CN214730063U - High-efficient reason bag machine - Google Patents

Abstract

The utility model provides a high-efficient reason bag machine, includes the frame, the frame is equipped with conveying mechanism and arrangement mechanism, and arrangement mechanism keeps off the material subassembly and drags the material subassembly including preceding fender material subassembly, back. The utility model discloses guarantee the stability that the wrapping bag was carried, the wrapping bag piles up and avoids the skew upset, and transfer chain quantity and width can be adjusted as required to it is very convenient to adjust, is applicable to the wrapping bag of various sizes.

Description

High-efficient reason bag machine

Technical Field

The utility model relates to a wrapping bag production and manufacturing equipment technical field especially relates to a high-efficient bag arrangement machine.

Background

After the packaging bags are manufactured in the bag making machine, the packaging bags need to be sorted, stacked and bundled, the production speed of the conventional bag making machine is very high, and if manual operation is adopted in the process, the efficiency is low, the cost is high, and the production speed of the bag making machine cannot be matched.

The conveying and sorting of the packaging bags are also operated by the equipment, but the existing conveying and sorting equipment has certain defects:

1. the packing bags from the bag making machine can output one or more paths according to different raw materials, the sizes of the packing bags have various specifications with different sizes, and the operation of carrying out corresponding adjustment on the conveying and arranging equipment is complex.

2. The existing conveying and bag arranging equipment generally adopts plane conveying, and in the conveying process, the packaging bags are easily deflected or even turned over under the influence of the outside, so that the subsequent processes are influenced, particularly the packaging bags with smaller size and light weight are obtained.

3. In the stacking and conveying processes of the packaging bags, the packaging bags cannot be guaranteed to be stacked neatly all the time and are easy to topple over, the packaging bags are not neat, bundling can be performed after manual arrangement is needed, and the working efficiency is affected.

4. Carry the business turn over material direction position of reason bag equipment to need correspond with front and back equipment, the business turn over material direction position adjustment of current transport reason bag equipment is single inconvenient, need move whole equipment even, is unfavorable for automated production.

SUMMERY OF THE UTILITY MODEL

To above demand, the utility model provides a high-efficient reason bag machine guarantees the stability that the wrapping bag was carried, and the wrapping bag piles up and avoids the skew upset, and transfer chain quantity and width can be adjusted as required to it is very convenient to adjust, is applicable to the wrapping bag of various sizes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a high-efficient bag arrangement machine, which comprises a frame, conveying mechanism and arrangement mechanism in the frame, conveying mechanism is including rack-mounted at least a pair of cylinder, a transmission shaft and two piece at least optical axes that are located the cylinder top, the equipartition has the conveyer belt between adjacent cylinder, frame one side is equipped with power component and cylinder and transmission shaft transmission and is connected, the epaxial pressure material subassembly that is equipped with a definite quantity that sets up of optical axis, press the material subassembly including the cover at the epaxial location slider of optical, the lower extreme of front and back location slider is connected with the slide rail, be equipped with two at least adjusting bottom plate on the slide rail, be equipped with adjust the slider on the adjust the bottom plate, adjusting screw and locking screw, be fixed with the guide pulley mounting panel on the adjust the slider, be equipped with the guide pulley on the guide pulley mounting panel, be equipped with the conveyer belt on transmission shaft and the front and back guide pulley. The packaging bags are clamped between the conveying belt of the roller and the conveying belt of the guide wheel, and the upper and lower conveying belts run reversely to convey the packaging bags under the action of the power assembly. The adjusting base plate and the adjusting slide block are respectively provided with a longitudinal rail and a rail groove which are matched, the height of the adjusting slide block can be adjusted through the adjusting screw rod, so that the level and the height of the guide wheel and the conveying belt are adjusted, and the adjusting base plate and the adjusting slide block are fixed through the locking screw rod.

