CN210100864U

CN210100864U - Full-automatic hole digging and magnetic sheet sticking machine

Info

Publication number: CN210100864U
Application number: CN201920632695.3U
Authority: CN
Inventors: 李本山
Original assignee: Dongguan Zhonghu Intelligent Technology Co Ltd
Current assignee: Dongguan Zhonghu Intelligent Technology Co Ltd
Priority date: 2019-05-06
Filing date: 2019-05-06
Publication date: 2020-02-21
Anticipated expiration: 2029-05-06

Abstract

The utility model discloses a full-automatic hole-digging and magnetic sheet-sticking machine, including the frame, be equipped with in the frame and send the board workgroup, dig hole workgroup, glue the workgroup, paste magnetic sheet workgroup and control the case, frame top have a sunken space, send board motion to be located this sunken space, the frame on have a panel conveyer way, send the board workgroup, dig hole workgroup, glue the workgroup, paste the magnetic sheet workgroup and be located panel conveyer way top department. The utility model discloses a process of digging hole and magnetic sheet subsides on with packing panel decomposes, and different processes correspond different workgroups, realize the automated production effect of packing panel processing to can the effective control material quantity through automated control, avoid the material extravagant, and the machine easily learns and operates, can effectively improve production efficiency, reduce artificial intervention, reduce workman's burden, and improve the production security.

Description

Full-automatic hole digging and magnetic sheet sticking machine

Technical Field

The utility model relates to an automatic dig hole paste magnetic sheet machine, specifically treat the processing material and dig the hole, paste the automation machinery of magnetic sheet operation.

Background

With the development of commodity economy and the improvement of living standard of people, the requirements of people on the appearance and the function of various packaging materials such as daily packaging boxes, desk calendars, folders and the like or daily decoration days are increasing day by day. At present, the technology of digging holes on a thick plate (made of paper or other materials) and pasting magnetic sheets in the holes is popular, for example, holes are respectively punched on a box cover of a paper box and a box body corresponding to the box cover, and the magnet sheets are pasted at the punched positions, so that the external packaging box has certain sealing packaging performance, can be easily opened, provides a play space for the appearance design of the box, and improves the function and the appearance.

Under the prior art, the work of digging holes on a packaging plate and sticking magnetic sheets is still more stopped at the manual operation stage; in order to improve the working efficiency of hole digging and magnetic sheet sticking, partial auxiliary mechanical tools are available at present, but the auxiliary mechanical tools still stay in a single working stage, namely, the hole digging, glue dispensing or sheet sticking work can only be realized respectively, and the automatic operation of a complete flow can not be realized.

SUMMERY OF THE UTILITY MODEL

In order to improve the production efficiency of the hole subsides magnetic sheet operation of digging of packing panel, alleviate producers' work burden and the security that improves production environment, the utility model provides a full-automatic hole subsides magnetic sheet machine of digging sends the board, digs the hole, the point is glued, pastes operating device such as magnetic sheet through the set on an automatic machine, realizes the full automatization operation effect of panel processing.

The utility model provides a technical scheme that its technical problem adopted does: a full-automatic hole-digging and magnetic sheet-sticking machine comprises a frame, wherein a plate-conveying working group, a hole-digging working group, a glue-dispensing working group, a magnetic sheet-sticking working group and a control box are arranged on the frame.

The frame is provided with a concave space above, and the plate conveying motion mechanism is positioned in the concave space.

The frame is provided with a plate conveying channel which specifically comprises a plurality of square groove rods, and round rods parallel to the square groove rods are arranged above the square groove rods; the specific connection mode can be as follows: the square groove rod is fixed on the frame, a plurality of suspension rods are arranged, the suspension rods are fixed on the frame, are perpendicular to the round rod and are positioned above the round rod, and suspension clamping blocks are arranged on the suspension rods and clamp the round rod below the suspension clamping blocks. A certain distance is left between the square groove rod and the round rod, and the distance is determined according to the thickness of the plate to be processed; during working, the plate to be processed is conveyed between the square groove rod and the round rod, so that the plate is prevented from being separated from the working channel, and the working groups such as the plate conveying working group, the hole digging working group, the glue dispensing working group and the magnetic sheet pasting working group are not influenced to process the plate.

Hereinafter, the term "transverse" or "transverse" refers to a direction perpendicular to the square groove bar, and the term "longitudinal" or "longitudinal" refers to a direction parallel to the square groove bar.

