CN114889212A

CN114889212A - Corrugated board main nail head machine head device

Info

Publication number: CN114889212A
Application number: CN202210650829.0A
Authority: CN
Inventors: 范学民
Original assignee: Dongguan Senmuka Machinery Co Ltd
Current assignee: Dongguan Senmuka Machinery Co Ltd
Priority date: 2022-06-10
Filing date: 2022-06-10
Publication date: 2022-08-12

Abstract

The invention discloses a corrugated board main nail head machine head device, which comprises a machine head shell, wherein the left part and the right part of the machine head shell are both provided with a transmission shaft, the transmission shafts are inserted and sleeved in hinged through holes formed on the front side plate and the rear side plate of the machine head shell, two ends of each transmission shaft extend out of the outer wall surfaces of the front side plate and the rear side plate of the machine head shell, the end parts of the transmission shafts are provided with worm wheel parts, the middle parts of the transmission shafts are formed with eccentric through holes penetrating in the front and the rear directions, the upper parts of the side plates at the front part of the machine head shell are movably connected with worm connecting rods through bearing seats, the left part and the right part of each worm connecting rod are both fixed with worm sleeves, and the worm sleeves are meshed with the corresponding worm wheel parts; it adopts a main drive servo motor to realize nailing and cardboard transport promptly, and its simple structure, low in manufacturing cost, simultaneously, its aircraft nose casing passes through the pivot and installs the back on the support body, can carry out position control as required, satisfies different running state.

Description

Corrugated board main nail head machine head device

The technical field is as follows:

the invention relates to the technical field of corrugated case printing and packaging mechanical equipment, in particular to a corrugated board main nail head machine head device.

Background art:

the corrugated paper board is made into a corrugated paper box through die cutting, indentation, box nailing or box gluing. The corrugated case is a packaging product with the widest application, and the use amount is always the first of various packaging products.

The nail head of a box nailing machine in the prior corrugated paper box packaging equipment adopts a fixed intermittent nail head. The corrugated case must stop during nailing, and after the nailing operation is completed, the corrugated case can be conveyed to the next predetermined position by the conveying mechanism for continuous nailing. Therefore, the nail head nailing speed is low, the power consumption is large, and the requirement of improving the production efficiency of customers can not be met gradually. Therefore, the corrugated carton swinging type non-stop nailing nail head of the Chinese patent application No. 201621166213.2 adopts continuous nailing, has good effect and high efficiency, however, the height of the nail head main machine can not be adjusted, the position can not be adjusted according to the requirement of the working state, and the wire feeding and the nailing are independently controlled by double motors, so the manufacturing cost is high, and the result is complex.

The invention content is as follows:

the invention aims to overcome the defects of the prior art and provides a corrugated board main nail head machine head device which adopts a main driving servo motor to realize the wire feeding, the nailing and the paper board conveying, has simple structure and low manufacturing cost, and can adjust the position of a machine head shell according to the requirement after the machine head shell is arranged on a frame body through a rotating shaft so as to meet different working and running states.

The scheme for solving the technical problems is as follows:

a corrugated board main nailing head machine head device comprises a machine head shell, wherein transmission shafts are arranged on the left part and the right part of the machine head shell respectively, the transmission shafts are inserted and sleeved in hinged through holes formed in the front side plate and the rear side plate of the machine head shell respectively, two ends of each transmission shaft extend out of the outer wall surfaces of the front side plate and the rear side plate of the machine head shell respectively, a turbine part is arranged on the end part of each transmission shaft, an eccentric through hole penetrating through the middle part of each transmission shaft from front to rear is formed in the middle part of each transmission shaft, the upper parts of the side plates in the front part of the machine head shell are movably connected with worm connecting rods through bearing seats, worm sleeves are fixed on the left part and the right part of each worm connecting rod respectively, and are meshed with the corresponding turbine parts;

a motor frame is fixed on the rear wall surface of the rear wall plate of the handpiece shell, a main drive servo motor is fixed on the motor frame, a drive wheel is fixed on an output shaft of the main drive servo motor, a main rotating shaft is hinged to the lower portion of the right side of the rear wall plate of the handpiece shell through a bearing, the rear end of the main rotating shaft extends out of the rear wall plate of the handpiece shell and is fixed with a drive wheel and a secondary drive wheel, a first drive belt is tensioned on the drive wheel and the drive wheel, the front end of the main rotating shaft extends out of the front wall surface of the rear wall plate of the handpiece shell and is formed with an eccentric shaft part, a swing arm mechanism is mounted on the eccentric shaft part, and a punching mechanism is mounted on the swing arm mechanism;

the lower part of the left side plate of the machine head shell is fixedly provided with a paper feeding guide seat, the bottom of the paper feeding guide seat is provided with a paper material horizontal conveying groove in a forming mode, and the right end of the paper material horizontal conveying groove corresponds to the punching mechanism.