The arrangement mechanism comprises a front material blocking assembly, a rear material blocking assembly and a material dragging assembly. Preceding striker assembly is located on the middle mounting panel of frame of conveying mechanism rear portion below, including the linear rail bottom plate, linear rail bottom plate both ends are equipped with preceding fender material motor and clapper cylinder respectively, preceding fender material motor expansion end is connected preceding striker screw, be equipped with the nut seat on the preceding fender material lead screw, nut seat bottom is equipped with the slider of being connected with the linear rail bottom plate line rail, the top is fixed with the tow bar fixed plate, the horizontal equidistance distributes on the tow bar fixed plate has the tow bar of a certain quantity, clapper cylinder expansion end is equipped with vertical clapper, the clapper is close to the top position and offers the hole that supplies the tow bar to pass. When the material beating machine starts, the front material blocking motor drives the nut seat and the tow bar fixing plate on the nut seat to one side of the beating plate, the tow bar extends out of the beating plate, packaging bags conveyed by the conveying mechanism are stacked on the tow bar, after the set number of the packaging bags is reached, the front material blocking motor drives the nut seat and the tow bar fixing plate on the nut seat to move towards one side of the material blocking motor, and the packaging bags are blocked by the beating plate and fall to the lower side when the tow bar retracts into the beating plate. The clapper cylinder can drive the clapper to move back and forth, thereby playing a role in sorting.

Wherein, the back keeps off the material subassembly including fixing the back fender material track in frame both sides, is equipped with back fender material slider on the back fender material track, is fixed with back fender material cylinder on the back fender material slider, keeps off the material horizontal pole after being connected with between the expansion end of two back fender material cylinders, and back fender material horizontal pole bottom side is equipped with one row of fore-and-aft pole of clapping. According to wrapping bag size, adjustable back keeps off the material slider position on the material track of back, and wrapping bag one side that conveying mechanism carried is blockked spacingly by the bat pole, and the back keeps off the material cylinder drive back and keeps off material horizontal pole and bat pole seesaw to play the effect of arrangement.

The material dragging assembly comprises a material dragging support and a lifting support, a lifting screw rod, a lifting motor and a lifting rail are arranged on the material dragging support, a nut and a sliding block which are connected with the lifting screw rod and the lifting rail are arranged on the lifting support, a transverse material dragging bottom plate is arranged at the top of the lifting support, and longitudinal material dragging columns which are distributed in an array mode are arranged on the surface of the material dragging bottom plate. The packaging bags fall onto the material dragging column from the dragging rod, the lifting support, the material dragging bottom plate and the material dragging column on the lifting support ascend or descend under the driving of the lifting motor, and the clapboards and the clappers are arranged at proper positions to arrange the stacked packaging bags.

Preferably, the two sides of the bottom of the linear rail bottom plate are provided with lower sliding block sliding rail assemblies, and the middle of the bottom of the linear rail bottom plate is provided with a linear rail bottom plate adjusting rod. The transverse position of the front material blocking component can be adjusted through the line rail bottom plate adjusting rod.

Preferably, the racket shafts have two different lengths, and the racket shafts with different lengths are staggered in a certain number. For example, the two lengths may be staggered.

Preferably, the shorter lower part of the racket shaft is threaded. The lower end of the long racket rod is a smooth surface, and the lower end of the long racket rod is a threaded surface, so that the packaging bags can be better arranged, and the packaging bags can be prevented from being turned over.

Preferably, the horizontal position of the transmission shaft is higher than the guide wheels, and two guide wheels are arranged on the guide wheel mounting plate closest to the transmission shaft. The two guide wheels turn the front inclined conveyor belt to be horizontal.

Preferably, the number of the rollers is two, and the number of the corresponding conveying belts is two, namely, the front conveying belt and the rear conveying belt, so that the phenomenon that the conveying belts are too long and sag in the middle due to gravity is avoided.

Preferably, a partition board is fixed on the sliding rail, the front end and the rear end of the partition board protrude out of the range of the rollers, and the lower end of the partition board is located between the conveying belts of the rollers and lower than the horizontal top surfaces of the conveying belts. In the process of conveying the packaging bags, the left side and the right side of the packaging bags are always limited by the partition plates, so that the packaging bags are prevented from being inclined. The spacing and the using number of the partition boards can be adjusted, so that the packaging bag rack is suitable for different numbers of conveying lines and different sizes of packaging bags.