The concave space of the frame is provided with a pair of plate conveying rails which are respectively positioned at the inner sides of the concave space and are parallel to the square groove rods; a moving plate frame is arranged in the sunken space, a plate feeding sliding block is connected to the edge of the moving plate frame and moves on the plate feeding track, a jacking cylinder is arranged above the moving plate frame, a distance adjusting slide rail is connected above the jacking cylinder, a plurality of plate feeding knives, preferably two plate feeding knives are arranged on the distance adjusting slide rail, and the plate feeding knives can be fixed on the distance adjusting slide rail and can also move along the distance adjusting slide rail; the plate conveying device comprises a plurality of plate conveying cross rods, wherein two ends of each plate conveying cross rod are respectively provided with a plate conveying sliding block, and the plate conveying sliding blocks move on a plate conveying track; the plate conveying device is characterized in that a plurality of plate conveying longitudinal rods are arranged, the plate conveying longitudinal rods are perpendicular to the plate conveying cross rods and are fixed on the plate conveying cross rods, a plurality of jacking cylinders are arranged on the plate conveying longitudinal rods, and a plate conveying block is connected above each jacking cylinder. Preferably, there are three board horizontal poles of sending, have three jacking cylinders on every board vertical pole of sending, combine the motion grillage to count four groups and transport the structure, correspond respectively send board work group, dig hole work group, point and glue work group, paste four work groups of magnetic sheet work group.

The plate feeding working group is positioned above one end part of the square groove rod, and a round rod is not arranged above the square groove rod; a first distance-adjusting groove rod which stretches across the rack and is vertical to the square groove rod; the first distance-adjusting groove rod is provided with a pair of baffle fixing rods, and baffles are fixed on the baffle fixing rods; the first adjusting slide rails are respectively positioned on two sides of the rack, each first adjusting slide rail is provided with a first adjusting slide block, and two ends of the first distance adjusting groove rod are respectively connected with the two first adjusting slide blocks; the first adjusting slide block is connected with a first stop switch, and the first adjusting slide block can be fixed on the first adjusting slide rail.

The hole digging working group is positioned above the round rod; a pair of second distance-adjusting groove rods which cross the rack and are vertical to the square groove rods; a second distance-adjusting transverse slide rail is arranged above the second distance-adjusting groove rod; a sliding workbench is arranged above the second distance-adjusting transverse slide rail; a pair of second distance-adjusting longitudinal slide rails is arranged above the sliding workbench; a plurality of hole digging cutter groups are arranged on the second distance adjusting longitudinal slide rail; the hole digging cutter set comprises a transverse distance adjusting block, a second pressing device and a cutter, wherein the second pressing device is positioned on the second distance adjusting longitudinal slide rail and connected with the transverse distance adjusting block, and the cutter is connected with the second pressing device. And a stopping assembly can be arranged beside the hole digging cutter group and comprises a stopping plate, a second adjusting screw rod and a second stopping switch, the stopping plate can slide along the second distance-adjusting longitudinal slide rail, the second stopping switch can fix the stopping plate on the second distance-adjusting longitudinal slide rail, and the second adjusting screw rod is screwed into a preformed hole of the stopping plate and a preformed hole of the transverse distance-adjusting block.

The dispensing working group is positioned above the round rod; a third adjusting slide rail is provided, and a plurality of groups of glue dispensing mechanisms are arranged on the third adjusting slide rail; the glue dispensing mechanism comprises a third adjusting sliding block positioned on a third adjusting sliding rail, a third fixed cantilever is arranged on the third adjusting sliding block, a third cantilever sliding rail is arranged on the third fixed cantilever, a third cantilever sliding block is arranged on the third cantilever sliding rail, a third pressing device is arranged on the third cantilever sliding block, and the third pressing device is connected with a glue dispensing needle body. A third transverse distance adjusting component can be arranged on the third fixed cantilever and used for adjusting the transverse position of the dispensing needle body; and a third longitudinal distance adjusting component can be arranged on the third adjusting slide rail and used for adjusting the longitudinal position of the dispensing mechanism.