The swing arm mechanism is characterized in that an upper swing main connecting rod, a short eccentric shaft connecting rod and a long eccentric shaft connecting rod are movably connected to the eccentric shaft part;

the top parts of the short eccentric shaft connecting rod and the long eccentric shaft connecting rod are provided with a small punch connecting rod and a large punch connecting rod, the top parts of the short eccentric shaft connecting rod and the long eccentric shaft connecting rod are respectively arranged in the middle parts of the small punch connecting rod and the large punch connecting rod through articulated shafts, the right ends of the small punch connecting rod and the large punch connecting rod are movably connected at the lower part of the right end of the machine head shell through articulated shafts, the left ends of the small punch connecting rod and the large punch connecting rod are respectively and movably connected with one end of the small punch short connecting rod and one end of the large punch short connecting rod through articulated shafts, the other ends of the small punch short connecting rod and the large punch short connecting rod are movably connected with a small punch rod and a large punch rod of the punching mechanism through articulated shafts, the small punch rod and the large punch rod are arranged in the nail head machine core box body, the bottom of the small punch rod and the bottom of the large punch rod are respectively fixed with a small punch knife and a large punch knife, and the bottom of the small punch knife and the bottom of the large punch knife extend out of the bottom surface of the nail head machine core box body;

the right-hand member of main connecting rod passes through the top of articulated shaft swing joint swing adjustment pole in the swing, and the middle part of swing adjustment pole is passed through middle part articulated shaft swing joint on the fixed connecting block in the back wallboard right part of aircraft nose casing, and the right-hand member of articulated shaft articulated transverse connection pole is passed through to the bottom of swing adjustment pole, and the left end of transverse connection pole passes through articulated shaft swing joint in the right-hand member department of pin fin core box body, and the transverse connection pole is in the below of main connecting rod in the swing.

The middle part of the nose shell is provided with a pin head swinging installation seat, the upper part of the pin head swinging installation seat is movably connected to the middle part of the nose shell through a hinged shaft, and the lower part of the pin head swinging installation seat extends out of the bottom of the nose shell and is fixed at the rear part of the pin head movement box body.

The left side of pin fin swing mount pad passes through the right-hand member of articulated shaft swing joint bottom connecting rod, and the left end of bottom connecting rod has bottom connecting rod main base through articulated shaft swing joint, and articulated shaft swing joint is passed through on the aircraft nose casing on the upper portion of bottom connecting rod main base, and the bottom of bottom connecting rod main base is fixed with the die setting seat, and the bottom shaping of die setting seat has preceding transport to lead to the groove, and preceding transport leads to the groove and controls correspondingly with the horizontal conveyer trough of paper material.

The paper feed guide seat is characterized in that a through hole is formed in an upper vertical plate of the paper feed guide seat, the connecting rod is installed on the upper vertical plate, an inclined pressing backup plate is fixed to the bottom surface of the connecting rod, a paper pressing backup wheel is movably connected to the right end of the inclined pressing backup plate through a bearing, a horizontal bottom plate portion extending rightwards is formed in the right end bottom plate of the bottom plate installation seat, and the paper pressing backup wheel is located right above the horizontal bottom plate portion and close to the horizontal bottom plate portion.

The right-hand member top surface shaping of horizontal flat base plate portion has the bellying of upwards arch, and the shaping of the top surface middle part of bellying has the processing shrinkage pool, and the bottom of little drift sword and big drift sword is facing to processing shrinkage pool.

The top surface of the top plate of the machine head shell is fixed with a wire feeding main seat, the middle of the wire feeding main seat is movably connected with a wire feeding main shaft through a bearing, the middle of the wire feeding main shaft is fixed with a large bevel gear, a wire feeding transmission shaft is hinged to the wire feeding main seat through the bearing, a small bevel gear is fixed at the middle of the wire feeding transmission shaft, the rear end of the wire feeding transmission shaft extends out of the rear wall surface of the wire feeding main seat and is fixed with a wire feeding driving wheel, the small bevel gear is meshed with the large bevel gear, and a second transmission belt is tensioned between the secondary transmission wheel and the wire feeding driving wheel.

The front end of the wire feeding main shaft extends out of the front wall surface of the wire feeding main seat and is fixed with two conveying gears, the middle part of the front wall surface of the wire feeding main seat is fixed with a main rotating shaft, two guide connecting blocks are movably connected onto the main rotating shaft, the left part of each guide connecting block is movably connected with a wire feeding transmission gear through a hinge shaft, the wire feeding transmission gear is meshed with the corresponding conveying gear, one end surface of each wire feeding transmission gear is formed with an extension annular part, and the outer wall surface of the extension annular part corresponds to the corresponding outer wall surface of the wire feeding main shaft and forms a wire feeding channel;

the bottom surface of the guide connecting block is fixedly provided with a wire guide plate, the right bottom surface of the wire guide plate is fixedly provided with a threading guide hanging ring, the bottom surface of the wire guide plate is fixedly provided with a guide long-shaped block, the top surface of the guide long-shaped block is formed with a threading through hole extending leftwards and rightwards, the right bottom surface of the guide long-shaped block is formed with a spherical concave hole, the top surface of the machine head shell is fixedly provided with two vertical connecting sleeves, the upper parts of the vertical connecting sleeves are fixedly provided with ball head plungers, and top balls of the ball head plungers extend out of the top surfaces of the vertical connecting sleeves and vertically correspond to and approach to the corresponding spherical concave holes above the vertical connecting sleeves;

the two threading guide hanging rings and the two threading through holes correspond to the two wire feeding channels;

and a threading guide block is fixed on the bottom surface of the left end of the guide connecting block, and a middle threading through hole of the threading guide block corresponds to the wire feeding channel.

The left end of the threading guide block is fixedly provided with one end of a guide wire spring tube, the guide wire spring tube is communicated with a threading through hole in the middle of the threading guide block, and the other end of the guide wire spring tube is fixed on a feeding block fixed below the rear part of the nail head movement box body and communicated with a feeding through hole of the feeding block.