Preferably, the rear part of the clapboard is provided with a strip-shaped grid which extends downwards to the dragging component. The strip grid is used for limiting the two sides of the stacked packaging bags, and the strip grid and the material dragging column are staggered to avoid interference.

Preferably, the machine frame at the two ends of the optical axis is provided with a lifting cylinder, and the optical axis is connected with the movable end of the lifting cylinder. The swaging assembly can be lifted when needed.

Preferably, the material blocking mechanism is positioned at the tail end of the conveying belt roller of the conveying mechanism of the bag arranging machine and comprises a material blocking plate, a certain number of upper material blocking strips are distributed at the upper end of the material blocking plate at equal intervals, and the upper material blocking strips are positioned between the conveying belt grooves in the outer side of the conveying belt roller. The striker bar of striker plate is pressed close to the roller bearing, and when the wrapping bag was carried to the striker plate position, the striker bar was located between wrapping bag and the roller bearing, blocks the wrapping bag and avoids returning.

Preferably, the inner sides of the two ends of the striker plate are respectively provided with a striker plate cylinder, and the movable end of the striker plate cylinder is connected with the striker plate. The striker plate cylinder pushes out the striker plate when needed to carry out equipment debugging, and retracts to the assigned position when normal work, so that the striker plate plays a better material blocking role.

Preferably, a rectangular material blocking rod is arranged on the inner side of the material blocking plate, and the movable end of the material blocking plate cylinder is connected with the material blocking plate through the material blocking rod. The striker rod plays the effect of supporting and fixing the striker plate, and the striker plate is prevented from bending and deforming.

Preferably, a clapper is arranged below the material baffle and can be used for stacking and tidying the packaging bags.

Preferably, a certain number of lower material blocking strips are distributed at the lower end of the material blocking plate at equal intervals, a certain number of material blocking bulges are distributed at the upper end of the clapper at equal intervals, and the lower material blocking strips and the material blocking bulges are arranged in a staggered mode. This structure avoids the wrapping bag to get into the clearance of striker plate and clapper.

Preferably, the length of the upper material blocking strip is greater than that of the lower material blocking strip.

Preferably, the bag arranging and outputting assembly is conveyed by a conveying belt, and the material dragging column penetrates through a gap between the conveying belts of the bag arranging and outputting assembly. When the packaging bags are arranged, the material dragging column exceeds the bag arranging and outputting assembly, after the bag arranging is completed, the material dragging column descends, and the packaging bags fall on the conveying belt of the bag arranging and outputting assembly to be conveyed outwards.

Preferably, the tail end of the bag arranging and outputting assembly is provided with a steering outputting assembly. The packaging bags are conveyed to the steering output assembly from the bag arranging output assembly, and the packaging bags on the packaging bags can be conveyed to different squares according to requirements.

Preferably, the touch screen is arranged on the rack, the bottom of the rack is provided with a bottom frame assembly, the bottom frame assembly comprises a support and a translation cylinder and a translation adjusting rod, the directions of the translation cylinder and the translation adjusting rod are perpendicular to each other, and the translation cylinder and the translation adjusting rod are respectively connected with corresponding sliding block assemblies of the sliding rails. The front, back, left and right positions of the frame and the mechanism on the frame can be adjusted by translating the air cylinder and translating the adjusting rod.

The utility model has the advantages that: 1. the conveying line and the arranging conveying assembly in the mechanism are convenient to adjust, can adapt to conveying arrangement of various quantities of packaging bag output lines and various packaging bags with different dimensions, and greatly saves time and labor.

2. Through the centre gripping of circle area and carrying, avoided the wrapping bag to receive external influence and take place to deflect even the upset, be favorable to the progress of subsequent handling.

3. The structure ensures that the packaging bags are always tidy and not toppled over when being stacked and conveyed after being stacked, reduces labor and improves the working efficiency.

4. Avoid the conveyer belt to carry the wrapping bag to terminal back wrapping bag to follow the conveyer belt and return from the below, prevent that coil stock and wrapping bag from returning to scatter to the reason bag machine inside, reason bag machine is cleaner and tidier, guarantees stability and the regularity that the wrapping bag carried.