The magnetic sheet sticking working group is positioned above the round rod; a fourth adjusting slide rail is provided, and a plurality of groups of magnetic sheet sticking mechanisms are arranged on the fourth adjusting slide rail; the magnetic sheet sticking mechanism comprises a fourth adjusting slide block positioned on a fourth adjusting slide rail, a fourth fixed cantilever is arranged on the fourth adjusting slide block, a fourth cantilever slide rail is arranged on the fourth fixed cantilever, a fourth cantilever slide block is arranged on the fourth cantilever slide rail, a fourth pressing device is arranged on the fourth cantilever slide block, the fourth pressing device is connected with a suction pipe, and the lower end of the suction pipe is a suction disc. A magnetic sheet feeding mechanism is arranged beside the fourth fixed cantilever and comprises a feeding pipe, a feeding groove body positioned below the feeding pipe and a feeding block positioned in the groove of the feeding groove body, and a material port matched with the magnetic sheet is reserved on the feeding block; the pay-off piece is connected with push structure, and push structure prefers the cylinder. And a fourth longitudinal distance adjusting component can be arranged on the fourth adjusting slide rail and used for adjusting the longitudinal position of the magnetic sheet sticking mechanism.

The control box is relatively independent of the frame and is connected with a corresponding structure on the frame through a line.

Preferably, a finished product conveying sliding rail is also arranged at the conveying end of the plate conveying channel beside the machine frame.

The utility model has the advantages that the procedures of hole digging and magnetic sheet pasting on the packaging plate are decomposed, different procedures correspond to different working groups such as a plate conveying working group, a hole digging working group, a glue dispensing working group, a magnetic sheet pasting working group and the like, and the working groups are combined, so that the automatic production effect of the packaging plate processing is realized; the conveying structure of the plate is optimized, so that the plate can be stably conveyed, and the conveying of the plate and the work of the plate conveying working group, the hole digging working group, the glue dispensing working group and the magnetic sheet sticking working group are not interfered with each other; the large number of distance adjusting structures enable the machine to accurately meet the dispensing hole-digging processing requirements of plates with different sizes, and the application range is wide; the material quantity can be effectively controlled through automatic control, the material waste is avoided, the machine is easy to learn and operate, the production efficiency can be effectively improved, the manual intervention is reduced, the burden of workers is reduced, and the production safety is improved.

Drawings

The present invention will be further explained with reference to the accompanying drawings.

Fig. 1 is an overall schematic view of the present invention;

FIG. 2 is a schematic view of a gantry;

FIG. 3 is a schematic view of a recessed space within the housing;

FIG. 4 is a schematic view of a plate feeding workgroup;

FIG. 5 is a schematic view of a hole digging workgroup;

FIG. 6 is an exploded view of a hole cutter set;

FIG. 7 is a schematic view of a dispensing station;

FIG. 8 is a schematic view of a working set of attached magnetic sheets;

in the figure, 1, a rack, 11, a concave space, 12, a plate feeding rail, 13, a moving plate frame, 14, a plate feeding sliding block, 15, a jacking cylinder, 16, a distance adjusting sliding rail, 161, a plate feeding cutter, 17, a plate feeding cross rod, 18, a plate feeding longitudinal rod, 19, a plate feeding block, 2, a plate conveying channel, 21, a square groove rod, 22, a round rod, 23, a suspension rod, 24, a suspension clamp block, 3, a plate feeding working group, 31, a first distance adjusting groove rod, 32, a baffle fixing rod, 33, 34, a first adjusting sliding rail, 35, a first adjusting sliding block, 36, a first stop switch, 4, an excavating hole working group, 41, a second distance adjusting groove rod, 42, a second distance adjusting transverse sliding rail, 43, a sliding working table, 44, a second distance adjusting longitudinal sliding rail, 45, an excavating hole cutter group, 451, a transverse distance adjusting block, 4511, a transverse distance adjusting lower plate, 4512, a transverse distance adjusting upper sliding rail, 4513, 4514, a transverse distance adjusting upper sliding rail, 452. a second press-down device, 4521, a second press-down fixing plate, 4522, a second press-down sliding rail, 4523, a second press-down moving plate, 453, a cutter, 46, a stop assembly, 461, a stop plate, 462, a second adjusting screw, 463, a second stop switch, 47, a second distance adjusting lever, 5, a glue dispensing working set, 51, a third adjusting sliding rail, 52, a third adjusting sliding block, 53, a third fixed suspension arm, 54, a third suspension arm sliding rail, 55, a third suspension arm sliding block, 56, a third press-down device, 57, a glue dispensing, 58, a third transverse distance adjusting assembly, 581, a third transverse distance adjusting vertical plate, 582, a third transverse distance adjusting screw, 59, a third longitudinal distance adjusting assembly, 6, a paste working set, 61, a fourth adjusting sliding rail, 62, a fourth adjusting sliding block, 63, a fourth fixed suspension arm sliding rail, 64, a fourth suspension arm sliding rail, 65, a fourth suspension arm sliding block, 66, a fourth press-down device, 671, a suction pipe, 672. the magnetic sheet feeding device comprises a sucker, 68 magnetic sheet feeding mechanisms, 681 feeding pipes, 682 feeding grooves, 683 feeding blocks, 6831 feeding ports, 69 fourth longitudinal distance adjusting assemblies, 7 operating boxes and 8 finished product conveying channels.

