CN113581546B - Automatic bottle packing machine - Google Patents

Abstract

The invention relates to the technical field of packaging equipment, in particular to an automatic bottle packaging machine which comprises a rack, a cylinder film feeding mechanism, a bag opening device, a melt-cutting sealing device, a bag opening device, a bottle arranging and bagging device, a bottle arranging device, a discharging device, a bag pulling device and a material receiving device. The automatic packaging machine has the advantages of high automation degree, high bottle packaging efficiency and good bottle packaging quality.

Description

Automatic bottle packing machine

Technical Field

The invention relates to the technical field of packaging equipment, in particular to an automatic bottle packer.

Background

After plastic bottles and glass bottles are blow molded, the bottles need to be packaged or palletized. Most mills all adopt the manual work to put empty bottle among the prior art and advance in the plastic bag, then encapsulate the processing through the plastic bag after the manual work will be bottled, need a large amount of labours just like this and can satisfy production, increased the cost of labor, work efficiency is low, is difficult to guarantee the quality of bottling and encapsulation, has also increased empty bottle secondary pollution's probability simultaneously. Therefore, the drawbacks are obvious, and a solution is needed.

Disclosure of Invention

In order to solve the technical problems, the invention aims to provide an automatic bottle packer.

In order to achieve the purpose, the invention adopts the following technical scheme:

an automatic bottle packaging machine comprises a rack, a cylinder film feeding mechanism, a bag opening device, a melt-cutting sealing device, a bag opening device, a bottle arranging and bagging device and a bottle arranging device, wherein the cylinder film feeding mechanism, the bag opening device, the melt-cutting sealing device, the bag opening device, the bottle arranging and bagging device and the bottle arranging device are sequentially arranged on the rack; one side of the melt-cutting sealing device is provided with a material receiving device, and the discharging device is arranged corresponding to the material receiving device.

Further, the delivery protection mechanism comprises a delivery protection plate, a delivery protection lifter and a delivery protection moving driver, the delivery protection platform is provided with a delivery protection through groove, the delivery protection through groove extends along the length direction of the delivery protection platform, the delivery protection moving driver is installed at the bottom of the delivery protection platform, the delivery protection lifter is connected with the output end of the delivery protection moving driver, the delivery protection plate is installed at the output end of the delivery protection lifter, and the delivery protection moving driver drives the delivery protection lifter to move along the delivery protection through groove.

Furthermore, the bottle pushing mechanism comprises a bottle pushing moving driver positioned above the bottle arranging platform, a bottle pushing lifter arranged at the output end of the bottle pushing moving driver, a push rod connected with the output end of the bottle pushing lifter and a push plate connected to the push rod.

Further, the bottle arranging device comprises a first bottle conveying mechanism arranged on the rack, a bottle blocking mechanism arranged on one side of the first bottle conveying mechanism, and a bottle arranging mode switching mechanism arranged at the discharge end of the first bottle conveying mechanism, wherein a bottle arranging space is formed among the bottle blocking mechanism, the bottle arranging mode switching mechanism and the first bottle conveying mechanism, the bottle arranging mode switching mechanism comprises a fixing seat arranged on the first bottle conveying mechanism and a dislocation bottle arranging control assembly arranged on the fixing seat, the output end of the dislocation bottle arranging control assembly extends into the bottle arranging space in a protruding mode, and the bottle pushing mechanism is used for pushing bottles arranged in the bottle arranging space to the bottle arranging platform.

Further, the first bottle conveying mechanism comprises a plurality of conveying modules, the bottle arranging mode switching mechanism is multiple in number, the conveying modules and the bottle arranging mode switching mechanism are arranged in a one-to-one correspondence mode, and the conveying modules are arranged side by side.

Further, the number of the staggered bottle arranging control assemblies is one or more; the dislocation bottle arranging control assembly comprises a telescopic driver arranged on the fixing seat and a dislocation bottle arranging piece arranged at the output end of the telescopic driver, and the dislocation bottle arranging piece extends into the bottle arranging space in a protruding mode.

Furthermore, the bottle arranging device also comprises a second bottle conveying mechanism arranged on the rack, and the discharge end of the second bottle conveying mechanism and the feed end of the first bottle conveying mechanism are arranged side by side; one side of the second bottle conveying mechanism, which is far away from the first bottle conveying mechanism, is provided with a bottle pushing mechanism, and the bottle pushing mechanism is positioned at the discharge end of the second bottle conveying mechanism.

Further, the bag opening supporting device is provided with a vacuumizing device, and the vacuumizing device is used for vacuumizing the bottled cylinder membrane.

The bag opening device comprises an upper roll shaft group arranged on the rack, a lower roll shaft group which is positioned below the upper roll shaft group and is arranged opposite to the upper roll shaft group, a shaft lever frame arranged between the upper roll shaft group and the lower roll shaft group, an upper swing piece rotationally connected with an upper shaft lever of the shaft lever frame, a lower swing piece rotationally connected with a lower shaft lever of the shaft lever frame, an elastic piece connected with the upper swing piece and the lower swing piece, an upper bag opening plate arranged on the upper swing piece and a lower bag opening plate arranged on the lower swing piece, wherein an upper bag penetrating gap is formed between the upper swing piece and the upper roll shaft group, a lower bag penetrating gap is formed between the lower swing piece and the lower roll shaft group, the upper bag opening plate and the lower bag opening plate protrude to the same side of the upper swing piece or/and the lower swing piece, and the upper bag opening plate and the lower bag opening plate form a bag opening structure; the upper swing piece is provided with an upper flaring plate, the lower swing piece is provided with a lower flaring plate, the upper flaring plate and the upper bag opening plate are respectively positioned at two sides of the upper swing piece, the lower flaring plate and the lower bag opening plate are respectively positioned at two sides of the lower swing piece, and the upper flaring plate and the lower flaring plate form a flaring structure.

Further, draw the bagging apparatus including installing in the frame or melt cut closing device draw the bag seat, slide and set up in drawing two of bag seat and press from both sides bag mechanism and set up in drawing the bag seat and be used for driving two bag mechanism synchronous reciprocating motion draw a bag actuating mechanism, press from both sides bag mechanism including with draw bag seat sliding connection's removal seat, set up in the clamp bag subassembly that removes the seat and install in removing the seat and be used for driving to press from both sides the bag subassembly and be close to or keep away from another bag mechanism draw a bag interval adjustment module, remove the seat and be connected with the output that draws a bag actuating mechanism.

The invention has the beneficial effects that: the automatic bottle packaging machine has high automation degree, realizes the automatic supply of a tube film, the opening of a tube film bag opening, the traction of the tube film, the opening of the tube film bag opening, the automatic arrangement of bottles, the bagging of the bottles, the melt cutting and sealing of the tube film and the product discharging, greatly reduces the labor intensity and cost of workers, improves the efficiency of the bagging and packaging of the bottles, and improves the stability of the movement of the bottles by protecting and conveying the bottles by a protecting and conveying mechanism in the moving process, thereby improving the quality of the bagging of the bottles.

Drawings

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

Fig. 2 is a schematic perspective view of the rack and the material receiving device of the present invention after being hidden. A

Fig. 3 is a schematic perspective view of the bottle arranging and bagging device of the present invention.

FIG. 4 is an exploded view of the push plate and the retractable plate of the present invention.

Fig. 5 is a perspective view of the bottle aligning apparatus of the present invention.

Fig. 6 is a schematic perspective view of the bag opener of the present invention.

Fig. 7 is a perspective view of another perspective view of the bag opener of the present invention.

Fig. 8 is a schematic perspective view of the upper pocket opening plate, the lower pocket opening plate, the upper flare plate and the lower flare plate of the present invention.

Fig. 9 is a schematic perspective view of the bag pulling device of the present invention.

Fig. 10 is an enlarged view of fig. 9 at a.

