CN214986275U - Feeding and clamping belt penetrating machine - Google Patents

Abstract

The utility model provides a material loading card-passing bundling machine, which comprises a cabinet, a vibration material tray, a card board feeding mechanism, a ribbon material conveying guide rail, a ribbon mechanism, a tensioning mechanism and a material cutting mechanism, wherein the cabinet is provided with a workbench and a card board placing table, the card board feeding mechanism comprises a card board material bin and a card board material taking and conveying mechanism, the ribbon mechanism comprises a ribbon driving motor, a pushing handle and a guide piece, the tensioning mechanism comprises a rotating shaft A and a rotating shaft B which are all sleeved with a hobbing sleeve, and a tensioning driving motor, and one side of the ribbon material conveying guide rail is provided with a belt hole; the blanking mechanism comprises a blanking cylinder and a cutter. Vibrations charging tray is carried the ribbon toward the defeated material guide rail of ribbon on, and cardboard reclaiming conveying mechanism puts the platform up the transport cardboard toward the cardboard, and the operator places the product between workstation and cardboard platform, and ribbon mechanism bends the ribbon and passes the foraminiferous area, and straining mechanism will tie up the ribbon on product and cardboard taut, and the cutter cuts away the ribbon afterbody. The automatic processing device realizes the automation of the ribbon processing and effectively improves the production efficiency.

Description

Feeding and clamping belt penetrating machine

Technical Field

The utility model relates to a strapping machine, in particular to a feeding and clamping strapping machine.

Background

The band is a plastic product used for bundling things, and is used for bundling products on a paper card board when a plurality of products are packaged, and a plurality of descriptions of the products are printed on the card board. In the production process of the product, the procedures of cardboard feeding, product feeding, ribbon bundling, ribbon shearing and the like need to be carried out, but the processing process is operated by hands at present, the production process is complicated, the production efficiency is low, the labor cost is high, and the yield is difficult to promote.

Disclosure of Invention

The utility model aims to solve the problem that a material loading wears to block and prick tape unit is provided, realizes production automation, improves production efficiency, reduces the cost of labor.

The technical problem to be solved is to provide a feeding, clamping and strapping machine according to the utility model, which comprises a cabinet, a workbench arranged on the upper side of the cabinet, and a vibration tray arranged on one side of the workbench, wherein a clamping plate feeding mechanism is arranged on one side of the workbench, and a ribbon conveying guide rail, a ribbon mechanism, a tensioning mechanism and a material cutting mechanism are arranged on the lower side of the workbench; the ribbon conveying guide rail is spliced with the output end of the vibration material disc and can convey the ribbon forward, the top of the cabinet is fixedly connected with two seat plates which are arranged in parallel, and the top of one seat plate is fixedly connected with a clamping plate placing table; the clamping plate feeding mechanism comprises a clamping plate bin and a clamping plate material taking and conveying mechanism, the clamping plate material taking and conveying mechanism comprises an X-axis linear module and a material taking mechanism, the X-axis linear module is arranged on one side of the cabinet, the material taking mechanism is arranged on the X-axis linear module in a driving mode, and the material taking mechanism is driven by the X-axis linear module to take materials from the clamping plate bin and convey the materials to the clamping plate placing table; the ribbon mechanism comprises a ribbon seat fixedly connected to the top of the cabinet, a ribbon driving motor arranged on one side of the ribbon seat, a pushing handle assembly rotationally connected to one side of the ribbon seat, and a guide piece hinged to the top of one seat plate through a torsion spring, the pushing handle assembly comprises a pushing handle, arc-shaped guide grooves forming ribbon bending arcs are formed in the pushing handle and one side face of the guide piece, and the pushing handle is driven by the ribbon driving motor to rotate towards the top end side of the guide piece; the tensioning mechanism comprises a rotating shaft A and a rotating shaft B which are rotatably connected between the two seat plates, and a tensioning driving motor which is arranged on one side of one of the seat plates and is in driving connection with the rotating shaft A, the rotating shaft A and the rotating shaft B are in meshing connection through gears, hobbing sleeves which are in meshing connection are sleeved on the rotating shaft A and the rotating shaft B, and a drawstring hole for the tail of the ribbon to pass through is arranged on one side of the ribbon conveying guide rail in a penetrating manner; the cutting mechanism comprises a cutting cylinder arranged on one side of the two seat plates and a cutter assembly fixedly connected to an output shaft of the cutting cylinder, the cutter assembly comprises a cutter, and the cutter cuts off a ribbon extending out of the ribbon pulling hole under the driving of the cutting cylinder.

