CN107443805B - Intelligent full-automatic packaging bag production equipment - Google Patents

Abstract

The invention discloses intelligent full-automatic packaging bag production equipment which sequentially comprises a film placing mechanism, a sterilizing box, a film receiving platform, a film buffering mechanism, a bottom round hole punching mechanism, a film forming mechanism, a bottom sealing mechanism, a zipper opening mechanism, a zipper ironing mechanism, a first vertical sealing mechanism, a second vertical sealing mechanism, a leveling component, a positioning color code mechanism, an easy-tearing opening mold, a round corner mold, a hanging hole mold, a shearing mechanism, a bag expanding and squeezing mechanism, an upper trolley mechanism, a lower trolley mechanism, a vacuum detection mechanism, a blanking mechanism, a hot top sealing component and a cold top sealing component along the bag production direction.

Description

Intelligent full-automatic packaging bag production equipment

Technical Field

The invention relates to the field of packaging equipment, in particular to intelligent full-automatic packaging bag production equipment.

Background

The packaging refers to the general names of containers, materials, auxiliary objects and the like used according to a certain technical method in order to protect products in the circulation process, facilitate storage and transportation and promote sales; and also to the operational activities of applying a certain technical method or the like in the course of using the container, the material and the auxiliary in order to achieve the above-mentioned object. Packaging has become an important industry in China, along with the rapid development of packaging industry in China, packaging production has increasingly appeared in promoting national economy construction and improving the status of mass culture life of people, and the packaging industry is taken as an independent industry system, the development of the packaging industry is listed in national economy and social development planning, the packaging industry in China has undergone a period of rapid development, has a certain production scale, forms a complete packaging industry system with complete categories of materials, products, machinery, packaging printing, design, scientific research and the like, and becomes an important component in the field of manufacturing industry in China. The existing packaging device is only suitable for packaging bags with specific specifications, the adjustment range is small, the vibration is large in the working process, and the working noise is large, so that the trouble is brought to the producer.

For this purpose, the applicant's application publication number CN106005573a discloses an automated packaging device. The utility model provides an on the basis based on above-mentioned patent, improved partial mechanism, the production of packing sack is more intelligent high-efficient.

Disclosure of Invention

The invention aims to provide intelligent full-automatic packaging bag production equipment.

The technical problems solved by the invention can be realized by adopting the following technical scheme:

the intelligent full-automatic packaging bag production equipment sequentially comprises a film placing mechanism, a sterilizing box, a film receiving platform, a film buffering mechanism, a bottom round hole punching mechanism, a film forming mechanism, a bottom sealing mechanism, a zipper opening mechanism, a zipper ironing mechanism, a first vertical sealing mechanism, a second vertical sealing mechanism, a leveling component, a positioning color code mechanism, an easy-tearing opening mold, a round corner mold, a hanging hole mold, a shearing mechanism, a bag expanding and extruding mechanism, an upper trolley mechanism, a lower trolley mechanism, a vacuum detection mechanism, a blanking mechanism, a hot top sealing component and a cold top sealing component along the bag production direction;

the upper and lower films from the film releasing mechanism are connected on the film connecting platform, pass through a sterilizing box, a film buffering mechanism and a bottom punching hole mechanism, and finally enter a film forming mechanism;

after the film is formed, sequentially passing through a bottom sealing mechanism, a zipper opening mechanism, a zipper ironing mechanism, a first vertical sealing mechanism, a second vertical sealing mechanism and a leveling component, wherein the manufacturing of the outer outline of the bag is completed;

then after passing through the positioning color code mechanism, the easy-to-tear opening die, the round corner die and the hanging hole die, the manufacturing of the connected bag is completed;

then shearing the bag film into separated bags through a shearing mechanism, and then finishing the production of finished products after passing through a bag expanding and extruding mechanism, an upper trolley mechanism, a lower trolley mechanism, a vacuum detection mechanism, a blanking mechanism, a hot top sealing assembly and a cold top sealing assembly, and outputting the products through an output assembly, wherein the vacuum detection mechanism detects whether the bags reach an ideal opening degree;

it is characterized in that the bag-squeezing mechanism comprises a bag-squeezing mechanism, at least one horizontal sliding rail and a rotation driving device,

the bag squeezing mechanism comprises:

a bag squeezing fixing seat;

the first swing rod and the second swing rod are corresponding to the bag squeezing fixing seat, one ends of the first swing rod and the second swing rod are respectively arranged on the horizontal sliding rail in a sliding mode through a first sliding block and a second sliding block, the other ends of the first swing rod and the second swing rod are respectively connected with a first rotating device and a second rotating device, and actions of the first rotating device and the second rotating device are linked;