Description of reference numerals:

1. a bag pulling device; 11. pulling the bag seat; 111. a base body; 12. a bag clamping mechanism; 120. rubbing the stripes; 121. a movable seat; 122. a bag clamping assembly; 123. a bag-pulling distance adjusting module; 124. a distance adjusting seat; 125. a bag fixing and clamping plate; 126. a bag clamping cylinder; 127. a movable bag clamping plate; 128. a guide rail; 13. a bag pulling driving mechanism; 131. a rotating rod; 132. a rotation driver; 133. a drive belt set; 134. a second motor; 135. a second transmission assembly; 14. a guard bar; 15. a first transmission assembly; 151. a first lead screw; 152. a first traveling nut; 153. a first motor; 16. an adjusting seat; 161. a height adjusting groove; 2. a bag opening device; 20. a blowing mechanism; 201. an air outlet pipe; 202. an air inlet pipe; 203. an air outlet; 21. an upper roll shaft group; 211. a gap for upper bag penetration; 212. a supporting seat; 213. a drum; 22. a lower roller shaft group; 221. a lower bag-passing gap; 23. a shaft holder; 231. an upper shaft lever; 232. a lower shaft lever; 24. an upper swing member; 25. a lower swing member; 26. an elastic member; 27. a bag opening plate is arranged on the upper part; 271. an upper via hole; 28. a bag opening plate is arranged below the bag opening plate; 281. a lower via hole; 29. an upper flaring plate; 291. a lower flared plate; 292. a rotating wheel; 293. a bag gap is crossed; 294. a limiting rod piece; 3. a bottle aligning device; 31. a first bottle feeding mechanism; 311. a conveying module; 32. a bottle blocking mechanism; 321. a bottle blocking seat; 322. a bottle blocking cylinder; 323. a bottle blocking plate; 33. a bottle arrangement mode switching mechanism; 331. a fixed seat; 332. a staggered bottle arrangement control component; 333. a telescopic driver; 334. arranging bottle pieces in a staggered manner; 34. a second bottle feeding mechanism; 35. a bottle pushing mechanism; 351. pushing the bottle holder; 352. a bottle pushing cylinder; 353. pushing the bottle plate; 354. a baffle plate; 36. a bottle arranging space; 4. a bottle arranging and bagging device; 41. a bottle arranging platform; 411. conveying through a protective groove; 42. a delivery protection mechanism; 421. a delivery protecting plate; 422. a delivery protection lifter; 423. a convoying mobile drive; 43. a bottle pushing mechanism; 431. a bottle pushing movement driver; 432. a bottle pushing lifter; 434. a push rod; 435. pushing the plate; 436. a retractable plate; 437. a telescopic guide groove; 438. a telescopic guide block; 44. an adjustment groove; 441. locking holes; 45. a bottle pushing linear driving module; 46. a bottle pushing moving seat; 47. a first proximity switch; 48. a second proximity switch; 5. a frame; 51. a material receiving device; 52. a discharging device; 6. a cartridge film feeding mechanism; 7. a melt-cutting sealing device; 71. a first melt-cutting sealing component; 72. a second melt-cutting sealing component; 73. bottling; 8. a bag opening supporting device; 81. an upper bag opening supporting component; 82. a lower support bag mouth component; 83. a bag supporting plate is arranged; 84. a bag supporting plate is arranged; 9. a pressing mechanism; 91. a pressing cylinder; 92. a pressing plate; 93. an elastic plate.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1 to 10, the automatic bottle packer provided by the present invention comprises a frame 5, and a tubular film feeding mechanism 6, a bag opening device 2, a melt-cutting sealing device 7, a bag opening device 8, a bottle discharging and bagging device 4 and a bottle arranging device 3 which are sequentially arranged on the frame 5, wherein the melt-cutting sealing device 7 is provided with a discharging device 52 and a bag pulling device 1, a bag pulling end of the bag pulling device 1 moves between the bag opening device 2 and the bag opening device 8, the bag opening device 2 is used for opening a bag opening of a tubular film supplied by the tubular film feeding mechanism 6, the bag pulling device 1 is used for pulling the tubular film with the bag opening to penetrate through the melt-cutting sealing device 7 and then is connected with a bag opening end of the bag opening device 8, the bag opening device 8 is used for opening the bag opening of the tubular film with the bag opening penetrating through the melt-cutting sealing device 7, the bottle arranging and bagging device 4 comprises a bottle arranging platform 41 arranged on the rack 5, a protecting and conveying mechanism 42 movably arranged on the bottle arranging platform 41 and a bottle pushing mechanism 43 movably arranged on the bottle arranging platform 41, the output end of the bottle arranging platform 41 is positioned on one side of the bag opening supporting device 8 far away from the melt-cutting sealing device 7, the input end of the bottle arranging platform 41 is connected with the output end of the bottle arranging device 3, the protecting and conveying mechanism 42 is used for protecting and conveying bottles borne by the bottle arranging platform 41, the bottle pushing mechanism 43 is used for pushing the bottles arranged by the bottle arranging device 3 onto the bottle arranging platform 41 or pushing the bottles borne by the bottle arranging platform 41 into a tube film with the bag opening being opened, the melt-cutting sealing device 7 is used for melt-cutting and sealing the tube film after bottling, and the discharging device 52 is used for discharging the tube film after melt-cutting and sealing; specifically, the melt-cutting sealing device 7 includes a first melt-cutting sealing component 71, a second melt-cutting sealing component 72, and a bottle filling platform 73 installed on the rack 5, the first melt-cutting sealing component 71 is located between the bag opening device 2 and one end of the bottle filling platform 73, the second melt-cutting sealing component 72 is located between the other end of the bottle filling platform 73 and the bag opening device 8, the discharging device 52 is located above the bottle filling platform 73, the direction in which the discharging device 52 drives the product to be discharged is perpendicular to the direction in which the bag opening device 1 pulls the tube film, a material receiving device 51 is arranged on one side of the bottle filling platform 73, the material receiving device 51 may be a material receiving platform, and the discharging device 52 and the material receiving device 51 are correspondingly arranged.

In practical application, a tube film roll is placed on a tube film feeding mechanism 6, a tube film on the tube film roll borne by the tube film feeding mechanism 6 is sleeved outside a bag opening device 2, the bag opening device 2 opens a bag opening of the tube film, then a bag pulling device 1 clamps the bag opening of the tube film and pulls the tube film to move, the tube film penetrates through a melt-cutting sealing device 7 until the bag opening of the tube film is connected with a bag opening end of a bag opening supporting device 8, the bag opening end of the bag opening supporting device 8 supports the bag opening of the tube film to ensure that the bag opening of the tube film is in a stable opening state, meanwhile, a bottle arranging bagging device 4 arranges bottles to ensure that a plurality of bottles are arranged into a bottle row, then a bottle pushing mechanism 43 pushes the bottle row onto a bottle arranging platform 41, in the process that the bottle pushing mechanism 43 pushes the bottle row to the bottle arranging platform 41, a bottle protecting mechanism 42 supports against the body of the bottle row to protect the bottle row, under the cooperation of the protecting and conveying mechanism 42 and the bottle pushing mechanism 43, it is ensured that the bottle rows stably move onto the bottle arranging platform 41, as the bottle pushing mechanism 43 sequentially pushes a plurality of rows of bottles onto the bottle arranging platform 41, in the process that the bottle pushing mechanism 43 pushes a row of bottles onto the bottle arranging platform 41, synchronously, the protecting and conveying end of the protecting and conveying mechanism 42 correspondingly moves a diameter distance of one bottle until a preset number of rows of bottles are arranged on the bottle arranging platform 41 to form a bottle group, the protecting and conveying mechanism 42 releases the protecting and conveying of the bottle rows or the bottle groups, the bottle pushing mechanism 43 pushes the bottle group into the barrel film with the bag opening opened until the bottle filling platform 73 of the melt-cutting sealing device 7 supports the bottle group, then the bag opening supporting device 8 releases the opening supporting action of the bag opening of the barrel film, the first melt-cutting sealing component 71 and the second melt-cutting sealing component 72 synchronously work to melt-cut and seal the two ends of the barrel film after bottling, so as to encapsulate the group of bottles and form the product, and finally the discharging device 52 outputs the product to the receiving device 51, so as to realize the discharging of the product. The automatic bottle packaging machine has high automation degree, realizes the automatic supply of a tube film, the opening of a tube film bag opening, the traction of the tube film, the opening of the tube film bag opening, the automatic arrangement of bottles, the bagging of the bottles, the melt cutting and sealing of the tube film and the product discharging, greatly reduces the labor intensity and cost of workers, improves the efficiency of the bagging and packaging of the bottles, protects and conveys the bottles by the protecting and conveying mechanism 42 in the moving process, improves the stability of the moving of the bottles and further improves the quality of the bagging of the bottles.

