CN212605963U - Soft bag box filling machine - Google Patents

Abstract

The utility model relates to the field of automation equipment, in particular to a soft bag boxing machine, which comprises a spider hand robot, a telescopic gripping head, a soft bag conveying mechanism, a carton conveying mechanism and a shell frame, wherein the spider hand robot is fixed at the top of the shell frame, the telescopic gripping head is fixed at the bottom of the spider hand robot, and the soft bag conveying mechanism and the carton conveying mechanism are arranged below the spider hand robot and the telescopic gripping head; the spider hand robot comprises a fixed top seat, a swinging table, a telescopic rotating shaft and a movable swinging arm, wherein the telescopic rotating shaft and the movable swinging arm are arranged between the fixed top seat and the swinging table; the telescopic gripping head comprises a gripping head fixing frame, a telescopic guide rail, a gripping head sliding block, a scissor telescopic mechanism and a scissor mechanism control connecting rod set; the soft bag conveying mechanism comprises a station board, a conveying belt, a support board, a photoelectric counting device and a feeding device.

Description

Soft bag box filling machine

Technical Field

The utility model relates to an automation equipment field, concretely relates to soft bag case packer.

Background

The soft bag package is widely applied to the fields of food, chemical industry, seasonings, feed additives, medicines and the like. Such as bagged milk, bagged food and the like in daily life, the bagging process can be basically automated, but the boxing process of bagged soft bag packaged finished products is generally manual boxing, the labor intensity is high, inaccurate quantity and irregular arrangement are easily caused, although more people are used, the boxing speed is still slow, and the soft bag boxing becomes the link with the lowest efficiency in production and manufacturing.

In order to save labor and improve boxing efficiency, automatic machine equipment is required to be adopted to grab and stack soft bags, and the automatic boxing machine is designed to have the following difficulties: 1. how to arrange a grabbing head structure to grab a plurality of soft bags placed at different intervals at one time; 2. after the grabbing head grabs the soft bags, the spacing of the soft bags is adjusted to perform boxing and placing; 3. how to realize high-speed and accurate grabbing and stacking of soft bags.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem in the background art and providing a soft bag box filling machine.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a soft bag boxing machine comprises a spider hand robot, a telescopic grabbing head, a soft bag conveying mechanism, a carton conveying mechanism and a shell rack, wherein the spider hand robot is fixed at the top of the shell rack, the telescopic grabbing head is fixed at the bottom of the spider hand robot, and the soft bag conveying mechanism and the carton conveying mechanism are arranged below the spider hand robot and the telescopic grabbing head;

the spider hand robot comprises a fixed top seat, a swinging table, a telescopic rotating shaft and a movable swinging arm, wherein the telescopic rotating shaft and the movable swinging arm are arranged between the fixed top seat and the swinging table; the telescopic gripping head comprises a gripping head fixing frame, a telescopic guide rail, a gripping head sliding block, a scissor telescopic mechanism and a scissor mechanism control connecting rod set;

the soft bag conveying mechanism comprises a station plate, a conveying belt, a support plate, a photoelectric counting device and a feeding device, wherein a driving roller driven by a motor is arranged in the support plate, the conveying belt is coated outside the driving roller, and the station plate is fixed outside the conveying belt at equal intervals.

Preferably, the number of the telescopic rotating shafts is one, and the number of the movable swing arms is three and is uniformly distributed on the circumference; the fixed top seat is correspondingly provided with a rotating motor for driving the telescopic rotating shaft and three swinging motors for driving the movable swinging arms; the swing table comprises a connecting seat, a driving rotating shaft and a connecting rod control shaft, wherein the driving rotating shaft is in transmission connection with the connecting rod control shaft; the telescopic rotating shaft is characterized in that two ends of the telescopic rotating shaft are respectively connected with the rotating motor and the driving rotating shaft through universal couplings, the movable swing arm comprises an upper swing arm and a lower swing arm which are movably connected, the top of the upper swing arm is connected with the swinging motor, and the bottom of the lower swing arm is connected with the connecting seat.

