CN211165505U - Packaging box forming machine - Google Patents

Abstract

The utility model provides a packaging box forming machine, which is characterized in that the forming machine comprises a frame, a transmission part, a feeding mechanism, a cutting mechanism, two V-groove cutting mechanisms, two corner cutting mechanisms, a rotating mechanism, a mechanical gripper mechanism and a high-frequency curing mechanism, wherein the transmission part, the feeding mechanism, the cutting mechanism, the two V-groove cutting mechanisms, the two corner cutting mechanisms, the rotating mechanism, the mechanical gripper mechanism and the high-frequency curing mechanism are all fixedly arranged on the frame, in the utility model, the arrangement among the mechanisms of the device and the arrangement of the position relation thereof lead the device to be automatic production during the production of the packaging box, the raw material feeding is directly carried out to realize the processing of the final finished product, the product is not required to be manually transferred to the next procedure after one procedure is finished, the production efficiency is higher, and a large amount of labor cost is reduced, meanwhile, the probability of defective products generated by manual operation is reduced, the yield is greatly improved, and resource waste is avoided, so that energy conservation and environmental protection are realized.

Description

Packaging box forming machine

Technical Field

The utility model belongs to packing carton contour machining field, in particular to packing carton shaping field.

Background

The traditional packaging box production process is characterized in that all processes are finished by manually discharging materials through multiple devices: firstly, manually cutting a large paperboard into small pieces slightly larger than the specified transverse size, putting the small pieces into die cutting equipment, and cutting the small pieces into required specifications, wherein the die cutting equipment can replace dies with different specifications to adapt to different products; secondly, manually putting the cut plate into next die cutting equipment, cutting the back side by about one third of the depth, then opening a V-shaped groove to remove leftover materials, and preparing for cutting off the joint in advance; and (3) subsequently, manually putting the cut plate into a V-shaped groove machine, namely: manually adjusting a guide plate and corresponding cutters, putting the plate material into a large roller through a production line, firmly binding the paperboard by a belt, and rotating the V-groove cutters (a cutter rest is fixed) to realize transverse V-groove forming; thirdly, the V groove machine is put into once more to the artifical V groove panel material and carries out the processing in vertical V groove, promptly: the board material with the transverse V-shaped groove flows into a large roller through a production line, so that after the belt firmly binds the board, the board material rotates through a cutter (a cutter rest is fixed), and the vertical V-shaped groove is formed; and finally, manually putting the processed material with the bidirectional V-shaped groove into an automatic corner pasting machine, and fixing and forming the four corners of the material with adhesive tapes.

The traditional technology needs a plurality of independent devices, and a plurality of employees do not need to be connected and operate in different places; most of the equipment is manually adjusted, the mechanical structure is complicated, and the operation technical requirement is high; the whole line occupies large space, so that the dust protection of a workshop is low and the production process is not consistent; the number of used devices is large, and the investment of consumables, monitoring, maintenance and the like is large; the product is poor in strength and high in reject ratio by using an automatic corner pasting machine for fixing by using an adhesive tape; the production process can not be digitally monitored according to the development requirement of the current generation; the product model switching is complicated, more mechanisms need to be adjusted, and the adjustment period is long; the product is easy to damage by manual carrying in the product processing process; and the traditional technology can not cut the wood board in the V-shaped groove.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem, an object of the present invention is to provide an automatic and efficient packing box forming machine.

Another object of the utility model is to provide a small in floor area, simple structure is reasonable and extensive applicability's packing carton make-up machine.

In order to achieve the above object, the technical solution of the present invention is as follows.

The utility model provides a packing carton forming machine, a serial communication port, this make-up machine is including frame, transmission portion, feed mechanism, cut mechanism, two V groove cutting mechanism, two corner cut mechanisms, rotary mechanism, mechanical tongs mechanism and high frequency solidification mechanism all fix and set up in the frame, transmission portion passes feed mechanism, cuts mechanism, two V groove cutting mechanism, two corner cut mechanisms, rotary mechanism, mechanical tongs mechanism and high frequency solidification mechanism, the transmission portion upside is provided with the station of working, rotary mechanism left side is arranged in proper order and is provided with corner cut mechanism, V groove cutting mechanism, cuts mechanism and feed mechanism, rotary mechanism right side is arranged in proper order and is provided with V groove cutting mechanism, rotary mechanism, Corner cutting mechanism, mechanical gripper mechanism and high frequency solidification mechanism. The above-mentioned transmission portion is prior art, for the device that can transmit panel, if can select to realize with devices such as conveyer belt, above-mentioned feed mechanism is prior art, if preferredly: the feeding mechanism comprises a material sucking component, two suction nozzle stand tables, a suction nozzle moving cylinder and a feeding main body, wherein the two suction nozzle stand tables are fixed on a rack and are symmetrically positioned on two sides of a transmission part, suction nozzle slide rails are arranged on the upper sides of the two suction nozzle stand tables, the left end and the right end of the feeding main body are respectively and movably connected onto the two suction nozzle stand tables through the suction nozzle slide rails, a suction nozzle cylinder is fixedly arranged on the suction nozzle stand tables, the top end of a piston rod of the suction nozzle cylinder is fixedly arranged at the side end of the feeding main body, the piston rod of the suction nozzle cylinder reciprocates to drive the feeding main body to move back and forth on the suction nozzle slide rails of the two suction nozzle stand tables, the material sucking component is fixedly arranged on the lower side of the feeding main body, the position of the material sucking component corresponds to a processing position, the feeding component further comprises a feeding protection part, the feeding protection part is positioned on the rear, the feeding compression roller cylinder is fixedly arranged on the feeding compression roller, and the position of the feeding compression roller corresponds to the processing position. The high-frequency curing mechanism is a mechanism which can realize that a box is formed by high-frequency curing of a cut and glued plate; the rotating mechanism is the prior art and can suck the plate after the transverse cutting and gluing of the plate are finished, rotate by 90 degrees and then put into the next procedure to continue cutting along the vertical position; the mechanical gripper mechanism is a mechanism which can grab a plate which is cut and glued and enters a next working procedure in order to realize the prior art. Above-mentioned setting between each mechanism of this device and setting of its positional relation, make this device be automated production when packing carton production, directly just can realize final off-the-shelf processing with raw materials material loading, need not still need the manual work to transfer the product to next process after having processed one process, production efficiency is higher, and reduce a large amount of cost of labor, simultaneously because the artifical probability that has reduced the produced defective goods of manual operation, the yields promotes greatly, thereby avoid the wasting of resources to realize energy-concerving and environment-protective. The movable adjustment of each mechanism is adjusted through numerical control, and manual adjustment is not needed.

