CN113277182A

CN113277182A - Intermittent type formula packagine machine

Info

Publication number: CN113277182A
Application number: CN202110661789.5A
Authority: CN
Inventors: 从继增
Original assignee: Tianjin Sanqiao Packaging Machinery Stock Corp
Current assignee: Tianjin Sanqiao Packaging Machinery Stock Corp
Priority date: 2021-06-15
Filing date: 2021-06-15
Publication date: 2021-08-20

Abstract

The invention belongs to the technical field of packaging machinery, and provides an intermittent packaging machine, which comprises: supporting bench, control box, packing material transport mechanism, unloading mechanism, metering mechanism, secondary unloading mechanism, involution mechanism, drive mechanism and cutter mechanism once, be provided with control box, packing material transport mechanism, unloading mechanism once, metering mechanism, secondary unloading mechanism, involution mechanism, drive mechanism and cutter mechanism on the supporting bench, unloading mechanism once, metering mechanism, secondary unloading mechanism, involution mechanism, drive mechanism and cutter mechanism arrange and vertical direction alignment from last to down in proper order, it is poor to have solved the envelope effect, each process can not the stable cooperation, easily break down, equipment suitability is poor, cut off the poor problem of effect, it is effectual to have the envelope, each process can the stable cooperation, equipment suitability is strong, it is effectual to cut off, the high effect of packaging quality.

Description

Intermittent type formula packagine machine

Technical Field

The invention relates to the technical field of packaging machinery, in particular to an intermittent packaging machine.

Background

The national intellectual property office in 26.05.2020 authorizes a utility model patent with the publication number CN201921718727.8 and the name "a full-automatic transparent film packaging machine", and the patent specification of the utility model has the following contents: the invention provides the following technical scheme: a full-automatic transparent film packaging machine comprises a packaging rack, wherein a controller is installed on one end side of the packaging rack, a turntable type right-angle feeding device is arranged at one end of the packaging rack, the turntable type right-angle feeding device is located on one side of the controller, a main motor is installed at the bottom of the packaging rack and is electrically connected with an external power supply, a driving gear shaft is rotatably connected to one side of the packaging rack, the packaging rack is connected with the driving gear shaft through chain transmission, a discharging frame is arranged above one end, away from the controller, of the upper portion of the packaging rack, a discharging roller is arranged on the discharging frame, an adjusting mechanism is arranged on the discharging roller, a discharging frame is arranged on the right side of the discharging roller, a film roller is arranged above the packaging rack, two sliding rods are symmetrically and fixedly connected to the upper end face of the packaging rack, and the film roller is installed above the sliding rods, a servo motor is arranged on one side of the film roller and is electrically connected with an external power supply, the servo motor is in transmission connection with the film roller, an auxiliary roller is rotatably connected on one side of the film roller, a transmission gear is arranged on one side of the film roller, the film roller is in transmission connection with the auxiliary roller through the transmission gear, an adjusting mechanism is slidably connected between the two sliding rods, a rubber roller is rotatably connected on the adjusting mechanism, a moving gear is arranged on one side of the adjusting mechanism, a reduction gear matched with the moving gear is arranged on the surface of the sliding rod, a cutting knife is slidably connected on the upper end surface of the packaging rack, transmission rods are fixedly connected at both ends of the cutting knife and extend to the lower part of the packaging rack, two auxiliary sleeve rods matched with the transmission rods are fixedly connected at the lower part of the packaging rack, and the transmission rods are slidably connected in the auxiliary sleeve rods, the transmission rod is in transmission connection with the driving gear shaft through a cam. "

The prior art has the problems of poor bag sealing effect, unstable matching of all procedures, easy failure, poor equipment applicability and poor cutting effect.

Disclosure of Invention

In order to solve the technical problems that the bag sealing effect is poor, the working procedures cannot be stably matched, faults are easy to occur, and the cutting effect is poor, the invention provides an intermittent packaging machine.

An intermittent packaging machine comprising: supporting bench, control box, packing material transport mechanism, unloading mechanism, metering mechanism, secondary unloading mechanism, involution mechanism, drive mechanism and cutter mechanism once, be provided with control box, packing material transport mechanism, unloading mechanism, metering mechanism, secondary unloading mechanism, involution mechanism, drive mechanism and cutter mechanism once on the supporting bench, unloading mechanism, metering mechanism, secondary unloading mechanism, involution mechanism, drive mechanism and cutter mechanism are in proper order from last to arranging just vertical direction alignment down.

Further, once unloading mechanism includes: the hopper, the hopper support and the discharging pipe are arranged on the supporting table, the hopper is installed on the hopper support, and an outlet of the hopper is connected with the metering mechanism through the discharging pipe.