Preferably, the grabbing head fixing frame comprises a top frame, a side baffle, a front frame plate and a rear frame plate; the telescopic guide rail is arranged between the front frame plate and the rear frame plate, the scissor telescopic mechanism and the scissor mechanism control connecting rod group are arranged between the top frame and the telescopic guide rail, the top frame is fixed with the connecting seat, and the driving rotating shaft penetrates through the top frame and is connected with the scissor mechanism control connecting rod group; the grabbing head sliding block is connected with the telescopic guide rail in a sliding mode, and the top of the grabbing head sliding block is connected with the scissor telescopic mechanism; the scissor fork telescopic mechanism is connected with the scissor fork mechanism control connecting rod group, the scissor fork mechanism control connecting rod group is connected with the connecting rod control shaft, and the connecting rod control shaft sequentially drives the scissor fork mechanism control connecting rod group and the scissor fork telescopic mechanism so as to control the position of the gripper head sliding block on the telescopic guide rail.

Preferably, the scissors telescoping mechanism includes a plurality of scissors units, each of the scissors units is formed by two connecting rods, each of the connecting rods is provided with an axis hinge point and an end hinge point, two connecting rods in the same scissors unit are hinged together through the axis hinge point, the adjacent scissors units are hinged and connected through the end hinge point, the connecting line direction of the axis hinge point is consistent with the length direction of the telescopic guide rail, each of the connecting rods is divided into a long connecting rod and a short connecting rod, the scissors units arranged at the two ends of the scissors telescoping mechanism are formed by two short connecting rods, and the scissors units arranged at the middle of the scissors telescoping mechanism are formed by two long connecting rods.

Preferably, the scissor mechanism control linkage comprises a rotating shaft connecting rod and two scissor mechanism connecting rods, the middle point of the rotating shaft connecting rod is fixedly connected with the bottom of the driving rotating shaft, the two scissor mechanism connecting rods are symmetrically arranged on two sides of the rotating shaft connecting rod, and the tail part of the two scissor mechanism connecting rods is hinged to the rotating shaft connecting rod.

In order to grab soft bag packages stacked at different intervals, a grabbing mechanism at the bottom of the spider-hand robot has to have a telescopic grabbing stacking function, and a conventional grabbing head with a telescopic structure is often provided with a cylinder, a screw rod and other structures, so that the self weight of the grabbing head is large. The load of ordinary spider hand robot all is all about 3 kilograms usually, is difficult to the ordinary head of grabbing of drive structure and carries out high removal, and the flexible head of grabbing of this application design adopts simple fork mechanism cooperation spider hand robot own axis of rotation to realize flexible function, greatly reduced the dead weight of flexible head of grabbing to the high-speed motion for grabbing the head provides the guarantee.

Preferably, the top of the connecting rod of the scissors mechanism is connected with an axis hinge point in the scissors telescoping mechanism.

Preferably, the head-grabbing slider comprises a slider and a suction cup frame below the slider, and a negative pressure suction cup is arranged at the bottom of the suction cup frame.

Preferably, the lower swing arm is composed of two parallel connecting rods, ball pins are respectively arranged at the bottom of the upper swing arm and the upper end of the connecting seat, and two ends of each connecting rod are movably connected with the upper swing arm and the connecting seat through the ball pins respectively.

Preferably, the telescopic guide rail is a non-metal light material guide rail, a plastic bearing is arranged between the sliding block and the telescopic guide rail, and hollow lightening grooves or hollow lightening holes are formed in the top frame, the side baffle, the front frame plate, the rear frame plate and the suction cup frame.

Preferably, the driving rotating shaft and the connecting rod control shaft are in transmission connection in a gear transmission mode.

Preferably, the station plate comprises a fixed bottom plate, a bearing plate and a stop plate; the fixed bottom plate, the bearing plate and the stop baffle are arranged at an included angle and connected at the tops of the fixed bottom plate, the bearing plate and the stop baffle, and the bearing plate is arranged between the fixed bottom plate and the stop baffle; the fixed bottom plate is a flat plate, the bearing plate is a two-folded plate consisting of a gliding section at the top and a bearing section at the tail, the stop plate is a three-folded plate consisting of a stop section at the top, a turn-over inhibiting section at the middle and a height increasing section at the tail, and the bending directions of the turn-over inhibiting section and the height increasing section are opposite; an opening space clamped between the supporting plate and the stopping plate is a soft bag holding area.

