CN105667844A - High-efficiency and high-precision packaging machine for powder filling - Google Patents

Abstract

The invention provides a high-efficiency and high-precision packaging machine for powder filling. A stock bin is located at the top end of a machine frame. An air pre-pumping mechanism is installed on the machine frame and located below the stock bin. A feeding port of the air pre-pumping mechanism communicates with a discharging port of the stock bin. A spiral feeder is installed on the machine frame and located below the air pre-pumping mechanism. A feeding port of the spiral feeder communicates with a discharging port of the air pre-pumping mechanism. The feeding end of a variable-caliber discharging port communicates with the feeding port of the spiral feeder. The discharging end of the variable-caliber discharging port communicates with a vacuum chamber. The vacuum chamber is fixedly installed on the machine frame. A packaging bag pose control mechanism is located in the vacuum chamber and pulled through a packaging bag pulling and transferring sliding table. Air pre-pumping is achieved before powder enters a packaging bag, and the powder conveying efficiency is improved; accurate output of the powder is achieved through the variable-caliber discharging port, the situation that the powder falls in a caked mode is avoided, the powder filling accuracy is improved, and the effect that the working environment is clean is guaranteed; and by controlling the pose of the packaging bag during powder filling, the phenomenon that the powder is stacked into a pointed heap is avoided.

Description

A kind of high-efficiency high-accuracy fill Powder packaging machine

Technical field

The invention belongs to powder packaging machinery technical field, particularly relate to a kind of high-efficiency high-accuracy fill Powder packaging machine.

Background technology

At present, for ultralight fine powder class powder packing stage before dispatching from the factory, it is common to adopt what Powder packaging machine realized powder to be filled into bag, specifically first pass through air suction mode and powder is sucked in packaging bag, then again air unnecessary in packaging bag is taken away, and then realize the fill of powder. But, this powder filling mode that existing Powder packaging machine adopts, its fill inefficiency and filling accuracy are not high, and the pumpdown time in powder filling process is long, and easily occur powder heap point during fill in packaging bag, thus causing that blanking is uneven. Further, the discharging opening bore of existing Powder packaging machine all design relatively larger, and discharging opening bore is all definite value, always has that some powders are agglomerating to drop after discharging terminates, and not only affects discharging precision, also can pollute working environment.

Summary of the invention

For prior art Problems existing, the present invention provides a kind of high-efficiency high-accuracy fill Powder packaging machine, and powder realized bleeding in advance before entering packaging bag, improves the transfer efficiency of powder; Realized the accurate output of powder by afocal variable discharging opening, be prevented effectively from that powder is agglomerating to drop, improve the filling accuracy of powder, it is ensured that the cleaning of working environment; During by powder filling, packaging bag is carried out Pose Control, it is to avoid powder heap point phenomenon, it is ensured that blanking is uniform.

To achieve these goals, the present invention adopts the following technical scheme that a kind of high-efficiency high-accuracy fill Powder packaging machine, including frame, feed bin, pre-extraction sector, screw feeder, afocal variable discharging opening, vacuum chamber, packaging bag Pose Control mechanism and packaging bag traction transhipment slide unit; Described feed bin is positioned at frame top, and described pre-extraction sector is arranged in frame and is positioned at below feed bin, and the charging port of pre-extraction sector is connected with the discharging port of feed bin; Described screw feeder is arranged in frame and is positioned at below pre-extraction sector, and the charging port of screw feeder is connected with the discharging port of pre-extraction sector;The feed end of described afocal variable discharging opening is connected with the charging port of screw feeder, and the discharge end of afocal variable discharging opening is connected with vacuum chamber, and vacuum chamber is fixedly mounted in frame; Described packaging bag Pose Control mechanism is positioned at vacuum chamber, and packaging bag Pose Control mechanism is drawn by packaging bag traction transhipment slide unit.

Described pre-extraction sector includes warehouse, stirring drive motor, powder stirring oar and vibrating air cylinder, and the charging port of pre-extraction sector is positioned at warehouse top, and the discharging port of pre-extraction sector is positioned at warehouse bottom; Described stirring drive motor is vertically installed at warehouse top, and the motor shaft of stirring drive motor is positioned at warehouse, and described powder stirring oar is fixedly mounted on the motor shaft of stirring drive motor; Described warehouse top offers bleeding point, is provided with ventilative sealing plate between the warehouse inner chamber at bleeding point and powder stirring oar place, stops powder to suck bleeding point by ventilative sealing plate; Described vibrating air cylinder is arranged on warehouse outer surface.