The wire feeding main seat is characterized in that a connecting block is fixed on the top surface of the wire feeding main seat, a long shaft rod is fixed on the connecting block, two pressure regulating blocks are sleeved on the long shaft rod in a plug-in manner, an inclined rod is fixed on the upper portion of each pressure regulating block, the bottom surface of each pressure regulating block is a horizontal plane and is pressed on the right top surface of the guide connecting block, and an elastic damping layer is clamped between the inner side wall of each jack of each pressure regulating block and the outer side wall of the long shaft rod.

The invention has the following outstanding effects:

compared with the prior art, the automatic wire feeding machine adopts a main driving servo motor to realize wire feeding, nailing and paperboard conveying, has a simple structure and low manufacturing cost, and can adjust the position of the machine head shell as required after the machine head shell is installed on the frame body through a rotating shaft, thereby meeting different working and running states.

Description of the drawings:

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic view of a part of the present invention with a motor frame part removed;

FIG. 3 is a partial top view of the wire feeder base of the present invention with a guide bar, etc., removed;

FIG. 4 is a schematic view of the alternate angle partial structure of FIG. 3;

FIG. 5 is a schematic view of the wire feeder base assembly of FIG. 3 with portions broken away;

FIG. 6 is a schematic view of the partially angled structure of FIG. 2;

FIG. 7 is a schematic view of a portion of the structure at the cartridge body of the studded deck;

FIG. 8 is a partial schematic view of FIG. 7 with parts broken away;

FIG. 9 is a partial cross-sectional view of FIG. 7;

FIG. 10 is a partial schematic view of the main rotating shaft;

fig. 11 is a schematic view of a part of the structure of the nail head movement at the box with an angle changed.

The specific implementation mode is as follows:

the present invention will be described in detail below with reference to the accompanying drawings and specific preferred embodiments so that the advantages and features of the present invention can be more readily understood by those skilled in the art, and these embodiments are provided for illustrative purposes only and are not intended to limit the scope of the present invention.

In an embodiment, as shown in fig. 1 to 11, a corrugated cardboard main head device includes a head housing 10, wherein a transmission shaft 11 is disposed at each of a left portion and a right portion of the head housing 10, the transmission shaft 11 is inserted into hinge through holes 12 formed in front and rear side plates of the head housing 10, the transmission shaft 11 contacts with inner side walls of the hinge through holes 12, two ends of the transmission shaft 11 extend out of outer wall surfaces of the front and rear side plates of the head housing 10, a worm wheel portion 111 is fixedly connected to an end portion of the transmission shaft 11 through a bolt, an eccentric through hole 112 penetrating through the front and rear portions is formed in a middle portion of the transmission shaft 11, a worm connecting rod 13 is movably connected to an upper portion of the front side plate of the head housing 10 through a bearing seat, worm sleeves 131 are fixed to each of a left portion and a right portion of the worm connecting rod 13, and the worm sleeves 131 are engaged with the corresponding worm wheel portions 111;

a motor frame 14 is fixed on the rear wall surface of the rear wall plate of the handpiece shell 10, a main drive servo motor 15 is fixed on the motor frame 14, a drive wheel 151 is fixed on an output shaft of the main drive servo motor 15, a main rotating shaft 16 is hinged to the lower right side of the rear wall plate of the handpiece shell 10 through a bearing, the rear end of the main rotating shaft 16 extends out of the rear wall plate of the handpiece shell 10 and is fixed with a drive wheel 161 and a secondary drive wheel 162, a first drive belt 1 is tensioned on the drive wheel 161 and the drive wheel 151, the front end of the main rotating shaft 16 extends out of the front wall surface of the rear wall plate of the handpiece shell 10 and is formed with an eccentric shaft part 163, a swing arm mechanism is installed on the eccentric shaft part 163, and a punching mechanism is installed on the swing arm mechanism;

a paper feeding guide seat 90 is fixed at the lower part of the left side plate of the machine head shell 10, a paper material horizontal conveying groove 91 is formed at the bottom of the paper feeding guide seat 90, and the right end of the paper material horizontal conveying groove 91 corresponds to the punching mechanism.

Further, the swing arm mechanism is that an eccentric shaft part 163 is movably connected with a swing upper main connecting rod 21, a short eccentric shaft connecting rod 22 and a long eccentric shaft connecting rod 23;

the top parts of the short eccentric shaft connecting rod 22 and the long eccentric shaft connecting rod 23 are provided with a small punch connecting rod 24 and a large punch connecting rod 25, the top parts of the short eccentric shaft connecting rod 22 and the long eccentric shaft connecting rod 23 are respectively arranged in the middle parts of the small punch connecting rod 24 and the large punch connecting rod 25 through hinge shafts, the right ends of the small punch connecting rod 24 and the large punch connecting rod 25 are movably connected at the lower part of the right end of the handpiece shell 10 through hinge shafts, the left ends of the small punch connecting rod 24 and the large punch connecting rod 25 are respectively movably connected with one end of a small punch short connecting rod 26 and one end of a large punch short connecting rod 27 through hinge shafts, the other ends of the small punch short connecting rod 26 and the large punch short connecting rod 27 are respectively movably connected with a small punch rod 31 and a large punch rod 32 of a punching mechanism through hinge shafts, the small punch rod 31 and the large punch rod 32 are installed in the nail head core box body 40, the bottom parts of the small punch rod 31 and the large punch rod 32 are respectively fixed with a small punch knife 33 and a large punch 34, the bottom of the small punch knife 33 and the bottom of the big punch knife 34 extend out of the bottom surface of the nail head movement box body 40;