Preferably, an included angle between the downward sliding section and the fixed bottom plate is an acute angle, an included angle between the stopping blocking section and the fixed bottom plate is an obtuse angle, the bearing section and the heightening section are turned over towards the outer side of the soft bag holding area, and the turning-over restraining section is turned over towards the inner side of the soft bag holding area;

preferably, the lower sliding section is provided with a ventilation through hole, so that negative pressure is prevented from being formed on the surface of the station plate when the grabbing suction plate sucks the soft bag, the grabbing effect is prevented from being influenced, and the sucking disc can suck the station plate up when the bag is leaked.

Preferably, the fixing bottom plate is provided with a screw hole, the screw hole is provided with a mounting through hole at the projection position of the lower sliding section, and the mounting through hole is used for enabling a mounting tool (such as a screwdriver) to perform tightening and loosening operations on a bolt at the lower screw hole through the mounting through hole in the process of mounting the station board on the transmission belt.

Preferably, the tops of the heightening sections are flush with the tops of the bearing sections, and the soft bags can be effectively prevented from falling into gaps between the adjacent station plates through the splicing of the heightening sections and the bearing sections between the two adjacent station plates arranged on the conveying belt.

Preferably, the angle between the lower sliding section and the fixed bottom plate is 30 degrees.

Preferably, the opening direction of a soft bag shelving area of the station plate is opposite to the movement direction of the conveying belt, the feeding device is arranged above the head of the conveying belt, the photoelectric counting device is arranged at an outlet of the feeding device, a station plate mounting hole is formed in the surface of the conveying belt, the station plate is fixed on the surface of the conveying belt through a bolt, a screw hole and the station plate mounting hole, threads matched with the bolt are arranged in the station plate mounting hole, the feeding device is a belt conveyor, width adjusting baffle plates are arranged on two sides of the feeding device, a falling prevention plate and a soft bag transverse adjusting device are arranged on two sides of the conveying belt, the falling prevention plate is arranged between the feeding device and the soft bag transverse adjusting device, and the soft bag transverse adjusting device comprises a positioning cylinder and a positioning push plate.

Preferably, the position adjusting push plate is provided with an outward turnover section towards the feeding device.

Preferably, the carton conveying mechanism comprises a carton conveying frame, a transposition guide rail, a transposition cylinder and a transposition sliding clamp; the transposition sliding clamp comprises a clamp seat, clamping plates and a clamping plate cylinder, wherein the clamp seat is connected to the transposition guide rail in a sliding mode and connected with the transposition cylinder, and the clamping plates are arranged on two sides of the clamp seat and connected with the clamp seat through the clamping plate cylinder.

To sum up, the utility model has the advantages that:

1. a soft bag case packer, through the structural design of flexible head of grabbing for the mechanism can snatch and can adjust the interval of putting after snatching at will to the soft bag of arbitrary interval, the application scope of equipment is wide, the commonality is strong. In addition, the telescopic rotating shaft of the spider-hand robot is fully utilized, so that the grabbing head sliding block for directly controlling the telescopic grabbing head to conduct telescopic operation is enabled to conduct telescopic operation, and the automation degree of the whole mechanism is improved.

2. A soft bag case packer, shelve the rational design in district through the soft bag for can automatic landing to suitable position after the soft bag gets into the station board, and have and prevent that the soft bag turns over before, prevent to fall etc. excellent effect.

3. A soft bag case packer, improved soft bag vanning's efficiency greatly, saved the human cost.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural diagram of a spider hand robot according to the present invention;

FIG. 3 is a schematic structural view of a telescopic gripper head according to the present invention;

FIG. 4 is a schematic structural view of a control linkage of the scissor telescoping mechanism and the scissor mechanism of the present invention;

FIG. 5 is a schematic structural view of the station board of the present invention;

FIG. 6 is a schematic structural view of a soft bag conveying mechanism of the present invention;

fig. 7 is a schematic structural diagram of the middle carton conveying mechanism of the present invention.

Detailed Description

The following specific embodiments are merely illustrative of the present invention, and are not intended to limit the present invention, and those skilled in the art can make modifications of the present embodiments without inventive contribution as required after reading the present specification, but all the embodiments are protected by patent laws and protection within the scope of the present invention.

The present invention will be described in detail by way of examples with reference to the accompanying drawings.