further, cut the mechanism including horizontal cutting portion and vertical cutting portion, cut the whole L shape that becomes of mechanism, horizontal cutting portion is fixed to be set up at vertical cutting portion side, horizontal cutting portion and vertical cutting portion all include cutting element, cut fixed subassembly and cut the baffle subassembly, the cutting element, the fixed subassembly that cuts and the baffle subassembly that cuts of horizontal cutting portion and vertical cutting portion all fix and set up in the frame, horizontal cutting portion is still including cutting ejection of compact subassembly, it is fixed to set up in the frame to cut ejection of compact subassembly, the cutting element, the fixed subassembly that cuts and the baffle subassembly of vertical cutting portion arrange in proper order and all correspond with the position of processing position by preceding to the back, the ejection of compact subassembly that cuts, the cutting element, the fixed subassembly that cuts and the baffle subassembly that cuts of horizontal cutting portion arrange in proper order and all correspond with the position of processing position, the ejection of compact subassembly that cuts is located the side between the baffle subassembly that cuts and the baffle subassembly of vertical cutting portion.

Further, the cutting assembly comprises a cutting fixed gantry, a cutting transverse moving module and a cutting cutter assembly, the cutting fixed gantry is fixedly arranged on the frame, the cutting transverse moving module is fixedly arranged on the cutting fixed gantry, the cutting cutter assembly is movably connected to the cutting transverse moving module, the cutting cutter assembly is arranged in a position corresponding to a processing phase, the cutting fixed assembly comprises a front pressing plate portion and a rear pressing plate portion, the front pressing plate portion and the rear pressing plate portion are fixedly arranged on the frame, and the front pressing plate portion and the rear pressing plate portion are corresponding to the processing phase. The cutting blade assembly may preferably be: the cutting and cutting tool assembly comprises a cutting lifting cylinder, a cutting spindle motor and a cutting cutter, wherein the cutting lifting cylinder is movably arranged on the cutting transverse moving module, the cutting spindle motor is fixedly arranged at the top end of a piston rod of the cutting lifting cylinder, the cutting cutter is fixedly arranged at the front end of a rotating shaft of the cutting spindle motor, and the cutting cutter corresponds to a machining position. The cutting transverse moving module is a component which can realize left and right movement of the cutter component on a processing position, such as a motor, a sliding rail, a conveying belt and the like. Preceding pressure board portion and back pressure board portion realize compressing tightly the effect of panel through activity from top to bottom, and it is prior art, and the preferred is driven through the cylinder and is realized going up and down.

Further, the cutting baffle assembly comprises a baffle frame, a baffle slide rail, a baffle positioning module, a baffle support frame, a baffle slide block, two baffle lifting cylinders and a baffle, wherein the baffle frame is fixedly arranged on the frame, the baffle slide rail is fixedly arranged on the baffle frame, the baffle slide block is slidably connected on the baffle slide rail, the baffle positioning module is fixedly arranged on the baffle frame, the baffle positioning module is fixedly connected with the baffle slide block, the baffle slide block slides on the baffle slide rail under the control of the baffle positioning module, the baffle support frame is fixedly arranged at the top end of the baffle slide block, the two baffle lifting cylinders are respectively fixedly arranged at the left side and the right side of the baffle support frame, the two ends of the baffle are respectively fixedly arranged at the top ends of piston rods of the two baffle lifting cylinders, the position of the baffle corresponds to the processing position and is positioned at the upper side of the processing position, the cutting and discharging assembly comprises a discharging compression roller fixing plate, a discharging compression roller frame, a discharging compression roller lifting cylinder and a discharging compression roller, wherein the discharging compression roller frame is fixedly arranged on the frame, the discharging compression roller fixing plate is movably connected to the discharging compression roller frame, the discharging compression roller is movably connected to the discharging compression roller fixing plate, the discharging compression roller position corresponds to a processing phase, the compression roller lifting cylinder is fixed to the discharging compression roller frame, and the top end of a piston rod of the compression roller lifting cylinder is fixed to the discharging compression roller fixing plate. Above-mentioned baffle location module can drive the subassembly of baffle slider motion on the baffle slide rail, for prior art, if can adopt the combination of motor, pulley and belt to realize. The baffle positioning module in the baffle part controls the position of the baffle on the transmission part by adjusting the movement of the baffle sliding block on the baffle sliding rail, so that the purpose of controlling the size of the cut plate is achieved, and the baffle lifting cylinder can achieve the effect of stopping the plate on the transmission part by controlling the height of the baffle on the transmission part. According to the arrangement of the cutting and discharging assembly, when the plate is cut at the vertical cutting part and then is cut, the head part of the cut plate is pressed by the pressing roller of the discharging pressing roller frame, the plate is mutually clamped by the cutting and discharging assembly and the transmission part, and the plate is conveyed to the transverse cutting part.