Preferably, the defeated material guide rail of ribbon includes the stock guide with vibrations charging tray concatenation, set up in the guide slot of stock guide top surface, set up in the defeated material actuating mechanism at rack top, defeated material actuating mechanism establishes the defeated material gear in pivot C including defeated material motor, fixed connection at defeated epaxial pivot C of material motor output, cover, and guide slot one side is run through and is provided with the bar hole, and defeated material gear stretches out bar hole top.

Preferably, the material separating mechanism is arranged on the lower side of the material conveying guide rail of the binding belt and comprises a material separating seat fixedly connected to the top of the cabinet, a material separating cylinder fixedly connected to one side of the material separating seat, a material clamping seat fixedly connected to an output shaft of the material separating cylinder, and a material separating knife fixedly connected to one side of the material clamping seat, a knife hole matched with the material separating knife is arranged in one side of the material guide plate in a penetrating mode, and the material separating knife is movably arranged on the knife hole and driven by the material separating cylinder to move up and down.

Preferably, the cutter assembly further comprises a cutter seat fixedly connected to an output shaft of the material cutting cylinder, the cutter is hinged to the top end of the cutter seat, and the cutter is hinged to one side of the material guide plate.

Preferably, the pushing handle assembly further comprises a pushing handle seat fixedly connected to one end of the pushing handle through a bolt, a rotating shaft D which is arranged on the pushing handle seat in a penetrating mode and is rotatably connected with the binding belt seat, and the binding belt driving motor is connected with the rotating shaft D through a synchronous belt wheel.

Preferably, the ribbon driving motor is a double-output-shaft motor, a turntable is fixedly connected to an output shaft at one end of the ribbon driving motor, a baffle is fixedly connected to one end face of the turntable, a supporting block is fixedly connected to one side of the ribbon seat, a groove-shaped photoelectric switch is fixedly connected to one end of the supporting block, the baffle is movably arranged on a groove-shaped photoelectric switch photosensitive groove, a control system is arranged on one side of the cabinet, and the groove-shaped photoelectric switch is in data connection with the control system.

Preferably, the cardboard feed bin is including setting up in the sharp module of Z axial on one side of the rack, the year thing board of doing the action of going up and down under the sharp module drive of Z axial, feeding agencies is including the drive set up X on the sharp module of X axial to slide, fixed connection at X to the cylinder slip table of slide one side, fixed connection at the splint of the slip table one end of cylinder slip table, a plurality of fixed connection vacuum chuck on splint.

Preferably, the X axial straight line module is the hold-in range slip table, and the Z axial straight line module is the ball screw slip table.

The utility model has the advantages that: the utility model provides a card strapping machine is worn in material loading, set up unique assembly structure, the vibrations charging tray is carried the ribbon toward the defeated material guide rail of ribbon on, the ribbon reachs the guide downside after the transmission of the defeated material guide rail of ribbon and stops, X axial straight line module drive extracting mechanism removes and places on the platform is put to the cardboard from the cardboard of taking in the cardboard feed bin, the operation personnel place the product between workstation and cardboard platform, ribbon driving motor drive pushing hands subassembly rotates to the guide side, rotation along with the pushing hands, the ribbon afterbody will butt on the arc guide slot and bend along with the rotation of pushing hands, the ribbon afterbody will pass the handle area and be drawn into tautly by two pivoted gear hobbing sleeves, the ribbon bundles the product tightly on the cardboard, blank cylinder drive cutter cuts off the ribbon afterbody. The automatic belt binding machine has the functions of belt loading, clamping plate loading, belt binding, belt tensioning and belt cutting, realizes the automation of belt processing, effectively improves the production efficiency, reduces the labor cost and improves the yield.

Drawings

Fig. 1 illustrates the structure of the utility model after the workbench is removed.

Fig. 2 illustrates the overall outline structure of the present invention.