5. The position of the equipment has various adjusting modes, various operation requirements are met, all mechanisms for conveying and sorting are well connected together, and the continuity of a production line is guaranteed.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a side view of the hidden frame of the present invention;

FIG. 3 is a perspective view of the rack of the present invention;

fig. 4 is a top view of the conveying mechanism of the present invention;

fig. 5 is a perspective view of the conveying mechanism of the present invention;

fig. 6 is a side view of the middle swaging assembly of the present invention;

fig. 7 is a front view of the middle swaging assembly of the present invention;

fig. 8 is a perspective view of the middle swaging assembly of the present invention;

fig. 9 is a side view of the middle front retainer assembly of the present invention;

fig. 10 is a perspective view of the middle front retainer assembly of the present invention;

fig. 11 is a rear view of the middle and rear striker assembly of the present invention;

fig. 12 is a side view of the middle and rear striker assembly of the present invention;

fig. 13 is a perspective view of the middle and rear striker assembly of the present invention;

FIG. 14 is a side view of the middle tow assembly of the present invention;

fig. 15 is a perspective view of the middle dragging assembly of the present invention;

fig. 16 is a front view of the striker of the present invention;

fig. 17 is a schematic side view of the material stop mechanism of the present invention;

fig. 18 is a schematic perspective view of a material stop mechanism of the present invention;

FIG. 19 is an enlarged schematic view at A of FIG. 18;

fig. 20 is a perspective view of the bag sorting and outputting assembly and the steering and outputting assembly of the present invention;

fig. 21 is a perspective view of the middle frame of the present invention;

fig. 22 is a perspective view of a chassis assembly in accordance with the present invention.

The main elements in the figures are symbolically illustrated: 10. a frame; 11. a middle mounting plate; 12. a touch screen;

20. a conveying mechanism; 21. a drum; 22. a conveyor belt; 23. a power assembly; 24. a drive shaft; 25. an optical axis; 26. positioning the sliding block; 27. a slide rail; 28. adjusting the bottom plate; 29. adjusting the sliding block; 210. a guide wheel mounting plate; 211. a guide wheel; 212. adjusting the screw rod; 213. locking the screw rod; 214. a partition plate; 24.1, strip grids; 215. a lifting cylinder;

30. a front baffle assembly; 31. a wire track base plate; 32. a front material blocking motor; 33. a clapper cylinder; 34. a front material blocking screw rod; 35. a nut seat; 36. a tow bar fixing plate; 37. a tow bar; 38. clapping the board; 38.1, blocking bulges; 39. a lower slider slide rail assembly; 310. a linear rail bottom plate adjusting rod;

40. a rear material blocking assembly; 41. a rear stock stop rail; 42. a rear material blocking slide block; 43. a rear material blocking cylinder; 44. a rear material blocking cross rod; 45. a racket shaft;

50. a dragging component; 51. dragging a material bracket; 52. a lifting screw rod; 53. a lifting motor; 54. a lifting rail; 55. a lifting support; 56. a dragging bottom plate; 57. dragging the material column;

60. a stock stop mechanism; 61. a striker plate; 61.1, feeding material blocking strips; 61.2, blanking strips; 62. a striker plate cylinder; 63. a material blocking rod;

70. a chassis assembly; 71. a translation cylinder; 72. a translation adjusting rod;

80. a bag arranging and outputting assembly;

90. and a steering output component.

Detailed Description

In order to make the present invention clearer, the present invention is further described below with reference to the accompanying drawings.

The first embodiment is as follows: as shown in fig. 1-3, an efficient bag arranging machine comprises a machine frame 10, wherein the machine frame 10 is provided with a conveying mechanism 20 and an arranging mechanism, and the arranging mechanism comprises a front material blocking assembly 30, a rear material blocking assembly 40 and a material dragging assembly 50. Referring to fig. 21, the chassis 10 is provided with a middle mounting plate 11 and a touch screen 12.