Described afocal variable discharging opening includes discharge nozzle, sliding sleeve, fixed cover and arc-shaped spring piece; Described discharge nozzle front end is discharge end, and discharge nozzle rear end is feed end; Described fixed cover is fixedly set in discharge nozzle feed end side, leaves mesopore between fixed cover and discharge nozzle; On described sliding sleeve movable set discharge nozzle on rear side of fixed cover, sliding sleeve is fixedly connected with dowel steel, air-leg is installed between dowel steel and frame; Described arc-shaped spring piece quantity is some, and in the uniform mesopore being arranged between fixed cover and discharge nozzle of some arc-shaped spring pieces, arc-shaped spring piece one end and sliding sleeve are fixedly connected with, and the arc-shaped spring piece other end is free end.

Described packaging bag Pose Control mechanism includes spacing push pedal, telescopic cylinder and air cylinder support, and described spacing push pedal quantity is two and be arranged in parallel, and packaging bag is between two spacing push pedals; Described spacing push pedal lateral surface is connected with the piston rod of telescopic cylinder, and telescopic cylinder is fixedly mounted on air cylinder support; Being provided with the first slide block bottom described air cylinder support, be provided with the first slide rail on vacuum chamber base plate, air cylinder support is slidably matched by the first slideway of the first slide block Yu vacuum chamber base plate.

Described vacuum chamber sidewall offers the air supply opening of telescopic cylinder, snap joint is added between the air supply opening on the air inlet and vacuum chamber sidewall of telescopic cylinder, snap joint daughter is arranged on air cylinder support by snap joint daughter mounting bracket, snap joint parent is arranged on vacuum chamber base plate by snap joint parent mounting bracket, and snap joint parent is connected with the air supply opening on vacuum chamber sidewall; Described snap joint parent is connected to the first separation driving cylinder for separating snap joint.

Described packaging bag traction transhipment slide unit includes pedestal, roller-way and traction transhipment slide unit plate, described roller-way is arranged in the middle part of pedestal, described traction transhipment slide unit plate quantity is two and is symmetricly set on roller-way both sides, and between traction transhipment slide unit plate and pedestal, employing is slidably connected and coordinates; Described traction transhipment slide unit plate is arranged with the second slide rail and tooth bar in parallel, second slide rail is provided with the second slide block, second slide block is provided with motor mounting plate, vertically-mounted on motor mounting plate have traction drive motor, being set with gear on the motor shaft of traction drive motor, wheel and rack is meshed; Described second slide rail and the first slide rail are positioned in same level and are located on the same line; Lock-on connection is added between described traction transhipment slide unit plate and packaging bag Pose Control mechanism, lock-on connection daughter is arranged on motor mounting plate by lock-on connection daughter mounting bracket, lock-on connection parent is arranged on air cylinder support by lock-on connection parent mounting bracket, is connected to for separate lock tight coupling second and separates driving cylinder in lock-on connection daughter.

Beneficial effects of the present invention:

The present invention compared with prior art, bled before entering packaging bag in advance at powder, improved the transfer efficiency of powder;Realized the accurate output of powder by afocal variable discharging opening, be prevented effectively from that powder is agglomerating to drop, improve the filling accuracy of powder, it is ensured that the cleaning of working environment; During by powder filling, packaging bag is carried out Pose Control, be prevented effectively from powder heap point phenomenon, it is ensured that blanking is more uniform.

Accompanying drawing explanation

Fig. 1 is a kind of high-efficiency high-accuracy fill Powder packaging machine (fill position) structural representation of the present invention;

Fig. 2 is a kind of high-efficiency high-accuracy fill Powder packaging machine (transhipment position) structural representation of the present invention;

Fig. 3 is the pre-extraction sector structural representation of the present invention;

Fig. 4 is the afocal variable discharge hole structure schematic diagram of the present invention;

Fig. 5 is afocal variable discharging opening (lowest calibre state) the axially sectional view of the present invention;

Fig. 6 is afocal variable discharging opening (maximum caliber state) the axially sectional view of the present invention;

Fig. 7 is the packaging bag Pose Control mechanism structure schematic diagram of the present invention;

Fig. 8 is packaging bag traction transhipment slide unit while being located thereon (the packaging bag Pose Control mechanism) structural representation of the present invention;