Fig. 3 illustrates the top view structure of the utility model with the workbench and the band delivery guide rail removed.

Fig. 4 illustrates a left side view of the present invention.

Fig. 5 illustrates the assembly structure of the belt conveying rail, the seat plate and the guide member of the present invention.

Fig. 6 is a schematic diagram illustrating a partially enlarged structure of a portion a in fig. 1 according to the present invention.

Fig. 7 illustrates a partial enlarged structural diagram of a portion B in fig. 1 according to the present invention.

Fig. 8 illustrates a partial enlarged structural diagram of the part C in fig. 1 according to the present invention.

Fig. 9 illustrates a partial enlarged structural diagram of a portion D in fig. 3 according to the present invention.

The reference numbers illustrate: the device comprises a cabinet 1, a seat plate 100, a clamping plate placing table 101, a band seat 102, a workbench 2, a vibration tray 3, a band conveying guide rail 4, a belt drawing hole 40, a material guide plate 41, a guide groove 410, a conveying driving motor 42, a rotating shaft C43, a conveying gear 44, a strip-shaped hole 45, a cutter hole 46, a clamping plate feeding mechanism 5, a clamping plate bin 50, a Z-axis linear module 500, a carrying plate 501, a clamping plate material taking and conveying mechanism 51, an X-axis linear module 52, a material taking mechanism 53, an X-direction sliding seat 530, a cylinder sliding table, a clamping plate 532, a vacuum chuck 533, a band binding mechanism 6, a band binding driving motor 60, a pushing hand assembly 61, a pushing hand 610, a guide piece 62, an arc-shaped guide groove 620, a pushing hand seat 63, a rotating shaft D64, a rotating disc 65, a baffle plate 66, a supporting block 67, a groove-shaped photoelectric switch 68, a tensioning mechanism 7, a rotating shaft A70, a rotating shaft B71, a tensioning driving motor 72, a hobbing sleeve 73, a material cutting mechanism 8, a material cutting cylinder 80, a material conveying mechanism, a conveying, The device comprises a cutter component 81, a cutter seat 82, a cutter 83, a distributing mechanism 9, a distributing seat 90, a distributing cylinder 91, a cutter clamping seat 92, a distributing cutter 93 and a control system 11.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be described clearly and completely with reference to the drawings of the embodiments of the present disclosure. It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments.

All other embodiments of the person skilled in the art, which are obtained without inventive work on the basis of the described embodiments of the present disclosure, are within the scope of protection of the present disclosure.

Refer to fig. 1-9.

The utility model provides a feeding, clamping and bundling machine, which comprises a machine cabinet 1, a workbench 2 arranged on the upper side of the machine cabinet 1 and a vibration material tray 3 arranged on one side of the workbench 2, wherein one side of the workbench 2 is provided with a clamping plate feeding mechanism 5, and the lower side of the workbench 2 is provided with a ribbon conveying guide rail 4, a ribbon mechanism 6, a tensioning mechanism 7 and a material cutting mechanism 8; the belt conveying guide rail 4 is spliced with the output end of the vibration tray 3 and can convey the belt forwards, the top of the cabinet 1 is fixedly connected with two seat plates 100 which are arranged in parallel, and the top of one seat plate 100 is fixedly connected with a clamping plate placing table 101; the clamping plate feeding mechanism 5 comprises a clamping plate bin 50 and a clamping plate material taking and conveying mechanism 51, the clamping plate material taking and conveying mechanism 51 comprises an X-axis linear module 52 arranged on one side of the cabinet 1 and a material taking mechanism 53 arranged on the X-axis linear module 52 in a driving mode, and the material taking mechanism 53 is driven by the X-axis linear module 52 to take materials from the clamping plate bin 50 and convey the materials to the clamping plate table 101; the ribbon mechanism 6 comprises a ribbon seat 102 fixedly connected to the top of the cabinet 1, a ribbon driving motor 60 arranged on one side of the ribbon seat 102, a pushing handle assembly 61 rotatably connected to one side of the ribbon seat 102, and a guide member 62 hinged to the top of one seat plate 100 through a torsion spring, wherein the pushing handle assembly 61 comprises a pushing handle 610, an arc-shaped guide groove 620 forming a ribbon bending arc line is formed in one side surface of the pushing handle 610 and one side surface of the guide member 62, and the pushing handle 610 rotates towards the top end side of the guide member 62 under the driving of the ribbon driving motor 60; the tensioning mechanism 7 comprises a rotating shaft A70 and a rotating shaft B71 which are rotatably connected between the two seat plates 100, and a tensioning driving motor 72 which is arranged on one side of one of the seat plates 100 and is in driving connection with the rotating shaft A70, the rotating shaft A70 and the rotating shaft B71 are in meshing connection through gears, hobbing sleeves 73 which are in meshing connection are sleeved on the rotating shaft A70 and the rotating shaft B71, and a draw belt hole 40 for the tail of the tie to pass through is arranged on one side of the tie conveying guide rail 4 in a penetrating manner; the cutting mechanism 8 comprises a cutting cylinder 80 arranged on one side of the two seat plates 100 and a cutter component 81 fixedly connected to an output shaft of the cutting cylinder 80, the cutter component 81 comprises a cutter 83, and the cutter 83 is driven by the cutting cylinder 80 to cut off a ribbon extending out of the ribbon pulling hole 40.