the bag unfolding mechanism comprises:

a bag-expanding fixing seat;

the third swing rod and the fourth swing rod are corresponding to the bag expanding fixed seat, one ends of the third swing rod and the fourth swing rod are respectively arranged on the horizontal sliding rail in a sliding way through a third sliding block and a fourth sliding block, the other ends of the third swing rod and the fourth swing rod are respectively connected with a third rotating device and a fourth rotating device, and actions of the third rotating device and the fourth rotating device are linked;

the second rotating device is connected with the third rotating device through a transmission connecting rod;

when the rotation driving device drives the first or second or third or fourth rotation device to work so as to generate rotation, the first swing rod and the second swing rod swing under the drive of the first and second rotation devices, so that the first and second sliding blocks are mutually close to each other on the horizontal sliding rail so as to achieve bag squeezing action; meanwhile, under the drive of the transmission connecting rod, the third swing rod and the fourth swing rod swing under the drive of the third rotating device and the fourth rotating device, so that the third sliding block and the fourth sliding block are mutually separated on the horizontal sliding rail to achieve bag unfolding action.

In a preferred embodiment of the present invention, the first, second, third and fourth rotating devices are respectively first, second, third and fourth sector gears, wherein the first and second sector gears are meshed with each other, and the third and fourth sector gears are meshed with each other; the rotation driving device comprises a rotation cam and a swing arm, one end of the swing arm is connected with the rotation cam, and the other end of the swing arm is connected with the first, second, third or fourth gear through a rotation connecting rod.

In a preferred embodiment of the invention, the lower trolley mechanism comprises an inner trolley and an outer trolley which are arranged in parallel at intervals, bottoms of the inner trolley and the outer trolley are respectively arranged on the inner slide rail and the outer slide rail in a sliding mode, first ends of the inner trolley and the outer trolley are respectively connected with a first driving device, the first driving devices drive the inner trolley and the outer trolley to reciprocate along the length directions of the inner slide rail and the outer slide rail, a plurality of inner top claws and outer top claws which are arranged in opposite directions are respectively arranged on inner walls of the inner trolley and the outer trolley at intervals along the length directions, bottoms of the inner slide rail and the outer slide rail are respectively connected with a second driving device, and the second driving devices drive the inner slide rail and the outer slide rail to open and close, so that the opening and the closing of the inner trolley and the outer trolley are controlled.

In a preferred embodiment of the present invention, the first driving device includes a traveling cam indexing box, a first connecting rod and a second connecting rod, wherein the output end of the traveling cam indexing box is connected with a traveling swing arm, two ends of the first connecting rod are respectively connected with the first end of the inner trolley and the traveling swing arm, and two ends of the second connecting rod are respectively connected with the first end of the outer trolley and the traveling swing arm; the second driving device comprises an opening and closing cam indexing box, a power shaft, at least one third connecting rod, at least one fourth connecting rod, at least one inner swinging arm and at least one outer swinging arm, wherein the output end of the opening and closing cam indexing box drives the power shaft to rotate through a driving assembly, an inner swinging arm and an outer swinging arm are respectively arranged on the power shaft, the top ends of the inner swinging arm and the outer swinging arm are respectively connected with the bottoms of the inner sliding rail and the outer sliding rail, the bottom ends of the inner swinging arm and the outer swinging arm are respectively connected with one ends of the third connecting rod and the fourth connecting rod, and the other ends of the third connecting rod and the fourth connecting rod are respectively connected with a first swinging arm and a second swinging arm on the power shaft.

In a preferred embodiment of the present invention, the driving assembly includes an opening and closing swing arm, a transmission link, and a lifting arm, wherein the opening and closing swing arm is connected with an output end of the opening and closing cam indexing box, the lifting arm is connected with the power shaft, and the transmission link is respectively connected with the opening and closing swing arm and the lifting arm.

In a preferred embodiment of the present invention, the inner swing arm and the outer swing arm are respectively a pair, and are respectively disposed at two sides of the middle of the inner slide rail and the outer slide rail at intervals, and the third connecting rod and the fourth connecting rod are respectively a pair, and each of the third connecting rod and the fourth connecting rod corresponds to an inner swing arm and an outer swing arm respectively.

In a preferred embodiment of the present invention, the inner swing arm and the outer swing arm are respectively defined in the inner swing arm seat and the outer swing arm seat such that the inner swing arm and the outer swing arm cannot swing in a length direction of the inner slide rail and the outer slide rail.