the right end of the upper swing main connecting rod 21 is movably connected with the top of a swing adjusting rod 211 through an articulated shaft, the middle of the swing adjusting rod 211 is movably connected with a connecting block fixed at the right part of the rear wall plate of the machine head shell 10 through a middle articulated shaft 212 (the middle of the front end surface of the middle articulated shaft 212 is provided with a long through groove, the middle of the swing adjusting rod 211 is inserted and sleeved in the long through groove, the side wall of the swing adjusting rod 211 is tightly attached to the inner side wall of the long through groove, the middle of the swing adjusting rod 211 is formed with a vertical waist-shaped through hole, the screw part of a fixing bolt is inserted and sleeved in the vertical waist-shaped through hole and screwed on the inner wall surface of the long through groove, the head of the fixing bolt is pressed on the front wall surface of the swing adjusting rod 211, the rear wall surface of the swing adjusting rod 211 is pressed on the inner wall surface of the long through groove to realize fixation, and the height adjustment of the swing adjusting rod 211 along the long through groove can be realized by unscrewing the fixing bolt, the fixing bolt is screwed down again to fix the nail head core box body, the adjustment is convenient), the bottom end of the swing adjusting rod 211 is hinged with the right end of the transverse connecting rod 213 through an articulated shaft, the left end of the transverse connecting rod 213 is movably connected at the right end of the nail head core box body 40 through the articulated shaft, and the transverse connecting rod 213 is positioned below the swing upper main connecting rod 21.

Further, a nail head swing installation seat 50 is arranged in the middle of the handpiece shell 10, the upper portion of the nail head swing installation seat 50 is movably connected to the middle of the handpiece shell 10 through a hinge shaft, and the lower portion of the nail head swing installation seat 50 extends out of the bottom of the handpiece shell 10 and is fixed at the rear portion of the nail head movement box body 40.

Further, the left side of the nail head swing mounting seat 50 is movably connected with the right end of the bottom connecting rod 51 through an articulated shaft, the left end of the bottom connecting rod 51 is movably connected with a bottom connecting rod main seat 52 through an articulated shaft, the upper part of the bottom connecting rod main seat 52 is movably connected with the machine head shell 10 through an articulated shaft, the bottom of the bottom connecting rod main seat 52 is fixed with a bottom die mounting seat 53, a front conveying through groove 54 is formed in the bottom of the bottom die mounting seat 53, and the front conveying through groove 54 corresponds to the paper horizontal conveying groove 91 in the left-right direction.

Further, a through hole is formed in the upper vertical plate of the paper feeding guide seat 90, a threaded portion is formed in the middle of the rear end face of the connecting rod 92, the threaded portion is inserted into the through hole, the rear end of the threaded portion extends out of the through hole and is in threaded connection with a locking nut, the locking nut is pressed against the rear wall face of the upper vertical plate of the paper feeding guide seat 90, the rear end face of the connecting rod 92 is pressed against the front wall face of the upper vertical plate to achieve locking, an oblique pressing plate 93 is fixed to the bottom face of the connecting rod 92, a paper pressing wheel 94 is movably connected to the right end of the oblique pressing plate 93 through a bearing, a horizontal bottom plate portion 531 extending rightward is formed on the bottom plate at the right end of the bottom die mounting seat 53, and the paper pressing wheel 94 is located right above the horizontal bottom plate portion 531 and close to the horizontal bottom plate portion 531. It can be through unscrewing lock nut, rotate connecting rod 92, thereby adjust the height position of pressing paper depended wheel 94, it can realize fixing to screw up lock nut again, in the installation, it can also be in the middle part fixed spring's of slant pressure depended plate 93 one end, the upper portion at the vertical board in upper portion is fixed to the other end of spring, through the elasticity of spring, guarantee to press the power that paper depended wheel 94 pressed downwards, guarantee to press paper depended wheel 94 and press constantly on the cardboard, guarantee that it presses the transport, it is common setting, not show in the drawing.

Further, a protruding portion 532 protruding upward is formed on the top surface of the right end of the horizontal bottom plate portion 531, a processing concave hole 533 is formed in the middle of the top surface of the protruding portion 532, and the bottom ends of the small punch 33 and the large punch 34 face the processing concave hole 533.

Further, a wire feeding main seat 60 is fixed on the top surface of the top plate of the handpiece shell 10, a wire feeding main shaft 61 is movably connected to the middle of the wire feeding main seat 60 through a bearing, a large bevel gear 62 is fixed to the middle of the wire feeding main shaft 61, a wire feeding transmission shaft 63 is hinged to the wire feeding main seat 60 through a bearing, a small bevel gear 64 is fixed to the middle of the wire feeding transmission shaft 63, a wire feeding driving wheel 65 is fixed to the rear end of the wire feeding transmission shaft 63, the rear wall surface of the wire feeding main seat 60 extends out of the rear end of the wire feeding transmission shaft 63, the small bevel gear 64 is meshed with the large bevel gear 62, and a second transmission belt 2 is tensioned between the secondary transmission wheel 162 and the wire feeding transmission wheel 65.