When in specific use: before production, the binding tape is poured into the vibrating tray 3, and a stack of cards is placed in the card magazine 50. In the production process, vibrations charging tray 3 can screen the ribbon and export, and ribbon head down's ribbon will be screened and export from vibrations charging tray 3 output, and the ribbon of exporting from vibrations charging tray 3 will be along the defeated material guide rail 4 transmission of ribbon and fill up the defeated material guide rail 4 of ribbon side by side, and when the ribbon that is located foremost arrived the guide 62 downside, the defeated material guide rail 4 of ribbon stops the defeated material, and the ribbon pore alignment of the ribbon that is located the ribbon of foremost this moment is drawn foraminiferous 40. The X-axis linear module 52 drives the material taking mechanism 53 to move to the card magazine 50 side, and after the material taking mechanism 53 takes the card from the card magazine 50, the X-axis linear module 52 drives the material taking mechanism 53 to take the card to move to the card table 101 side, and the material taking mechanism 53 places the card on the card table 101. The worker places the product between the table 2 and the chuck table 101 with one end of the product pressed against the chuck, and the strap driving motor 60 drives the pushing hand assembly 61 to rotate toward the guide 62 side. With the rotation of the pushing handle 610, the tail of the band abuts against the arc-shaped guide groove 620 and is gradually bent along with the rotation of the pushing handle, the arc-shaped guide groove 620 is configured to match with the shape of the tail of the band, the guide 62 slightly rotates outwards when the rotating pushing handle 610 contacts with the top end of the guide 62, the tail of the band slides into the arc-shaped guide groove 620 on the side of the guide 62 from the arc-shaped guide groove 620 on the side of the pushing handle 610, the tensioning driving motor 72 drives the rotating shaft A70 to rotate, the rotating shaft A70 drives the rotating shaft B71 to rotate reversely, the tail of the band passes through the band opening 40 and contacts with the two gear sleeves 73 rotating reversely, the tail of the band is wound between the two gear sleeves 73 and tensioned, the band bundles the product on the clamping plate, the cutting cylinder 80 drives the cutter assembly 81 to move back and forth, and the cutter 83 cuts off the tail of the band extending out of the band opening 40. The automatic belt binding machine has the functions of belt loading, clamping plate loading, belt binding, belt tensioning and belt cutting, realizes the automation of belt processing, effectively improves the production efficiency, reduces the labor cost and improves the yield.

Based on above-mentioned embodiment, defeated material guide rail 4 of ribbon includes the stock guide 41 with the concatenation of vibrations charging tray 3, set up in the guide slot 410 of stock guide 41 top surface, set up in the defeated material actuating mechanism at rack 1 top, defeated material actuating mechanism is including defeated material motor 42, fixed connection is at defeated epaxial pivot C43 of defeated material motor 42 output, the defeated material gear 44 of cover on pivot C43 is established, guide slot 410 runs through on one side and is provided with bar hole 45, defeated material gear 44 stretches out bar hole 45 top. The vibration tray 3 inputs the binding tape with the head facing downwards to the guide groove 410, the guide groove 410 is set to be in clearance fit with the head of the binding tape, the binding tape pushed into the guide groove 410 is automatically pushed forwards for a certain distance, the material conveying motor 42 drives the material conveying gear 44 to rotate, teeth of the rotating material conveying gear 44 are in contact with the binding tape hole and provide forward pushing force for the binding tape, and the binding tape can be stably and effectively conveyed forwards along the guide groove 410.