Referring to fig. 4-8, the conveying mechanism 20 includes at least a pair of rollers 21 mounted on the frame 10, a transmission shaft 24 and at least two optical axes 25 located above the rollers 21, conveyer belts 22 are uniformly distributed between adjacent rollers 21, a power assembly 23 is disposed on one side of the frame 10 and is in transmission connection with the rollers 21 and the transmission shaft 24, a certain number of pressing assemblies are mounted on the optical axes 25, each pressing assembly includes a positioning slider 26 sleeved on the optical axis 25, a slide rail 27 is connected to the lower end of each front and rear positioning slider 26, at least two adjusting bottom plates 28 are disposed on the slide rail 27, an adjusting slider 29, an adjusting screw 212 and a locking screw 213 are disposed on the adjusting bottom plate 28, a guide wheel mounting plate 210 is fixed on the adjusting slider 29, a guide wheel 211 is disposed on the guide wheel mounting plate 210, and conveyer belts 22 are disposed on the transmission shaft 24 and the front and rear guide wheels 211.

Wherein, be fixed with baffle 214 on the slide rail 27, both ends protrusion cylinder 21 scope around the baffle 214, the lower extreme is located between the conveyer belt 22 of cylinder 21 and is less than the horizontal top surface of conveyer belt 22, and baffle 214 rear end bottom is equipped with the strip grid 24.1 that extends to dragging material subassembly 50. And the horizontal position of the transmission shaft 24 is higher than the guide wheels 211, two guide wheels 211 are arranged on the guide wheel mounting plate 210 closest to the transmission shaft 24, and the number of the rollers 21 is two. In addition, the frame 10 at both ends of the optical axis 25 is provided with a lifting cylinder 215, and the optical axis 25 is connected with the movable end of the lifting cylinder 215.

Referring to fig. 9-10, the front material blocking assembly 30 is located on the middle mounting plate 11 of the rack 10 below the rear portion of the conveying mechanism 20, and includes a linear rail bottom plate 31, a front material blocking motor 32 and a flap cylinder 33 are respectively disposed at two ends of the linear rail bottom plate 31, a movable end of the front material blocking motor 32 is connected to a front material blocking screw rod 34, a nut seat 35 is disposed on the front material blocking screw rod 34, a slider connected to a linear rail on the linear rail bottom plate 31 is disposed at the bottom of the nut seat 35, a tow rod fixing plate 36 is fixed at the top of the nut seat, a certain number of tow rods 37 are equidistantly distributed on the tow rod fixing plate 36 in the transverse direction, a vertical flap plate 38 is disposed at a movable end of the flap cylinder 33, and a hole for the tow rod 37 to pass through is disposed at a position of the flap plate 38 close to the top.

Wherein, the two sides of the bottom of the linear rail bottom plate 31 are provided with lower sliding block sliding rail assemblies 39, the middle is provided with a linear rail bottom plate adjusting rod 310, the racket rods 45 have two different lengths, the racket rods 45 with different lengths are staggered in a certain number, and the lower part of the shorter racket rod 45 is provided with threads.

Referring to fig. 11-13, the rear material blocking assembly 40 includes rear material blocking rails 41 fixed on both sides of the frame 10, a rear material blocking slider 42 is arranged on the rear material blocking rail 41, a rear material blocking cylinder 43 is fixed on the rear material blocking slider 42, a rear material blocking cross rod 44 is connected between the movable ends of the two rear material blocking cylinders 43, and a row of longitudinal clap rods 45 is arranged on the bottom side of the rear material blocking cross rod 44.

Referring to fig. 14-15, the dragging assembly 50 includes a dragging support 51 and a lifting support 55, the dragging support 51 is provided with a lifting screw 52, a lifting motor 53 and a lifting rail 54, the lifting support 55 is provided with a nut and a slider connected with the lifting screw 52 and the lifting rail 54, the top of the lifting support 55 is provided with a transverse dragging bottom plate 56, and the surface of the dragging bottom plate 56 is provided with longitudinal dragging columns 57 distributed in an array.

Example two: as shown in fig. 2 and fig. 16 to 19, on the basis of the first embodiment, a material blocking mechanism 60 is arranged at the position of the roller 21 at the tail end of the conveying mechanism 20, the material blocking mechanism 60 includes a material blocking plate 61, a certain number of upper material blocking strips 61.1 are equidistantly distributed at the upper end of the material blocking plate 61, and the upper material blocking strips 61.1 are located between the conveying belt grooves at the outer side of the roller 21.