Further, the front end of the wire feeding main shaft 61 extends out of the front wall surface of the wire feeding main seat 60 and is fixed with two conveying gears 66, the middle part of the front wall surface of the wire feeding main seat 60 is fixed with a main rotating shaft 67, two guide connecting blocks 68 are movably connected to the main rotating shaft 67, the left part of each guide connecting block 68 is movably connected with a wire feeding transmission gear 681 through a hinge shaft, the wire feeding transmission gear 681 is meshed with the corresponding conveying gear 66, one end surface of the wire feeding transmission gear 681 is formed with an extension annular part, and the outer wall surface of the extension annular part corresponds to the corresponding outer wall surface of the wire feeding main shaft 61 and forms a wire feeding channel 100;

a wire guide plate 683 is fixed on the bottom surface of the guide connecting block 68, a threading guide hanging ring 684 is fixed on the bottom surface of the right part of the wire guide plate 683, a guide long block 685 is fixed on the bottom surface of the wire guide plate 683, a threading through hole 688 extending left and right is formed on the top surface of the guide long block 685, a spherical concave hole 686 is formed on the bottom surface of the right part of the guide long block 685, two vertical connecting sleeves 17 are fixed on the top surface of the handpiece shell 10, a ball plunger 18 is fixed on the upper part of the vertical connecting sleeve 17, a ball on the top of the ball plunger 18 extends out of the top surface of the vertical connecting sleeve 17 and is vertically corresponding to and close to the corresponding spherical concave hole 686 above (it can also be a buffer spring and a compression sleeve body are inserted in the vertical connecting sleeve 17, a jack is arranged in the middle part of the bottom surface of the compression sleeve body, the bottom end of the buffer spring is forced on the top surface of the bottom plate of the vertical connecting sleeve 17, the upper part of the buffer spring is inserted in the jack, the top end of the buffer spring is forced on the top surface of the jack and fixed, the top of the compression sleeve body is a hemisphere, and the top surface of the compression sleeve body, which extends out of the vertical connecting sleeve 17, corresponds to the corresponding spherical concave hole 686);

the two threading guide hanging rings 684 and the two threading through holes 688 correspond to the two wire feeding channels 100 to form two conveying routes;

a threading guide block 69 is fixed on the bottom surface of the left end of the guide connecting block 68, and a threading through hole in the middle of the threading guide block 69 corresponds to the wire feeding channel 100.

Furthermore, one end of a guide wire spring tube 3 (only one guide wire spring tube 3 is shown in the drawing) is fixed at the left end of the threading guide block 69, the guide wire spring tube 3 is communicated with a threading through hole at the middle part of the threading guide block 69, and the other end of the guide wire spring tube 3 is fixed on a feeding block 41 fixed below the rear part of the nail head movement box body 40 and is communicated with a feeding through hole of the feeding block 41.

Furthermore, a connecting block is fixed on the top surface of the wire feeding main base 60, a long shaft rod 601 is fixed on the connecting block, two pressure regulating blocks 602 are inserted and sleeved on the long shaft rod 601 (the long shaft rod 601 is inserted and sleeved in a jack of the pressure regulating block 602), an inclined rod 603 is fixed on the upper portion of the pressure regulating block 602, the bottom surface of the pressure regulating block 602 is a horizontal plane and is pressed on the top surface of the right portion of the guide connecting block 68, and an elastic damping layer is clamped between the inner side wall of the jack of the pressure regulating block 602 and the outer side wall of the long shaft rod 601.

The punching mechanism comprises a nail head movement box body 40 and a side end plate fixed on the front end surface of the nail head movement box body 40, a middle lifting through groove is formed between the nail head movement box body 40 and the side end plate, a small punch rod 31 and a large punch rod 32 are inserted and sleeved in the middle lifting through groove, the top connecting part of the small punch rod 31 and the large punch rod 32 extends out of the top surface of the nail head movement box body 40 and is movably connected with the bottoms of a small punching short connecting rod 26 and a large punching short connecting rod 27 through a hinge shaft, the outer side wall of the large punch rod 32 is tightly attached to the inner side wall of the middle lifting through groove, a central through groove is formed in the middle of the large punch rod 32, a small punch rod 31 is inserted and sleeved in the central through groove, the outer side wall of the small punch rod 31 is tightly attached to the inner side wall of the central through groove, a large punch cutter 34 is fixed on the lower part of the large punch rod 32, a punch cutter is fixed at the bottom of the small punch rod 31, and a small punch cutter 33 extending downwards is formed on the front part and the rear part of the punch cutter, the two small punch cutters 33 are inserted and sleeved in the middle through hole of the large punch cutter 34;