Based on the above embodiment, the lower side of the material conveying guide rail 4 of the ribbon is provided with the material distributing mechanism 9, the material distributing mechanism 9 comprises a material distributing seat 90 fixedly connected to the top of the cabinet 1, a material distributing cylinder 91 fixedly connected to one side of the material distributing seat 90, a material clamping seat 92 fixedly connected to an output shaft of the material distributing cylinder 91, and a material distributing knife 93 fixedly connected to one side of the material clamping seat 92, a knife hole 46 matched with the material distributing knife 93 is arranged on one side of the material guide plate 41 in a penetrating manner, and the material distributing knife 93 is movably arranged on the knife hole 46 and is driven by the material distributing cylinder 91 to perform lifting action. The ribbon material line is pushed forward under the pushing of the material conveying driving motor 42, when the foremost ribbon is conveyed to the side of the dividing knife 93, the dividing knife 93 is driven by the dividing cylinder 91 to retract into the knife hole 46, at the moment, the foremost ribbon is pushed to pass through the knife hole 46 to the lower side of the guide piece 62, after the foremost ribbon passes through the knife hole 46, the dividing knife 93 extends out of the knife hole 46 again under the driving of the dividing cylinder 91 and blocks the ribbon behind the foremost ribbon from advancing, the ribbon behind is prevented from contacting with the foremost ribbon in a bundling state to interfere with the bundling process, and the bundling process is guaranteed to be stable.

Based on the above embodiment, the cutter assembly 81 further includes a cutter seat 82 fixedly connected to the output shaft of the material cutting cylinder 80, the cutter 83 is hinged to the top end of the cutter seat 82, and the cutter 83 is hinged to one side of the material guiding plate 41. After the ribbon is tensioned on a product and a clamping plate, the cutting cylinder 80 drives the cutter assembly 81 to retreat, the retreated cutter assembly 81 applies a force of drawing backwards to the tail of the cutter 83, the cutter 83 rotates around one side of the guide plate 41 and cuts off the tail of the ribbon extending out of the ribbon drawing hole 40, and the cutter 83 cutting the tail of the ribbon in a rotating mode is used for cutting off the tail of the ribbon, so that the cutting stability is improved.

Based on the above embodiment, the pushing handle assembly 61 further includes a pushing handle seat 63 fixedly connected to one end of the pushing handle 610 through a bolt, a rotating shaft D64 penetrating through the pushing handle seat 63 and rotatably connected to the strap seat 102, and the strap driving motor 60 is connected to the rotating shaft D64 through a synchronous pulley. When the ribbon driving motor 60 works, the rotating shaft D64 is driven to drive the pushing handle 610 to rotate, the rotating pushing handle 610 bends the ribbon, when the pushing handle 610 is worn, the pushing handle 610 can be detached from the pushing handle seat 63 and replaced by a new pushing handle 610, and the pushing handle 610 is convenient to maintain and replace.

Based on the above embodiment, the ribbon driving motor 60 is a dual-output-shaft motor, the rotating disc 65 is fixedly connected to an output shaft at one end of the ribbon driving motor 60, a baffle 66 is fixedly connected to one end face of the rotating disc 65, the supporting block 67 is fixedly connected to one side of the ribbon seat 102, the groove-shaped photoelectric switch 68 is fixedly connected to one end of the supporting block 67, the baffle 66 is movably arranged on the photosensitive groove of the groove-shaped photoelectric switch 68, the control system 11 is arranged on one side of the cabinet 1, and the groove-shaped photoelectric switch 68 is in data connection with the control system 11. When the ribbon driving motor 60 drives the pushing handle 610 to bend the ribbon, the turntable 65 drives the baffle 66 to rotate synchronously with the pushing handle 610, when the baffle 66 rotates to the photosensitive groove of the groove-shaped photoelectric switch 68, light of the groove-shaped photoelectric switch 68 is shielded to receive, and the groove-shaped photoelectric switch 68 sends data to the control system 11, so that the control system 11 judges the current position of the pushing handle 610, accurate control of rotation of the pushing handle 610 is achieved, bundling accuracy is improved, and stable processing is guaranteed.