In this embodiment, the delivery protection mechanism 42 includes a delivery protection plate 421, a delivery protection lifter 422, and a delivery protection moving driver 423, the bottle arrangement platform 41 is provided with a delivery protection groove 411, the delivery protection groove 411 extends along the length direction of the bottle arrangement platform 41, the delivery protection moving driver 423 is installed at the bottom of the bottle arrangement platform 41, the delivery protection lifter 422 is connected with the output end of the delivery protection moving driver 423, the delivery protection plate 421 is installed at the output end of the delivery protection lifter 422, and the delivery protection moving driver 423 drives the delivery protection lifter 422 to move along the delivery protection groove 411.

In practical application, the bottle arranging device 3 at the input end of the bottle arranging platform 41 arranges a plurality of bottles into a bottle row, and the bottle pushing mechanism 43 sequentially pushes a plurality of bottle rows onto the bottle arranging platform 41, so that the bottle rows are combined into a bottle group on the bottle arranging platform 41; specifically, the conveying guard plate 421 is driven by the conveying guard lifter 422 to rise, so that the conveying guard plate 421 is higher than the top surface of the bottle arranging platform 41, the height of the conveying guard plate 421 approximately corresponds to the middle position of the bottles, then the conveying guard moving driver 423 drives the conveying guard plate 422 and the conveying guard plate 421 to move along the conveying guard through groove 411 towards the input end of the bottle arranging platform 41 until the conveying guard plate 421 moves to be abutted against the bodies of the bottle rows arranged by the bottle arranging device 3, and then in the process that the bottle pushing mechanism 43 pushes the bottle rows to the bottle arranging platform 41, the conveying guard moving driver 423 drives the conveying guard plate 422 and the conveying guard plate 421 to move, so that the conveying guard plate 421 is matched with the bottle pushing end of the bottle pushing mechanism 43 to stably push the bottle rows to the bottle arranging platform 41; when the bottle pushing mechanism 43 pushes a row of bottles to the bottle arranging platform 41, the protective conveying plate 421 moves a diameter distance of one bottle at a time, in the process, the protective conveying plate 421 plays a good role in protecting the bottles, the stability of bottle movement is improved, when the number of the rows of bottles between the protective conveying plate 421 and the bottle pushing end of the bottle pushing mechanism 43 reaches a preset value to be combined into a bottle group, the protective conveying plate 421 is matched with the bottle pushing end of the bottle pushing mechanism 43 to push the bottle group to the output end of the bottle arranging platform 41, when the protective conveying plate 421 is located outside the output end of the bottle arranging platform 41, the protective conveying lifter 422 drives the protective conveying plate 421 to descend until the top surface of the protective conveying plate is connected with the top surface of the bottle arranging platform 41, and the bottle pushing end of the bottle pushing mechanism 43 pushes the bottle group into a cylinder film with the bag opening opened, so as to pack the bottle group. When the bottle pushing mechanism 43 pushes the bottle rows or the bottle groups, the bottle protecting and conveying mechanism 42 plays a role in protecting the bottle rows or the bottle groups, so that the stability of the movement of the bottle rows or the bottle groups is improved, and the bottle bagging quality is improved. Specifically, the escort lifter 422 is a pneumatic cylinder and the escort motion driver 423 is a pulley assembly.

In this embodiment, the bottle pushing mechanism 43 includes a bottle pushing moving driver 431 located above the bottle arranging platform 41, a bottle pushing lifter 432 installed at an output end of the bottle pushing moving driver 431, a push rod 434 connected to an output end of the bottle pushing lifter 432, and a push plate 435 connected to the push rod 434, wherein the bottle pushing lifter 432 is an air cylinder.

In practical application, in an initial state, the push plate 435 is located on one side of the bottle row away from the bottle arrangement platform 41, when a bottle needs to be pushed, the bottle pushing lifter 432 drives the push rod 434 and the push plate 435 to synchronously descend until the height position of the push plate 435 corresponds to the body position of the bottle, then the bottle pushing movement driver 431 drives the bottle pushing lifter 432 together with the push rod 434 and the push plate 435 to move towards the direction close to the bottle arrangement platform 41, so that the push plate 435 pushes the bottle row onto the bottle arrangement platform 41, and finally the bottle pushing movement driver 431 and the bottle pushing lifter 432 respectively drive the push plate 435 to reset, so that the push plate 435 resets to an initial position, so that the push plate 435 pushes the next bottle row onto the bottle arrangement platform 41, thereby forming a bottle group on the bottle arrangement platform 41; the push plate 435 pushes the set of bottles into the cartridge membrane to effect bagging of the bottles.

Specifically, one side or two sides of the push plate 435 are provided with a telescopic plate 436; the length of the push plate 435 is prolonged by the extension and contraction of the extension plate 436, so that the bottle pushing length of the push plate 435 is adjustable, bottles with different bottle numbers can be pushed to the bottle arranging platform 41 in a row, and the bottle pushing device is good in practicability and wide in application range.

Specifically, the push plate 435 is provided with a telescopic guide groove 437, the telescopic plate 436 is provided with a telescopic guide block 438, and the telescopic guide block 438 is slidably connected with the telescopic guide groove 437. When the expansion plate 436 is adjusted to expand or contract, the expansion guide block 438 of the expansion plate 436 slides along the expansion guide groove 437, and the expansion guide block 438 and the expansion guide groove 437 are in sliding fit, thereby improving the stability of expansion and contraction of the expansion plate 436.

Specifically, the telescopic plate 436 is provided with an adjusting groove 44, the push plate 435 is provided with a locking hole 441, and the locking hole 441 is communicated with the adjusting groove 44. After the extension and retraction of the extension plate 436 are adjusted, the locking member is moved out of the through adjustment groove 44 and the locking hole 441, and the extension plate 436 is locked to the push plate 435. Specifically, the locking member is a bolt, the locking hole 441 is a threaded hole, and the bolt is in threaded connection with the threaded hole.

Specifically, the bottle pushing and moving driver 431 includes a bottle pushing linear driving module 45, a bottle pushing moving seat 46 connected to an output end of the bottle pushing linear driving module 45, and a first proximity switch 47 and a second proximity switch 48 respectively installed at two ends of the bottle pushing linear driving module 45, the bottle pushing moving seat 46 is used for triggering the first proximity switch 47 or the second proximity switch 48, the first proximity switch 47 is located at an initial end of the bottle pushing linear driving module 45, the second proximity switch 48 is located at a tail end of the bottle pushing linear driving module 45, a distance between the first proximity switch 47 and the second proximity switch 48 is a moving stroke of the bottle pushing moving seat 46, the first proximity switch 47 and the second proximity switch 48 are both electrically connected to the bottle pushing linear driving module 45, and the bottle pushing lifter 432 is installed on the bottle pushing moving seat 46. In practical application, the bottle pushing linear driving module 45 drives the bottle pushing moving seat 46 to move together with the bottle pushing lifter 432, the push rod 434 and the push plate 435, the bottle pushing moving seat 46 moves between the first proximity switch 47 and the second proximity switch 48, when the bottle pushing moving seat 46 triggers the first proximity switch 47, the bottle pushing moving seat 46 is proved to be reset to the initial position, when the bottle pushing moving seat 46 triggers the second proximity switch 48, the bottle pushing moving seat 46 is proved to be moved to the maximum stroke position, the moving stability of the bottle pushing moving seat 46 is ensured, and the bottle pushing position precision and the bottle pushing stability of the bottle pushing mechanism 43 are improved.