Detailed Description

A full-automatic hole digging and magnetic sheet pasting machine comprises a frame 1, wherein a plate conveying working group 3, a hole digging working group 4, a glue dispensing working group 5 and a magnetic sheet pasting working group 6 are arranged on the frame 1.

The frame 1 is provided with a concave space 11 above, and the plate conveying motion mechanism is positioned in the concave space 11.

The frame 1 is provided with a plate conveying channel 2 which comprises a plurality of square groove rods 21, and round rods 22 parallel to the square groove rods 21 are arranged above the square groove rods 21; the square groove rod 21 is fixed on the frame 1, and is provided with a plurality of suspension rods 23, the suspension rods 23 are fixed on the frame 1, are perpendicular to the round rod 22 and are positioned above the round rod 22, the suspension rods 23 are provided with suspension clamping blocks 24, and the suspension clamping blocks 24 clamp the round rod 22 below. A certain distance is left between the square groove rod 21 and the round rod 22, and the distance depends on the thickness of the plate to be processed; during operation, the plate to be processed is conveyed between the square groove rod 21 and the round rod 22, and the plate is ensured not to be separated from the working channel.

The plate feeding movement mechanism of the depressed space 11 of the frame 1 comprises a pair of plate feeding rails 12 which are respectively positioned at the inner side of the depressed space 11 and are parallel to the square groove rod 21; a moving plate frame 13 is arranged in the depressed space 11, a plate feeding sliding block 14 is connected to the edge of the moving plate frame 13, the plate feeding sliding block 14 moves on the plate feeding rail 12, a jacking cylinder 15 is arranged above the moving plate frame 13, a distance adjusting slide rail 16 is connected above the jacking cylinder 15, two plate feeding knives 161 are arranged on the distance adjusting slide rail 16, and the plate feeding knives 161 can be fixed on the distance adjusting slide rail 16 and can also move along the distance adjusting slide rail 16; a plurality of plate feeding cross rods 17 are arranged, two ends of each plate feeding cross rod 17 are respectively provided with a plate feeding sliding block 14, and the plate feeding sliding blocks 14 move on the plate feeding rails 12; the plate conveying device is characterized by comprising a plurality of plate conveying longitudinal rods 18, the plate conveying longitudinal rods 18 are perpendicular to the plate conveying cross rods 17 and are fixed on the plate conveying cross rods 17, a plurality of jacking cylinders 15 are arranged on the plate conveying longitudinal rods 18, and a plate conveying block 19 is connected above each jacking cylinder 15. In one embodiment, there are three plate-feeding cross rods 17 and two plate-feeding longitudinal rods 18, each plate-feeding longitudinal rod 18 has three jacking cylinders 15, and the total of four conveying structures combined with the moving plate frame 13 correspond to the four working groups of the plate-feeding working group 3, the hole-digging working group 4, the glue-dispensing working group 5 and the magnetic sheet-sticking working group 6.

The plate feeding working group 3 is positioned above one end part of the square groove rod 21, and a round rod 22 is not arranged above the part of the square groove rod 21; a first distance-adjusting groove rod 31 which spans the frame 1 and is vertical to the square groove rod 21; the first distance-adjusting groove rod 31 is provided with a pair of baffle fixing rods 32, and baffles 33 are fixed on the baffle fixing rods 32; a pair of first adjusting slide rails 34 are respectively positioned at two sides of the frame 1, each first adjusting slide rail 34 is provided with a first adjusting slide block 35, and two ends of the first distance-adjusting groove rod 31 are respectively connected with the two first adjusting slide blocks 35; the first adjusting slide block 35 is connected with a first stop switch 36, which can fix the first adjusting slide block 34 on the first adjusting slide rail 34.