Example 1:

according to the figure 1, the soft bag boxing machine comprises a spider hand robot 1, a telescopic grabbing head 2, a soft bag conveying mechanism 3, a carton conveying mechanism 4 and a shell rack 5, wherein the spider hand robot 1 is fixed to the top of the shell rack 5, the telescopic grabbing head 2 is fixed to the bottom of the spider hand robot 1, and the soft bag conveying mechanism 3 and the carton conveying mechanism 4 are arranged below the spider hand robot 1 and the telescopic grabbing head 2.

As shown in fig. 2, the spider-hand robot 1 includes a fixed top base 11, a swing table 12, and a telescopic rotating shaft 13 and a movable swing arm 14 provided between the fixed top base 11 and the swing table 12; the number of the telescopic rotating shafts 13 is one, and the number of the movable swing arms 14 is three and is uniformly distributed on the circumference; the fixed top seat 11 is correspondingly provided with a rotating motor 111 for driving the telescopic rotating shaft 13 and three swinging motors 112 for driving the movable swinging arm 14; the swing table 12 comprises a connecting seat 121, a driving rotating shaft 122 and a connecting rod control shaft 123, wherein the driving rotating shaft 122 is in transmission connection with the connecting rod control shaft 123 through a gear; the two ends of the telescopic rotating shaft 13 are respectively connected with the rotating motor 111 and the driving rotating shaft 122 through the universal coupling 131, the movable swing arm 14 comprises an upper swing arm 141 and a lower swing arm 142 which are movably connected, the top of the upper swing arm 141 is connected with the swinging motor 112, and the bottom of the lower swing arm 142 is connected with the connecting seat 121. The lower swing arm 142 is composed of two parallel connecting rods 1421, the bottom of the upper swing arm 131 and the upper end of the connecting seat 121 are respectively provided with a ball stud 16, and the two ends of the connecting rod 1421 are movably connected with the upper swing arm 131 and the connecting seat 121 through the ball studs 16 respectively.

As shown in fig. 3 and 4, the telescopic gripper head 2 includes a gripper head fixing frame 21, a telescopic guide rail 22, a gripper head slider 23, a scissors telescoping mechanism 24, and a scissors control linkage 25.

The head fixing frame 21 comprises a top frame 211, a side baffle 212, a front frame plate 213 and a rear frame plate 214; the telescopic guide rail 22 is arranged between the front frame plate 213 and the rear frame plate 214, the scissors telescoping mechanism 24 and the scissors mechanism control linkage 25 are arranged between the top frame 211 and the telescopic guide rail 22, the top frame 211 is fixed with the connecting seat 121, and the driving rotating shaft 122 passes through the top frame 211 and is connected with the scissors mechanism control linkage 25; the gripper head sliding block 23 is connected with the telescopic guide rail 22 in a sliding manner, and the top of the gripper head sliding block is connected with the scissor telescopic mechanism 24; the scissor telescopic mechanism 24 is connected with the scissor mechanism control linkage 25, the scissor mechanism control linkage 25 is connected with the connecting rod control shaft 123, and the connecting rod control shaft 123 drives the scissor mechanism control linkage 25 and the scissor telescopic mechanism 24 in sequence, so that the position of the gripper head sliding block 23 on the telescopic guide rail 22 is controlled. The head-grasping slider 23 includes a slider 231 and a suction cup holder 232 thereunder, and a negative pressure suction cup (not shown in the figure) is arranged at the bottom of the suction cup holder 232. The telescopic guide rail 22 is a non-metal light material guide rail, a plastic bearing 233 is arranged between the sliding block 231 and the telescopic guide rail 22, and hollow lightening grooves or hollow lightening holes are formed in the top frame 211, the side baffle 212, the front frame plate 213, the rear frame plate 214 and the sucker frame 232.

The scissors telescoping mechanism 24 includes a plurality of scissors units 240, the scissors units 240 are formed by two connecting rods 241, the connecting rods 241 are provided with axis hinge points 242 and end hinge points 243, the two connecting rods 241 in the same scissors unit 240 are hinged together through the axis hinge points 242, the adjacent scissors units 240 are hinged and connected through the end hinge points 243, the connecting direction of the axis hinge points 242 is consistent with the length direction of the telescopic guide rail 22, the connecting rods 241 are divided into long connecting rods 2411 and short connecting rods 2412, the scissors units 240 arranged at the two ends of the scissors telescoping mechanism 24 are formed by two short connecting rods 2412, and the scissors units 240 arranged at the middle part of the scissors telescoping mechanism 24 are formed by two long connecting rods 2411.

