CN116766692A - Automatic forming and assembling production line for garland box body - Google Patents

Abstract

The invention discloses an automatic forming and assembling production line of a garland box body, which comprises a box body automatic conveying device, paper support automatic assembling equipment for automatically forming paper supports, a garland automatic glue feeding device for supplying garlands, a garland assembling device for assembling garlands into an inner support and a finished product blanking device connected with the garland assembling device. According to the invention, the box body is fed through the box body transmission channel and is conveyed to the paper holder automatic assembly equipment, the paper holder automatic assembly equipment outputs the formed inner holder to the box body transmission channel, so that the inner holder is assembled in the box body borne by the box body transmission channel, then, the box body with the inner holder assembled is transferred to the garland assembly device through the box body transmission channel, and the garland assembly device automatically assembles the garland on the box body with the inner holder assembled, thereby realizing automatic assembly of the box body, the inner holder and the garland, and solving the problem that the traditional wine box assembly production line cannot be adapted to full-automatic production of a novel wine box.

Description

Automatic forming and assembling production line for garland box body

Technical Field

The invention relates to the technical field of automatic production lines, in particular to an automatic forming and assembling production line of a garland box body.

Background

The traditional wine box packaging box generally comprises a box body, a seal arranged at a box opening and a box cover for sealing the box body, for example, chinese patent application (publication number is CN 111590317A) discloses an assembly process method of a barrel box top cover, an eight-station assembly base and assembly equipment, and the top cover and the enclosure are respectively adhered to the barrel box body through automatic assembly, so that the automatic assembly of the top cover and the enclosure is realized.

In order to embody the design sense of wine box packaging, a brand new wine box packaging box is proposed at present, and the wine box packaging box comprises a box body, a paper support arranged in the box body and a garland assembled on the paper support, wherein the paper support is of a box body-shaped structure obtained by twice molding a paper board, generally, the paper board needs to be folded into a board body structure with an inner support structure after being preformed once, and then the board body structure is folded into the box body structure after being folded twice, however, the traditional wine box packaging equipment obviously cannot be matched for producing the wine box packaging box, and therefore the invention aims to overcome the defect.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide an automatic forming and assembling production line of a garland box body.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows: the utility model provides an automatic shaping equipment production line of garland box body, it includes box body automatic conveying device, a paper support automatic assembly equipment that is used for automatic shaping paper to hold in the palm, be used for supplying the garland automatic glue feedway of garland, be used for assembling the garland to the garland assembly device of inner support and connect in garland assembly device's finished product unloader, box body automatic conveying device has box body transmission channel, a paper support automatic assembly equipment makes the inner support assembly in the box body that box body transmission channel born to box body transmission channel output finished product inner support, and box body transmission channel will be assembled the box body of inner support and transfer to garland assembly device.

In a further technical scheme, the automatic paper holder assembling device comprises a fifth machine body, a paper holder preforming machine core, a secondary bending forming machine core and a runner feeding unit, wherein the paper holder preforming machine core is connected to the fifth machine body and used for preforming paper boards, the secondary bending forming machine core is arranged on the fifth machine body and used for carrying out secondary forming on preformed paper boards, and the runner feeding unit is used for conveying the preformed paper boards into the secondary bending forming machine core.

In a further technical scheme, the paper support preforming core comprises a fourth machine body, a preforming base arranged on the fourth machine body, a paperboard supply device arranged on the fourth machine body and used for supplying paperboards to the preforming base, and a folded plate device arranged above the preforming base, wherein the folded plate device comprises a folded plate base fixedly arranged on the fourth machine body, a preforming mold core movably arranged on the folded plate base, a primary bending assembly used for bending paperboards borne by the preforming base, and a primary folding assembly used for folding the folded paperboards.

In a further technical scheme, the preformed mold core comprises a first folding plate sliding seat arranged on one side of the folding plate base in a sliding manner, a second folding plate sliding seat arranged on the other side of the folding plate base in a sliding manner, a first folding plate assembled on the first folding plate sliding seat and a second folding plate assembled on the second folding plate sliding seat; the folding plate device is also provided with a folding plate driving source for driving the first folding plate sliding seat and the second folding plate sliding seat to be mutually close.

In a further technical scheme, the secondary bending forming machine core is provided with a secondary bending assembly and a rotary table mold core unit, wherein the rotary table mold core unit comprises a rotary table core body rotatably installed on a fifth machine body and a rotary table machine core driving source fixedly assembled on the fifth machine body and used for driving the rotary table core body, the rotary table core body is provided with a plurality of secondary forming mold cores, and each secondary forming mold core is provided with a mold core suction disc piece used for sucking paper.