Further, V groove cutting mechanism is including two V groove cutter unit spares valves with two, two V groove cutter unit swing joint set up in the frame and are located transmission portion both sides respectively, two point gum valves are fixed respectively and are set up on two V groove cutter unit spares, V groove cutter unit spare is including V groove cutter portion main part and V groove cutter portion, V groove cutter portion swing joint in V groove cutter portion main part, V groove cutter portion position corresponds with the processing phase, V groove cutter portion main part is fixed to be set up in the frame and is located transmission portion side, the point gum valve is fixed in V groove cutter portion main part. The V-groove cutter part is movably connected with the position on the V-groove cutter part main body, the position distance between the V-groove cutter part and the processing position can be adjusted through up-down movement, and up-down movement can be preferably realized through mechanisms such as a cylinder, a sliding rail and the like.

Further, V groove cutter portion is including V groove cutter fixed plate, two V groove cutters and pinch roller, V groove cutter fixed plate swing joint is in V groove cutter portion main part, two fixed settings of V groove cutter angle dislocation are on V groove cutter fixed plate, V groove cutter is including V groove cutter and V groove rotating electrical machines, V groove rotating electrical machines is fixed to be set up on V groove cutter fixed plate, V groove cutter is fixed to be set up at V groove rotating electrical machines pivot front end, the pinch roller is fixed to be set up on V groove rotating electrical machines and is located by V groove cutter dish, pinch roller and V groove cutter all correspond with the processing phase, the processing position corresponds V groove cutter and goes out to be provided with and dodge the groove. Above-mentioned two V groove cutters are according to angle dislocation combination on V groove cutter fixed plate, and the pinch roller that V groove cutter next door set up can guarantee that panel position can not squint when the cutting, and above-mentioned V groove cutter portion reaches the effect of the V groove degree of depth is cut in the adjustment through the distance of the steerable V groove cutter of swing joint from the processing station in V groove cutter portion main part, can guarantee to reach collapsible 90 degrees effects after the panel cutting. The two V-groove cutters are arranged in a 90-degree staggered mode, and the V-groove rotating motor drives the V-groove cutters to rotate. The V-shaped groove cutter can be prevented from being damaged due to more descending height during working due to the arrangement of the avoiding groove.

Further, the fixed dispensing valve fixed block that is provided with in V groove cutter portion main part, the dispensing valve is fixed to be set up on the dispensing valve fixed block, the dispensing valve includes fixed connection's dispensing valve main part and goes out the gluey head, it is provided with the V-arrangement of an organic whole connection and goes out gluey mouth to go out gluey head bottom, two sides in V-arrangement play gluey mouth bottom all are provided with out gluey recess, V-arrangement goes out gluey mouth still is provided with out gluey cavity, it corresponds out gluey head to go out gluey cavity one end, it extends two passageways respectively to two play gluey recesses to go out gluey cavity other end, it communicates to two passageways that go out gluey recess is "people" font to go out gluey cavity. The dispensing valve main part is prior art, glues the head including axle core, adjusting nut, dispensing valve cylinder, gluey room, lock, adjusting nut swing joint is in dispensing valve cylinder upper end, dispensing valve cylinder, gluey room, lock glue the head and go out glue the head from last fixed connection down in proper order, the axle core begins from last down running through to the lock glue the head by adjusting nut, the ascending inlet port of gas pocket and piston, it is provided with into gluey hole to glue the room, dispensing valve and the V groove cutter portion that corresponds are located a straight line. The shaft core penetrates through the rubber locking head from top to bottom, the cylinder part and a piston inside the cylinder are combined into a whole, when the piston descends to enable the air inlet hole to admit air, the piston descends to drive the shaft core to open the rubber locking head sealing part downwards, glue enters the rubber chamber from the rubber inlet to reach the rubber locking head, when the rubber locking head is opened, the glue flows out from the rubber outlet nozzle in a herringbone shunting manner inside the rubber locking head, the glue amount flows out by controlling the height of the adjusting nut, the opening size of the sealing part opened by the shaft core is enabled to be controlled, the flowing glue amount is enabled to be controllable, when the piston ascends to enable the air inlet hole of the piston to ascend, the piston ascends, and the rubber locking head is locked and is broken. The existing glue smearing device can not smear glue to two side faces of the V-shaped groove well when smearing the glue, the arrangement of the herringbone glue outlet and the glue outlet groove can smear the glue to the two side faces of the cut V-shaped groove through the V-shaped glue outlet, the painted glue can be guaranteed, and the glue is full in quality and linearity and is suitable in glue amount.