Wherein, striker plate cylinder 62 is equipped with respectively in striker plate 61 both ends inboard, and striker plate 61 inboard is equipped with the striker rod 63 of rectangle, and striker plate cylinder 62 expansion end passes through striker rod 63 with striker plate 61 to be connected. In addition, a certain number of lower material blocking strips 61.2 are equidistantly distributed at the lower end of the material blocking plate 61, a certain number of material blocking bulges 38.1 are equidistantly distributed at the upper end of the clapper 38, and the lower material blocking strips 61.2 and the material blocking bulges 38.1 are staggered. And the length of the upper material blocking strip 1.1 is greater than that of the lower material blocking strip 1.2.

Example three: as shown in fig. 1-3 and fig. 20, in addition to the first or second embodiment, a bag arranging and outputting assembly 80 conveyed by the conveying belts is further provided at the position of the dragging assembly 50, the dragging column 57 penetrates through the gap between the conveying belts of the bag arranging and outputting assembly 80, and the tail end of the bag arranging and outputting assembly 80 is provided with a steering and outputting assembly 90.

Example four: as shown in fig. 1 and fig. 22, on the basis of the first embodiment, the second embodiment or the third embodiment, a chassis assembly 70 is disposed at the bottom of the frame 10, the chassis assembly 70 includes a bracket and a translation cylinder 71 and a translation adjusting rod 72, which are perpendicular to each other, and the translation cylinder 71 and the translation adjusting rod 72 are respectively connected to corresponding slide rail slider assemblies.

The above description is only the specific embodiments of the present invention, but the structural features of the present invention are not limited thereto, the present invention can be used in similar products, and any person skilled in the art is in the field of the present invention, and all the changes or modifications made are covered by the claims of the present invention.

Claims (10)

1. A high-efficient reason bag machine, includes frame (10), its characterized in that: the rack (10) is provided with a conveying mechanism (20) and a sorting mechanism, and the sorting mechanism comprises a front material blocking assembly (30), a rear material blocking assembly (40) and a material dragging assembly (50);

the conveying mechanism (20) comprises at least one pair of rollers (21) arranged on a rack (10), a transmission shaft (24) and at least two optical shafts (25) which are positioned above the rollers (21), conveying belts (22) are uniformly distributed between the adjacent rollers (21), a power assembly (23) is arranged on one side of the rack (10) and is in transmission connection with the rollers (21) and the transmission shaft (24), a certain number of pressing assemblies are erected on the optical shafts (25), each pressing assembly comprises a positioning slide block (26) sleeved on the corresponding optical shaft (25), the lower ends of the front and rear positioning slide blocks (26) are connected with a slide rail (27), at least two adjusting bottom plates (28) are arranged on the slide rail (27), each adjusting bottom plate (28) is provided with an adjusting slide block (29), an adjusting screw rod (212) and a locking screw rod (213), a guide wheel mounting plate (210) is fixed on each adjusting slide block (29), and a guide wheel (211) is arranged on each guide wheel mounting plate (210), the transmission shaft (24) and the front and rear guide wheels (211) are provided with a conveying belt (22);

the front material blocking assembly (30) is positioned on a middle mounting plate (11) of a rack (10) below the rear part of a conveying mechanism (20) and comprises a linear rail bottom plate (31), a front material blocking motor (32) and a clapper cylinder (33) are respectively arranged at two ends of the linear rail bottom plate (31), the movable end of the front material blocking motor (32) is connected with a front material blocking screw rod (34), a nut seat (35) is arranged on the front material blocking screw rod (34), a sliding block connected with a linear rail on the linear rail bottom plate (31) is arranged at the bottom of the nut seat (35), a towing rod fixing plate (36) is fixed at the top of the nut seat, a certain number of towing rods (37) are transversely distributed on the towing rod fixing plate (36) at equal intervals, a vertical clapper (38) is arranged at the movable end of the clapper cylinder (33), and a hole for the towing rod (37) to pass through is formed in the position, close to the top, of the clapper (38);

