of a direct vibration adjusting plate on a direct vibration stand column can be adjusted by a sliding block in the direct vibration assembly so as to adapt to discharge plates with different heights, magnetic cores vibrated by a circular vibration disc are arranged in a guide chute, the magnetic cores in the guide chute are conveyed towards the discharge plate of a backward process under the action of the inclination of a track plate and a track direct vibration device, after the discharge plates are fully arranged, a piston rod of a material blocking cylinder extends downwards to press the magnetic cores at the outlet of the guide chute, and a stepping motor drives the guide chute to travel by a row distance (the position of one discharge chute) through a ball screw and sequentially convey the magnetic cores to the discharge chutes of the discharge plates until the discharge plates are fully arranged;

the height of a discharging plate in the discharging assembly can be adjusted by moving the discharging lifting plate up and down on a discharging upright post, and the discharging plate is locked by corresponding bolts after adjustment so as to be matched with external equipment with different heights, the discharging plate which is obliquely installed enables the discharging effect of the magnetic core to be better and faster, the magnetic core is rapidly discharged to an outlet by discharging direct vibration, the magnetic core at the outlet of a discharging groove is blocked by a discharging baffle, and at the moment, a discharging vacuum generator vacuumizes, and sucks a second row of magnetic cores at the outlet through an air suction hole; a first row of magnetic cores (magnetic cores in contact with the discharge baffle, i.e., magnetic cores in the material taking area);

the distance between adjacent suction nozzles in the picking and transplanting assembly is equal to the distance between adjacent discharge grooves in the discharge plate, when the material is taken, the picking and transplanting linear module adopts a conventional structure and is mainly used for horizontal movement, the picking and transplanting linear module drives the suction nozzle mounting plate to move to the position above a material taking area of the discharge plate, so that the suction nozzles are positioned above the corresponding discharge grooves, a guide rail air cylinder piston rod descends to enable the suction nozzles to be in contact with magnetic cores in the material taking area, and a material taking vacuum generator generates vacuum to adsorb the magnetic cores in the material taking area; the piston rod of the guide rail cylinder rises to enable the magnetic cores to leave the material taking area, after the first row of magnetic cores are sucked out, the material discharging vacuum generator is released, and the second row of magnetic cores continue to travel and are in contact with the material discharging baffle; the material taking and planting linear module drives the magnetic core to move to the upper side of the plastic sucking disc, the material receiving linear module drives the plastic sucking disc to move to the lower side of the magnetic core, the piston rod of the guide rail air cylinder descends to enable the magnetic core to be located at the corresponding position of the plastic sucking disc, the vacuum generator releases vacuum to enable the magnetic core to fall into the plastic sucking disc, and the plastic sucking disc is driven to output through the material receiving linear module after being filled.

The above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that all the changes made according to the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims

1. The plastic sucking disc typesetting system comprises a frame and is characterized in that: an axial moving assembly is mounted at one end of the top of the rack, two material vibrators (212) are mounted on the axial moving assembly, a direct vibrating assembly is mounted on the rack at the outlet of the material vibrators (212), a discharging assembly is mounted on the rack at the output end of the direct vibrating assembly, a picking and transplanting assembly is mounted at the output end of the discharging assembly, and a material receiving assembly is mounted on one side of the picking and transplanting assembly; the discharging assembly comprises a discharging plate (401), a discharging straight vibration (402), a discharging upright column (403) and a discharging bottom plate (404), the discharging bottom plate (404) is arranged on a rack, the discharging upright column (403) is fixed at the top of the discharging bottom plate (404), a discharging lifting plate (405) is movably arranged on the upper portion of the discharging upright column (403), the discharging straight vibration (402) is arranged at the top of the discharging lifting plate (405), the discharging plate (401) is obliquely arranged at the top of the discharging straight vibration (402), the discharging grooves (406) with the number larger than 4 are uniformly distributed on the discharging plate (401), the lower end of each discharging groove (406) is an outlet, a discharging vacuum generator (407) is arranged on the discharging lifting plate (405) on one side of the discharging straight vibration (402), a discharging baffle (408) is arranged at the end portion of the discharging plate (401) at the outlet of the discharging groove (406), and an, a material pressing plate is arranged at the top of the discharge plate (401) above the outlet of the discharge groove (406), and a material taking area is reserved between the material pressing plate and the discharge baffle (408); receive the material subassembly including receiving linear module (101), plastic sucking disc fixed plate (102), plastic sucking disc (103), plastic sucking disc locating plate (104), wherein, plastic sucking disc locating plate (104) are fixed in the frame, plastic sucking disc locating plate (104) after fixing are located and get and plant linear module (502) below, install on plastic sucking disc locating plate (104) and receive material linear module (101), install plastic sucking disc fixed plate (102) on the slide at material linear module (101) top, plastic sucking disc fixed plate (102) fixed surface has at least one plastic sucking disc locating plate (104), plastic sucking disc (103) have been placed on plastic sucking disc locating plate (104).