two wire feeding through holes 41 are formed on the rear wall plate of the nail head movement box body 40, the wire feeding through holes 41 are communicated with the material feeding through holes of the material feeding block 41, a through groove is formed at the lower part of the rear wall plate of the nail head movement box body 40, a through groove is formed at the lower part of the side end plate of the nail head movement box body 40, the through groove is communicated with the corresponding wire feeding through hole 41, a rear pressing arm 42 is inserted and sleeved at the through groove of the rear wall plate of the nail head movement box body 40, the upper part of the rear pressing arm 42 is hinged on the rear wall plate of the nail head movement box body 40 through a hinge shaft, a front pressing arm 43 is hinged on the side end plate of the nail head movement box body 40, the front wall surface of the lower part of the rear pressing arm 42 is pressed against the rear wall surface of the rear small punch cutter 33, the rear wall surface of the lower part of the front pressing arm 43 is pressed against the front wall surface of the front small punch cutter 33, wire through holes are formed on the rear wall surface of the lower part of the front pressing arm 43 and the front wall surface of the lower part of the rear pressing arm 42, a rear supporting arm 44 is fixed on the rear wall surface of the rear wall plate of the nail head movement box body 40, a front supporting arm 45 is fixed on the front wall surface of the side end plate of the nail head movement box body 40, step through holes 46 are formed at the lower parts of the rear supporting arm 44 and the front supporting arm 45, the diameter of the outer end hole section of the step through hole 46 is larger than that of the inner end diameter hole section, a stop 47 (a clamp spring is clamped in a ring groove formed on the inner side wall of the outer end hole section of the step through hole 46, the outer end surface of the stop 47 is pressed on the clamp spring), a limit protrusion is formed in the middle of the inner end surface of the stop 47, a guide sleeve 48 is fixed on the inner end surface of the outer end hole section of the step through hole 46, the outer side wall of the guide pressing sleeve 49 is tightly attached to the inner side wall of the guide sleeve 48, the guide pressing sleeve 49 is inserted and sleeved in the guide sleeve 48, the inner end of the guide pressing sleeve 49 extends out of the inner end hole section of the step through hole 46 and is pressed on the corresponding outer wall surface of the front pressing arm 43 or the rear pressing arm 42, the compression spring 4 is inserted in the guide compression sleeve 49 and the limiting protrusion, one end of the compression spring 4 is acted on the inner end face of the stop block 47, the other end of the compression spring 4 is acted on the inner end plate of the guide compression sleeve 49, and a radial extending edge is formed on the outer side wall of the outer end of the guide compression sleeve 49 and faces the end face of the corresponding guide sleeve 48.

The working principle is as follows: when the worm gear lifting device is used, two main connecting shafts are inserted into the eccentric through hole 112, the outer side wall of the middle part of each main connecting shaft is clamped on the inner side wall of the eccentric through hole 112, then two ends of each main connecting shaft are fixed on the frame body, when the worm gear lifting device is not used, the worm connecting rod 13 can be rotated (one end of the worm connecting rod 13 is provided with a square convex head, the square convex head can be arranged on the direction convex head through a square hole wrench to rotate, so that the worm connecting rod 13 rotates), the worm sleeve 131 rotates, the turbine part 111 rotates, the transmission shaft 11 rotates, and the worm gear lifting device can be integrally lifted, so that the worm gear lifting device is not in a working state; when needs work, the worm connecting rod 13 is rotated again for this embodiment descends, realizes normal operation.

In the working process, the driving wheel 151 rotates by the operation of the main driving servo motor 15, the driving wheel 161 is driven to rotate by the first driving belt 1, the main rotating shaft 16 rotates, the secondary driving wheel 162 rotates, the wire feeding driving wheel 65 rotates by the second driving belt 2, the wire feeding transmission shaft 63 rotates, the small bevel gear 64 drives the large bevel gear 62 to rotate, the wire feeding main shaft 61 rotates, the conveying gear 66 rotates and drives the wire feeding transmission gear 681 to rotate, the iron wire passes through the threading guide hanging ring 684, enters the corresponding wire feeding channel 100 along the corresponding threading through hole 688, and then enters the wire feeding through hole 41 through the wire guiding spring tube 3, wherein the iron wire is clamped between the outer wall surface of the extension ring part and the corresponding outer wall surface of the wire feeding main shaft 61 in the wire feeding channel 100 for conveying, the oblique rod 603 is manually held, and the pressure adjusting block 602 is rotated, so that the inclination angle of the guide connecting block 68 can be changed, the conveying gear 66 and the wire feeding transmission gear 681 can be separated to stop conveying, the conveying gear 66 and the wire feeding transmission gear 681 can be meshed to realize normal conveying, and the device is convenient to adjust and good in effect.

Meanwhile, when the main driving servo motor 15 operates, the main rotating shaft 16 rotates, so that the eccentric shaft part 163 realizes eccentric rotation, thereby driving the swinging upper main connecting rod 21, the short eccentric shaft connecting rod 22 and the long eccentric shaft connecting rod 23 to swing synchronously, so that the corresponding small punch rod 31 and the large punch rod 32 go up and down, thereby realizing punching, the pin head movement box body 40 swings to drive the pin head swinging mounting seat 50, so that the front conveying through groove 54 swings to the right, the paper board is sleeved in the paper material horizontal conveying groove 91 and the front conveying through groove 54, and is pressed against the paper board through the paper pressing idler wheel 94, thereby continuously conveying the paper board to the right, and realizing paper board feeding.

When the portion of the cardboard to be processed moves right above the boss 532, the small punch blade 33 and the large punch blade 34 are lifted and higher than the through-hole, the front pressing arm 43 and the rear pressing arm 42 are pressed by the end surface of the guide sleeve 49, so that the front pressing arm 43 and the rear pressing arm 42 are close to each other, and at this time, the iron wire is fed into the through-hole of the front pressing arm 43 and the rear pressing arm 42 from the wire feeding through-hole 41, so that the iron wire is positioned below the small punch blade 33 and the large punch blade 34, and is rapidly lowered along with the small punch blade 33 and the large punch blade 34 (in an initial state, the bottom surface of the small punch blade 33 is higher than the bottom surface of the large punch blade 34), so that the iron wire is cut and nailed into the cardboard, and the nailing of the iron wire can be continuously cut and nailed, and the continuous processing is realized.