In a preferred embodiment of the present invention, the zipper mechanism comprises:

a base;

the zipper clamping device comprises a base, a sealing block outer clamping arm and a sealing block inner clamping arm which are arranged on the base at intervals from front to back, wherein the bottom ends of the sealing block outer clamping arm and the sealing block inner clamping arm are movably connected to the base, the middle parts of the sealing block outer clamping arm and the sealing block inner clamping arm are respectively provided with an outer zipper sealing block component and an inner zipper sealing block component for sealing a zipper, and the outer zipper sealing block component and the inner zipper sealing block component are oppositely arranged;

the power driving device is connected with the top ends of the outer clamping arm of the sealing block and the inner clamping arm of the sealing block, and drives the outer clamping arm of the sealing block and the inner clamping arm of the sealing block to open and close so that the outer and inner zipper sealing block components can open and close the zipper.

In a preferred embodiment of the present invention, the power driving device includes:

the first power support lugs and the second power support lugs are arranged on two sides of the base side substrate and are connected through a cross rod;

the first power swivel mount and the second power swivel mount are respectively rotatably arranged at the inner sides of the first power support lug and the second power support lug;

the first ends of the outer pull rod and the inner pull rod are respectively hinged with the top ends of the seal block outer clamping arm and the seal block inner clamping arm, and the second ends of the outer pull rod and the inner pull rod are respectively hinged with a first cross rod and a second cross rod between the first power swivel mount and the second power swivel mount;

the bottom end of the power swing arm is movably connected to the base, and the top end of the power swing arm is provided with a cam follower;

the first end of the tension spring is connected with the first power support lug, and the second end of the tension spring is connected with the power swing arm;

the first end of the power pull rod is hinged with the first power swivel base, and the second end of the power pull rod is hinged with the power swing arm;

and the cam is rotatably arranged and corresponds to the tangency of the cam follower.

In a preferred embodiment of the present invention, the outer zipper closure assembly comprises:

an outer zipper seal;

the outer zipper sealing block is connected with the outer zipper sealing block and is arranged on the vertical adjusting groove of the outer clamping arm of the sealing block in a lifting manner;

the inner zipper seal assembly includes:

an inner zipper seal;

and the inner sealing block locking block is connected with the inner zipper sealing block and is arranged on the vertical adjusting groove of the inner clamping arm of the sealing block in a lifting manner.

By adopting the technical scheme, the invention improves part of mechanisms in the prior art, so that the efficiency of packaging bags is greatly improved, and the intelligent full-automatic effect is achieved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a front view of one embodiment of the present invention.

Fig. 2 is a front view of a bag deployment mechanism according to an embodiment of the present invention.

Fig. 3 is a side view of fig. 2.

Fig. 4 is a front view of a lower trolley mechanism in accordance with one embodiment of the present invention.

Fig. 5 is a top view of fig. 4.

Fig. 6 is a side view of fig. 4.

Fig. 7 is a front view of a zipper mechanism of an embodiment of the invention.

Fig. 8 is a side view of fig. 7.

Fig. 9 is a perspective view of fig. 7.

Detailed Description

The invention is further described below in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the implementation of the invention easy to understand.

Referring to fig. 1 to 9, the intelligent full-automatic packaging bag production equipment sequentially comprises a film placing mechanism 1, a sterilizing box 2, a film receiving platform 3, a film buffer mechanism 4, a bottom round hole punching mechanism 5, a film forming mechanism 6, a bottom sealing mechanism 7, a zipper sealing mechanism 8, a zipper opening mechanism 9, a zipper ironing mechanism 10, a first vertical sealing mechanism 11, a second vertical sealing mechanism 12, a leveling component 13, a positioning color mark mechanism 14, an easy-tearing opening mold 15, a round corner mold 16, a hanging hole mold 17, a shearing mechanism 18, a bag expanding and extruding mechanism 19, an upper trolley mechanism 20, a lower trolley mechanism 21, a vacuum detection mechanism 22, a blanking mechanism 23, a hot top sealing component 24 and a cold top sealing component 25 along the bag production direction.

The upper and lower films from the film releasing mechanism 1 are connected at a film connecting platform 3, pass through a sterilizing box 2, a film buffering mechanism 4 and a bottom round hole punching mechanism 5, and finally enter a film forming mechanism 6;

after the film is formed, sequentially passing through a bottom sealing mechanism 7, a zipper sealing mechanism 8, a zipper opening mechanism 9, a zipper ironing mechanism 10, a first vertical sealing mechanism 11, a second vertical sealing mechanism 12 and a leveling component 13, wherein the outer contour of the bag is manufactured;

then after passing through the positioning color code mechanism 14, the easy-tearing opening die 15, the round corner die 16 and the hanging hole die 17, the manufacturing of the connected bag is completed;

then the bag film is sheared into separated bags through the shearing mechanism 18, and then finished products are manufactured through the bag expanding and extruding mechanism 19, the upper trolley mechanism 20, the lower trolley mechanism 21, the vacuum detection mechanism 22, the blanking mechanism 23, the hot top sealing assembly 24 and the cold top sealing assembly 25, and the products are output through the output assembly 26, wherein the vacuum detection mechanism 22 detects whether the bags reach the ideal opening degree.