The scissors mechanism control linkage 25 includes a rotating shaft connecting rod 251 and two scissors mechanism connecting rods 252, the middle point of the rotating shaft connecting rod 251 is fixedly connected with the bottom of the driving rotating shaft 122, the two scissors mechanism connecting rods 252 are symmetrically arranged at two sides of the rotating shaft connecting rod 251, and the tail portion of the two scissors mechanism connecting rods is hinged to the rotating shaft connecting rod 251. The top of the scissors mechanism connecting rod 252 is connected to the pivot point 242 of the scissors mechanism 24.

According to fig. 6, the soft bag conveying mechanism 3 comprises a station board 31, a conveying belt 32, a support board 33, a photoelectric counting device (not shown in the figure) and a feeding device 34, wherein a driving roller driven by a motor is arranged in the support board 33, the conveying belt 32 is covered outside the driving roller, and a plurality of station boards 31 are equidistantly fixed outside the conveying belt 32.

As shown in fig. 5, the station board 31 includes a fixed base plate 311, a support plate 312, and a stopper plate 313; the fixed bottom plate 311, the bearing plate 312 and the stop baffle 313 are arranged at an included angle and connected at the tops of the fixed bottom plate 311, the bearing plate 312 and the stop baffle 313; the fixed bottom plate 311 is a flat plate, the supporting plate 312 is a two-folded plate composed of a top sliding section 3121 and a tail receiving section 3122, the stop plate 313 is a three-folded plate composed of a top stop section 3131, a middle turning-inhibiting section 3132 and a tail height-increasing section 3133, and the bending directions of the turning-inhibiting section 3132 and the height-increasing section 3133 are opposite; the open space between the support plate 312 and the stop plate 313 is a soft bag resting area 314. The top of the raised section 3133 is flush with the top of the receiving section 3122.

The included angle between the lower sliding section 3121 and the fixed bottom plate 311 is 30 °, the included angle between the stopping stop section 3131 and the fixed bottom plate 311 is obtuse, the receiving section 3122 and the rising section 3133 are turned over toward the outside of the soft bag resting area 314, and the turning-over inhibiting section 3132 is turned over toward the inside of the soft bag resting area 314; the lower sliding section 3121 is provided with a ventilation through hole 3123, the fixed base plate 311 is provided with a screw hole 3111, and the screw hole 3111 is provided with a mounting through hole 3124 at a projection position of the lower sliding section 3121.

The opening direction of a soft bag placing area 3314 of a station board 331 is opposite to the movement direction of a transmission belt 332, a feeding device 334 is arranged above the head of the transmission belt 332, a photoelectric counting device is arranged at an outlet of the feeding device 334, a station board mounting hole is arranged on the surface of the transmission belt 32, the station board 31 is fixed on the surface of the transmission belt 32 through a bolt, a screw hole 3111 and the station board mounting hole, a thread matched with the bolt is arranged in the station board mounting hole, the feeding device 34 is a belt conveyor, width adjusting baffles 341 are arranged on two sides of the feeding device 34, a falling-preventing board 321 and a soft bag transverse adjusting device 322 are arranged on two sides of the transmission belt 32, the falling-preventing board 321 is arranged between the feeding device 34 and the soft bag transverse adjusting device 322, and the soft bag transverse adjusting device 322 comprises a positioning cylinder 3221 and. The positioning pushing plate 3222 is provided with an outward turning section toward the feeding device 34.

As shown in fig. 7, the carton conveying mechanism 4 includes a carton conveying frame 41, a shift guide rail 42, a shift cylinder 43, and a shift slide clamp 44; the index slide clamp 44 includes a clamp seat 441 slidably coupled to the index rail 42 and coupled to the index cylinder 43, a clamp plate 442 disposed at both sides of the clamp seat 441 and coupled to the clamp seat 441 by a clamp plate cylinder 443, and a clamp plate cylinder 443.