The above embodiments are only for illustrating the invention and are not to be construed as limiting the invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the invention, therefore, all equivalent technical solutions also belong to the scope of the invention, and the scope of the invention is defined by the claims.

Claims

1. A corrugated container board owner nail head aircraft nose device, includes aircraft nose casing (10), its characterized in that: the left part and the right part of the handpiece shell (10) are both provided with a transmission shaft (11), the transmission shaft (11) is inserted and sleeved in hinged through holes (12) formed in the front side plate and the rear side plate of the handpiece shell (10), two ends of the transmission shaft (11) extend out of the outer wall surfaces of the front side plate and the rear side plate of the handpiece shell (10), the end part of the transmission shaft (11) is provided with a turbine part (111), the middle part of the transmission shaft (11) is provided with an eccentric through hole (112) penetrating in the front and rear directions, the upper part of the side plate in the front part of the handpiece shell (10) is movably connected with a worm connecting rod (13) through a bearing seat, the left part and the right part of the worm connecting rod (13) are both fixed with worm sleeves (131), and the worm sleeves (131) are meshed with the corresponding turbine parts (111);

a motor frame (14) is fixed on the rear wall surface of the rear wall plate of the machine head shell (10), a main driving servo motor (15) is fixed on the motor frame (14), a driving wheel (151) is fixed on an output shaft of the main driving servo motor (15), a main rotating shaft (16) is hinged to the lower portion of the right side of the rear wall plate of the machine head shell (10) through a bearing, the rear end of the main rotating shaft (16) extends out of the rear wall plate of the machine head shell (10) and is fixed with a driving wheel (161) and a secondary driving wheel (162), a first driving belt (1) is tensioned on the driving wheel (161) and the driving wheel (151), the front end of the main rotating shaft (16) extends out of the front wall surface of the rear wall plate of the machine head shell (10) and is formed with an eccentric shaft part (163), a swing arm mechanism is installed on the eccentric shaft part (163), and a punching mechanism is installed on the swing arm mechanism;

a paper feeding guide seat (90) is fixed at the lower part of the left side plate of the machine head shell (10), a paper material horizontal conveying groove (91) is formed at the bottom of the paper feeding guide seat (90), and the right end of the paper material horizontal conveying groove (91) corresponds to the punching mechanism.

2. A corrugated cardboard main nailing head device according to claim 1 wherein: the swing arm mechanism is characterized in that an eccentric shaft part (163) is movably connected with a swing upper main connecting rod (21), a short eccentric shaft connecting rod (22) and a long eccentric shaft connecting rod (23);

the top parts of the short eccentric shaft connecting rod (22) and the long eccentric shaft connecting rod (23) are provided with a small punch connecting rod (24) and a large punch connecting rod (25), the top parts of the short eccentric shaft connecting rod (22) and the long eccentric shaft connecting rod (23) are respectively arranged in the middle parts of the small punch connecting rod (24) and the large punch connecting rod (25) through hinge shafts, the right ends of the small punch connecting rod (24) and the large punch connecting rod (25) are respectively movably connected at the lower part of the right end of the machine head shell (10) through hinge shafts, the left ends of the small punch connecting rod (24) and the large punch connecting rod (25) are respectively movably connected with one ends of the small punch short connecting rod (26) and the large punch short connecting rod (27) through hinge shafts, the other ends of the small punch short connecting rod (26) and the large punch short connecting rod (27) are movably connected with a small punch rod (31) and a large punch rod (32) of a punching mechanism through hinge shafts, the small punch rod (31) and the large punch rod (32) are installed in the nail head core box body (40), the bottom of the small punch rod (31) and the bottom of the large punch rod (32) are respectively fixed with a small punch knife (33) and a large punch knife (34), and the bottoms of the small punch knife (33) and the large punch knife (34) extend out of the bottom surface of the nail head movement box body (40);

the top that main connecting rod (21)'s right-hand member passes through articulated shaft swing joint swing adjustment pole (211) in the swing, the middle part of swing adjustment pole (211) is passed through middle part articulated shaft (212) swing joint on the fixed connecting block in the back wallboard right part of aircraft nose casing (10), the right-hand member of articulated axle articulated transverse connection pole (213) is passed through to the bottom of swing adjustment pole (211), the left end of transverse connection pole (213) passes through articulated shaft swing joint in the right-hand member department of pin fin core box body (40), transverse connection pole (213) are in the below of main connecting rod (21) in the swing.

3. A corrugated cardboard main nailing head device according to claim 1 wherein: the middle part of the nose shell (10) is provided with a nail head swinging mounting seat (50), the upper part of the nail head swinging mounting seat (50) is movably connected to the middle part of the nose shell (10) through a hinged shaft, and the lower part of the nail head swinging mounting seat (50) extends out of the bottom of the nose shell (10) and is fixed at the rear part of the nail head movement box body (40).