Fig. 9 is the quick coupling structure schematic diagram of the present invention;

Figure 10 is the lock-on connection structural representation of the present invention;

In figure, 1 frame, 2 feed bins, 3 pre-extraction sectors, 4 screw feeders, 5 afocal variable discharging openings, 6 vacuum chambers, 7 packaging bag Pose Control mechanisms, 8 packaging bag traction transhipment slide units, 9 warehouses, 10 stirring drive motors, 11 powder stirring oars, 12 vibrating air cylinders, 13 bleeding points, 14 ventilative sealing plates, 15 discharge nozzles, 16 sliding sleeves, 17 fixed covers, 18 arc-shaped spring pieces, 19 dowel steels, 20 air-legs, 21 spacing push pedals, 22 telescopic cylinders, 23 air cylinder supports, 24 packaging bags, 25 first slide blocks, 26 snap joint daughters, 27 snap joint parents, 28 pedestals, 29 roller-ways, 30 traction transhipment slide unit plates, 31 second slide rails, 32 tooth bars, 33 second slide blocks, 34 motor mounting plates, 35 traction drive motors, 36 lock-on connection daughters, 37 lock-on connection parents, 38 second separate driving cylinder, 39 first separate driving cylinder, 40 snap joint daughter mounting brackets, 41 snap joint parent mounting brackets, 42 lock-on connection daughter mounting brackets, 43 lock-on connection parent mounting brackets, 44 first slide rails.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

As shown in Fig. 1～10, a kind of high-efficiency high-accuracy fill Powder packaging machine, including frame 1, feed bin 2, pre-extraction sector 3, screw feeder 4, afocal variable discharging opening 5, vacuum chamber 6, packaging bag Pose Control mechanism 7 and packaging bag traction transhipment slide unit 8; Described feed bin 2 is positioned at frame 1 top, and described pre-extraction sector 3 is arranged in frame 1 and is positioned at below feed bin 2, and the charging port of pre-extraction sector 3 is connected with the discharging port of feed bin 2; Described screw feeder 4 is arranged in frame 1 and is positioned at below pre-extraction sector 3, and the charging port of screw feeder 4 is connected with the discharging port of pre-extraction sector 3; The feed end of described afocal variable discharging opening 5 is connected with the charging port of screw feeder 4, and the discharge end of afocal variable discharging opening 5 is connected with vacuum chamber 6, and vacuum chamber 6 is fixedly mounted in frame 1; Described packaging bag Pose Control mechanism 7 is positioned at vacuum chamber 6, and packaging bag Pose Control mechanism 7 is drawn by packaging bag traction transhipment slide unit 8.

Described pre-extraction sector 3 includes warehouse 9, stirring drive motor 10, powder stirring oar 11 and vibrating air cylinder 12, and the charging port of pre-extraction sector 3 is positioned at warehouse 9 top, and the discharging port of pre-extraction sector 3 is positioned at warehouse 9 bottom;Described stirring drive motor 10 is vertically installed at warehouse 9 top, and the motor shaft of stirring drive motor 10 is positioned at warehouse 9, and described powder stirring oar 11 is fixedly mounted on the motor shaft of stirring drive motor 10; Described warehouse 9 top offers bleeding point 13, is provided with ventilative sealing plate 14 between warehouse 9 inner chamber at bleeding point 13 and powder stirring oar 11 place, stops powder to suck bleeding point 13 by ventilative sealing plate 14; Described vibrating air cylinder 12 is arranged on warehouse 9 outer surface.

Described afocal variable discharging opening 5 includes discharge nozzle 15, sliding sleeve 16, fixed cover 17 and arc-shaped spring piece 18; Described discharge nozzle 15 front end is discharge end, and discharge nozzle 15 rear end is feed end; Described fixed cover 17 is fixedly set in discharge nozzle 15 feed end side, leaves mesopore between fixed cover 17 and discharge nozzle 15; On described sliding sleeve 16 movable set discharge nozzle 15 on rear side of fixed cover 17, sliding sleeve 16 is fixedly connected with dowel steel 19, air-leg 20 is installed between dowel steel 19 and frame 1; Described arc-shaped spring piece 18 quantity is some, and in the uniform mesopore being arranged between fixed cover 17 and discharge nozzle 15 of some arc-shaped spring pieces 18, arc-shaped spring piece 18 one end and sliding sleeve 16 are fixedly connected with, and arc-shaped spring piece 18 other end is free end.