In this embodiment, the bottle arranging device 3 includes a first bottle feeding mechanism 31 installed on the frame 5, a bottle blocking mechanism 32 installed at one side of the first bottle feeding mechanism 31, and a bottle arranging mode switching mechanism 33 installed at a discharging end of the first bottle feeding mechanism 31, a bottle arranging space 36 is formed between the bottle blocking mechanism 32, the bottle arranging mode switching mechanism 33, and the first bottle feeding mechanism 31, the bottle arranging mode switching mechanism 33 includes a fixing base 331 installed on the first bottle feeding mechanism 31 and a staggered bottle arranging control component 332 installed on the fixing base 331, an output end of the staggered bottle arranging control component 332 protrudes into the bottle arranging space 36, and the bottle pushing mechanism 43 is used for pushing the bottles arranged in the bottle arranging space 36 to the bottle arranging platform 41; specifically, the bottle blocking end of the bottle blocking mechanism 32 can protrude above the first bottle conveying mechanism 31, and the bottle blocking mechanism 32 is provided with a first sensor.

In practical application, the first bottle conveying mechanism 31 conveys bottles into the bottle arranging space 36 in sequence, when the first sensor senses that the bottles in the bottle arranging space 36 are fully arranged to form a bottle row, the first sensor feeds back a signal to the bottle blocking mechanism 32, so that a bottle blocking end of the bottle blocking mechanism 32 can protrude above the first bottle conveying mechanism 31 to block other bottles on the first bottle conveying mechanism 31 (outside the bottle arranging space 36), at this time, the bottle pushing mechanism can push the bottles in the bottle arranging space 36 out of the bottle arranging platform 41, according to the requirement of bottle arrangement on the bottle arranging platform 41, when the arrangement of the bottles required by the bottle arranging platform 41 is in a rectangular array, an output end of the dislocated bottle arranging control component 332 does not act, so that the bottle rows on the bottle arranging platform 41 are aligned to form a rectangular bottle group; when the desired bottle arrangement of the bottle arranging platform 41 is arranged in a staggered manner, the output end of the staggered bottle arranging control assembly 332 is extended by a desired length (e.g., a length extended by a radius of one bottle, a length extended by a diameter of one bottle, a length extended by a radius of one and a half bottles, etc.), so that the bottle rows of the bottle arranging platform 41 are staggered to form a staggered bottle group (e.g., the bottles of the next bottle row are located between two adjacent bottles of the previous bottle row, etc.), and the number of bottles of each bottle row can be determined according to actual conditions by the extension amount of the output end of the staggered bottle arranging control assembly 332, so that the bottle arranging platform can arrange bottle groups of different shapes (e.g., a triangular bottle group, a rectangular bottle group, a staggered bottle group, etc.). The bottle arranging position and the number of the bottles in the bottle arranging space 36 are controlled through the operation of the staggered bottle arranging control component 332, so that different arranging combinations can be formed between the bottle rows and the bottle rows, different bottle arranging combinations of users can be met, the practicability is high, the universality is good, and the application range is wide.

In this embodiment, the first bottle feeding mechanism 31 includes a plurality of conveying modules 311, the number of the bottle arrangement switching mechanism 33 is plural, the conveying modules 311 and the bottle arrangement switching mechanism 33 are arranged in a one-to-one correspondence, the plurality of conveying modules 311 are arranged side by side, and the conveying modules 311 may adopt a conveyor belt assembly. A plurality of transport module 311 are carried the bottle respectively for arrange in arranging bottle space 36 and list multirow bottle row, improved the efficiency of arranging the bottle, and according to the user to the demand of arranging the bottle, through a plurality of bottle mode switching mechanism 33 autonomous workings of arranging, arrange in arranging bottle space 36 and list the bottle group of different permutation and combination, then push away bottle mechanism 43 and can push away the bottle group of this permutation and combination to arranging bottle platform 41 on, further improved arrange the bottle and push away the efficiency of bottle.

In this embodiment, the staggered bottle arranging control component 332 includes a telescopic driver 333 installed on the fixing base 331 and a staggered bottle arranging member 334 installed at an output end of the telescopic driver 333, and the staggered bottle arranging member 334 protrudes into the bottle arranging space 36; specifically, the telescopic actuator 333 is a cylinder. In practical application, when two adjacent rows of bottle rows need to be arranged in a staggered manner, the output end of the telescopic driver 333 extends or contracts to drive the staggered bottle arranging piece 334 to move back and forth in the bottle arranging space 36, so that the positions of the front and rear bottle rows in the bottle arranging space 36 are staggered; of course, the extension or contraction of the telescopic driver 333 may be controlled according to the arrangement of the actually required bottle group; when it is required that the adjacent two rows of bottles are arranged oppositely, the telescopic driver 333 does not work, and the staggered bottle arranging member 334 is fixed, so that the positions of the bottle rows in the bottle arranging space 36 are consistent.

In this embodiment, the number of the staggered bottle arranging control assemblies 332 is one or more; when the quantity of dislocation row bottle control assembly 332 is a plurality of, a plurality of dislocation row bottle control assembly 332 levels set up in fixing base 331 side by side, the elongation of the output of every dislocation row bottle control assembly 332's flexible driver 333 is fixed and inconsistent, according to the range rule of the practically required bottle subgroup, the flexible driver 333 of a plurality of dislocation row bottle control assembly 332 independently works according to the range rule, in order to form the bottle group of different range combinations, make the range combination of bottle subgroup various, therefore, the clothes hanger is strong in practicability, can satisfy user's different bottle range demands.

In this embodiment, the bottle arranging device 3 further includes a second bottle feeding mechanism 34 installed on the frame 5, a discharge end of the second bottle feeding mechanism 34 is arranged side by side with a feed end of the first bottle feeding mechanism 31, and the second bottle feeding mechanism 34 may adopt a conveyor belt assembly. In practical applications, the second bottle feeding mechanism 34 sequentially conveys the bottles into the first bottle feeding mechanism 31, so as to realize automatic supply of the bottles.

Specifically, the number of the second bottle feeding mechanisms 34 is two, and the two second bottle feeding mechanisms 34 are respectively located at two sides of the first bottle feeding mechanism 31; specifically, the first bottle feeding mechanism 31 includes two conveying modules 311, and the two second bottle feeding mechanisms 34 are respectively arranged corresponding to the two conveying modules 311 one by one. In practical applications, the two second bottle feeding mechanisms 34 respectively supply the bottles to the two conveying modules 311, and the two conveying modules 311 convey the bottles to the bottle arranging space 36, so that two rows of bottles are formed in the bottle arranging space 36, and the efficiency of arranging the bottles is improved.

In this embodiment, a bottle pushing mechanism 35 is disposed on a side of the second bottle feeding mechanism 34 away from the first bottle feeding mechanism 31, and the bottle pushing mechanism 35 is located at a discharging end of the second bottle feeding mechanism 34. Specifically, the number of the bottle pushing mechanisms 35 is two, and the two bottle pushing mechanisms 35 are respectively arranged in one-to-one correspondence with the two second bottle pushing mechanisms 34. In practical application, the second bottle feeding mechanism 34 conveys bottles to the discharge end thereof, and when the bottles correspond to the bottle feeding mechanism 35 in position, the bottle feeding mechanism 35 feeds a preset number of bottles to the first bottle feeding mechanism 31, the bottles are conveyed to the bottle arranging space 36 through the first bottle feeding mechanism 31, the two bottle feeding mechanisms 35 respectively feed the bottles at the discharge end of the two second bottle feeding mechanisms 34 to the two conveying modules 311 of the first bottle feeding mechanism 31, and the efficiency of conveying the bottles and arranging the bottles is improved.