Furthermore, the corner cutting mechanism comprises two corner cutting components which are movably connected and arranged on the frame, the two corner cutting components are positioned on two sides of the transmission part, the corner cutting components comprise a corner cutting part main body, a corner cutting positioning belt pulley structure, a corner cutting positioning conveying motor, a front cutter movable module, a front cutter component and a rear cutter component, the corner cutting part main body is fixedly arranged on the frame and positioned on the outer side of the transmission part, the front cutter movable module is fixedly arranged on the upper side of the corner cutting part main body, the corner cutting positioning belt pulley structure and the corner cutting positioning conveying motor are both fixedly arranged on the outer side of the corner cutting part main body, the rear cutter component is fixedly arranged on the inner side of the corner cutting part main body and positioned at the left end of the corner cutting part main body, the front cutter component is fixedly arranged on the inner side of the front cutter movable module, and a rotating shaft of the corner cutting positioning conveying motor is in transmission connection with the corner cutting positioning belt pulley structure, the corner cutting positioning belt wheel structure is in transmission connection with the front cutter movable module. The angle cutting movable module is a module formed by components with a sliding rail and a sliding groove in the prior art, the angle cutting positioning belt wheel structure and the angle cutting positioning conveying motor are both in the prior art, and the angle cutting positioning belt wheel can be preferably formed by combining a conveying belt and a belt pulley; the angle cutting positioning belt wheel structure and the angle cutting positioning conveying motor can be replaced by an angle cutting screw rod transmission structure and an angle cutting transmission conveying motor, and when the angle cutting screw rod transmission structure and the angle cutting transmission conveying motor are used, the angle cutting transmission conveying motor drives the angle cutting screw rod transmission structure to drive the front cutter movable module to move, so that the angle cutting positioning belt wheel structure and the angle cutting positioning conveying motor belong to the prior art; the front and rear cutter assemblies may preferably be: the front cutter assembly and the rear cutter assembly respectively comprise a cutter lifting cylinder, a cutter motor, a cutter fixing plate and a cutter, the cutter lifting cylinders of the front cutter assembly and the rear cutter assembly are respectively fixed on the inner side of a front cutter movable module and the inner side of a corner cutting part main body, the upper side of the cutter fixing plate is fixed on the cutter lifting cylinder, the cutter motor is fixed on the lower side of a cutter fixing part, the cutter is fixedly arranged on a rotating shaft of the cutter motor, and the position of the cutter corresponds to the position of a machining position. Still fixed being provided with position sensor on the corner cut mechanism, cutting that can be timely when panel passes through. And above-mentioned two corner cut subassemblies and two V groove cutter unit spares all can be through the activity of the transmission portion left and right sides in the frame to the not unidimensional product of adaptation can promote the holistic adaptability of device greatly, can produce the product of different specifications, and above-mentioned activity is for realizing through prior art, if realize through spout and slide rail. The processing station is provided with an avoiding groove corresponding to the front cutter assembly and the rear cutter assembly, so that the cutter is prevented from cutting deeply to damage the cutter during working. The V groove cutting of paper materials can be realized not only by the arrangement of the front cutter component and the rear cutter component of the V groove cutting mechanism, but also by the arrangement of the rear cutter component, V groove cutting can be carried out on wood boards.

Furthermore, the V-groove cutting mechanism and the corner cutting mechanism further comprise a compression roller assembly and a side pushing assembly, the compression roller assembly and the side pushing assembly are fixedly arranged on the frame, the compression roller assembly comprises a compression roller support, a lifting cylinder, a compression roller fixing plate, a roller fixing frame and rollers, the compression roller support is fixedly arranged on the frame, the lifting cylinder is fixedly arranged on the compression roller support, a piston rod of the lifting cylinder is fixedly connected onto the compression roller fixing plate, the roller fixing frame is fixedly arranged on the lower side of the compression roller fixing plate, the rollers are movably connected onto the roller fixing frame, the rollers of the V-groove cutting mechanism are respectively positioned between the two V-groove cutter assemblies, the rollers of the compression roller assembly on the corner cutting mechanism are respectively positioned between the two corner cutting assemblies, and the positions of the rollers correspond to the position of the machining station. The distance between the press roller fixing plate and the press roller support is controlled by the air cylinder, so that the distance between the press roller fixing plate and the press roller support is adjusted, the effect of just abutting against the plate placed on the placing position is achieved, the plate cannot jump up along the situation when being cut by the cutting knife part, and the yield of plate cutting is guaranteed to be higher.

Further, the side pushes away the subassembly and pushes away the portion including a plurality of left sides portion and a plurality of right sides, the left side pushes away the portion and the right side pushes away the portion and is located transmission portion both sides respectively, a plurality of left sides push away the portion and a plurality of right sides push away the portion all including the side push away motor element, side push away slide rail and side push away the main part, the side pushes away the fixed setting of slide rail in the frame, side push away main part sliding connection on the side push away slide rail that corresponds, the fixed side push baffle that is provided with in side push away main part top, the side push away the position of baffle and processing station and corresponds, side push away motor element and the side push away main part fixed connection that corresponds, the side pushes away the main part and slides from the left and right on the side push away slide rail under the control of. The side-push motor assembly is a transmission assembly with a motor in the prior art.

All motors and all cylinders in the technical scheme are the prior art.

The working principle is as follows: the feeding mechanism is used for placing a plate on a processing position of the transmission part, the plate enters the cutting mechanism along with the transmission part, the plate firstly enters the vertical cutting part, when the plate abuts against the baffle, the cutting fixing component presses the plate, the cutting cutter component starts cutting the plate, after the plate is cut, the cutting fixing component loosens the plate, the plate which is cut vertically enters the transverse cutting part through the cutting discharging component under the driving of the transmission part, and the transverse cutting is carried out; after transverse cutting is finished, the cut plate enters a V-shaped groove cutting mechanism along a transmission part, V-shaped groove cutting assemblies on two sides of the transmission part cut the V-shaped groove on the plate, glue is injected into the V-shaped groove cut by the V-shaped groove cutting assemblies through a glue dispensing valve, the plate enters an angle cutting mechanism along the transmission part after the V-shaped groove on the plate is completely cut, two angle cutting assemblies perform first angle cutting on the plate, and a side pushing assembly and a pressing roller assembly perform flow guiding and position limiting effects on the plate when the plate is cut by the V-shaped groove cutting mechanism and the angle cutting mechanism, so that the plate is guaranteed to be stable and not to shift and jump; after the preliminary corner cut is finished, the plate enters the rotating mechanism along the conveying part, the plate flows into the next process after the plate is rotated by 90 degrees through the rotating mechanism, the second V-groove cutting process and the corner cut process are repeated, when the two processes are repeated on the plate, the four corners of the plate are cut off, the four V grooves at the cut part of the plate are all glued, the plate at the moment is sent to the mechanical gripper mechanism through the conveying part, the mechanical gripper mechanism grabs the plate and puts the plate into the high-frequency curing mechanism, the plate is finally cured, and a final product box is formed.