Described packaging bag Pose Control mechanism 7 includes spacing push pedal 21, telescopic cylinder 22 and air cylinder support 23, and described spacing push pedal 21 quantity is two and be arranged in parallel, and packaging bag 24 is between two spacing push pedals 21; Described spacing push pedal 21 lateral surface is connected with the piston rod of telescopic cylinder 22, and telescopic cylinder 22 is fixedly mounted on air cylinder support 23; Being provided with the first slide block 25 bottom described air cylinder support 23, be provided with the first slide rail 44 on vacuum chamber 6 base plate, air cylinder support 23 is slidably matched by the first slideway 44 of the first slide block 25 with vacuum chamber 6 base plate.

Described vacuum chamber 6 sidewall offers the air supply opening of telescopic cylinder 22, snap joint is added between the air supply opening on the air inlet and vacuum chamber 6 sidewall of telescopic cylinder 22, snap joint daughter 26 is arranged on air cylinder support 23 by snap joint daughter mounting bracket 40, snap joint parent 27 is arranged on vacuum chamber 6 base plate by snap joint parent mounting bracket 41, and snap joint parent 27 is connected with the air supply opening on vacuum chamber 6 sidewall; Described snap joint parent 27 is connected to the first separation driving cylinder 39 for separating snap joint.

Described packaging bag traction transhipment slide unit 8 includes pedestal 28, roller-way 29 and traction transhipment slide unit plate 30, described roller-way 29 is arranged in the middle part of pedestal 28, described traction transhipment slide unit plate 30 quantity is two and is symmetricly set on roller-way 29 both sides, and between traction transhipment slide unit plate 30 and pedestal 28, employing is slidably connected and coordinates; Described traction transhipment slide unit plate 30 is arranged with the second slide rail 31 and tooth bar 32 in parallel, second slide rail 31 is provided with the second slide block 33, second slide block 33 is provided with motor mounting plate 34, vertically-mounted on motor mounting plate 34 have traction drive motor 35, being set with gear on the motor shaft of traction drive motor 35, wheel and rack 32 is meshed; Described second slide rail 31 and the first slide rail 44 are positioned in same level and are located on the same line; Lock-on connection is added between described traction transhipment slide unit plate 30 and packaging bag Pose Control mechanism 7, lock-on connection daughter 36 is arranged on motor mounting plate 34 by lock-on connection daughter mounting bracket 42, lock-on connection parent 37 is arranged on air cylinder support 23 by lock-on connection parent mounting bracket 43, is connected to for separate lock tight coupling second and separates driving cylinder 38 in lock-on connection daughter 36.

The first use process of the present invention is described below in conjunction with accompanying drawing:

Preparatory stage before powder filling, Schilling vacuum chamber 6 is in opening, empty packaging bag 24 is positioned at vacuum chamber 6, discharge nozzle 15 discharge end of afocal variable discharging opening 5 stretches in the bag mouth of packaging bag 24, air-leg 20 is in retracted mode, arc-shaped spring piece 18 is in retracted mode, and discharge nozzle 15 discharge end is in maximum caliber state; The telescopic cylinder 22 of packaging bag Pose Control mechanism 7 is in retracted mode, spacing push pedal 21 is away from packaging bag 24, snap joint daughter 26 is with snap joint parent 27 in an ON state, the traction transhipment slide unit plate 30 of packaging bag traction transhipment slide unit 8 is away from vacuum chamber 6, now close vacuum chamber 6, simultaneously to vacuum chamber 6 evacuation, then start screw feeder 4 and the stirring drive motor 10 of pre-extraction sector 3.

Start powder filling, first powder is poured in feed bin 2, powder passes sequentially through the discharging port bottom feed bin 2, the charging port of pre-extraction sector 3 enters in warehouse 9, powder in warehouse 9 is first subjected to the stirring action of powder stirring oar 11, most of air of the doping in powder can be evacuated mouth 13 by ventilative sealing plate 14 and siphon away, and powder can be intercepted in warehouse 9 by ventilative sealing plate 14, after eliminating major part doping air, powder can enter in screw feeder 4 by the discharging port bottom pre-extraction sector 3, eventually pass in the discharge nozzle 15 that screw feeder 4 enters afocal variable discharging opening 5, and flow into packaging bag 24 from the discharge end of discharge nozzle 15.