Specifically, the bottle blocking mechanism 32 includes a bottle blocking seat 321 disposed at one side of the middle of the first bottle conveying mechanism 31, a bottle blocking cylinder 322 disposed on the bottle blocking seat 321, and a bottle blocking plate 323 disposed on a piston rod of the bottle blocking cylinder 322, where the bottle blocking cylinder 322 is configured to drive the bottle blocking plate 323 to protrude above the first bottle conveying mechanism 31. In practical applications, after the bottle arranging space 36 is filled with bottles, the bottle blocking cylinder 322 drives the bottle blocking plate 323 to move above the first bottle conveying mechanism 31, and the bottle blocking plate 323 blocks the bottles outside the bottle arranging space 36, which is beneficial for the bottle pushing mechanism 43 to stably push out the bottles in the bottle arranging space 36.

Specifically, the bottle pushing mechanism 35 includes a bottle pushing seat 351, a bottle pushing cylinder 352 mounted on the bottle pushing seat 351, and a bottle pushing plate 353 mounted on the bottle pushing cylinder 352, and the bottle pushing cylinder 352 is used for driving the bottle pushing plate 353 to move above the first bottle feeding mechanism 31 and the second bottle feeding mechanism 34; specifically, a baffle 354 is disposed at one end of the bottle pushing plate 353 close to the bottle arranging mode switching mechanism 33, the baffle 354 protrudes above the second bottle feeding mechanism 34, and the baffle 354 is perpendicular to the bottle pushing plate 353.

In practical application, the baffle 354 blocks the bottles at the discharge end of the second bottle feeding mechanism 34, so that the bottles are stably arranged at the discharge end of the second bottle feeding mechanism 34, and when the number of the bottles arranged at the discharge end of the second bottle feeding mechanism 34 reaches a preset number, the bottle pushing cylinder 352 drives the bottle pushing plate 353 to move towards the direction close to the conveying module 311, so that the bottle pushing plate 353 pushes the bottles arranged at the discharge end of the second bottle feeding mechanism 34 to the conveying module 311.

Specifically, the bottle pushing plate 353 is provided with a second sensor, and when the second sensor detects that the number of bottles arranged at the discharge end of the second bottle feeding mechanism 34 reaches a preset value, the second sensor feeds back information to the bottle pushing cylinder 352, so that the bottle pushing cylinder 352 drives the bottle pushing plate 353 to push the bottles arranged at the discharge end of the second bottle feeding mechanism 34 to the conveying module 311.

In this embodiment, the bag opening device 8 is provided with a vacuum pumping device (not shown in the figure) for vacuum pumping of the bottled tube film. In practical application, after the bottle pushing mechanism 43 pushes the bottle group carried by the bottle arranging platform 41 into the tube film to complete bottle bagging, the vacuumizing end of the vacuumizing device stretches into the tube film, the vacuumizing device vacuumizes the tube film, and meanwhile, the melt-cutting sealing device 7 performs melt-cutting sealing on the tube film in a vacuum state, so that the vacuum packaging of the bottles is realized.

Specifically, automatic bottle baling press is still including installing in the pressing means 9 of frame 5, pressing means 9 is located bottling platform 73 and is close to the second and melts the one end of cutting seal subassembly 72, when evacuating device carries out the evacuation to a section of thick bamboo membrane, and pressing means 9 presses the sack of a section of thick bamboo membrane for evacuating device can effectively, carry out the evacuation to a section of thick bamboo membrane fast, also is favorable to the second to melt and cuts seal subassembly 72 and melt and cut the sack of a section of thick bamboo membrane and seal.

Specifically, the pressing mechanism 9 includes a pressing cylinder 91 mounted on the frame 5, a pressing plate 92 mounted on a piston rod of the pressing cylinder 91, and an elastic plate 93 mounted on the pressing plate 92, and the elastic plate 93 is elastically deformable in a restorable manner. The vacuumizing end of the vacuumizing device stretches into the cylinder film, the pressing cylinder 91 drives the pressing plate 92 and the elastic plate 93 to move downwards and press the bag opening of the cylinder film on the bottling platform 73, and the elastic plate 93 can elastically deform, so that the elastic plate 93 plays a role in sealing the vacuumizing end of the vacuumizing device, the phenomenon of air leakage in the process of vacuumizing the cylinder film is avoided, and the vacuumizing efficiency and quality are improved.

In this embodiment, the bag opening device 2 includes an upper roller set 21 installed on the frame 5, a lower roller set 22 located below the upper roller set 21 and opposite to the upper roller set 21, a shaft rod frame 23 disposed between the upper roller set 21 and the lower roller set 22, an upper swing member 24 rotatably connected to an upper shaft rod 231 of the shaft rod frame 23, a lower swing member 25 rotatably connected to a lower shaft rod 232 of the shaft rod frame 23, an elastic member 26 connected to the upper swing member 24 and the lower swing member 25, an upper bag opening plate 27 installed on the upper swing member 24, and a lower bag opening plate 28 installed on the lower swing member 25, an upper bag passing gap 211 is formed between the upper swing member 24 and the upper roller set 21, a lower bag passing gap 221 is formed between the lower swing member 25 and the lower roller set 22, the upper bag opening plate 27 and the lower bag opening plate 28 protrude to the same side of the upper swing member 24 or/and the lower swing member 25, and the upper bag opening plate 27 and the lower bag opening plate 28 form a bag opening structure; the upper swing piece 24 is provided with an upper flaring plate 29, the lower swing piece 25 is provided with a lower flaring plate 291, the upper flaring plate 29 and the upper bag opening plate 27 are respectively positioned at two sides of the upper swing piece 24, the lower flaring plate 291 and the lower bag opening plate 28 are respectively positioned at two sides of the lower swing piece 25, the upper flaring plate 29 and the lower flaring plate 291 form a flaring structure, the bag opening structure is positioned at a feed end which penetrates through the bag gap 211 and penetrates through the bag gap 221, and the flaring structure is positioned at a discharge end which penetrates through the bag gap 211 and penetrates through the bag gap 221.

In practical application, the opening (sack) of the tube membrane is sequentially sleeved outside the bag opening structure and the flaring structure, the upper side of the tube membrane penetrates through the upper bag passing gap 211, the lower side of the tube membrane penetrates through the lower bag passing gap 221, the left side and the right side of the tube membrane output through the upper bag passing gap 211 and the lower bag passing gap 221 are respectively clamped by the bag pulling device 1, the bag pulling device 1 pulls the tube membrane, after the bag opening structure opens the tube membrane, the flaring structure enlarges the opening of the tube membrane bag, the bag opening structure and the flaring structure can simultaneously open the tube membrane bag from front to back, the bag opening stability is further improved, the probability that the tube membrane is easily damaged and the tube membrane bag is wrinkled during bag opening is reduced, the sack of the pulled tube membrane is opened, and the sack of the tube membrane is opened. Because the upper swinging piece 24 and the lower swinging piece 25 are elastically connected through the elastic piece 26, in the bag opening process, the upper swinging piece 24 and the lower swinging piece 25 can rotate relative to the shaft rod frame 23, so that the bag opening structure and the flaring structure can be adaptively and elastically adjusted, the sleeve-film bag can be conveniently and smoothly sleeved outside the bag opening structure and the flaring structure, the bag opening structure and the flaring structure can be guaranteed to be always abutted against the inner wall of the sleeve film, and the bag opening stability of the sleeve film is improved. In addition, the upper swinging piece 24 and the lower swinging piece 25 can guide and transition the cylindrical film, so that the use of a transition wheel is omitted, the structure of the bag opening device 2 is simplified, and the production and manufacturing cost is reduced. This structural design's opening bagging apparatus 2 plays the effect of protection to the section of thick bamboo membrane, has improved the stability of opening the bag to the section of thick bamboo membrane.