The beneficial effects of the utility model reside in that, compared with the prior art, the utility model discloses in, above-mentioned setting between each mechanism of this device and the setting of its positional relationship, make this device be automated production when packing carton production, directly just can realize final off-the-shelf processing with raw materials material loading, need not still to need the manual work to transfer the product to next process after having processed one process, production efficiency is higher, and reduce a large amount of cost of labor, simultaneously because the manual work has been reduced the probability of the produced wastrel of manual operation, the yields promotes greatly, thereby it has realized energy-concerving and environment-protective to avoid the wasting of resources.

Drawings

Fig. 1 is a schematic structural view of the packaging box forming machine of the present invention.

Fig. 2 is a schematic structural diagram of the feeding mechanism, the vertical cutting part, the cutting discharging component, the partial transmission part and the partial frame of the packaging box forming machine of the present invention.

Fig. 3 is a schematic structural view of the V-groove cutter assembly, the side pushing assembly, the partial transmission portion and the partial frame of the packaging box forming machine of the present invention.

Fig. 4 is a schematic structural view of the V-groove cutter assembly and a part of the transmission part of the packing box forming machine of the present invention.

Fig. 5 is a schematic view of a dispensing valve structure of a packaging box forming machine of the present invention.

Fig. 6 is a schematic structural view of the corner cutting mechanism, part of the transmission part and part of the frame of the packaging box forming machine of the present invention.

Fig. 7 is a schematic structural view of the corner cutting assembly and a part of the transmission part of the packing box forming machine of the present invention.

Fig. 8 is a schematic structural view of the compression roller assembly and a part of the transmission part of the packing box forming machine of the present invention.

Fig. 9 is a schematic structural view of a right side pushing portion of the packaging box forming machine of the present invention.

Fig. 10 is a schematic structural view of a glue outlet head of the packaging box forming machine of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to achieve the above object, the technical solution of the present invention is as follows.

The utility model provides a packing carton make-up machine, a serial communication port, this make-up machine is including frame 1, transmission portion 2, feed mechanism 3, cut mechanism 4, two V groove cutting mechanism 5, two corner cut mechanism 6, rotary mechanism 7, mechanical tongs mechanism 8 and high frequency solidification mechanism 9 are all fixed and are set up in frame 1, transmission portion 2 passes feed mechanism 3, cuts mechanism 4, two V groove cutting mechanism 5, two corner cut mechanism 6, rotary mechanism 7, mechanical tongs mechanism 8 and high frequency solidification mechanism 9, transmission portion 2 upside is provided with and adds station 21, rotary mechanism 7 left side is arranged in proper order and is provided with corner cut mechanism 6, V groove cutting mechanism 5, cut mechanism 4 and feed mechanism 3, rotary mechanism 6 right side is arranged in proper order and is provided with V groove cutting mechanism 5, corner cut mechanism 6, mechanical tongs mechanism 8 and high frequency solidification mechanism 9.

further, cut mechanism 4 including horizontal cutting portion 41 and vertical cutting portion 42, cut the whole L shape that becomes of mechanism 4, horizontal cutting portion 41 is fixed to be set up at vertical cutting portion 42 side, horizontal cutting portion 41 and vertical cutting portion all 42 is including cutting means 43, cutting fixed subassembly 44 and cutting baffle subassembly 45, the cutting means 43, the fixed subassembly 44 that cuts and the baffle subassembly 45 of horizontal cutting portion 41 and vertical cutting portion 42 are all fixed to be set up in frame 1, horizontal cutting portion 41 is still including cutting ejection of compact subassembly 46, cutting ejection of compact subassembly 46 is fixed to be set up in frame 1, the cutting means 43 of vertical cutting portion 42, cut fixed subassembly 44 and cutting baffle subassembly 45 arrange in proper order and all correspond with the position of processing position 21 by preceding after to, cutting ejection of compact subassembly 46, cutting means 43, the fixed subassembly 44 and the baffle subassembly 45 of horizontal cutting portion 41 arrange in proper order and all correspond with the position of processing position 21, cutting ejection of compact subassembly 46 is located the side between vertical cutting portion 42's cutting baffle subassembly 45 and the cutting baffle subassembly 45.

Further, the cutting assembly 43 includes a cutting fixed gantry 431, a cutting traverse module 432, and a cutting cutter assembly 433, the cutting fixed gantry 431 is fixedly disposed on the frame 1, the cutting traverse module 432 is fixedly disposed on the cutting fixed gantry 431, the cutting cutter assembly 433 is movably connected to the cutting traverse module 432, the cutting cutter assembly 433 is located corresponding to the processing position 21, the cutting fixed assembly 44 includes a front pressing plate portion 441 and a rear pressing plate portion 442, the front pressing plate portion 441 and the rear pressing plate portion 442 are both fixedly disposed on the frame 1, and the front pressing plate portion 441 and the rear pressing plate portion 442 are both located corresponding to the processing position 21.

Further, the cutting baffle assembly 45 comprises a baffle frame 451, a baffle sliding rail 452, a baffle positioning module 453, a baffle supporting frame 454, a baffle sliding block 455, two baffle lifting cylinders 456 and a baffle 457, wherein the baffle frame 451 is fixedly arranged on the frame 1, the baffle sliding rail 452 is fixedly arranged on the baffle frame 451, the baffle sliding block 455 is slidably connected on the baffle sliding rail 452, the baffle positioning module 453 is fixedly arranged on the baffle frame 451, the baffle positioning module 453 is fixedly connected with the baffle sliding block 455, the baffle sliding block 455 slides on the baffle sliding rail 452 under the control of the baffle positioning module 453, the baffle supporting frame 454 is fixedly arranged at the top end of the baffle sliding block 455, the two baffle lifting cylinders 456 are respectively fixedly arranged at the left side and the right side of the baffle supporting frame 454, and the two ends of the baffle 457 are respectively fixedly arranged at the top ends of the piston rods of the two baffle lifting cylinders 456, the position of the baffle 457 corresponds to the processing position 21 and is located on the upper side of the processing position 21, the cutting and discharging assembly 46 comprises a discharging press roller fixing plate 461, a discharging press roller frame 462, a discharging press roller lifting cylinder 463 and a discharging press roller 464, the discharging press roller frame 462 is fixedly arranged on the machine frame 1, the discharging press roller fixing plate 461 is movably connected to the discharging press roller frame 462, the discharging press roller 464 is movably connected to the discharging press roller fixing plate 461, the discharging press roller 464 is located corresponding to the processing position 21, the press roller lifting cylinder 463 is fixed to the discharging press roller frame 462, and the top end of a piston rod of the press roller lifting cylinder 463 is fixed to the discharging press roller fixing plate 461.