The equipment drives the telescopic grabbing head 2 to grab the soft bag from the station plate 31 through the spider hand robot 1 and then puts the soft bag in a carton. In operation, soft bags sequentially fall from the feeding device 34 into the station board 31 on the conveying belt 32, and the photoelectric counting device counts the soft bags. The station board 31 transports the soft bag to a set position along with the motion of the transmission belt 32, and during the transportation process, the spider hand robot 1 simultaneously drives the telescopic grabbing head 2 to move, and the telescopic grabbing head 2 simultaneously stretches out and draws back, so that the working efficiency is improved. The cartons enter the machine in sequence under the action of the carton conveying mechanism 4.

Claims (10)

1. The soft bag boxing machine is characterized by comprising a spider hand robot (1), a telescopic grabbing head (2), a soft bag conveying mechanism (3), a carton conveying mechanism (4) and a shell rack (5), wherein the spider hand robot (1) is fixed to the top of the shell rack (5), the telescopic grabbing head (2) is fixed to the bottom of the spider hand robot (1), and the soft bag conveying mechanism (3) and the carton conveying mechanism (4) are arranged below the spider hand robot (1) and the telescopic grabbing head (2);

the spider-hand robot (1) comprises a fixed top seat (11), a swing table (12), a telescopic rotating shaft (13) and a movable swing arm (14), wherein the telescopic rotating shaft (13) and the movable swing arm (14) are arranged between the fixed top seat (11) and the swing table (12);

the telescopic gripper head (2) comprises a gripper head fixing frame (21), a telescopic guide rail (22), a gripper head sliding block (23), a shear fork telescopic mechanism (24) and a shear fork mechanism control connecting rod set (25);

soft bag conveying mechanism (3) include, station board (31), transmission band (32), mounting panel (33), photoelectric counting device and feed arrangement (34), are provided with motor drive's driving roller in mounting panel (33), transmission band (32) cladding is in outside the driving roller, it is a plurality of station board (31) equidistance is fixed the transmission band (32) outside.

2. A soft bag boxing machine according to claim 1, wherein the number of the telescopic rotating shafts (13) is one, and the number of the movable swinging arms (14) is three and is uniformly distributed on the circumference; the fixed top seat (11) is correspondingly provided with a rotating motor (111) for driving the telescopic rotating shaft (13) and three swinging motors (112) for driving the movable swinging arm (14); the swing table (12) comprises a connecting seat (121), a driving rotating shaft (122) and a connecting rod control shaft (123), wherein the driving rotating shaft (122) is in transmission connection with the connecting rod control shaft (123); flexible pivot (13) both ends respectively through universal joint (131) with rotate motor (111) with drive pivot (122) link to each other, remove swing arm (14) and include swing arm (141) and lower swing arm (142) on swing joint, go up swing arm (141) top with swing motor (112) link to each other, swing arm (142) bottom with connecting seat (121) link to each other down.

3. A soft bag boxing machine according to claim 2, wherein the gripper fixing frame (21) comprises a top frame (211), a side baffle (212), a front frame plate (213) and a rear frame plate (214); the telescopic guide rail (22) is arranged between the front frame plate (213) and the rear frame plate (214), the scissors telescopic mechanism (24) and the scissors mechanism control connecting rod set (25) are arranged between the top frame (211) and the telescopic guide rail (22), the top frame (211) is fixed with the connecting seat (121), and the driving rotating shaft (122) penetrates through the top frame (211) to be connected with the scissors mechanism control connecting rod set (25); the grabbing head sliding block (23) is connected with the telescopic guide rail (22) in a sliding mode, and the top of the grabbing head sliding block is connected with the scissor telescopic mechanism (24); the scissor fork telescoping mechanism (24) is connected with the scissor fork mechanism control connecting rod set (25), the scissor fork mechanism control connecting rod set (25) is connected with the connecting rod control shaft (123), and the connecting rod control shaft (123) sequentially drives the scissor fork mechanism control connecting rod set (25) and the scissor fork telescoping mechanism (24) so as to control the position of the gripper head sliding block (23) on the telescopic guide rail (22).

4. The soft bag boxing machine according to claim 3, wherein the scissor telescoping mechanism (24) comprises a plurality of scissor units (240), the scissor units (240) are formed by hinging two connecting rods (241), an axis hinging point (242) and an end hinging point (243) are arranged on each connecting rod (241), two connecting rods (241) in the same scissor unit (240) are hinged together through the axis hinging point (242), adjacent scissor units (240) are hinged and connected through the end hinging points (243), and the connecting line direction of the axis hinging points (242) is consistent with the length direction of the telescopic guide rail (22).