Further, the metering mechanism includes: l type backup pad, vertical support plate, actuating mechanism, reciprocal unloading mechanism and swing metering mechanism, L type backup pad is installed on a supporting bench, is provided with vertical support plate and actuating mechanism in the L type backup pad, and reciprocal unloading mechanism and swing metering mechanism all set up in L type backup pad and vertical support plate, and actuating mechanism is connected with reciprocal unloading mechanism.

Further, reciprocal unloading mechanism includes: manual elevating system, vertical slide rail, vertical slider, connecting plate, horizontal slide rail, horizontal slider, reciprocating actuator, guide mechanism and stock stop, vertical slide rail sets up in vertical support plate, vertical slider and vertical slide rail cooperation are provided with the connecting plate on the vertical slider, be provided with horizontal slide rail and stock stop on the connecting plate, horizontal slider and horizontal slide rail cooperation, be provided with reciprocating actuator on the horizontal slider, the guide mechanism is installed on reciprocating actuator, the guide mechanism is located the stock stop top, manual elevating system sets up between L type backup pad and vertical support plate, manual elevating system is connected with the connecting plate, two swing metering mechanisms set up about the stock stop symmetry, the guide mechanism, stock stop and two swing metering mechanisms cooperate and use.

Further, the pendulum metering mechanism comprises: swing arm, rocking arm, toper stock chest, swing arm and the swing actuating mechanism that resets, the rocking arm rotates and sets up in L type backup pad and vertical support board, and the one end of rocking arm is provided with the swing arm, and the other end of rocking arm is provided with the swing arm that resets, and two swing arms that reset pass through spring coupling, and the lower extreme of swing arm is provided with the toper stock chest, toper stock chest and dog cooperation, are provided with the swing actuating mechanism on the rocking arm, swing actuating mechanism and reciprocating actuator cooperation, and swing actuating mechanism is located between L type backup pad and the vertical support board.

Further, the drive mechanism includes: motor support, gear motor, driving gear, drive pulley, first angle sensor of turning, driven gear, cingulum and swinging boom, motor support installs in L type backup pad, is provided with gear motor and first angle sensor of turning on the motor support, and gear motor's output and driving gear connection, the receiving terminal of first angle sensor of turning is provided with driven gear, and the driving gear passes through the cingulum and is connected with driven gear, is provided with the swinging boom on the driving gear, is provided with drive pulley on the swinging boom, and it has the spout to open on the riser, the spout cooperation on drive pulley and the riser.

Further, secondary unloading mechanism includes: the cone-shaped blanking flat cylinder comprises a cone-shaped blanking flat cylinder, a slide rail support, a slider-crank mechanism and a material baffle plate, wherein the slide rail support is arranged on a support table, the cone-shaped blanking flat cylinder and the slider-crank mechanism are arranged on the slide rail support, the material baffle plate is arranged on the slider-crank mechanism and is positioned below the outlet end of the cone-shaped blanking flat cylinder, and the cone-shaped blanking flat cylinder is positioned under the material baffle plate.

Further, the sealing mechanism includes: sealing driving motor, pivot, eccentric wheelset, preceding briquetting, back briquetting, guiding mechanism, fixed stock, removal stock and fixing base, fixed stock is installed on a supporting bench, is provided with guiding mechanism in the fixed stock, still the cover is equipped with the removal stock on the guiding mechanism, be provided with the fixing base on the fixed stock, sealing driving motor sets up on the fixing base, sealing driving motor's output is connected with the pivot, the both ends of pivot all set up on the fixing base through the bearing, three eccentric wheelset has set gradually under the pivot from the top down, middle eccentric wheelset passes through the connecting rod and is connected with the removal stock, all the other two eccentric wheelsets all are connected with guiding mechanism through the connecting rod, be provided with back briquetting on the removal stock, be provided with preceding briquetting on the guiding mechanism, preceding briquetting and back briquetting cooperation.

Further, the traction mechanism includes: the traction support plate is arranged on the support table, the traction drive motor is arranged on the traction support plate, the drive roller is arranged on the traction support plate through a bearing, an adjusting groove is formed in the traction support plate, the sleeve is slidably sleeved on the driven roller and is arranged in the adjusting groove, the threaded rod is arranged on the traction support plate through a threaded hole, one end of the threaded rod is connected with the sleeve, the other end of the threaded rod is connected with the adjusting rotating wheel, traction wheels are sleeved on the drive roller and the driven roller, and the two traction wheels are matched.

Further, the cutter mechanism includes: the adjustable knife rest comprises a knife driving motor, a rotary knife shaft, a rotary knife, a fixed knife, a knife rest, an adjusting support, an adjusting mechanism and a lifting mechanism, wherein the adjusting support is arranged on a support table, the adjusting mechanism is arranged on the adjusting support and connected with the knife rest, the lifting mechanism is arranged on the adjusting support and connected with the knife rest, the knife driving motor, the rotary knife shaft and the fixed knife are arranged on the knife rest, the output end of the knife driving motor is connected with the rotary knife shaft, the rotary knife is arranged on the rotary knife shaft, and the rotary knife is matched with the fixed knife.