Along with in packaging bag 24, powder gets more and more, powder engenders heap point phenomenon in packaging bag 24, now telescopic cylinder 22 stretches out, drive spacing push pedal 21 near packaging bag 24, until spacing push pedal 21 props up packaging bag 24 in both sides, then turn off the extending action of telescopic cylinder 22, effectively controlled pose during packaging bag 24 powder filling by spacing push pedal 21, it is to avoid heap point phenomenon occurs in packaging bag 24.

When the powder in packaging bag 24 reaches setting weight, screw feeder 4 stops feeding, in stopping feeding process, controlling air-leg 20 to stretch out, the sliding sleeve 16 driving afocal variable discharging opening 5 is close to fixed cover 17, and arc-shaped spring piece 18 stretches out gradually in mesopore, until arc-shaped spring piece 18 is fully extended, now discharge nozzle 15 discharge end is in lowest calibre state, under lowest calibre state, it is possible to the output improving powder final is accurate.

Recover the atmospheric pressure state of vacuum chamber 6, open vacuum chamber 6, control traction transhipment slide unit plate 30 and slide to vacuum chamber 6 gradually, until the second slide rail 31 on traction transhipment slide unit plate 30 is docking together with the first slide rail 44 on vacuum chamber 6 base plate, then traction drive motor 35 is started, engaged transmission by gear and tooth bar 32, motor mounting plate 34 moves closer to the air cylinder support 23 of packaging bag Pose Control mechanism 7, until lock-on connection daughter 36 and lock-on connection parent 37 are docking together, at this moment control traction transhipment slide unit plate 30 is fixed with one with packaging bag Pose Control mechanism 7, separate driving cylinder 39 by first snap joint parent 27 and snap joint daughter 26 to be separated, control traction transhipment slide unit plate 30 simultaneously and be gradually distance from vacuum chamber 6, by drawing the sliding of transhipment slide unit plate 30, packaging bag Pose Control mechanism 7 is drawn on the second slide rail 31, packaging bag 24 is drawn on roller-way 29 simultaneously, in the moment that discharge nozzle 15 discharge end of packaging bag 24 bag mouth with afocal variable discharging opening 5 departs from, owing to discharge nozzle 15 discharge end is in lowest calibre state, being prevented effectively from discharge nozzle 15 that the powder of residual is agglomerating drops, if dropping in packaging bag 24, influence whether filling accuracy, if it is outside to drop to packaging bag 24, also can pollute working environment, therefore, when discharge nozzle 15 discharge end is in lowest calibre state, due to it can be avoided that powder is agglomerating drops, not only ensure that filling accuracy, and ensure that the cleaning of working environment.

On the roller-way 29 that the packaging bag 24 completing powder filling has been positioned at outside vacuum chamber 6, now just packaging bag 24 can be taken off, then control packaging bag Pose Control mechanism 7 returns in vacuum chamber 6, spacing push pedal 21 returns to initial position, separate driving cylinder 38 again through second lock-on connection daughter 36 and lock-on connection parent 37 to be separated, finally control traction transhipment slide unit plate 30 and return to initial position, control traction drive motor 35 simultaneously and reverse, make motor mounting plate 34 return to initial position; Being placed in vacuum chamber 6 by next empty packaging bag 24, the powder filling process with reference to a upper packaging bag 24 completes powder packaging, the like, just can the packaging that realize powder of high-efficiency high-accuracy.

Scheme in embodiment is also not used to the scope of patent protection of the restriction present invention, and all equivalences done without departing from the present invention are implemented or change, and are both contained in the scope of the claims of this case.

Claims (6)

1. a high-efficiency high-accuracy fill Powder packaging machine, it is characterised in that: include frame, feed bin, pre-extraction sector, screw feeder, afocal variable discharging opening, vacuum chamber, packaging bag Pose Control mechanism and packaging bag traction transhipment slide unit; Described feed bin is positioned at frame top, and described pre-extraction sector is arranged in frame and is positioned at below feed bin, and the charging port of pre-extraction sector is connected with the discharging port of feed bin; Described screw feeder is arranged in frame and is positioned at below pre-extraction sector, and the charging port of screw feeder is connected with the discharging port of pre-extraction sector; The feed end of described afocal variable discharging opening is connected with the charging port of screw feeder, and the discharge end of afocal variable discharging opening is connected with vacuum chamber, and vacuum chamber is fixedly mounted in frame; Described packaging bag Pose Control mechanism is positioned at vacuum chamber, and packaging bag Pose Control mechanism is drawn by packaging bag traction transhipment slide unit.