the rear material blocking assembly (40) comprises rear material blocking rails (41) fixed on two sides of the rack (10), a rear material blocking sliding block (42) is arranged on each rear material blocking rail (41), rear material blocking cylinders (43) are fixed on each rear material blocking sliding block (42), a rear material blocking cross rod (44) is connected between the movable ends of the two rear material blocking cylinders (43), and a row of longitudinal clap rods (45) are arranged on the bottom side of each rear material blocking cross rod (44);

drag material subassembly (50) including dragging material support (51) and lifting support (55), drag to be equipped with on material support (51) lift lead screw (52), elevator motor (53) and lift track (54), be equipped with on lifting support (55) with lift lead screw (52), the nut and the slider of lift track (54) connection, the top is equipped with horizontal material bottom plate (56) that drags, drags material bottom plate (56) surface to be equipped with fore-and-aft and is array distribution drag material post (57).

2. An efficient bag arranging machine as defined in claim 1 wherein: be fixed with baffle (214) on slide rail (27), both ends protrusion cylinder (21) scope around baffle (214), the lower extreme is located between conveyer belt (22) of cylinder (21) and is less than the horizontal top surface of conveyer belt (22), and baffle (214) rear end bottom is equipped with strip grid (24.1) to dragging material subassembly (50) extension.

3. An efficient bag arranging machine as defined in claim 1 wherein: the horizontal position of the transmission shaft (24) is higher than the guide wheels (211), two guide wheels (211) are arranged on the guide wheel mounting plate (210) closest to the transmission shaft (24), and the number of the rollers (21) is two.

4. An efficient bag arranging machine as defined in claim 1 wherein: and lifting cylinders (215) are arranged on the machine frame (10) at the two ends of the optical axis (25), and the optical axis (25) is connected with the movable ends of the lifting cylinders (215).

5. An efficient bag arranging machine as defined in claim 1 wherein: lower sliding block sliding rail assemblies (39) are arranged on two sides of the bottom of the linear rail bottom plate (31), a linear rail bottom plate adjusting rod (310) is arranged in the middle of the bottom of the linear rail bottom plate, the racket rods (45) are of two different lengths, the racket rods (45) of the different lengths are arranged in a certain number in a staggered mode, and threads are arranged on the lower portion of the shorter racket rod (45).

6. An efficient bag arranging machine as defined in claim 1 wherein: the tail end of the conveying mechanism (20) is provided with a material blocking mechanism (60) at the position of the roller (21), the material blocking mechanism (60) comprises a material blocking plate (61), a certain number of upper material blocking strips (61.1) are distributed at the upper end of the material blocking plate (61) at equal intervals, and the upper material blocking strips (61.1) are located between conveying belt grooves in the outer side of the roller (21).

7. An efficient bag arranging machine as defined in claim 6 wherein: striker plate cylinder (62) are equipped with respectively in striker plate (61) both ends inboard, striker plate (61) inboard is equipped with striker rod (63) of rectangle, and striker plate cylinder (62) expansion end is connected through striker rod (63) with striker plate (61).

8. An efficient bag arranging machine as defined in claim 6 wherein: the lower end of the material blocking plate (61) is equidistantly distributed with a certain number of lower material blocking strips (61.2), the upper end of the clapper (38) is equidistantly distributed with a certain number of material blocking bulges (38.1), and the lower material blocking strips (61.2) and the material blocking bulges (38.1) are arranged in a staggered mode.

9. An efficient bag arranging machine as defined in claim 1 wherein: the bag arranging and outputting device further comprises a bag arranging and outputting assembly (80) conveyed by the conveying belt, the material dragging column (57) penetrates through a gap between the conveying belts of the bag arranging and outputting assembly (80), and a steering and outputting assembly (90) is arranged at the tail end of the bag arranging and outputting assembly (80).

10. A high efficiency bag organizer according to any one of claims 1 to 9, wherein: the touch screen is arranged on the rack (10), the bottom of the rack is provided with an underframe assembly (70), the underframe assembly (70) comprises a support and a translation cylinder (71) and a translation adjusting rod (72) which are perpendicular to each other in direction, and the translation cylinder (71) and the translation adjusting rod (72) are respectively connected with corresponding sliding block assemblies of sliding rails.

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