The film placing mechanism 1, the sterilizing box 2, the film receiving platform 3, the film buffer mechanism 4, the bottom punching round hole mechanism 5, the film forming mechanism 6, the bottom sealing mechanism 7, the zipper opening mechanism 9, the zipper ironing mechanism 10, the first vertical sealing mechanism 11, the second vertical sealing mechanism 12, the leveling component 13, the positioning color code mechanism 14, the easy-tearing opening mold 15, the round corner mold 16, the hanging hole mold 17, the shearing mechanism 18, the trolley feeding mechanism 20, the vacuum detecting mechanism 22, the blanking mechanism 23, the hot top sealing component 24 and the cold top sealing component 25 are all the prior art in the existing packaging equipment.

As shown in fig. 2 and 3, the bag squeezing mechanism 19 includes a bag squeezing mechanism 100 ', a bag squeezing mechanism 100a ', at least one horizontal rail 200 ', and a rotation driving device 300 ', where the horizontal rails 200 ' are a pair, and are disposed at intervals up and down to enhance the stability of movement.

The bag squeezing mechanism 100 'comprises a bag squeezing fixing seat 110', and a first swing rod 121 'and a second swing rod 122' corresponding to the bag squeezing fixing seat. One ends of the first swing link 121 ' and the second swing link 122 ' are respectively arranged on the horizontal sliding rail 200 ' in a sliding way through the first sliding block 131 ' and the second sliding block 132 ', and the other ends of the first swing link 121 ' and the second swing link 122 ' are respectively connected with a first rotating device and a second rotating device, and the actions of the first rotating device and the second rotating device are linked. The first rotating means and the second rotating means in this embodiment are first and second sector gears 141 ', 142' which are engaged with each other, respectively.

The bag expanding mechanism 100a 'comprises a bag squeezing fixing seat 110 a', and a third swing rod 123 'and a fourth swing rod 124' corresponding to the bag squeezing fixing seat. One ends of the third swing link 123 ' and the fourth swing link 124 ' are respectively arranged on the horizontal sliding rail 200 ' in a sliding way through a third sliding block 133 ' and a fourth sliding block 134 ', and the other ends of the third swing link 123 ' and the fourth swing link 124 ' are respectively connected with a third rotating device and a fourth rotating device, and the actions of the third rotating device and the fourth rotating device are linked. The third and fourth rotating means in this embodiment are third and fourth sector gears 143 ', 144' respectively, which are engaged with each other.

The second rotating device is connected with the third rotating device through a transmission connecting rod 400 ', namely, the second sector gear 142' and the third sector gear 143 'are connected through the transmission connecting rod 400'.

The rotation driving device 300 ' in the present embodiment includes a rotation cam 310 ' and a swing arm 320 ' having one end connected to the rotation cam 310 ', and the other end of the swing arm 320 ' is connected to the first sector gear 141 ' through a rotation link 330 '. Of course, the other end of the swing arm 320 'may be connected to the second sector gear 142' or the third sector gear 143 'or the fourth sector gear 144', as long as one of the sector gears is driven to move.

The working principle of the bag-expanding mechanism 19 is as follows:

when the rotating cam 310 ' rotates, the swing arm 320 ' is driven to drive the rotating connecting rod 330 ' to work, so that the first sector gear 141 ' works to rotate, and the first swing rod 121 ' and the second swing rod 122 ' swing under the drive of the first sector gear 141 ' and the second sector gear 142 ', so that the first sliding block 131 ' and the second sliding block 132 ' are mutually close to each other on the horizontal sliding rail 200 ' to achieve bag squeezing action; meanwhile, the third swing link 123 'and the fourth swing link 124' are driven by the third sector gear 143 'and the fourth sector gear 144' to swing under the driving of the transmission connecting rod 400 ', so that the third sliding block 133' and the fourth sliding block 134 'are separated from each other on the horizontal sliding rail 200' to achieve the bag unfolding action.

The bag squeezing mechanism 19 can realize the actions of rapid bag expansion and bag squeezing at the same time, and improves the production efficiency.