2. a kind of high-efficiency high-accuracy fill Powder packaging machine according to claim 1, it is characterized in that: described pre-extraction sector includes warehouse, stirring drive motor, powder stirring oar and vibrating air cylinder, the charging port of pre-extraction sector is positioned at warehouse top, and the discharging port of pre-extraction sector is positioned at warehouse bottom; Described stirring drive motor is vertically installed at warehouse top, and the motor shaft of stirring drive motor is positioned at warehouse, and described powder stirring oar is fixedly mounted on the motor shaft of stirring drive motor; Described warehouse top offers bleeding point, is provided with ventilative sealing plate between the warehouse inner chamber at bleeding point and powder stirring oar place, stops powder to suck bleeding point by ventilative sealing plate; Described vibrating air cylinder is arranged on warehouse outer surface.

3. a kind of high-efficiency high-accuracy fill Powder packaging machine according to claim 1, it is characterised in that: described afocal variable discharging opening includes discharge nozzle, sliding sleeve, fixed cover and arc-shaped spring piece; Described discharge nozzle front end is discharge end, and discharge nozzle rear end is feed end; Described fixed cover is fixedly set in discharge nozzle feed end side, leaves mesopore between fixed cover and discharge nozzle; On described sliding sleeve movable set discharge nozzle on rear side of fixed cover, sliding sleeve is fixedly connected with dowel steel, air-leg is installed between dowel steel and frame; Described arc-shaped spring piece quantity is some, and in the uniform mesopore being arranged between fixed cover and discharge nozzle of some arc-shaped spring pieces, arc-shaped spring piece one end and sliding sleeve are fixedly connected with, and the arc-shaped spring piece other end is free end.

4. a kind of high-efficiency high-accuracy fill Powder packaging machine according to claim 1, it is characterized in that: described packaging bag Pose Control mechanism includes spacing push pedal, telescopic cylinder and air cylinder support, described spacing push pedal quantity is two and be arranged in parallel, and packaging bag is between two spacing push pedals; Described spacing push pedal lateral surface is connected with the piston rod of telescopic cylinder, and telescopic cylinder is fixedly mounted on air cylinder support; Being provided with the first slide block bottom described air cylinder support, be provided with the first slide rail on vacuum chamber base plate, air cylinder support is slidably matched by the first slideway of the first slide block Yu vacuum chamber base plate.

5. a kind of high-efficiency high-accuracy fill Powder packaging machine according to claim 4, it is characterized in that: on described vacuum chamber sidewall, offer the air supply opening of telescopic cylinder, snap joint is added between the air supply opening on the air inlet and vacuum chamber sidewall of telescopic cylinder, snap joint daughter is arranged on air cylinder support by snap joint daughter mounting bracket, snap joint parent is arranged on vacuum chamber base plate by snap joint parent mounting bracket, and snap joint parent is connected with the air supply opening on vacuum chamber sidewall; Described snap joint parent is connected to the first separation driving cylinder for separating snap joint.

6. a kind of high-efficiency high-accuracy fill Powder packaging machine according to claim 4, it is characterized in that: described packaging bag traction transhipment slide unit includes pedestal, roller-way and traction transhipment slide unit plate, described roller-way is arranged in the middle part of pedestal, described traction transhipment slide unit plate quantity is two and is symmetricly set on roller-way both sides, and between traction transhipment slide unit plate and pedestal, employing is slidably connected and coordinates; Described traction transhipment slide unit plate is arranged with the second slide rail and tooth bar in parallel, second slide rail is provided with the second slide block, second slide block is provided with motor mounting plate, vertically-mounted on motor mounting plate have traction drive motor, being set with gear on the motor shaft of traction drive motor, wheel and rack is meshed; Described second slide rail and the first slide rail are positioned in same level and are located on the same line; Lock-on connection is added between described traction transhipment slide unit plate and packaging bag Pose Control mechanism, lock-on connection daughter is arranged on motor mounting plate by lock-on connection daughter mounting bracket, lock-on connection parent is arranged on air cylinder support by lock-on connection parent mounting bracket, is connected to for separate lock tight coupling second and separates driving cylinder in lock-on connection daughter.