5. The soft bag boxing machine according to claim 4, wherein the connecting rod (241) is divided into a long connecting rod (2411) and a short connecting rod (2412), the scissors units (240) arranged at both ends of the scissors telescoping mechanism (24) are composed of two short connecting rods (2412), and the scissors units (240) arranged in the middle of the scissors telescoping mechanism (24) are composed of two long connecting rods (2411).

6. A soft bag boxing machine according to claim 4 or 5, wherein the scissor mechanism control linkage (25) comprises a rotating shaft connecting rod (251) and two scissor mechanism connecting rods (252), the middle point of the rotating shaft connecting rod (251) is fixedly connected with the bottom of the driving rotating shaft (122), the two scissor mechanism connecting rods (252) are symmetrically arranged at two sides of the rotating shaft connecting rod (251), and the tail parts of the two scissor mechanism connecting rods are hinged with the rotating shaft connecting rod (251).

7. A soft bag boxing machine in accordance with claim 1, wherein the station plate (31) comprises a fixed bottom plate (311), a support plate (312) and a stop plate (313); the fixed bottom plate (311), the bearing plate (312) and the stop baffle plate (313) are arranged at an included angle and connected at the tops of the fixed bottom plate, the bearing plate (312) and the stop baffle plate (313), and the bearing plate (312) is arranged between the fixed bottom plate (311) and the stop baffle plate (313); the fixed bottom plate (311) is a flat plate, the bearing plate (312) is a two-folded plate consisting of a top downward sliding section (3121) and a tail bearing section (3122), the stop plate (313) is a three-folded plate consisting of a top stop section (3131), a middle turning-over restraining section (3132) and a tail heightening section (3133), and the bending directions of the turning-over restraining section (3132) and the heightening section (3133) are opposite; an opening space clamped between the supporting plate (312) and the stopping plate (313) is a soft bag placing area (314).

8. A soft bag boxing machine according to claim 7, wherein the angle between the lower sliding section (3121) and the fixed bottom plate (311) is an acute angle, the angle between the stopping section (3131) and the fixed bottom plate (311) is an obtuse angle, the receiving section (3122) and the heightening section (3133) are folded toward the outside of the soft bag resting area (314), and the turning-inhibiting section (3132) is folded toward the inside of the soft bag resting area (314); the lower sliding section (3121) is provided with a ventilation through hole (3123), a screw hole (3111) is arranged on the fixed bottom plate (311), and a mounting through hole (3124) is arranged at the projection position of the lower sliding section (3121) of the screw hole (3111).

9. The soft bag boxing machine according to claim 8, wherein the opening direction of the soft bag resting area (314) of the station board (31) is opposite to the movement direction of the conveying belt (32), the feeding device (34) is arranged above the head of the conveying belt (32), the photoelectric counting device is arranged at the outlet of the feeding device (34), the surface of the conveying belt (32) is provided with station board mounting holes, the station board (31) is fixed on the surface of the conveying belt (32) through bolts, screw holes (3111) and the station board mounting holes, threads matched with the bolts are arranged in the station board mounting holes, the feeding device (34) is a belt conveyor, width adjusting baffles (341) are arranged on two sides of the feeding device (34), and anti-falling soft bag transverse adjusting devices (321) and transverse adjusting devices (322) are arranged on two sides of the conveying belt (32), the anti-falling plate (321) is arranged between the feeding device (34) and the soft bag transverse adjusting device (322), and the soft bag transverse adjusting device (322) comprises a positioning cylinder (3221) and a positioning push plate (3222).

10. The soft bag boxing machine according to claim 1, wherein the carton conveying mechanism (4) comprises a carton conveying frame (41), a transposition guide rail (42), a transposition cylinder (43) and a transposition sliding clamp (44); the transposition sliding clamp (44) comprises a clamp seat (441), a clamping plate (442) and a clamping plate cylinder (443), wherein the clamp seat (441) is connected to the transposition guide rail (42) in a sliding mode and is connected with the transposition cylinder (43), and the clamping plate (442) is arranged on two sides of the clamp seat (441) and is connected with the clamp seat (441) through the clamping plate cylinder (443).

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