Further, V groove cutting mechanism 5 is including two V groove cutter unit 51 and two dispensing valves 52, two V groove cutter unit 51 swing joint set up in frame 1 and be located transmission portion 2 both sides respectively, two dispensing valves 52 are fixed respectively and are set up on two V groove cutter unit 51, V groove cutter unit 51 is including V groove cutter portion main part 53 and V groove cutter portion 54, V groove cutter portion 54 swing joint on V groove cutter portion main part 53, V groove cutter portion 54 position is corresponding with processing position 21, V groove cutter portion main part 53 is fixed to be set up in frame 1 and is located transmission portion 2 side, dispensing valve 52 is fixed on V groove cutter portion main part 53.

Further, V groove cutter portion 54 includes V groove cutter fixing plate 541, two V groove cutters 542 and pinch roller 543, V groove cutter fixing plate 541 is swing joint on V groove cutter portion main body 53, two V groove cutters 542 are fixed on V groove cutter fixing plate 541 in angularly misplaced manner, V groove cutter 542 includes V groove cutter 544 and V groove rotating electrical machines 545, V groove rotating electrical machines 545 is fixed to be set up on V groove cutter fixing plate 541, V groove cutter 544 is fixed to be set up at the front end of the rotating shaft of V groove rotating electrical machines 545, pinch roller 543 is fixed to be set up on V groove rotating electrical machines 545 and is located by V groove cutter 544 dish, pinch roller 543 and V groove cutter 544 all correspond to processing position 21.

Further, a dispensing valve fixing block 55 is fixedly arranged on the V-groove cutter part main body 53, the dispensing valve 52 is fixedly arranged on the dispensing valve fixing block 55, the dispensing valve 52 and the corresponding V-groove cutter part 54 are on the same straight line, the dispensing valve 52 comprises a shaft core 521, an adjusting nut 522, a dispensing valve cylinder 523, a glue chamber 524, a glue locking head 525 and a glue outlet head 526, the adjusting nut 522 is movably connected to the upper end of the dispensing valve cylinder 523, the glue chamber 524, the glue locking head 525 and the glue outlet head 526 are fixedly connected from top to bottom in sequence, the shaft core 521 is penetrated from top to bottom to the glue locking head 525 by the adjusting nut 522, a piston descending air inlet hole and a piston ascending air inlet hole are arranged on the dispensing valve cylinder 523, the glue chamber 524 is provided with a glue inlet hole, a V-shaped glue outlet 527 integrally connected to the bottom end of the glue outlet head 526, glue outlet grooves 528 are arranged on two side surfaces of the bottom end of the V-shaped glue outlet nozzle 527, the V-shaped glue outlet 527 is further provided with a glue outlet cavity (not shown), one end of the glue outlet cavity corresponds to the glue outlet head, the other end of the glue outlet cavity extends out of two channels 529 to two glue outlet grooves 528 respectively, and the channels 529, which communicate the glue outlet cavity to the two glue outlet grooves 528, are in a shape like a Chinese character 'ren'.

Further, the corner cutting mechanism 6 includes two corner cutting assemblies 61, the two corner cutting assemblies 61 are movably connected and arranged on the frame 1, the two corner cutting assemblies 61 are located on two sides of the transmission part 2, the corner cutting assemblies 61 include a corner cutting main body 611, a corner cutting screw transmission structure 612, a corner cutting transmission conveying motor 613, a front cutter movable module 614, a front cutter assembly 615 and a rear cutter assembly 616, the corner cutting main body 611 is fixedly arranged on the frame 1 and located on the outer side of the transmission part 2, the front cutter movable module 614 is fixedly arranged on the upper side of the corner cutting main body 611, the corner cutting screw transmission structure 612 and the corner cutting transmission conveying motor 613 are fixedly arranged on the outer side of the corner cutting main body 611, the rear cutter assembly 616 is fixedly arranged on the inner side of the corner cutting main body 611 and located on the left end of the corner cutting main body 611, the front cutter assembly 615 is fixedly arranged on the inner side of the front cutter movable module 614, the rotating shaft of the cutting angle transmission conveying motor 613 is in transmission connection with a cutting angle screw rod transmission structure 612, and the cutting angle screw rod transmission structure 612 is in transmission connection with a front cutter movable module 614.

Further, each of the V-groove cutting mechanism 5 and the corner cutting mechanism 6 further includes a pressure roller assembly 62 and a side pushing assembly 63, the pressure roller assembly 62 and the side pushing assembly 63 are both fixedly disposed on the frame 1, the pressure roller assembly 62 includes a pressure roller support 621, a lifting cylinder 622, a pressure roller fixing plate 623, a roller fixing frame 624 and a roller 625, the pressure roller support 621 is fixedly disposed on the frame 1, the lifting cylinder 622 is fixedly disposed on the pressure roller support 621, a piston rod of the lifting cylinder 622 is fixedly connected to the pressure roller fixing plate 623, the roller fixing frame 624 is fixedly disposed at the lower side of the pressure roller fixing plate 623, the roller 625 is movably connected to the roller fixing frame 624, the rollers 625 of the V-groove cutting mechanism 5 are respectively disposed between two V-groove cutting assemblies 51, the rollers 625 of the pressure roller assembly 62 on the corner cutting mechanism 6 are respectively disposed between two corner cutting assemblies 61, the positions of the rollers 625 correspond to the positions of the processing stations 21.