The hole digging working group 4 is positioned above the round rod 22; a pair of second distance-adjusting groove rods 41 which cross the frame 1 and are vertical to the square groove rods 21; a second distance-adjusting transverse slide rail 42 is arranged above the second distance-adjusting groove rod 41; a sliding workbench 43 is arranged above the second distance-adjusting horizontal sliding rail 42; a pair of second distance-adjusting longitudinal slide rails 44 are arranged above the sliding workbench 43; a plurality of groups of hole digging cutter groups 45 are arranged on the second distance-adjusting longitudinal slide rail 44; the hole digging cutter set 45 comprises a transverse distance adjusting block 451, a second pressing device 452 connected with the transverse distance adjusting block 451 and a cutter 453 connected with the second pressing device 452, wherein the second distance adjusting block 451 is arranged on the second distance adjusting longitudinal slide rail 44. Specifically, the lateral distance adjusting block 451 comprises a lateral distance adjusting lower plate 4511, a lateral distance adjusting slide rail 4512 positioned above the lateral distance adjusting lower plate 4511, and a lateral distance adjusting upper plate 4513 capable of sliding on the lateral distance adjusting slide rail 4512; a transverse distance adjusting vertical plate 4514 is arranged at one end of the transverse distance adjusting lower plate 4511, and a second adjusting screw 462 is screwed into a preformed hole of the transverse distance adjusting vertical plate 4514 and a preformed hole of a transverse distance adjusting upper plate 4513; the lateral adjustment lower plate 4511 is connected to the second depressing means 452. The second pressing means 452 includes a second pressing plate 4521, a second pressing slide rail 4522 located on the second pressing plate 4521, and a second pressing plate 4523 sliding on the second pressing slide rail 4522 and connected to the tool 453, wherein the second pressing plate 4523 moves up and down under the driving of the pushing structure, and the pushing structure is selected from a cylinder. And a stop assembly 46 is further arranged beside the hole digging cutter set 45 and comprises a stop plate 461, a second adjusting screw 462 and a second stop switch 463, wherein the stop plate 461 can slide along the second distance adjusting longitudinal slide rail 44, the second stop switch 463 can fix the stop plate 461 on the second distance adjusting longitudinal slide rail 44, and the second adjusting screw 462 is screwed into a reserved hole of the stop plate 461 and a reserved hole of the transverse distance adjusting lower plate 4511. A second stop switch 463 is arranged on the second distance-adjusting horizontal sliding rail 42, wherein the second stop switch 463 is connected with the sliding workbench 43; the sliding table 43 has a second distance adjusting lever 47 on one side thereof, and the second distance adjusting lever 47 has a second stopper switch 463, where the second stopper switch 463 is connected to the lateral distance adjusting block 451.

The dispensing working group 5 is positioned above the round rod 22; a third adjusting slide rail 51 is provided, and a plurality of groups of glue dispensing mechanisms are arranged on the third adjusting slide rail 51; the glue dispensing mechanism comprises a third adjusting slide block 52 positioned on a third adjusting slide rail 51, a third fixed cantilever 53 is arranged on the third adjusting slide block 52, a third cantilever slide rail 54 is arranged on the third fixed cantilever 53, a third cantilever slide block 55 is arranged on the third cantilever slide rail 54, a third pressing device 56 is arranged on the third cantilever slide block 55, and the third pressing device 56 is connected with a glue dispensing needle body 57. A third transverse distance adjusting component 58 is arranged on the third fixed cantilever 57 and used for adjusting the transverse position of the dispensing needle body 57; and a third longitudinal distance adjusting component 59 is arranged on the third adjusting slide rail 51 and used for adjusting the longitudinal position of the glue dispensing mechanism. The third lateral adjustment assembly 58 includes a third lateral adjustment riser 581 disposed at each end of the third fixed suspension arm 53, a third lateral adjustment riser 581 passing through the third suspension arm 55 and the third suspension arm slide 55, and a third lateral adjustment screw 582.