As shown in fig. 4 to 6, the lower carriage mechanism 21 includes an inner carriage 100a "and an outer carriage 100 b" disposed in parallel at a spacing, and bottoms of the inner carriage 100a "and the outer carriage 110 b" are slidably disposed on the inner rail 110a "and the outer rail 110 b", respectively. The first ends of the inner and outer carriages 100a "and 100 b" are connected to the first driving device 200 ", respectively, and the first driving device 200" drives the inner and outer carriages 100a "and 100 b" to reciprocate along the length directions of the inner and outer slide rails 110a "and 110 b". The first driving device 200″ in this embodiment includes a traveling cam indexing box 210″ and a first link 220a″ and a second link 220b ", the traveling swing arm 230″ is connected to the output end 211" of the traveling cam indexing box 210 ", two ends of the first link 220 a" are connected to the first end of the inner trolley 100a "and the traveling swing arm 230", and two ends of the second link 220b "are connected to the first end of the outer trolley 100 b" and the traveling swing arm 230 ".

The inner walls of the inner trolley 100a 'and the outer trolley 100 b' are respectively provided with a plurality of inner top claws 101a 'and outer top claws 101 b' which are arranged in opposite directions at intervals along the length direction, the bottoms of the inner slide rail 110a "and the outer slide rail 110 b" are respectively connected with a second driving device 300 ", and the second driving device 300" drives the inner slide rail 110a "and the outer slide rail 110 b" to open and close, so as to control the opening and closing of the inner trolley 100a "and the outer trolley 100 b". The second driving device 300 "in this embodiment includes an opening and closing cam indexing box 310", a power shaft 320 ", at least one third link 330 a", at least one fourth link 330b ", at least one inner swing arm 340 a", at least one outer swing arm 340b ", and an output 311" of the opening and closing cam indexing box 310 "drives the power shaft 320" to rotate through a driving assembly 350 ". The driving assembly 350 "in this embodiment includes an opening and closing swing arm 351", a transmission link 352 ", and a lifting arm 353", the opening and closing swing arm 351 "is connected to the output end 311" of the opening and closing cam indexing box 310 ", the lifting arm 353" is connected to the power shaft 320 ", and the transmission link 352" is connected to the opening and closing swing arm 351 "and the lifting arm 353", respectively.

The power shaft 320 "is provided with an inner rotating arm 321 a" and an outer rotating arm 321b ", and two ends of the power shaft 320" are respectively rotatably arranged on the fixing seat 322 ".

The top ends of the inner swing arm 340a "and the outer swing arm 340 b" are respectively connected with the bottoms of the inner slide rail 110a "and the outer slide rail 110 b", the bottom ends of the inner swing arm 340a ' and the outer swing arm 340b ' are respectively connected with one ends of the third connecting rod 330a ', the fourth connecting rod 330b ', the other ends of the third link 330a ' and the fourth link 330b ' are respectively connected with a first rotating arm 321a ' and a second rotating arm 321b ' on the power shaft 320 '.

To improve the stability of movement, the inner swing arm 340a "and the outer swing arm 340 b" are respectively paired, and are respectively disposed at two sides of the middle of the inner rail 110a "and the outer rail 110 b" at intervals, and the third link 330a "and the fourth link 330 b" are respectively paired, and each of the third link 330a "and the fourth link 330 b" corresponds to one of the inner swing arm 340a "and the outer swing arm 340 b".

The inner swing arm 340a "and the outer swing arm 340 b" are respectively defined within the inner swing arm seat 341a "and the outer swing arm seat 341 b" such that the inner swing arm 340a "and the outer swing arm 340 b" cannot swing in the length direction of the inner slide rail 110a "and the outer slide rail 110 b".

The lower trolley mechanism 21 operates as follows:

when the opening and closing cam indexing box 310 "drives the opening and closing swing arm 351" to swing, the transmission link 352 "drives the lifting arm 353" to swing, the lifting arm 353 "swings to drive the power shaft 320" to rotate, so that the first rotating arm 321a "and the second rotating arm 321 b" swing, and the third link 330a "and the fourth link 330 b" enable the inner swing arm 340a "and the outer swing arm 340 b" of the travelling part to open and close, namely, the opening and closing of the inner trolley and the outer trolley, finally, the inner top claw 101a "and the outer top claw 101 b" are clamped and separated. When the traveling cam indexing box 210 "works, the traveling swing arm 230" swings left and right, and finally the inner trolley 100a "and the outer trolley 100 b" move left and right through the first connecting rod 220a "and the second connecting rod 220 b", so as to complete the bag receiving action.