Specifically, the elastic member 26 is a spring, which has a simple structure, good elasticity and long service life; preferably, the number of the springs is two, and the two springs are both vertically arranged.

Specifically, on open bag board 27 and lower bag board 28 and set up relatively, on open bag board 27's free end downward sloping setting, the free end tilt up of lower bag board 28 sets up, on open bag board 27 and be the downward circular-arc of opening or the type of falling V, lower bag board 28 is the ascending circular-arc of opening or the type of V, this structural design not only is convenient for establish the section of thick bamboo membrane cover outside opening the bag structure, still is favorable to smoothly and steadily opening the bag to the section of thick bamboo membrane. Go up flaring board 29 and lower flaring board 291 and set up relatively, last flaring board 29 tilt up sets up, flaring board 291 downward sloping sets up down for the flaring structure is the loudspeaker form, is favorable to opening the bag to the section of thick bamboo membrane.

Specifically, the upper bag opening plate 27 is provided with an upper through hole 271, the lower bag opening plate 28 is provided with a lower through hole 281, the top end of the elastic member 26 penetrates through the upper through hole 271 and is connected with the upper swing member 24, and the bottom end of the elastic member 26 penetrates through the lower through hole 281 and is connected with the lower swing member 25. The upper via 271 and the lower via 281 provide an escape space for the elastic member 26, so that the upper swing member 24, the upper bag opening plate 27, the elastic member 26, the lower swing member 25 and the lower bag opening plate 28 are compact in structure, and two ends of the elastic member 26 are connected with the upper swing member 24 and the lower swing member 25 respectively.

Specifically, the upper bag opening plate 27 and the upper flaring plate 29 are constructed integrally, and the upper bag opening plate 27 and the upper flaring plate 29 are formed by bending flat plates, so that the upper bag opening plate 27 and the upper flaring plate 29 are firmly connected, have good structural integrity and are convenient to produce and manufacture; the lower pocket plate 28 and the lower flaring plate 291 are of an integrated structure, and the lower pocket plate 28 and the lower flaring plate 291 are formed by bending flat plates, so that the lower pocket plate 28 and the lower flaring plate 291 are firm in connection, good in structural integrity and convenient to produce and manufacture.

Specifically, the upper shaft 231 or/and the lower shaft 232 of the shaft rack 23 are rotatably sleeved with a rotating wheel 292, and a bag passing gap 293 is formed between the rotating wheel 292 and the upper roller set 21 or the lower roller set 22. Specifically, the rotating wheel 292 is a rubber covered wheel. The rotating wheel 292 plays a role in guiding the movement of the cylinder film, so that the cylinder film after opening the bag can move more smoothly. The rubber coating wheel plays a role in protecting the drum membrane.

Specifically, the number of the upper swing members 24, the number of the upper pocket opening plates 27, the number of the lower pocket opening plates 28, the number of the upper flare plates 29, the number of the lower flare plates 291, and the number of the lower swing members 25 are plural, the plural upper swing members 24, the plural upper pocket opening plates 27, the plural lower pocket opening plates 28, the plural upper flare plates 29, the plural lower flare plates 291, and the plural lower swing members 25 are provided in one-to-one correspondence, the plural upper swing members 24 are arranged in an axial direction of the upper shaft 231 of the shaft holder 23, the plural lower swing members 25 are arranged in an axial direction of the lower shaft 232 of the shaft holder 23, and the rotary wheel 292 is located between two adjacent upper swing members 24 or two adjacent lower swing members 25. The distance between two adjacent upper swinging pieces 24 can be adjusted relative to the upper shaft rod 231 of the shaft rod frame 23, and the distance between two adjacent lower swinging pieces 25 can be adjusted relative to the lower shaft rod 232 of the shaft rod frame 23, so that the bag opening device can open bags for tubular films with different width specifications, and has strong practicability.

In this embodiment, both ends of the shaft rack 23 are connected with a limiting rod 294, the limiting rod 294 is used for being fixedly connected with the rack 5, and when the upper swinging member 24 and the lower swinging member 25 move along the upper shaft 231 and the lower shaft 232 of the shaft rack 23 respectively, the limiting rod 294 can limit the upper swinging member 24 and the lower swinging member 25; a limit lever 294 is provided to facilitate the adjustment of the position of the shaft bracket 23 between the upper roller set 21 and the lower roller set 22.

In this embodiment, the bag opening device further comprises a blowing mechanism 20, the blowing mechanism 20 and the bag opening structure are located on the same side of the upper swing piece 24 or/and the lower swing piece 25, and the blowing mechanism 20 is located below the bag opening structure. Specifically, the air blowing mechanism 20 includes an air outlet pipe 201 and an air inlet pipe 202 communicated with the air outlet pipe 201, the air outlet pipe 201 is provided with a plurality of air outlets 203, the plurality of air outlets 203 are uniformly distributed along the axial direction of the air outlet pipe 201, and the air inlet pipe 202 is connected with the gas generator. In the process that the bag pulling device 1 pulls the cylinder film to move, the air blowing mechanism 20 blows air to the cylinder film, so that the cylinder film is smooth and smooth, the cylinder film can be moved conveniently, and the wrinkling probability of the cylinder film is reduced.

Specifically, the upper swing member 24 and/or the lower swing member 25 are/is a shaft sleeve, the upper swing member 24 is rotatably connected to the upper shaft 231 of the shaft holder 23 via a bearing, and the lower swing member 25 is rotatably connected to the lower shaft 232 of the shaft holder 23 via a bearing. The structural design not only facilitates the rotation of the upper swinging part 24 and the lower swinging part 25 relative to the shaft rod frame 23, but also facilitates the position adjustment of the upper swinging part 24 and the lower swinging part 25 on the shaft rod frame 23.

In this embodiment, the upper roller set 21 and/or the lower roller set 22 includes a supporting base 212 and a plurality of rollers 213 rotatably connected to the supporting base 212; specifically, the upper roller set 21 has two rollers 213 horizontally arranged in parallel, the lower roller set 22 has two rollers 213 horizontally arranged in parallel, the number of the supporting seats 212 is two, two ends of each roller 213 are rotatably connected to the two supporting seats 212, the upper bag passing gap 211 is located between the roller 213 of the upper roller set 21 and the upper swing member 24, and the lower bag passing gap 221 is located between the roller 213 of the lower roller set 22 and the lower swing member 25. This structural design for the removal of section of thick bamboo membrane is more smooth and easy, and section of thick bamboo membrane is difficult to corrugate.

In this embodiment, the bag pulling device 1 includes a bag pulling seat 11 installed on the frame 5 or the melt-cutting sealing device 7, two bag clamping mechanisms 12 slidably installed on the bag pulling seat 11, and a bag pulling driving mechanism 13 installed on the bag pulling seat 11 and used for driving the two bag clamping mechanisms 12 to synchronously reciprocate, the bag clamping mechanism 12 includes a moving seat 121 slidably connected with the bag pulling seat 11, a bag clamping component 122 installed on the moving seat 121, and a bag pulling interval adjusting module 123 installed on the moving seat 121 and used for driving the bag clamping component 122 to approach or leave from the other bag clamping mechanism 12, and the moving seat 121 is connected with an output end of the bag pulling driving mechanism 13.