The magnetic sheet sticking working group 6 is positioned above the round rod 22; a fourth adjusting slide rail 61 is provided, and a plurality of groups of magnetic sheet sticking mechanisms are arranged on the fourth adjusting slide rail 61; the magnetic sheet sticking mechanism comprises a fourth adjusting slide block 62 positioned on a fourth adjusting slide rail 61, a fourth fixed cantilever 63 is arranged on the fourth adjusting slide block 62, a fourth cantilever slide rail 64 is arranged on the fourth fixed cantilever 63, a fourth cantilever slide block 65 is arranged on the fourth cantilever slide rail 64, a fourth pressing device 66 is arranged on the fourth cantilever slide block 65, the fourth pressing device 66 is connected with a suction pipe 671, and the lower end of the suction pipe 671 is provided with a suction cup 672. A magnetic sheet feeding mechanism 68 is arranged beside the fourth fixed cantilever 63 and comprises a feeding pipe 681, a feeding groove body 682 positioned below the feeding pipe 681 and a feeding block 683 positioned in the groove of the feeding groove body 682, wherein a material opening 6831 corresponding to the magnetic sheet is reserved on the feeding block 683; the feeding block 683 is connected with a pushing structure which is an air cylinder. And a fourth longitudinal distance adjusting component 69 is arranged on the fourth adjusting slide rail 61 and used for adjusting the longitudinal position of the magnetic sheet sticking mechanism.

The control box 7 is relatively independent from the frame 1 and is connected with the corresponding structure on the frame 1 through a line.

A finished product conveying sliding rail 8 is arranged at the conveying end of the plate conveying channel 2 beside the rack 1.

The working process is as follows: the plate is placed at the plate feeding working group 3 and is positioned between the baffles 33, and the driving mechanism, such as a servo motor and a matched structure, can drive the moving plate frame 13 and the plate feeding cross rod 17 to reciprocate along the longitudinal direction; when the plate is conveyed forwards, the jacking cylinder 15 rises to drive the plate conveying cutter 161 and the plate conveying block 19 to rise, and the plate is conveyed to the next station; when the plate reaches the next station, the jacking cylinder 15 descends to drive the plate feeding cutter 161 and the plate feeding block 19 to descend, and then the moving plate frame 13 and the plate feeding cross rod 17 are driven by the driving mechanism to reversely return to the initial positions to carry out the next plate feeding operation; the hole digging working group 4 performs hole digging operation on the plate at the station; the glue dispensing working group 5 is used for dispensing glue at the position of the dug hole of the plate at the work station; the magnetic sheet attaching working group 6 attaches the magnetic sheet to the dispensing position on the sheet material, specifically, the magnetic sheet falls from the feeding pipe 681 to the feeding block 6831 reserved on the feeding block 683 below, the feeding block 683 is pushed by the pushing mechanism to the direction of the suction disc 672 and temporarily prevents the next magnetic sheet from falling, and then the suction pipe 671 and the suction disc 672 cooperate with an external suction device to deliver the magnetic sheet to the dispensing position to be attached.

The above embodiments are preferred embodiments of the present invention, which are used to illustrate the basic structure and basic idea of the present invention, and should not be interpreted as an absolute limitation to the present invention. The person skilled in the art can adopt the same processing method as the above embodiment without departing from the basic structure and basic idea of the present invention, and should be considered as the protection scope of the present invention.

Claims

1. The utility model provides a full-automatic hole of digging pastes magnet piece machine which characterized in that: comprises a frame (1), wherein a plate conveying working group (3), a hole digging working group (4), a glue dispensing working group (5) and a magnetic sheet sticking working group (6) are arranged on the frame (1); a concave space (11) is arranged above the frame (1), and the plate conveying movement mechanism is positioned in the concave space (11).

2. The full-automatic hole-digging and magnet-sticking machine as claimed in claim 1, wherein: the plate conveying channel (2) is arranged on the rack (1) and comprises a plurality of square groove rods (21), and round rods (22) parallel to the square groove rods (21) are arranged above the square groove rods (21); the square groove rod (21) is fixed on the frame (1).

3. The full-automatic hole-digging and magnet-sticking machine as claimed in claim 1, wherein: the plate conveying motion mechanism comprises a pair of plate conveying rails (12) which are respectively positioned at the inner sides of the concave spaces (11); a moving plate frame (13) is arranged in the sunken space (11), a plate feeding sliding block (14) is connected to the edge of the moving plate frame (13), a jacking cylinder (15) is arranged above the moving plate frame (13), a distance adjusting slide rail (16) is connected above the jacking cylinder (15), and a plate feeding cutter (161) is arranged on the distance adjusting slide rail (16); the plate conveying device is provided with a plurality of plate conveying cross rods (17), two ends of each plate conveying cross rod (17) are respectively provided with a plate conveying sliding block (14), and the plate conveying sliding blocks (14) move on the plate conveying rails (12); the plate conveying device is provided with a plurality of plate conveying longitudinal rods (18), the plate conveying longitudinal rods (18) are perpendicular to the plate conveying cross rods (17) and are fixed on the plate conveying cross rods (17), a plurality of jacking cylinders (15) are arranged on the plate conveying longitudinal rods (18), and a plate conveying block (19) is connected above each jacking cylinder (15).