As shown in connection with figures 7 to 9, the zipper mechanism 8 comprises a base 100 ', a block outer clamping arm 200', a zipper the in-block clamp arm 300 'and the power drive 400'. Outer seal clip arm 200 'and inner seal clip arm 300 the' front and rear intervals are arranged on the base 100 ', outer seal clip arm 200' and inner seal clip arm 300 the bottom end of the 'is movably hinged to the base 100'. The middle parts of the seal block outer clamping arm 200 'and the seal block inner clamping arm 300' are respectively provided with an outer part for tightly sealing the zipper the inner zipper closure assembly 500 ', 600', the outer and inner zipper closure assemblies are disposed opposite 500 ', 600'. The power drive 400 '"is coupled to the top ends of the outer seal clip arms 200'" and the inner seal clip arms 300 '", the power drive 400' drives the closure outer clip arm 200 '. And the inner clamping arm 300' of the sealing block to open and close, so as to enable the outer part to be the inner zipper closure assemblies 500 ', 600' perform a zipper closing and opening operation.

The power drive 400 "" in this embodiment includes first and second power lugs 410a "", 410b "", first and second powered swivel mounts 420a ', 420 b', outer and inner tie rods 430a ', 430 b', an outer and inner tie rod 430a ', 430 b'. First and second power lugs 410a ', 410b "" are disposed on either side of the base 100 "" side substrate 110 "", first and second power lugs 410 a', 410b 'are connected by a cross bar 411'. First and second power swivel mounts 420a ', 420b ' are rotatably arranged at the first stage by means of bearings 421 ', respectively the second power lugs 410a ', 410b ' are inboard. Outer tie rod 430a 'and inner tie rod 430 b' are respectively associated with the first ends of the seals the top ends of the out-of-block clip arms 200 'and the in-block clip arms 300' are hinged, the second ends of the outer and inner tie rods 430a 'and 430 b' are respectively connected to the first end a second powered swivel 420a ', second power swivel mount 420 a'. The bottom end of the power swing arm 440 'is movably hinged to the base 100', the top end of the power swing arm 440 'is provided with a cam follower 441'. A first end of the tension spring 450 "" is connected to the first power lug 410a "", a second end of the tension spring 450 '"is connected to the power swing arm 440'". A first end of the power draw bar 460 '"is hinged to the first power swivel 420 a'" and a second end of the power draw bar 460 '"is hinged to the power swing arm 440'". The cam 470 "" corresponds tangentially to the cam follower 441 "", and remain tangent all the time under the action of the tension spring 450'.

The outer zipper closure assembly 500 '"in this embodiment includes an outer zipper closure 510'" and an outer closure lock 520 '", the middle of the outer clip arm 200" ", is provided with a vertical adjustment slot 201" ", the outer block lock 520' is connected to the outer zipper block 510 'and is raised and lowered is disposed on the vertical adjustment slot 201" "of the outer clip arm 200" ", the up and down position of the outer zipper closure block 510' can be changed.

The inner zipper closure assembly 600 'includes an inner zipper closure block 610 "", and inner seal block locking block 620 "", the middle of the clip arm 300 "", within the block is provided with a vertical adjustment slot 301 "", the inner block lock block 620' "is connected to the inner zipper block 610 '" and is vertically disposed on the vertical adjustment slot 301' "of the block inner clamp arm 300 '", the up and down position of the inner zipper closure 610' can be changed. The outer zipper seal 510 ' and the inner zipper seal 610 ' in this embodiment are respectively identical to the slave: an outer part extending upward from the bottom of the block outer clip arm 200 ' and the block inner clip arm 300 ', respectively the inner lift adjustment screw 700a ", 700 b" "is connected, through its bottom adjusting handwheel 710a ', 710b ' can adjust the outer zipper closure 510 '. ' and inner zipper closure 610 '.

The base 100 "' side substrate 110" ' in this embodiment is also provided with a baffle 120 "', separating the working portion from the power portion.

The working principle of the invention is as follows:

the cam follower 441 "" is driven when the cam 470 "" is rotated to the lowest point by external power, causing one end of the powered swing arm 440 "", and in turn drives rotation of the first powered swivel mount 420a "" via the powered drawbar 460 "", so that the outer tie rod 430a "" is pulled rearward, while the inner tie rod 430b "" is pushed forward, and inner tie rod 430b the "" is pushed forward.

When the cam 470 'is rotated to its highest point by external power, the cam follower 441' is driven, causing one end of the powered swing arm 440 "", and in turn drives rotation of the first powered swivel mount 420a "" via the powered drawbar 460 "", causing the outer tie rod 430a "" to be pushed forward, and the inner pull rod 430b "" is pulled rearward, and inner tie rod 430b the "" is pulled back.