The invention has the beneficial effects that:

the invention provides an intermittent packaging machine, which improves the bag sealing effect and the packaging quality by adopting an intermittent pressing mode, can adjust the time distance between two cutter mechanisms according to different use requirements by adopting the matching of the two cutter mechanisms and cutting off packaging bags, thereby being suitable for various packaging bag cutting sizes, and has the effects of good bag sealing effect, stable matching of all procedures, strong equipment applicability, good cutting effect and high packaging quality.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the metering mechanism of the present invention;

FIG. 3 is a left side view of the metering mechanism of the present invention;

FIG. 4 is a rear side view of the metering mechanism of the present invention;

FIG. 5 is a schematic view of the position of a first angle sensor according to the present invention;

FIG. 6 is a schematic structural view of a secondary blanking mechanism according to the present invention;

FIG. 7 is a rear side structural view of a secondary blanking mechanism according to the present invention;

FIG. 8 is a schematic view of the sealing mechanism of the present invention;

FIG. 9 is a schematic view of the structure of the traction mechanism of the present invention;

FIG. 10 is a schematic top view of the cutter mechanism of the present invention;

FIG. 11 is a left side view of the cutter mechanism of the present invention;

wherein:

a supporting table-1, a control box-2, a packaging material conveying mechanism-3, a primary blanking mechanism-4, a metering mechanism-5, a secondary blanking mechanism-6, a sealing mechanism-7, a traction mechanism-8, a cutter mechanism-9, a hopper-41, a hopper bracket-42, a blanking pipe-43, an L-shaped supporting plate-51, a vertical supporting plate-52, a driving mechanism-53, a reciprocating blanking mechanism-54, a swing metering mechanism-55, a manual lifting mechanism-541, a vertical slide rail-542, a vertical slide block-543, a connecting plate-544, a horizontal slide rail-545, a horizontal slide block-546, a reciprocating execution mechanism-547, a material guide mechanism-548, a material stop mechanism-549, a transverse plate-5471 and a vertical plate-5472, a push block-5473, a guide pipe-5481, a guide pipe rack-5482, a stop-5491, a connecting arm-5492, a hand wheel-5411, a threaded rod-5412, a hand wheel supporting plate-5413, a lifting plate-5414, a swing arm-551, a rotating arm-552, a conical storage tank-553, a reset swing arm-554, a swing actuator-555, a swing pulley-5551, a pulley connecting arm-5552, a swing base-5553, a motor bracket-531, a speed reducing motor-532, a driving gear-533, a driving pulley-534, a first rotating angle sensor-535, a driven gear-536, a toothed belt-537, a conical blanking flat cylinder-61, a slide rail bracket-62, a crank block mechanism-63, a material baffle-64, a crank motor-631 and a crank-632, connecting rod-633, slide block-634, slide rail-635, sealing driving motor-71, rotating shaft-72, eccentric wheel group-73, front press block-74, rear press block-75, guide mechanism-76, fixed sleeve frame-77, movable sleeve frame-78, fixed seat-79, guide rod-761, front plate-762, rear plate-763, inner wheel-731, outer wheel-732, traction driving motor-81, traction support plate-82, driving roller-83, driven roller-84, sleeve-85, regulating rotating wheel-86, threaded rod-87, regulating groove-88, traction wheel-89, cutter driving motor-91, rotating cutter shaft-92, rotating cutter-93, fixed cutter-94, cutter frame-95 and regulating support-96, an adjusting mechanism-97, a lifting mechanism-98, an adjusting hand wheel-971, an adjusting lifting plate-972, an adjusting rod-973, a guide slide rail-981 and a guide slide block-982.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the installation methods and technical terms mentioned in the present invention are technical terms that are already clearly known in the technical field, and thus, the explanation thereof is not repeated. Moreover, the same reference numerals are used for the same components, which do not affect and should not constitute an exact understanding of the technical solutions for a person skilled in the art.

The first embodiment is as follows:

the invention relates to an intermittent packaging machine, comprising: supporting bench 1, control box 2, packing material transport mechanism 3, unloading mechanism 4, metering mechanism 5, secondary unloading mechanism 6, involution mechanism 7, drive mechanism 8 and cutter mechanism 9 once, be provided with control box 2, packing material transport mechanism 3 on the supporting bench 1, unloading mechanism 4, metering mechanism 5, secondary unloading mechanism 6, involution mechanism 7, drive mechanism 8 and cutter mechanism 9 once, unloading mechanism 4, metering mechanism 5, secondary unloading mechanism 6, involution mechanism 7, drive mechanism 8 and cutter mechanism 9 are in proper order from last to arranging and vertical orientation alignment down.