4. The full-automatic hole-digging and magnet-sticking machine as claimed in claim 1, wherein: the plate feeding working group (3) is provided with a first distance adjusting groove rod (31) which crosses the rack (1) and is vertical to the square groove rod (21); a pair of baffle fixing rods (32) are arranged on the first distance-adjusting groove rod (31), and baffles (33) are fixed on the baffle fixing rods (32); the adjusting mechanism is characterized by comprising a pair of first adjusting slide rails (34) which are respectively positioned at two sides of the rack (1), each first adjusting slide rail (34) is provided with a first adjusting slide block (35), and two ends of the first distance adjusting grooved bars (31) are respectively connected with the two first adjusting slide blocks (35).

5. The full-automatic hole-digging and magnet-sticking machine as claimed in claim 1, wherein: the hole digging working group (4) is provided with a pair of second distance adjusting groove rods (41) which cross the rack (1) and are vertical to the square groove rods (21); a second distance-adjusting transverse slide rail (42) is arranged above the second distance-adjusting groove rod (41); a sliding workbench (43) is arranged above the second distance-adjusting transverse slide rail (42); a pair of second distance-adjusting longitudinal slide rails (44) is arranged above the sliding workbench (43); a plurality of hole digging cutter groups (45) are arranged on the second distance-adjusting longitudinal slide rail (44); the hole digging cutter set (45) comprises a transverse distance adjusting block (451), a second pressing device (452) and a cutter (453), wherein the second pressing device (452) is located on the second distance adjusting longitudinal slide rail (44) and connected with the transverse distance adjusting block (451), and the cutter (453) is connected with the second pressing device (452).

6. The full-automatic hole-digging and magnet-sticking machine as claimed in claim 1, wherein: the glue dispensing working group (5) is provided with a third adjusting slide rail (51), and a plurality of groups of glue dispensing mechanisms are arranged on the third adjusting slide rail (51); the glue dispensing mechanism comprises a third adjusting sliding block (52) located on a third adjusting sliding rail (51), a third fixed cantilever (53) is arranged on the third adjusting sliding block (52), a third cantilever sliding rail (54) is arranged on the third fixed cantilever (53), a third cantilever sliding block (55) is arranged on the third cantilever sliding rail (54), a third pressing device (56) is arranged on the third cantilever sliding block (55), and the third pressing device (56) is connected with a glue dispensing needle body (57).

7. The full-automatic hole-digging and magnet-sticking machine as claimed in claim 1, wherein: the magnetic sheet sticking working group (6) is provided with a fourth adjusting slide rail (61), and a plurality of magnetic sheet sticking mechanisms are arranged on the fourth adjusting slide rail (61); the magnetic sheet sticking mechanism comprises a fourth adjusting slide block (62) positioned on a fourth adjusting slide rail (61), a fourth fixed cantilever (63) is arranged on the fourth adjusting slide block (62), a fourth cantilever slide rail (64) is arranged on the fourth fixed cantilever (63), a fourth cantilever slide block (65) is arranged on the fourth cantilever slide rail (64), a fourth pressing device (66) is arranged on the fourth cantilever slide block (65), the fourth pressing device (66) is connected with a suction pipe (671), and the lower end of the suction pipe (671) is provided with a suction disc (672); a magnetic sheet feeding mechanism (68) is arranged beside the fourth fixed cantilever (63).

8. The full-automatic hole-digging and magnet-sticking machine as claimed in claim 7, wherein: the magnetic sheet feeding mechanism (68) comprises a feeding pipe (681), a feeding groove body (682) positioned below the feeding pipe (681), and a feeding block (683) positioned in the groove of the feeding groove body (682), wherein a material opening (6831) corresponding to the magnetic sheet is reserved on the feeding block (683).

9. The full-automatic hole-digging and magnet-sticking machine as claimed in claim 1, wherein: and a control box (7).

10. The full-automatic hole-digging and magnet-sticking machine as claimed in claim 1, wherein: the finished product conveying sliding rail (8) is arranged at the conveying end of the plate conveying channel (2) beside the rack (1).