The zipper sealing mechanism 8 can rapidly finish the zipper sealing action, has high yield, improves the production quality and reduces the production cost.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The intelligent full-automatic packaging bag production equipment sequentially comprises a film placing mechanism, a sterilizing box, a film receiving platform, a film buffering mechanism, a bottom round hole punching mechanism, a film forming mechanism, a bottom sealing mechanism, a zipper opening mechanism, a zipper ironing mechanism, a first vertical sealing mechanism, a second vertical sealing mechanism, a leveling component, a positioning color code mechanism, an easy-tearing opening mold, a round corner mold, a hanging hole mold, a shearing mechanism, a bag expanding and extruding mechanism, an upper trolley mechanism, a lower trolley mechanism, a vacuum detection mechanism, a blanking mechanism, a hot top sealing component and a cold top sealing component along the bag production direction;

the upper and lower films from the film releasing mechanism are connected on the film connecting platform, pass through a sterilizing box, a film buffering mechanism and a bottom punching hole mechanism, and finally enter a film forming mechanism;

after the film is formed, sequentially passing through a bottom sealing mechanism, a zipper opening mechanism, a zipper ironing mechanism, a first vertical sealing mechanism, a second vertical sealing mechanism and a leveling component, wherein the manufacturing of the outer outline of the bag is completed;

then after passing through the positioning color code mechanism, the easy-to-tear opening die, the round corner die and the hanging hole die, the manufacturing of the connected bag is completed;

then shearing the bag film into separated bags through a shearing mechanism, and then finishing the production of finished products after passing through a bag expanding and extruding mechanism, an upper trolley mechanism, a lower trolley mechanism, a vacuum detection mechanism, a blanking mechanism, a hot top sealing assembly and a cold top sealing assembly, and outputting the products through an output assembly, wherein the vacuum detection mechanism detects whether the bags reach an ideal opening degree;

it is characterized in that the bag-squeezing mechanism comprises a bag-squeezing mechanism, at least one horizontal sliding rail and a rotation driving device,

the bag squeezing mechanism comprises:

a bag squeezing fixing seat;

the first swing rod and the second swing rod are corresponding to the bag squeezing fixing seat, one ends of the first swing rod and the second swing rod are respectively arranged on the horizontal sliding rail in a sliding mode through a first sliding block and a second sliding block, the other ends of the first swing rod and the second swing rod are respectively connected with a first rotating device and a second rotating device, and actions of the first rotating device and the second rotating device are linked;

the bag unfolding mechanism comprises:

a bag-expanding fixing seat;

the third swing rod and the fourth swing rod are corresponding to the bag expanding fixed seat, one ends of the third swing rod and the fourth swing rod are respectively arranged on the horizontal sliding rail in a sliding way through a third sliding block and a fourth sliding block, the other ends of the third swing rod and the fourth swing rod are respectively connected with a third rotating device and a fourth rotating device, and actions of the third rotating device and the fourth rotating device are linked;

the second rotating device is connected with the third rotating device through a transmission connecting rod;

when the rotation driving device drives the first or second or third or fourth rotation device to work so as to generate rotation, the first swing rod and the second swing rod swing under the drive of the first and second rotation devices, so that the first and second sliding blocks are mutually close to each other on the horizontal sliding rail so as to achieve bag squeezing action; meanwhile, under the drive of the transmission connecting rod, the third swing rod and the fourth swing rod swing under the drive of the third rotating device and the fourth rotating device, so that the third sliding block and the fourth sliding block are mutually separated on the horizontal sliding rail to achieve bag unfolding action.

2. The intelligent full-automatic packaging bag production equipment according to claim 1, wherein the first, second, third and fourth rotating devices are respectively a first, second, third and fourth sector gears, wherein the first and second sector gears are meshed with each other, and the third and fourth sector gears are meshed with each other; the rotation driving device comprises a rotation cam and a swing arm, one end of the swing arm is connected with the rotation cam, and the other end of the swing arm is connected with the first, second, third or fourth gear through a rotation connecting rod.

3. The intelligent full-automatic packaging bag production equipment according to claim 1, wherein the lower trolley mechanism comprises an inner trolley and an outer trolley which are arranged in parallel at intervals, bottoms of the inner trolley and the outer trolley are respectively arranged on an inner sliding rail and an outer sliding rail in a sliding mode, first ends of the inner trolley and the outer trolley are respectively connected with a first driving device, the first driving devices drive the inner trolley and the outer trolley to reciprocate along the length directions of the inner sliding rail and the outer sliding rail, a plurality of inner propping claws and outer propping claws which are arranged in opposite directions are respectively arranged on inner walls of the inner trolley and the outer trolley at intervals along the length directions, bottoms of the inner sliding rail and the outer sliding rail are respectively connected with a second driving device, and the second driving devices drive the opening and the closing of the inner sliding rail and the outer sliding rail, and then control the opening and the closing of the inner trolley and the outer trolley.