The primary blanking mechanism 4 comprises: the automatic weighing device comprises a hopper 41, a hopper support 42 and a discharging pipe 43, wherein the hopper support 42 is arranged on the support table 1, the hopper 41 is arranged on the hopper support 42, and the outlet of the hopper 41 is connected with the metering mechanism 5 through the discharging pipe 43.

The metering mechanism 5 includes: the automatic feeding device comprises an L-shaped supporting plate 51, a vertical supporting plate 52, a driving mechanism 53, a reciprocating blanking mechanism 54 and a swinging metering mechanism 55, wherein the L-shaped supporting plate 51 is installed on the supporting table 1, the vertical supporting plate 52 and the driving mechanism 53 are arranged on the L-shaped supporting plate 51, the reciprocating blanking mechanism 54 and the swinging metering mechanism 55 are both arranged on the L-shaped supporting plate 51 and the vertical supporting plate 52, and the driving mechanism 53 is connected with the reciprocating blanking mechanism 54.

The reciprocating blanking mechanism 54 includes: a manual lifting mechanism 541, a vertical slide rail 542, a vertical slide block 543, a connecting plate 544, a horizontal slide rail 545, a horizontal slide block 546, a reciprocating execution mechanism 547, a material guide mechanism 548 and a material stop mechanism 549, the vertical sliding rail 542 is arranged on the vertical supporting plate 52, the vertical sliding block 543 is matched with the vertical sliding rail 542, a connecting plate 544 is arranged on the vertical sliding block 543, a horizontal sliding rail 545 and a material blocking mechanism 549 are arranged on the connecting plate 544, the horizontal sliding block 546 is matched with the horizontal sliding rail 545, a reciprocating execution mechanism 547 is arranged on the horizontal sliding block 546, a material guiding mechanism 548 is arranged on the reciprocating execution mechanism 547, the material guiding mechanism 548 is located above the material blocking mechanism 549, the manual lifting mechanism 541 is arranged between the L-shaped supporting plate 51 and the vertical supporting plate 52, the manual lifting mechanism 541 is connected with the connecting plate 544, the two swing metering mechanisms 55 are symmetrically arranged relative to the material blocking mechanism 549, and the material guiding mechanism 548, the material blocking mechanism 549 and the two swing metering mechanisms 55 are matched for use.

The reciprocating actuator 547 includes: the device comprises a transverse plate 5471, a vertical plate 5472 and a push block 5473, wherein the transverse plate 5471 is installed on a horizontal slider 546, a material guide mechanism 548 is installed in the middle of the transverse plate 5471, the vertical plate 5472 and the push block 5473 are arranged at one end of the transverse plate 5471, the push block 5473 is located on the upper side of the transverse plate 5471, and a driving mechanism 53 is connected with the vertical plate 5472.

The guide mechanism 548 comprises: the material guide tube 5481 is a tube section with an outer circle and an inner square, one end of the material guide tube 5482 is sleeved on the material guide tube 5481, and the other end of the material guide tube 5482 is arranged on the transverse plate 5471.

The striker 549 includes: the blanking device comprises a stop block 5491 and a connecting arm 5492, wherein one end of the connecting arm 5492 is installed on the connecting plate 544, the other end of the connecting arm 5492 is provided with the stop block 5491, the stop block 5491 is I-shaped, the I-shaped section of the stop block 5491 faces the vertical direction, and the guide pipe frame 5482 drives the guide pipe 5481 to switch blanking paths on two sides of the I-shaped section in a reciprocating mode during work.

The manual lifting mechanism 541 includes: the hand wheel 5411, the threaded rod 5412, the hand wheel support plate 5413 and the lifting plate 5414, the hand wheel support plate 5413 is arranged on the L-shaped support plate 51 and the vertical support plate 52, the hand wheel 5411 is rotatably installed on the hand wheel support plate 5413, one end of the threaded rod 5412 is connected with the hand wheel 5411, the other end of the threaded rod 5412 is connected with the lifting plate 5414 through threads, the lifting plate 5414 is installed on the connection plate 544, the hand wheel 5411 is screwed to drive the threaded rod 5412 to rotate, so that the lifting plate 5414 moves upwards or downwards, the position of the vertical direction of the stop block 5491 is changed, the volume of an inner cavity formed by the attachment of the stop block 5491 and the conical material storage groove.

The swing gauge mechanism 55 includes: the device comprises a swing arm 551, a rotating arm 552, a conical material storage groove 553, a reset swing arm 554 and a swing execution mechanism 555, wherein the rotating arm 552 is rotatably arranged on an L-shaped support plate 51 and a vertical support plate 52, the swing arm 551 is arranged at one end of the rotating arm 552, the reset swing arm 554 is arranged at the other end of the rotating arm 552, the two reset swing arms 554 are connected through a spring, the conical material storage groove 553 is arranged at the lower end of the swing arm 551, the conical material storage groove 553 is matched with a stop 5491, the swing execution mechanism 555 is arranged on the rotating arm 552, the swing execution mechanism 555 is matched with a reciprocating execution mechanism 547, and the swing execution mechanism 555 is positioned between the L-shaped support plate 51 and the vertical support plate 52.