In practical application, after a bag is opened through the bag opening device 2, two sides of a bag opening of a tubular film are respectively clamped by the bag clamping assemblies 122 of the two bag clamping mechanisms 12, then the bag pulling driving mechanism 13 drives the moving seat 121 together with the two bag clamping mechanisms 12 to move towards a direction close to the bag opening device 8, so that the two bag clamping assemblies 122 pull a bag to the tubular film until the bag opening of the tubular film is sleeved at the bag opening end of the bag opening device 8, after the bag opening device 8 opens the bag opening of the tubular film, the bag clamping assemblies 122 release the clamping of the tubular film and reset under the driving of the bag pulling driving mechanism 13, and the bag pulling driving mechanism 13 controls the moving stroke of the two bag clamping assemblies 122 to determine the length of the pulled bag. The bag clamping assemblies 122 of the two bag clamping mechanisms 12 are adjusted by the bag pulling distance adjusting module 123, so that the two bag clamping mechanisms 12 can pull bags on tubular films with different width specifications. The bag pulling of the tubular film is realized automatically, the distance between the bag clamping components 122 of the two bag clamping mechanisms 12 is adjustable, the tubular films with different width specifications can be pulled, the universality is good, the practicability is high, and the application range is wide.

Specifically, the bag pulling device 1 further comprises a protection rod 14, and two ends of the protection rod 14 are respectively connected with the moving seats 121 of the two bag clamping mechanisms 12. In practical application, when the bag pulling driving mechanism 13 drives the two bag clamping mechanisms 12 with the tube films clamped by the bag pulling driving mechanism to move to the bag opening end of the bag opening supporting device 8, the bag opening supporting device 8 supports the bag opening of the tube films, so that the bag openings of the tube films are kept in an opened state, the bottle pushing mechanism 43 pushes the bottles in the rectangular array into the tube films with the opened bag openings, when the bottle pushing mechanism 43 pushes the bottles, the bag pulling driving mechanism 13 drives the moving seat 121 with the protective rod 14 and the two bag clamping components 122 to reset, the moving speed of the protective rod 14 is equal to the bottle pushing speed of the bottle pushing mechanism 43, and in the process that the bottle pushing mechanism 43 pushes the bottles in the rectangular array into the tube films, the protective rod 14 always abuts against the bodies of the bottle rows in the first row to play a role in protecting and conveying the bottles to move, so that the bottles in the process that the bottles in the rectangular array are inverted, inclined or disordered and the like are avoided, the conveying effect on the different types of bottles is particularly remarkable, and the stability and the quality of the bottles in protecting and the bag are improved.

Specifically, the bag clamping assembly 122 includes an adjustable distance seat 124 connected to an output end of the bag pulling distance adjusting module 123, a fixed bag clamping plate 125 installed on the adjustable distance seat 124, a bag clamping cylinder 126 installed on the adjustable distance seat 124, and a movable bag clamping plate 127 installed on a piston rod of the bag clamping cylinder 126, wherein the fixed bag clamping plate 125 and the movable bag clamping plate 127 are disposed opposite to each other. In practical application, when the bag opening side of the film is located between the fixed bag clamping plate 125 and the movable bag clamping plate 127, the piston rod of the bag clamping cylinder 126 is contracted, so that the movable bag clamping plate 127 moves close to the fixed bag clamping plate 125 until the movable bag clamping plate 127 and the fixed bag clamping plate 125 clamp the bag opening side of the film.

In this embodiment, the distance adjusting base 124 is slidably connected to the moving base 121, so that the moving stability of the distance adjusting base 124 is improved.

In this embodiment, the bag-pulling distance adjusting module 123 includes a first transmission assembly 15, a first lead screw 151 rotatably connected to the movable base 121, a first movable nut 152 screwed with the first lead screw 151, and a first motor 153 installed on the movable base 121, an output end of the first motor 153 is in transmission connection with the first lead screw 151 through the first transmission assembly 15, and the distance-adjusting base 124 is connected with the first movable nut 152. In practical application, the first motor 153 drives the first lead screw 151 to rotate, and since the first lead screw 151 is screwed with the first movable nut 152, the first movable nut 152 is driven by the first lead screw 151 to move along the first lead screw 151, and the first movable nut 152 drives the distance adjusting base 124 to move, so that the positions of the bag clamping assemblies 122 are adjusted, and further the distance between the two bag clamping assemblies 122 is adjusted.

In this embodiment, the bag pulling seat 11 is provided with a guide rail 128, and the moving seat 121 is slidably connected with the guide rail 128; the guide rail 128 guides the movable seat 121, and improves the stability of the movement of the movable seat 121.

In this embodiment, the bag pulling seat 11 includes two seat bodies 111, and the two seat bodies 111 are respectively disposed corresponding to the two bag clamping mechanisms 12 one by one; the bag pulling seat 11 is simple in structure, the modularization of the bag pulling seat 11 is achieved, and the bag pulling seat is convenient to produce, manufacture and maintain.

In this embodiment, the bag pulling driving mechanism 13 includes a rotating rod 131, a rotating driver 132 and two transmission belt sets 133, two ends of the rotating rod 131 are respectively rotatably connected to the two seat bodies 111, the rotating driver 132 is used for driving the rotating rod 131 to rotate, the two transmission belt sets 133 are respectively rotatably disposed on the two seat bodies 111, two ends of the rotating rod 131 are respectively in transmission connection with the two transmission belt sets 133, and the moving seats 121 of the two bag clamping mechanisms 12 are respectively connected to the two transmission belt sets 133; specifically, the rotation driver 132 includes a second motor 134 and a second transmission assembly 135, an output shaft of the second motor 134 is drivingly connected to the rotating rod 131 through the second transmission assembly 135, and both the second transmission assembly 135 and the first transmission assembly 15 may adopt a belt transmission structure.

In practical applications, the second motor 134 of the rotation driver 132 drives the rotation rod 131 to rotate via the second transmission assembly 135, the rotation rod 131 drives the two transmission belt sets 133 to rotate respectively, and the rotation transmission belt set 133 drives the moving seat 121 to move reciprocally, so as to realize bag pulling of the bag clamping assembly 122 on the film tube.

In addition, the first screw rod 151 is driven by the first motor 153 to drive the first movable nut 152 and the distance adjusting seat 124 to move, the transmission belt set 133 is driven by the second motor 134 to drive the movable seat 121 to move, the width of the clamped bag and the tension during bag pulling can be controlled digitally, automatic adjustment can be achieved, the tension during bag pulling can be controlled digitally, and the sealing effect of the melt-cutting sealing device 7 on the tube film is better.

In this embodiment, the inner wall of the fixed bag clamping plate 125 or/and the inner wall of the movable bag clamping plate 127 are provided with friction stripes 120; through the friction stripes 120, the friction force between the fixed bag clamping plate 125 or/and the movable bag clamping plate 127 and the cylinder film is increased, the stability of bag pulling is improved, and the phenomenon that the cylinder film slips is avoided.

In this embodiment, the moving seat 121 is provided with an adjusting seat 16, the adjusting seat 16 is provided with a height-adjusting groove 161, the height-adjusting groove 161 is vertically arranged, and one end of the guard bar 14 is locked on the height-adjusting groove 161 of the adjusting seat 16 through a locking member. According to the height of the required bottle for protecting and conveying, the locking piece is loosened, so that the guard bar 14 can ascend and descend along the height adjusting groove 161 of the adjusting seat 16 to increase the height of the guard bar 14, and after the height of the guard bar 14 is adjusted, the guard bar 14 is locked on the adjusting seat 16 through the locking piece, so that the stability of the guard bar 14 is ensured; the height of the protective rod 14 is adjustable, which is beneficial to abutting bottles with different heights, so that the bottle protection effect is improved.