4. The intelligent full-automatic packaging bag production equipment according to claim 3, wherein the first driving device comprises a travelling cam indexing box, a first connecting rod and a second connecting rod, wherein the output end of the travelling cam indexing box is connected with a travelling swing arm, two ends of the first connecting rod are respectively connected with the first end of the inner trolley and the travelling swing arm, and two ends of the second connecting rod are respectively connected with the first end of the outer trolley and the travelling swing arm; the second driving device comprises an opening and closing cam indexing box, a power shaft, at least one third connecting rod, at least one fourth connecting rod, at least one inner swinging arm and at least one outer swinging arm, wherein the output end of the opening and closing cam indexing box drives the power shaft to rotate through a driving assembly, an inner swinging arm and an outer swinging arm are respectively arranged on the power shaft, the top ends of the inner swinging arm and the outer swinging arm are respectively connected with the bottoms of the inner sliding rail and the outer sliding rail, the bottom ends of the inner swinging arm and the outer swinging arm are respectively connected with one ends of the third connecting rod and the fourth connecting rod, and the other ends of the third connecting rod and the fourth connecting rod are respectively connected with a first swinging arm and a second swinging arm on the power shaft.

5. The intelligent full-automatic packaging bag production equipment according to claim 4, wherein the driving assembly comprises an opening and closing swing arm, a transmission connecting rod and an arm lifting, the opening and closing swing arm is connected with the output end of the opening and closing cam indexing box, the arm lifting is connected with the power shaft, and the transmission connecting rod is respectively connected with the opening and closing swing arm and the arm lifting.

6. The intelligent full-automatic packaging bag production device according to claim 5, wherein the inner swing arm and the outer swing arm are respectively in a pair, are respectively arranged on two sides of the middle parts of the inner slide rail and the outer slide rail at intervals, the third connecting rod and the fourth connecting rod are respectively in a pair, and each third connecting rod and each fourth connecting rod respectively correspond to one inner swing arm and one outer swing arm.

7. An intelligent full-automatic packaging bag production apparatus as set forth in claim 6 wherein said inner and outer swing arms are respectively defined within said inner and outer swing arm seats such that the inner and outer swing arms cannot swing in the length direction of the inner and outer slide rails.

8. An intelligent, fully automated packaging bag production facility as set forth in claim 1 wherein said zipper mechanism comprises:

a base;

the zipper clamping device comprises a base, a sealing block outer clamping arm and a sealing block inner clamping arm which are arranged on the base at intervals from front to back, wherein the bottom ends of the sealing block outer clamping arm and the sealing block inner clamping arm are movably connected to the base, the middle parts of the sealing block outer clamping arm and the sealing block inner clamping arm are respectively provided with an outer zipper sealing block component and an inner zipper sealing block component for sealing a zipper, and the outer zipper sealing block component and the inner zipper sealing block component are oppositely arranged;

the power driving device is connected with the top ends of the outer clamping arm of the sealing block and the inner clamping arm of the sealing block, and drives the outer clamping arm of the sealing block and the inner clamping arm of the sealing block to open and close so that the outer and inner zipper sealing block components can open and close the zipper.

9. An intelligent fully automated packaging bag production facility as set forth in claim 8 wherein said powered means comprises:

the first power support lugs and the second power support lugs are arranged on two sides of the base side substrate and are connected through a cross rod;

the first power swivel mount and the second power swivel mount are respectively rotatably arranged at the inner sides of the first power support lug and the second power support lug;

the first ends of the outer pull rod and the inner pull rod are respectively hinged with the top ends of the seal block outer clamping arm and the seal block inner clamping arm, and the second ends of the outer pull rod and the inner pull rod are respectively hinged with a first cross rod and a second cross rod between the first power swivel mount and the second power swivel mount;

the bottom end of the power swing arm is movably connected to the base, and the top end of the power swing arm is provided with a cam follower;

the first end of the tension spring is connected with the first power support lug, and the second end of the tension spring is connected with the power swing arm;

the first end of the power pull rod is hinged with the first power swivel base, and the second end of the power pull rod is hinged with the power swing arm;

and the cam is rotatably arranged and corresponds to the tangency of the cam follower.

10. An intelligent, fully automated packaging bag manufacturing apparatus as in claim 8 wherein said outer zipper closure assembly comprises:

an outer zipper seal;

the outer zipper sealing block is connected with the outer zipper sealing block and is arranged on the vertical adjusting groove of the outer clamping arm of the sealing block in a lifting manner;

the inner zipper seal assembly includes:

an inner zipper seal;

and the inner sealing block locking block is connected with the inner zipper sealing block and is arranged on the vertical adjusting groove of the inner clamping arm of the sealing block in a lifting manner.

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