Based on the above embodiment, the cardboard feed bin 50 includes the Z axial straight line module 500 that sets up in rack 1 one side, carries thing board 501 that does the elevating movement under the drive of Z axial straight line module 500, and the feeding agencies 53 includes that the drive sets up the X on the X axial straight line module 52 to slide 530, fixed connection is at the cylinder slip table 531 of X to slide 530 one side, fixed connection is at the splint 532 of the slip table one end of cylinder slip table 531, a plurality of vacuum chuck 533 of fixed connection on splint 532. Place a cardboard of stacking on carrying thing board 501, Z axial sharp module 500 can drive and carry thing board 501 and make elevating movement, get conveying mechanism 51 along with the cardboard and take the cardboard from carrying thing board 501 reciprocatingly, the height of wholly folding the cardboard will descend gradually, Z axial sharp module 500 will drive and carry thing board 501 to drive and wholly fold the cardboard and rise, guarantee that the cardboard of top layer is in suitable high position department, conveniently get material mechanism 53 and get the material from carrying thing board 501, ensure that the feed is stable, and the production efficiency is improved.

Based on the above embodiment, the X axial linear module 52 is a synchronous belt sliding table, and the Z axial linear module 500 is a ball screw sliding table. Use hold-in range slip table drive feeding agencies 53 to get material, use ball screw slip table drive to carry and lift cardboard high position on the thing board 501, its operation is stable, efficient, effectively improve equipment operation stability and production efficiency.

The above embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by the technical solution of the present invention by those skilled in the art are all within the scope of the present invention as defined by the claims.

Claims (8)

1. A feeding, clamping and binding belt machine comprises a machine cabinet (1), a workbench (2) arranged on the upper side of the machine cabinet (1) and a vibration material tray (3) arranged on one side of the workbench (2), and is characterized in that a clamping plate feeding mechanism (5) is arranged on one side of the workbench (2), and a binding belt conveying guide rail (4), a binding belt mechanism (6), a tensioning mechanism (7) and a cutting mechanism (8) are arranged on the lower side of the workbench (2); the belt conveying guide rail (4) is spliced with the output end of the vibration material disc (3) and can convey the belt forwards, two seat plates (100) which are arranged in parallel are fixedly connected to the top of the cabinet (1), and a clamping plate placing table (101) is fixedly connected to the top of one seat plate (100); the clamping plate feeding mechanism (5) comprises a clamping plate bin (50) and a clamping plate material taking and conveying mechanism (51), the clamping plate material taking and conveying mechanism (51) comprises an X-axis linear module (52) arranged on one side of the cabinet (1) and a material taking mechanism (53) arranged on the X-axis linear module (52) in a driving mode, and the material taking mechanism (53) takes materials from the clamping plate bin (50) and conveys the materials to the clamping plate placing table (101) under the driving of the X-axis linear module (52); the binding belt mechanism (6) comprises a binding belt seat (102) fixedly connected to the top of the cabinet (1), a binding belt driving motor (60) arranged on one side of the binding belt seat (102), a pushing handle assembly (61) rotatably connected to one side of the binding belt seat (102), and a guide piece (62) hinged to the top of one seat plate (100) through a torsion spring, wherein the pushing handle assembly (61) comprises a pushing handle (610), arc-shaped guide grooves (620) forming binding belt bending arcs are formed in one side surfaces of the pushing handle (610) and the guide piece (62), and the pushing handle (610) rotates towards the top end side of the guide piece (62) under the driving of the binding belt driving motor (60); the tensioning mechanism (7) comprises a rotating shaft A (70) and a rotating shaft B (71) which are rotatably connected between the two seat plates (100), and a tensioning driving motor (72) which is arranged on one side of one of the seat plates (100) and is in driving connection with the rotating shaft A (70), the rotating shaft A (70) and the rotating shaft B (71) are in meshing connection through gears, hobbing sleeves (73) which are in meshing connection are sleeved on the rotating shaft A (70) and the rotating shaft B (71), and a draw belt hole (40) for the tail of a tie to pass through is arranged on one side of the tie conveying guide rail (4) in a penetrating manner; blank mechanism (8) are including setting up in two blank cylinder (80), the fixed connection of bedplate (100) one side are in on the output shaft of blank cylinder (80) cutter subassembly (81), cutter subassembly (81) include cutter (83), cutter (83) are in under the drive of blank cylinder (80) to stretching out the ribbon of drawing hole (40) is made and is cut off.