Specifically, prop sack device 8 including last sack subassembly 81 and prop sack subassembly 82 down, on prop sack subassembly 81 and prop sack subassembly 82 and set up relatively down, on prop the output of sack subassembly 81 and be connected with and prop pocket plate 83, prop the output of sack subassembly 82 down and be connected with down and prop pocket plate 84, on prop the drive of sack subassembly 81 and prop pocket plate 83 and be close to or keep away from down and prop pocket plate 84 and remove, prop sack subassembly 82 drive down and prop pocket plate 84 and be close to or keep away from on propping pocket plate 83 and remove down. At the beginning, the upper bag supporting plate 83 and the lower bag supporting plate 84 are in a closed state, when the bag pulling device 1 sleeves the bag opening of the tubular film outside the upper bag supporting plate 83 and the lower bag supporting plate 84, the upper bag supporting plate 83 is driven to move upwards by the upper bag supporting assembly 81, the lower bag supporting plate 84 is driven to move downwards by the lower bag supporting assembly 82, the upper bag supporting plate 83 and the lower bag supporting plate 84 move away from each other, the upper bag supporting plate 83 and the lower bag supporting plate 84 are in an opened state until the bag opening of the tubular film is opened by the upper bag supporting plate 83 and the lower bag supporting plate 84, at the moment, the bag pulling device 1 can release clamping and traction on the tubular film, and the bottle pushing mechanism 43 pushes the bottle group into the tubular film.

Specifically, the discharging device 52 adopts a pushing structure to push the product onto the receiving device 51.

The above embodiments are preferred implementations of the present invention, and the present invention can be implemented in other ways without departing from the spirit of the present invention.

Claims (9)

1. An automatic bottle baling press which characterized in that: the bag mouth opening device is provided with a discharging device and a bag pulling device, the bag pulling end of the bag pulling device moves between the bag opening device and the bag mouth opening device, the bag opening device is used for opening a bag mouth of a tube film supplied by the tube film feeding mechanism, the bag pulling device is used for pulling the tube film after the bag mouth is opened to penetrate through the bag opening device and then is connected with the bag opening end of the bag mouth opening device, the bottle arranging and bagging device comprises a bottle arranging platform, a protecting and conveying mechanism and a bottle pushing mechanism, the protecting and conveying mechanism is movably arranged on the bottle arranging platform, the output end of the bottle arranging platform is located on one side, far away from the bag opening device, of the bag opening device, the input end of the bottle arranging platform is connected with the output end of the bottle arranging device, the protecting and conveying mechanism is used for conveying bottles carried by the bottle arranging platform, the bottle pushing mechanism is used for pushing the protecting and arranging platform arranged by the bottle arranging platform or pushing the bottle arranging platform to the bag opening device after the bottle is cut, and the bottle arranging platform is used for pushing the bag mouth opening device after the bottle is cut, and the bottle arranging platform is used for carrying out the bottle film; a material receiving device is arranged on one side of the melt-cutting sealing device, and the discharging device is arranged corresponding to the material receiving device;

the bag opening device comprises an upper roll shaft group arranged on the rack, a lower roll shaft group positioned below the upper roll shaft group and arranged opposite to the upper roll shaft group, a shaft lever frame arranged between the upper roll shaft group and the lower roll shaft group, an upper swing piece rotatably connected to an upper shaft lever of the shaft lever frame, a lower swing piece rotatably connected to a lower shaft lever of the shaft lever frame, an elastic piece connected to the upper swing piece and the lower swing piece, an upper bag opening plate arranged on the upper swing piece and a lower bag opening plate arranged on the lower swing piece, an upper bag penetrating gap is formed between the upper swing piece and the upper roll shaft group, a lower bag penetrating gap is formed between the lower swing piece and the lower roll shaft group, the upper bag opening plate and the lower bag opening plate protrude out of the same side of the upper swing piece or/and the lower swing piece, and the upper bag opening plate and the lower bag opening plate form a bag opening structure; the upper swing piece is provided with an upper flaring plate, the lower swing piece is provided with a lower flaring plate, the upper flaring plate and the upper bag opening plate are respectively positioned at two sides of the upper swing piece, the lower flaring plate and the lower bag opening plate are respectively positioned at two sides of the lower swing piece, and the upper flaring plate and the lower flaring plate form a flaring structure.

2. The automatic bottle packer of claim 1, wherein: the bottle protection and delivery mechanism comprises a protection and delivery plate, a protection and delivery lifter and a protection and delivery mobile driver, the bottle discharge platform is provided with a protection and delivery through groove, the protection and delivery through groove extends along the length direction of the bottle discharge platform, the protection and delivery mobile driver is installed at the bottom of the bottle discharge platform, the protection and delivery lifter is connected with the output end of the protection and delivery mobile driver, the protection and delivery plate is installed at the output end of the protection and delivery lifter, and the protection and delivery mobile driver drives the protection and delivery lifter to move along the protection and delivery through groove.

3. The automatic bottle packer of claim 1, wherein: the bottle pushing mechanism comprises a bottle pushing moving driver, a bottle pushing lifter, a push rod and a push plate, wherein the bottle pushing moving driver is positioned above the bottle arranging platform, the bottle pushing lifter is arranged at the output end of the bottle pushing moving driver, the push rod is connected with the output end of the bottle pushing lifter, and the push plate is connected with the push rod.

4. The automatic bottle packer of claim 1, wherein: the bottle arranging device comprises a first bottle conveying mechanism arranged on the rack, a bottle retaining mechanism arranged on one side of the first bottle conveying mechanism and a bottle arranging mode switching mechanism arranged at the discharge end of the first bottle conveying mechanism, wherein a bottle arranging space is formed among the bottle retaining mechanism, the bottle arranging mode switching mechanism and the first bottle conveying mechanism, the bottle arranging mode switching mechanism comprises a fixing seat arranged on the first bottle conveying mechanism and a dislocation bottle arranging control assembly arranged on the fixing seat, the output end of the dislocation bottle arranging control assembly extends into the bottle arranging space in an outburst mode, and the bottle pushing mechanism is used for pushing bottles arranged in the bottle arranging space to a bottle arranging platform.

5. The automatic bottle packer of claim 4, wherein: the first bottle conveying mechanism comprises a plurality of conveying modules, the number of the bottle arrangement mode switching mechanisms is multiple, the conveying modules and the bottle arrangement mode switching mechanisms are arranged in a one-to-one correspondence mode, and the plurality of conveying modules are arranged side by side.

6. The automatic bottle packer of claim 4, wherein: the number of the staggered bottle arranging control assemblies is one or more; the dislocation bottle arranging control assembly comprises a telescopic driver arranged on the fixing seat and a dislocation bottle arranging piece arranged at the output end of the telescopic driver, and the dislocation bottle arranging piece extends into the bottle arranging space.

7. The automatic bottle packer of claim 4, wherein: the bottle arranging device also comprises a second bottle conveying mechanism arranged on the rack, and the discharge end of the second bottle conveying mechanism and the feed end of the first bottle conveying mechanism are arranged side by side; one side of the second bottle conveying mechanism, which is far away from the first bottle conveying mechanism, is provided with a bottle pushing mechanism, and the bottle pushing mechanism is positioned at the discharge end of the second bottle conveying mechanism.

8. The automatic bottle packer of claim 1, wherein: the bag opening device is provided with a vacuumizing device, and the vacuumizing device is used for vacuumizing the bottled tube film.

9. The automatic bottle packer of claim 1, wherein: draw the bagging apparatus including installing in the frame or melt and cut two bag holders that draw of closing device, slide and set up in drawing two bag mechanisms that draw the bag holder and set up in drawing the bag holder and be used for driving two bag mechanisms synchronous reciprocating motion draw a bag actuating mechanism, press from both sides the bag mechanism including with draw bag holder sliding connection's removal seat, set up in the bag subassembly that presss from both sides that removes the seat and install in removing the seat and be used for driving to press from both sides the bag subassembly and be close to or keep away from another bag interval regulation module that draws that presss from both sides the bag mechanism, remove the seat and draw a bag actuating mechanism's output to be connected.

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