2. The plastic suction tray typesetting system according to claim 1, characterized in that: the axial moving assembly comprises a base (201), a ball screw (202) and a stepping motor (203) inductor (209), wherein the base (201) is rectangular, two linear guide rails (210) are respectively fixed on two sides of the length direction of the top of the base (201), a moving seat is movably arranged on each linear guide rail (210) through a sliding block, the inductors (209) which are matched with each other are arranged between the bottom of the moving seat and the top of the base (201), the ball screw (202) is arranged on the base (201) between the two linear guide rails (210), the length direction of the mounted ball screw (202) is consistent with the length direction of the linear guide rails (210), the sliding block on the ball screw (202) is connected with the bottom of the moving seat, the stepping motor (203) is arranged on the base (201) at one end of each linear guide rail (210), a transmission shaft of the stepping motor (203) is connected with the ball screw (202), and two groups of, each group of lifting components is provided with a material shaking device (212); the lifting assembly comprises two hinge arms (204), two groove plates (205), an adjusting screw rod (207) and side plates (208), wherein the groove plates (205) are opposite to each other, the end parts of the two groove plates (205) are fixedly connected through the side plates (208), the hinge arms (204) are formed by two groups of hinge arms which are hinged into an X shape, two fork arms at one end of the bottom of each hinge arm (204) are hinged with one end of each groove plate (205) through a pin shaft, the other end of each groove plate (205) is provided with a long strip-shaped limiting groove (213), the two fork arms at the other end of the bottom of each hinge arm (204) are connected through a synchronizing shaft (214), the end part of the synchronizing shaft (214) penetrates through the fork arms to be movably inserted into the limiting grooves (213), the center of the side plate (208) at one end of the pin shaft is provided with a bearing ring (215), the center of the synchronizing shaft (214) is movably hinged with an adjusting sleeve (216), and internal threads, an adjusting screw rod (207) is installed in the bearing ring (215), one end of the adjusting screw rod (207) is meshed with an internal thread in the adjusting sleeve (216), a fork arm at one end of the top of the hinge arm (204) is hinged with one side of the bottom of the material shaking device (212), a limiting shaft is arranged on the fork arm at the other end of the top of the hinge arm (204), and the limiting shaft is sleeved in a sliding groove in the bottom of the material shaking device (212).

3. The plastic suction tray typesetting system according to claim 1, characterized in that: the straight vibration component comprises a straight vibration plate (301), a material blocking cylinder (302), a track plate (303) and a track straight vibration (304), wherein the straight vibration plate (301) is fixed on a rack, two straight vibration upright columns (305) are fixed at the top of the straight vibration plate (301), the tops of the two straight vibration upright columns (305) are fixedly connected through an upright column top plate, a straight vibration adjusting plate (306) is movably installed between the upper parts of the two straight vibration upright columns (305), the track straight vibration (304) is installed at the top of the straight vibration adjusting plate (306), the track plate (303) is installed at the top of the track straight vibration (304), a concave guide chute (307) is arranged on one side of the surface of the track plate (303), the material blocking plate (308) is installed on the other side of the surface of the track plate (303) at the outlet of the guide chute (307), the material blocking cylinder (302) is installed at the top of the material blocking plate (308), a piston rod, an inductor mounting rod (309) is mounted on a top plate of the upright column at one end of an outlet of the material guide chute (307), and an inductor support plate (310) is mounted on the top of the inductor mounting rod (309); the two track plates (303) are respectively positioned on two sides of the top of the track straight vibration device (304), the track plates (303) after installation are inclined by 10-25 degrees, the lower ends of the track plates are outlets, the higher ends of the track plates are connected with the corresponding outlets of the vibration devices (212), guide chutes (307) on the two track plates (303) are parallel, the inductor support plates (310) are L-shaped when overlooking, one arm of the inductor support plates is connected with an inductor installation rod (309), the other arm of the inductor support plates is provided with two strip-shaped inductor installation grooves, the guide inductors are installed on the inductor installation grooves through corresponding bolts, and each guide inductor corresponds to one guide chute (307).

4. The plastic suction tray typesetting system according to claim 1, characterized in that: pick up and transplant subassembly and including getting to plant seat (501), get to plant linear module (502), guide rail cylinder (503), the suction nozzle, it fixes in the frame to get to plant seat (501), it is horizontal installation and takes to plant linear module (502) and plants seat (501) top to get to plant, it installs vertical mounting panel on the slider of linear module (502) to get to plant, guide rail cylinder (503) are installed to vertical mounting panel lower part, the piston rod of guide rail cylinder (503) is connected with suction nozzle mounting panel (504) top downwards, a plurality of suction nozzle is installed to suction nozzle mounting panel (504) bottom, the suction nozzle is connected with material taking vacuum generator (505) through the transition pipe, material taking vacuum generator (505) are installed and are being got to plant seat (501) upper portion both sides.

5. The plastic suction tray typesetting system according to claim 1, characterized in that: arrange row material baffle (408) bottom in row material groove (406) exit and install trachea (409), trachea (409) one end is sealed, and the other end passes through the connecting pipe to be connected with row material vacuum generator (407), and trachea (409) surface is equipped with the extraction opening, and every extraction opening corresponds one row of material groove (406), and the extraction opening is located the pressure flitch below.