Further, the side pushes away subassembly 63 including a plurality of left side push away portion 631 and a plurality of right side push away portion 632, left side push away portion 631 and right side push away portion 632 are located transmission portion 2 both sides respectively, a plurality of left side push away portion 631 and a plurality of right side push away portion 632 are all including side push motor element 633, side push away slide 634 and side push away main part 635, side push away slide 634 is fixed to be set up in frame 1, side push away main part 635 sliding connection is on corresponding side push away slide 634, side push away main part 635 top is fixed and is provided with side push baffle 636, side push baffle 636 corresponds with the position of processing station 21, side push away motor element 633 and the corresponding side push away main part 635 fixed connection, side push away main part 635 and control down the side push away motor element 634 that corresponds and slide to the right side on side push away slide 634.

The processing position 21 is provided with an avoiding groove (not shown) corresponding to the V-groove cutter 544, and the processing position 21 is provided with an avoiding groove (not shown) corresponding to the front cutter component 615 and the rear cutter component 616.

The beneficial effects of the utility model reside in that, compared with the prior art, the utility model discloses in, above-mentioned setting between each mechanism of this device and the setting of its positional relationship, make this device be automated production when packing carton production, directly just can realize final off-the-shelf processing with raw materials material loading, need not still to need the manual work to transfer the product to next process after having processed one process, production efficiency is higher, and reduce a large amount of cost of labor, simultaneously because the manual work has been reduced the probability of the produced wastrel of manual operation, the yields promotes greatly, thereby it has realized energy-concerving and environment-protective to avoid the wasting of resources.

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

Claims (10)

1. The packaging box forming machine is characterized by comprising a rack, a transmission part, a feeding mechanism, a cutting mechanism, two V-groove cutting mechanisms, two corner cutting mechanisms, a rotating mechanism, a mechanical gripper mechanism and a high-frequency curing mechanism, wherein the transmission part, the feeding mechanism, the cutting mechanism, the two V-groove cutting mechanisms, the two corner cutting mechanisms, the rotating mechanism, the mechanical gripper mechanism and the high-frequency curing mechanism are all fixedly arranged on the rack, the transmission part penetrates through the feeding mechanism, the cutting mechanism, the two V-groove cutting mechanisms, the two corner cutting mechanisms, the rotating mechanism, the mechanical gripper mechanism and the high-frequency curing mechanism, a processing station is arranged on the upper side of the transmission part, the corner cutting mechanisms, the V-groove cutting mechanisms and the feeding mechanism are sequentially arranged on the left side of the rotating mechanism cutting machine, and the V-groove cutting mechanisms, the high-frequency curing mechanism, the V-groove, Corner cutting mechanism, mechanical gripper mechanism and high frequency solidification mechanism.

2. the packaging box forming machine according to claim 1, wherein the cutting mechanism comprises a transverse cutting portion and a vertical cutting portion, the cutting mechanism is integrally L-shaped, the transverse cutting portion is fixedly arranged on the side edge of the vertical cutting portion, the transverse cutting portion and the vertical cutting portion comprise a cutting assembly, a cutting fixing assembly and a cutting baffle assembly, the cutting fixing assembly and the cutting baffle assembly of the transverse cutting portion and the vertical cutting portion are fixedly arranged on the machine frame, the transverse cutting portion further comprises a cutting discharging assembly, the cutting discharging assembly is fixedly arranged on the machine frame, the cutting assembly, the cutting fixing assembly and the cutting baffle assembly of the vertical cutting portion are sequentially arranged from front to back and respectively correspond to the positions of the processing positions, the cutting discharging assembly, the cutting fixing assembly and the cutting baffle assembly of the transverse cutting portion are sequentially arranged and respectively correspond to the positions of the processing positions, and the cutting discharging assembly is arranged on the side edge between the cutting baffle assembly and the cutting baffle assembly of the vertical cutting portion.

3. The machine for forming packing boxes according to claim 2, wherein the cutting assembly comprises a fixed cutting gantry, a transverse cutting module and a cutting cutter assembly, the fixed cutting gantry is fixedly arranged on the frame, the transverse cutting module is fixedly arranged on the fixed cutting gantry, the cutting cutter assembly is movably connected to the transverse cutting module, the cutting cutter assembly is positioned corresponding to the processing phase, the fixed cutting assembly comprises a front pressing plate portion and a rear pressing plate portion, the front pressing plate portion and the rear pressing plate portion are both fixedly arranged on the frame, and the front pressing plate portion and the rear pressing plate portion are both positioned corresponding to the processing phase.

4. The packaging box forming machine according to claim 3, wherein the cutting baffle assembly comprises a baffle rack, a baffle slide rail, a baffle positioning module, a baffle support frame, a baffle slider, two baffle lifting cylinders and a baffle, the baffle rack is fixedly arranged on the machine frame, the baffle slide rail is fixedly arranged on the baffle rack, the baffle slider is slidably connected on the baffle slide rail, the baffle positioning module is fixedly arranged on the baffle rack, the baffle positioning module is fixedly connected with the baffle slider, the baffle slider slides on the baffle slide rail under the control of the baffle positioning module, the baffle support frame is fixedly arranged at the top end of the baffle slider, the two baffle lifting cylinders are respectively fixedly arranged at the left side and the right side of the baffle support frame, the two ends of the baffle are respectively fixedly arranged at the top ends of the piston rods of the two baffle lifting cylinders, the position of baffle and processing phase correspond and are located processing position upside, cut ejection of compact subassembly including ejection of compact compression roller fixed plate, ejection of compact compression roller frame, ejection of compact compression roller lift cylinder and ejection of compact compression roller, ejection of compact compression roller frame is fixed to be set up in the frame, ejection of compact compression roller fixed plate swing joint is on ejection of compact compression roller frame, ejection of compact compression roller swing joint is on ejection of compact compression roller fixed plate, ejection of compact compression roller position corresponds with the processing phase, compression roller lift cylinder is fixed on ejection of compact compression roller frame just the piston rod top of compression roller lift cylinder is fixed on ejection of compact compression roller fixed plate.