2. A feeding and banding machine as claimed in claim 1, wherein said band conveying guide rail (4) includes a guide plate (41) spliced with said vibration tray (3), a guide groove (410) disposed on the top surface of said guide plate (41), a conveying driving mechanism disposed on the top of said cabinet (1), said conveying driving mechanism includes a conveying motor (42), a rotating shaft C (43) fixedly connected to the output shaft of said conveying motor (42), a conveying gear (44) sleeved on said rotating shaft C (43), a strip-shaped hole (45) is disposed on one side of said guide groove (410), said conveying gear (44) extends out of the top of said strip-shaped hole (45).

3. The feeding, clamping and strapping machine according to claim 2, wherein a material distributing mechanism (9) is arranged on the lower side of the strap conveying guide rail (4), the material distributing mechanism (9) comprises a material distributing seat (90) fixedly connected to the top of the cabinet (1), a material distributing cylinder (91) fixedly connected to one side of the material distributing seat (90), a cutter clamping seat (92) fixedly connected to an output shaft of the material distributing cylinder (91), and a material distributing cutter (93) fixedly connected to one side of the cutter clamping seat (92), a cutter hole (46) matched with the material distributing cutter (93) is formed in one side of the material guide plate (41) in a penetrating mode, and the material distributing cutter (93) is movably arranged on the cutter hole (46) and driven by the material distributing cylinder (91) to perform lifting motion.

4. The feeding, threading and banding machine as claimed in claim 2, wherein said cutter assembly (81) further comprises a cutter seat (82) fixedly connected to an output shaft of said cutting cylinder (80), said cutter (83) is hinged to a top end of said cutter seat (82), and said cutter (83) is hinged to one side of said material guiding plate (41).

5. The feeding, card-passing and strapping machine of claim 1 is characterized in that the pushing handle assembly (61) further comprises a pushing handle seat (63) fixedly connected to one end of the pushing handle (610) through a bolt, and a rotating shaft D (64) which is arranged on the pushing handle seat (63) in a penetrating manner and is rotatably connected with the strapping seat (102), wherein the strapping driving motor (60) is connected with the rotating shaft D (64) through a synchronous pulley.

6. The feeding and clamping belt binding machine according to claim 5, wherein the belt driving motor (60) is a double-output-shaft motor, a rotating disc (65) is fixedly connected to an output shaft at one end of the belt driving motor (60), a baffle (66) is fixedly connected to one end face of the rotating disc (65), a supporting block (67) is fixedly connected to one side of the belt seat (102), a groove-shaped photoelectric switch (68) is fixedly connected to one end of the supporting block (67), the baffle (66) is movably arranged on the photosensitive groove of the groove-shaped photoelectric switch (68), a control system (11) is arranged on one side of the machine cabinet (1), and the groove-shaped photoelectric switch (68) is in data connection with the control system (11).

7. The feeding, clamping and strapping machine of claim 1, wherein the clamping plate bin (50) comprises a Z-axis linear module (500) arranged on one side of the cabinet (1), and a carrying plate (501) driven by the Z-axis linear module (500) to perform lifting action, the material taking mechanism (53) comprises an X-direction sliding seat (530), a cylinder sliding table (531) fixedly connected to one side of the X-direction sliding seat (530), a clamping plate (532) fixedly connected to one end of the sliding table of the cylinder sliding table (531), and a plurality of vacuum suction cups (533) fixedly connected to the clamping plate (532), wherein the X-direction sliding seat (530) is arranged on the X-axis linear module (52).

8. A feeding, piercing and bundling machine according to claim 7, characterized in that said X-axis linear module (52) is a synchronous belt sliding table, and said Z-axis linear module (500) is a ball screw sliding table.

Images