The swing actuator 555 includes: a swinging pulley 5551, a pulley connecting arm 5552 and a swinging base 5553, wherein the swinging base 5553 is arranged on a rotating arm 552, the swinging pulley 5551 is connected with the swinging base 5553 through the pulley connecting arm 5552, the swinging pulley 5551 is matched with a push block 5473 for use, the push block 5473 pushes the swinging pulley 5551 to enable the swinging base 5553 to drive the rotating arm 552 to rotate during operation, the rotating arm 552 rotates to enable a swinging arm 551 and a reset swinging arm 554 connected with the rotating arm 552 to swing, because the two swinging metering mechanisms 55 are symmetrically arranged, when the push block 5473 at the front side pushes the swinging pulley 5551 at the front side, the swinging arm 551 at the front side swings to enable a conical storage trough 553 at the front side to be separated from a stop 5491, when the push block 5473 at the rear side pushes the swinging pulley 5551 at the rear side, the swinging arm at the rear side swings to enable the conical storage trough 553 at the rear side to be separated from the stop 5491, when operation, one conical storage trough is attached to the stop 5491, and the separated from the stop 553, and the separated state of reciprocating attachment and the separation are switched, thereby realizing the effect of interval measurement blanking.

The drive mechanism 53 includes: the vertical plate 5472 comprises a motor support 531, a speed reducing motor 532, a driving gear 533, a driving pulley 534, a first rotating angle sensor 535, a driven gear 536, a toothed belt 537 and a rotating arm 538, wherein the motor support 531 is mounted on the L-shaped support plate 51, the speed reducing motor 532 and the first rotating angle sensor 535 are arranged on the motor support 531, the output end of the speed reducing motor 532 is connected with the driving gear 533, the receiving end of the first rotating angle sensor 535 is provided with the driven gear 536, the driving gear 533 is connected with the driven gear 536 through the toothed belt 537, the driving gear 533 is provided with the rotating arm 538, the rotating arm 538 is provided with the driving pulley 534, a sliding groove is formed in the vertical plate 2, the driving pulley 534 is matched with the sliding groove in the vertical plate 5472, and reciprocating horizontal motion of the vertical plate 5472 and parts connected with the vertical plate 5472 is realized through the arrangement.

The secondary unloading mechanism 6 includes: flat section of thick bamboo 61 under the toper, slide rail bracket 62, slider-crank mechanism 63 and striker plate 64, slide rail bracket 62 is installed on a supporting bench 1, is provided with flat section of thick bamboo 61 under the toper and slider-crank mechanism 63 on slide rail bracket 62, is provided with striker plate 64 on the slider-crank mechanism 63, and striker plate 64 is located the below of flat section of thick bamboo 61 exit end under the toper, and flat section of thick bamboo 61 is located under dog 5491 under the toper.

The slider-crank mechanism 63 includes: crank motor 631, crank 632, connecting rod 633, slider 634 and slide rail 635, crank motor 631 installs on slide rail bracket 62, and crank motor 631 is connected with crank 632's one end, and crank 632's the other end is connected with slider 634 through connecting rod 633, and slide rail 635 installs on slide rail bracket 62, and slider 634 and slide rail 635 cooperate, thereby so set up and realize striker plate 64 reciprocating telescopic motion and make the material interval whereabouts.

The sealing mechanism 7 includes: the sealing device comprises a sealing driving motor 71, a rotating shaft 72, eccentric wheel sets 73, a front pressing block 74, a rear pressing block 75, a guide mechanism 76, a fixed sleeve frame 77, a movable sleeve frame 78 and a fixed seat 79, wherein the fixed sleeve frame 77 is installed on the supporting table 1, the guide mechanism 76 is arranged in the fixed sleeve frame 77, the movable sleeve frame 78 is further sleeved on the guide mechanism 76, the fixed sleeve frame 77 is provided with the fixed seat 79, the sealing driving motor 71 is arranged on the fixed seat 79, the output end of the sealing driving motor 71 is connected with the rotating shaft 72, two ends of the rotating shaft 72 are arranged on the fixed seat 79 through bearings, three eccentric wheel sets 73 are sequentially arranged on the rotating shaft 72 from top to bottom, the middle eccentric wheel set 73 is connected with the movable sleeve frame 78 through a connecting rod, the other two eccentric wheel sets 73 are connected with the guide mechanism 76 through connecting rods, the rear pressing block 75 is arranged on the movable sleeve frame 78, the, the front pressing piece 74 and the rear pressing piece 75 are engaged.