4. A corrugated cardboard main nailing head device according to claim 3 wherein: the left side of pin fin swing mount pad (50) passes through the right-hand member of articulated shaft swing joint bottom connecting rod (51), the left end of bottom connecting rod (51) has bottom connecting rod owner seat (52) through articulated shaft swing joint, the upper portion of bottom connecting rod owner seat (52) passes through articulated shaft swing joint on aircraft nose casing (10), the bottom of bottom connecting rod owner seat (52) is fixed with die block mount pad (53), the bottom shaping of die block mount pad (53) has preceding transport to lead to groove (54), it is corresponding with about horizontal conveyer trough of paper material (91) to lead to groove (54) preceding transport.

5. A corrugated cardboard main nailing head device according to claim 1 wherein: the paper feeding guide seat is characterized in that a through hole is formed in an upper vertical plate of the paper feeding guide seat (90), a connecting rod (92) is installed on the upper vertical plate, an inclined pressing plate (93) is fixed to the bottom surface of the connecting rod (92), a paper pressing idler wheel (94) is movably connected to the right end of the inclined pressing plate (93) through a bearing, a horizontal bottom plate portion (531) extending rightwards is formed in a right end bottom plate of the bottom die installation seat (53), and the paper pressing idler wheel (94) is located right above the horizontal bottom plate portion (531) and close to the horizontal bottom plate portion (531).

6. A corrugated cardboard staple head device according to claim 5 wherein: the right-hand member top surface shaping of horizontal flat base board portion (531) has bellying (532) of upwards bellying, and the shaping of the top surface middle part of bellying (532) has processing shrinkage pool (533), and the bottom of little drift sword (33) and big drift sword (34) is facing to processing shrinkage pool (533).

7. A corrugated cardboard main nailing head device according to claim 1 wherein: the wire feeding machine is characterized in that a wire feeding main seat (60) is fixed on the top surface of a top plate of the machine head shell (10), the middle of the wire feeding main seat (60) is movably connected with a wire feeding main shaft (61) through a bearing, a large bevel gear (62) is fixed on the middle of the wire feeding main shaft (61), a wire feeding transmission shaft (63) is hinged to the wire feeding main seat (60) through a bearing, a small bevel gear (64) is fixed on the middle of the wire feeding transmission shaft (63), the rear end of the wire feeding transmission shaft (63) extends out of the rear wall surface of the wire feeding main seat (60) and is fixed with a wire feeding driving wheel (65), the small bevel gear (64) is meshed with the large bevel gear (62), and a second transmission belt (2) is tensioned between a secondary transmission wheel (162) and the wire feeding driving wheel (65).

8. A corrugated cardboard main nailing head device as claimed in claim 7 wherein: the front end of the wire feeding main shaft (61) extends out of the front wall surface of the wire feeding main seat (60) and is fixedly provided with two conveying gears (66), the middle part of the front wall surface of the wire feeding main seat (60) is fixedly provided with a main rotating shaft (67), two guide connecting blocks (68) are movably connected onto the main rotating shaft (67), the left part of each guide connecting block (68) is movably connected with a wire feeding transmission gear (681) through a hinge shaft, the wire feeding transmission gear (681) is meshed with the corresponding conveying gear (66), one end surface of each wire feeding transmission gear (681) is formed with an extension annular part, and the outer wall surface of each extension annular part corresponds to the corresponding outer wall surface of the wire feeding main shaft (61) and forms a wire feeding channel (100);

a wire guide plate (683) is fixed on the bottom surface of the guide connecting block (68), a threading guide hanging ring (684) is fixed on the bottom surface of the right part of the wire guide plate (683), a guide long block (685) is fixed on the bottom surface of the wire guide plate (683), a threading through hole (688) extending left and right is formed on the top surface of the guide long block (685), a spherical concave hole (686) is formed on the bottom surface of the right part of the guide long block (685), two vertical connecting sleeves (17) are fixed on the top surface of the handpiece shell (10), a ball plunger (18) is fixed on the upper part of each vertical connecting sleeve (17), and a top ball of the ball plunger (18) extends out of the top surface of the vertical connecting sleeve (17) and is vertically corresponding to and close to the corresponding spherical concave hole (686) above;

the two threading guide hanging rings (684) and the two threading through holes (688) correspond to the two wire feeding channels (100);

a threading guide block (69) is fixed on the bottom surface of the left end of the guide connecting block (68), and a threading through hole in the middle of the threading guide block (69) corresponds to the wire feeding channel (100).

9. A corrugated cardboard main nailing head device as claimed in claim 8 wherein: the left end of the threading guide block (69) is fixedly provided with one end of a guide wire spring tube (3), the guide wire spring tube (3) is communicated with a threading through hole in the middle of the threading guide block (69), and the other end of the guide wire spring tube (3) is fixed on a feeding block (41) fixed below the rear part of the nail head movement box body (40) and is communicated with the feeding through hole of the feeding block (41).

10. A corrugated cardboard main nailing head device as claimed in claim 8 wherein: the wire feeding main seat is characterized in that a connecting block is fixed on the top surface of the wire feeding main seat (60), a long shaft rod (601) is fixed on the connecting block, two pressure adjusting blocks (602) are sleeved on the long shaft rod (601) in an inserting mode, an inclined rod (603) is fixed on the upper portion of each pressure adjusting block (602), the bottom surface of each pressure adjusting block (602) is a horizontal plane, the bottom surface of each pressure adjusting block is pressed on the top surface of the right portion of the guide connecting block (68), and an elastic damping layer is clamped between the inner side wall of an inserting hole of each pressure adjusting block (602) and the outer side wall of each long shaft rod (601).