5. The packaging box forming machine according to claim 1, wherein the V-groove cutting mechanism comprises two V-groove cutter assemblies and two dispensing valves, the two V-groove cutter assemblies are movably connected to the frame and located on two sides of the conveying portion respectively, the two dispensing valves are fixedly arranged on the two V-groove cutter assemblies respectively, the V-groove cutter assemblies comprise a V-groove cutter portion main body and a V-groove cutter portion, the V-groove cutter portion is movably connected to the V-groove cutter portion main body, the V-groove cutter portion corresponds to the processing position, the V-groove cutter portion main body is fixedly arranged on the frame and located on a side of the conveying portion, and the dispensing valves are fixed to the V-groove cutter portion main body.

6. The packaging box forming machine according to claim 5, wherein the V-groove cutter portion comprises a V-groove cutter fixing plate, two V-groove cutters and a pressing wheel, the V-groove cutter fixing plate is movably connected to the V-groove cutter portion main body, the two V-groove cutters are fixedly arranged on the V-groove cutter fixing plate in an angle-staggered manner, the V-groove cutter comprises a V-groove cutter and a V-groove rotating motor, the V-groove rotating motor is fixedly arranged on the V-groove cutter fixing plate, the V-groove cutter is fixedly arranged at the front end of a rotating shaft of the V-groove rotating motor, the pressing wheel is fixedly arranged on the V-groove rotating motor and is located beside a V-groove cutter disc, the pressing wheel and the V-groove cutter both correspond to a processing phase, and a relief groove is formed in the processing position corresponding to the V-groove cutter.

7. The packaging box forming machine according to claim 5, wherein a dispensing valve fixing block is fixedly arranged on the V-shaped groove cutter portion main body, the dispensing valve is fixedly arranged on the dispensing valve fixing block, the dispensing valve comprises a dispensing valve main body and a dispensing head which are fixedly connected, a V-shaped dispensing nozzle which is integrally connected is arranged at the bottom end of the dispensing head, two glue discharging grooves are formed in two side surfaces of the bottom end of the V-shaped dispensing nozzle, the V-shaped dispensing nozzle is further provided with a glue discharging cavity, one end of the glue discharging cavity corresponds to the dispensing head, two channels respectively extend out of the other end of the glue discharging cavity to the two glue discharging grooves, and a channel communicated with the two glue discharging grooves is in a shape of a Chinese character 'ren'.

8. The packaging box forming machine according to claim 1, wherein the corner cutting mechanism comprises two corner cutting assemblies movably connected to the frame, the two corner cutting assemblies are located on both sides of the conveying portion, the corner cutting assemblies comprise a corner cutting portion main body, a corner cutting positioning pulley structure, a corner cutting positioning conveying motor, a front cutter movable module, a front cutter assembly and a rear cutter assembly, the corner cutting portion main body is fixedly arranged on the frame and located on the outer side of the conveying portion, the front cutter movable module is fixedly arranged on the upper side of the corner cutting portion main body, the corner cutting positioning pulley structure and the corner cutting positioning conveying motor are fixedly arranged on the outer side of the corner cutting portion main body, the rear cutter assembly is fixedly arranged on the inner side of the corner cutting portion main body and located at the left end of the corner cutting portion main body, the front cutter assembly is fixedly arranged on the inner side of the front cutter movable module, the rotary shaft of the corner cutting positioning conveying motor is in transmission connection with the corner cutting positioning belt wheel structure, the corner cutting positioning belt wheel structure is in transmission connection with the front cutter movable module, and the processing station is provided with avoidance grooves corresponding to the front cutter assembly and the rear cutter assembly.

9. The machine of claim 1 wherein each of the V-notch cutting means and the corner cutting means further comprises a roller assembly and a side pushing assembly, the compression roller assembly and the side pushing assembly are both fixedly arranged on the frame, the compression roller assembly comprises a compression roller bracket, a lifting cylinder, a compression roller fixing plate, a roller fixing frame and a roller, the compression roller bracket is fixedly arranged on the frame, the lifting cylinder is fixedly arranged on the compression roller bracket, a piston rod of the lifting cylinder is fixedly connected on the compression roller fixing plate, the roller wheel fixing frame is fixedly arranged at the lower side of the compression roller fixing plate, the roller wheels are movably connected on the roller wheel fixing frame, the roller wheels of the V-groove cutting mechanism are respectively positioned between the two V-groove cutter components, and the rollers of the compression roller assemblies on the corner cutting mechanism are respectively positioned between the two corner cutting assemblies, and the positions of the rollers correspond to the positions of the machining stations.

10. The packaging box forming machine according to claim 9, wherein the side pushing assembly comprises a plurality of left side pushing portions and a plurality of right side pushing portions, the left side pushing portions and the right side pushing portions are respectively located on two sides of the conveying portion, each of the left side pushing portions and the right side pushing portions comprises a side pushing motor assembly, a side pushing slide rail and a side pushing main body, the side pushing slide rails are fixedly arranged on the frame, the side pushing main body is slidably connected to the corresponding side pushing slide rails, a side pushing baffle is fixedly arranged at the top end of the side pushing main body, the side pushing baffle corresponds to the processing position, the side pushing motor assemblies are fixedly connected with the corresponding side pushing main bodies, and the side pushing main bodies slide left and right on the side pushing slide rails under the control of the corresponding side pushing motor assemblies.

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