The guide mechanism 76 includes: the device comprises a guide rod 761, a front plate 762 and a rear plate 763, wherein the two guide rods 761 are arranged between the front plate 762 and the rear plate 763, a fixed sleeve frame 77 and a movable sleeve frame 78 are sleeved on the two guide rods 761, a front press block 74 is arranged on the front plate 762, a buffer spring is arranged between the front plate 762 and the front press block 74, and the rear plate 763 is connected with an eccentric wheel set 73 through a connecting rod.

The eccentric wheel set 73 comprises an inner wheel 731 and an outer wheel 732, the inner wheels 731 are eccentric wheels, the inner wheels 731 are all sleeved on the rotating shaft 72 and are connected through keys, the outer wheels 732 are all sleeved on the inner wheels 731 through bearings, and the installation angles of the inner wheels 731 sleeved in the middle of the rotating shaft 72 are opposite to those of the other two inner wheels 731.

Preceding briquetting 74 and back briquetting 75 set up along the fitting surface symmetry, and preceding briquetting 74 and back briquetting 75 pressfitting arch are L shape, and the protruding cooperation pressfitting in side of preceding briquetting 74 and back briquetting 75 realizes that the wrapping bag edge is indulged to seal, and protruding cooperation pressfitting in preceding briquetting 74 and the back briquetting 75 downside realizes that the wrapping bag is violently sealed.

The traction mechanism 8 includes: the device comprises a traction driving motor 81, a traction support plate 82, a driving roller 83, a driven roller 84, a sleeve 85, an adjusting rotating wheel 86 and a threaded rod 87, wherein the traction support plate 82 is installed on the support table 1, the traction driving motor 81 is arranged on the traction support plate 82, the driving roller 83 is arranged on the traction support plate 82 through a bearing, an adjusting groove 88 is formed in the traction support plate 82, the sleeve 85 is slidably sleeved on the driven roller 84 and arranged in the adjusting groove 88, the threaded rod 87 is arranged on the traction support plate 82 through a threaded hole, one end of the threaded rod 87 is connected with the sleeve 85, the other end of the threaded rod 87 is connected with the adjusting rotating wheel 86, the driving roller 83 and the driven roller 84 are respectively sleeved with the pulling wheel 89, and the two pulling wheels 89 are matched.

The cutter mechanism 9 includes: cutter driving motor 91, revolving knife axle 92, revolving knife 93, stationary knife 94, knife rest 95, regulation support 96, adjustment mechanism 97 and elevating system 98, it installs on supporting bench 1 to adjust support 96, is provided with adjustment mechanism 97 on adjusting support 96, and adjustment mechanism 97 is connected with knife rest 95, is provided with elevating system 98 on adjusting support 96, and elevating system 98 is connected with knife rest 95, is provided with cutter driving motor 91 on the knife rest 95, revolving knife axle 92 and stationary knife 94, and the output of cutter driving motor 91 is connected with revolving knife axle 92, and revolving knife 93 installs on revolving knife axle 92, and revolving knife 93 cooperates with stationary knife 94, and the wrapping bag is cut off in the cooperation of two vertical direction arrangements of cutter mechanism 9.

The adjusting mechanism 97 includes: adjusting hand wheel 971, regulation lifter plate 972 and regulation pole 973, adjusting hand wheel 971 installs on adjusting support 96, and the one end of adjusting pole 973 is connected with adjusting hand wheel 971, and the other end of adjusting pole 973 passes through the bearing setting on adjusting support 96, adjusts lifter plate 972 suit and passes through screw-thread fit on adjusting pole 973 and rather than, adjusts lifter plate 972 and is connected with knife rest 95.

The lifting mechanism 98 includes: guide slide rail 981 and direction slider 982, adjust two guide slide rail 981 of vertical direction parallel arrangement on the support 96, all be provided with direction slider 982 on two guide slide rail 981, direction slider 982 all is connected with knife rest 95, thereby so set up the distance that can adjust between two cutter mechanism 9 and adapt to different wrapping bag cut-off size, have better suitability.

The working principle is as follows:

the packaging material is conveyed to the loading position by the packaging material conveying mechanism 3, the filling material in the hopper 41 falls into a cavity formed by the joint of the stop block 5491 and the conical material storage groove 553 through the discharging pipe 43 along the material guide mechanism 548, the speed reducing motor 532 drives the driving pulley 534 to drive the vertical plate 5472 to move horizontally, the horizontal plate 5471 also moves horizontally along with the filling material, when the pushing block 5473 on the front side pushes the swinging pulley 5551 on the front side, the swinging arm 551 on the front side swings to separate the conical material storage groove 553 on the front side from the stop block 5491, the material in the cavity falls into the packaging bag, meanwhile, the connecting arm 5492 with the stop block 5491 moves backwards to cause the material to fall into the cavity formed by the joint of the stop block 5491 and the conical material storage groove 553 on the rear side, when the packaging bag filled with the material moves between the front pressing block 74 and the rear pressing block 75, the sealing driving motor 71 drives the rotating shaft 72 to drive the eccentric wheel set 73 to rotate, the rear pressing block 75 arranged on the movable sleeve bracket 78 is driven by the eccentric wheel set 73 to move forwards, meanwhile, the other two eccentric wheel sets 73 drive the guide rod 761 mounted on the rear plate 763 to move backwards, so that the front plate 762 connected with the guide rod 761 drives the front pressing block 74 to move backwards, the front pressing block 74 and the rear pressing block 75 complete pressing, the sealing driving motor 71 continues to work to separate the front pressing block 74 and the rear pressing block 75, and the packaging bag which is sealed continues to move downwards to the cutter mechanism 9 under the traction action of the traction mechanism 8 to be cut off.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and any minor modifications, equivalent replacements and improvements made to the above embodiment according to the technical spirit of the present invention should be included in the protection scope of the technical solution of the present invention.

Claims

1. An intermittent packaging machine, comprising: supporting bench (1), control box (2), packing material transport mechanism (3), unloading mechanism (4), metering mechanism (5), secondary unloading mechanism (6), involution mechanism (7), drive mechanism (8) and cutter mechanism (9) once, be provided with control box (2), packing material transport mechanism (3), unloading mechanism (4), metering mechanism (5), secondary unloading mechanism (6), involution mechanism (7), drive mechanism (8) and cutter mechanism (9) on supporting bench (1), unloading mechanism (4), metering mechanism (5), secondary unloading mechanism (6), involution mechanism (7), drive mechanism (8) and cutter mechanism (9) are in proper order from last to arranging and vertical orientation aligns extremely down.

2. An intermittent packaging machine as claimed in claim 1, characterized in that said primary blanking mechanism (4) comprises: the hopper supporting device comprises a hopper (41), a hopper support (42) and a discharging pipe (43), wherein the hopper support (42) is arranged on the supporting table (1), the hopper (41) is installed on the hopper support (42), and an outlet of the hopper (41) is connected with a metering mechanism (5) through the discharging pipe (43).

3. An intermittent packaging machine as claimed in claim 1, characterized in that said metering mechanism (5) comprises: l type backup pad (51), vertical support plate (52), actuating mechanism (53), reciprocal unloading mechanism (54) and swing metering mechanism (55), L type backup pad (51) are installed on a supporting bench (1), are provided with vertical support plate (52) and actuating mechanism (53) on L type backup pad (51), and reciprocal unloading mechanism (54) and swing metering mechanism (55) all set up on L type backup pad (51) and vertical support plate (52), and actuating mechanism (53) are connected with reciprocal unloading mechanism (54).

4. An intermittent packaging machine as claimed in claim 3, characterized in that said reciprocating blanking mechanism (54) comprises: the device comprises a manual lifting mechanism (541), a vertical sliding rail (542), a vertical sliding block (543), a connecting plate (544), a horizontal sliding rail (545), a horizontal sliding block (546), a reciprocating execution mechanism (547), a material guide mechanism (548) and a material blocking mechanism (549), wherein the vertical sliding rail (542) is arranged on a vertical supporting plate (52), the vertical sliding block (543) is matched with the vertical sliding rail (542), the connecting plate (544) is arranged on the vertical sliding block (543), the horizontal sliding rail (545) and the material blocking mechanism (549) are arranged on the connecting plate (544), the horizontal sliding block (546) is matched with the horizontal sliding rail (545), the reciprocating execution mechanism (547) is arranged on the horizontal sliding block (546), the material guide mechanism (548) is arranged on the reciprocating execution mechanism (547), the material guide mechanism (548) is positioned above the material blocking mechanism (549), the manual lifting mechanism (541) is arranged between an L-shaped supporting plate (51) and the vertical supporting plate (52), the manual lifting mechanism (541) is connected with the connecting plate (544), the two swing metering mechanisms (55) are symmetrically arranged relative to the material blocking mechanism (549), and the material guiding mechanism (548), the material blocking mechanism (549) and the two swing metering mechanisms (55) are matched for use.

5. An intermittent packaging machine as claimed in claim 3, characterized in that said oscillating dosing mechanism (55) comprises: swing arm (551), rocking arm (552), toper stock chest (553), swing arm (554) and swing actuating mechanism (555) reset, rocking arm (552) rotate the setting on L type backup pad (51) and vertical support plate (52), the one end of rocking arm (552) is provided with swing arm (551), the other end of rocking arm (552) is provided with swing arm (554) that resets, two swing arms (554) that reset pass through spring coupling, the lower extreme of swing arm (551) is provided with toper stock chest (553), toper stock chest (553) and dog (5491) cooperation, be provided with swing actuating mechanism (555) on rocking arm (552), swing actuating mechanism (555) and reciprocal actuating mechanism (547) cooperation, swing actuating mechanism (555) are located between L type backup pad (51) and vertical support plate (52).

6. An intermittent packaging machine as claimed in claim 3, characterized in that said drive mechanism (53) comprises: the automatic angle-changing device comprises a motor support (531), a speed-reducing motor (532), a driving gear (533), a driving pulley (534), a first angle-of-rotation sensor (535), a driven gear (536), a toothed belt (537) and a rotating arm (538), wherein the motor support (531) is installed on an L-shaped support plate (51), the motor support (531) is provided with the speed-reducing motor (532) and the first angle-of-rotation sensor (535), the output end of the speed-reducing motor (532) is connected with the driving gear (533), the receiving end of the first angle-of-rotation sensor (535) is provided with the driven gear (536), the driving gear (533) is connected with the driven gear (536) through the toothed belt (537), the driving gear (533) is provided with the rotating arm (538), the driving pulley (534) is arranged on the rotating arm (538), a sliding groove is formed in a vertical plate (5472.

7. An intermittent packaging machine as claimed in claim 1, characterized in that said secondary blanking mechanism (6) comprises: flat section of thick bamboo (61), slide rail bracket (62), slider-crank mechanism (63) and striker plate (64) under the toper, slide rail bracket (62) are installed on supporting bench (1), are provided with flat section of thick bamboo (61) and slider-crank mechanism (63) under the toper on slide rail bracket (62), are provided with striker plate (64) on slider-crank mechanism (63), and striker plate (64) are located the below of flat section of thick bamboo (61) exit end under the toper, and flat section of thick bamboo (61) are located dog (5491) under the toper.

8. An intermittent packaging machine as claimed in claim 1, characterized in that said closing means (7) comprise: sealing driving motor (71), rotating shaft (72), eccentric wheel sets (73), front heating pressing block (74), rear heating pressing block (75), guide mechanism (76), fixed sleeve frame (77), movable sleeve frame (78) and fixed seat (79), wherein the fixed sleeve frame (77) is installed on the supporting table (1), the guide mechanism (76) is arranged in the fixed sleeve frame (77), the movable sleeve frame (78) is further sleeved on the guide mechanism (76), the fixed sleeve frame (77) is provided with the fixed seat (79), the sealing driving motor (71) is arranged on the fixed seat (79), the output end of the sealing driving motor (71) is connected with the rotating shaft (72), both ends of the rotating shaft (72) are arranged on the fixed seat (79) through bearings, three eccentric wheel sets (73) are sequentially arranged on the rotating shaft (72) from top to bottom, the middle eccentric wheel set (73) is connected with the movable sleeve frame (78) through a connecting rod, the other two eccentric wheel sets (73) are connected with a guide mechanism (76) through connecting rods, a rear heating pressing block (75) is arranged on the movable sleeve frame (78), a front heating pressing block (74) is arranged on the guide mechanism (76), and the front heating pressing block (74) is matched with the rear heating pressing block (75).

9. An intermittent packaging machine as claimed in claim 1, characterized in that said drawing means (8) comprise: a traction driving motor (81), a traction support plate (82), a driving roller (83), a driven roller (84), a sleeve (85), an adjusting rotating wheel (86) and a threaded rod (87), the traction support plate (82) is installed on the support table (1), the traction driving motor (81) is arranged on the traction support plate (82), the driving roller (83) is arranged on the traction support plate (82) through a bearing, an adjusting groove (88) is formed in the traction support plate (82), the sleeve (85) is sleeved on the driven roller (84) in a sliding mode and arranged in the adjusting groove (88), the threaded rod (87) is arranged on the traction support plate (82) through a threaded hole, one end of the threaded rod (87) is connected with the sleeve (85), the other end of the threaded rod (87) is connected with the adjusting rotating wheel (86), the driving roller (83) and the driven roller (84) are respectively sleeved with the traction wheel (89), and the two traction wheels (89) are matched.

10. An intermittent packaging machine as claimed in claim 1, characterized in that said cutter mechanism (9) comprises: the automatic cutting device comprises a cutter driving motor (91), a rotary cutter shaft (92), a rotary cutter (93), a fixed cutter (94), a cutter rest (95), an adjusting support (96), an adjusting mechanism (97) and a lifting mechanism (98), wherein the adjusting support (96) is installed on a support table (1), the adjusting support (96) is provided with the adjusting mechanism (97), the adjusting mechanism (97) is connected with the cutter rest (95), the lifting mechanism (98) is arranged on the adjusting support (96), the lifting mechanism (98) is connected with the cutter rest (95), the cutter driving motor (91), the rotary cutter shaft (92) and the fixed cutter (94) are arranged on the cutter rest (95), the output end of the cutter driving motor (91) is connected with the rotary cutter shaft (92), the rotary cutter (93) is installed on the rotary cutter shaft (92), and the rotary cutter (93) is matched with the fixed cutter (94).