In a further technical scheme, the first side and the secondary of carousel mold core unit bend the subassembly and are connected, and the second side of carousel mold core unit is equipped with the secondary cardboard and crosses gluey subassembly, the third side of carousel mold core unit is provided with bottom assembly quality, and the fourth side of carousel mold core unit is connected with the automatic conveyer of box body.

In a further technical scheme, the automatic garland feeding device comprises a first machine body, a garland supply device, a garland pick-up manipulator, a garland conveying device and a garland gluing device, wherein the garland supply device, the garland pick-up manipulator and the garland gluing device are arranged on the first machine body, the garland pick-up manipulator is movably arranged on the first machine body and used for conveying a plurality of garlands borne by the garland supply device into the garland conveying device one by one, and the garland conveying device is fixedly arranged on the first machine body and used for conveying garlands into the garland gluing device one by one in sequence.

In a further technical scheme, the garland assembling device comprises a third machine body, a material carrying turntable arranged on the third machine body in a rotating mode, a rotation driving mechanism for driving the material carrying turntable to intermittently rotate, and a plurality of box body material carrying molds assembled on the material carrying turntable, wherein the third machine body is provided with a box body material loading station, a garland material loading station, a combined assembly station and a finished product unloading station, the box body material loading station, the garland material loading station, the combined assembly station and the finished product unloading station are arranged around the central axis of the material carrying turntable, each box body material carrying mold is arranged at a corresponding station, and the garland material after gluing is fed to the garland material loading station.

In further technical scheme, automatic gum feedway of wreath still includes wreath drying device, and wreath conveyer is used for sending into the wreath drying device with the wreath after the rubber coating and dries in, wreath drying device includes the second organism, assembles in the chain transmission subassembly of second organism and the heating element who embeds in the second organism, chain transmission subassembly interval is equipped with a plurality of year material baffles, and the wreath after the stoving is carried to the wreath material loading station by year material baffles.

In a further technical scheme, the material carrying baffle comprises a material blocking plate and a material carrying plate which is formed by bending the material blocking plate, and the material blocking plate and the material carrying plate are combined in a V shape.

By adopting the structure, compared with the prior art, the invention has the following advantages:

according to the invention, the paper holder automatic assembly equipment outputs a finished product inner holder to the box body transmission channel, so that the inner holder is assembled in the box body borne by the box body transmission channel, then the box body transmission channel transfers the box body assembled with the inner holder to the garland assembly device, the garland assembly device automatically assembles the garland supplied by the garland automatic glue feeding device on the box body assembled with the inner holder, the automatic assembly of the box body, the inner holder and the garland is realized, and finally the assembled wine box is subjected to blanking by the finished product blanking device, so that the problem that the traditional wine box assembly production line cannot be adapted to the full-automatic production of novel wine boxes is solved.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is an assembly flow diagram of a wine box structure;

FIG. 2 is a schematic diagram of the structure of the present invention;

FIG. 3 is a schematic view of an automatic paper tray assembly apparatus according to the present invention;

FIG. 4 is a schematic view of a tray preform cartridge of an automatic tray assembly apparatus;

FIG. 5 is a schematic view of the structure of the flap means of the tray preform cartridge;

FIG. 6 is a schematic view of the preform core and first folding assembly of the paper tray preform cartridge;

FIG. 7 is a schematic view of a flap arrangement of the tray preform cartridge from another perspective;

FIG. 8 is a schematic view of the structure of the flap base, the cardboard glue assembly, and the cardboard push-in unit of the cardboard pre-form cartridge;

FIG. 9 is a schematic view of the preform base and paperboard supply arrangement of the paper tray preform cartridge;

FIG. 10 is a schematic view of the structure of the paperboard supply of the paperboard preform cartridge;

FIG. 11 is a schematic view of the structure of a preform base of a paper tray preform cartridge;

FIG. 12 is a schematic view of a preform base of the paper tray preform cartridge from another perspective;

fig. 13 is a schematic structural view of the fifth body, the secondary bending machine core and the runner feeding unit;

fig. 14 is a schematic structural view of a secondary bending forming movement and a runner feeding unit;

FIG. 15 is a schematic view of the structure of the wheel feeding unit, the secondary bending assembly, the secondary pushing unit and the secondary folding assembly;

FIG. 16 is a schematic view of the structure of the wheel feeding unit;

FIG. 17 is a schematic view of the structure of the secondary hemming assembly;

Fig. 18 is a schematic structural view of a secondary bending assembly and a secondary pushing unit;

FIG. 19 is a schematic view of the structure of the turret core unit, bottom cover assembly apparatus, and secondary paperboard gluing assembly;

FIG. 20 is a schematic structural view of a secondary paperboard gluing assembly;

FIG. 21 is a schematic view of the structure of a turret core unit;

fig. 22 is a schematic structural view of the bottom cover assembly device;

FIG. 23 is a schematic view of a construction of an automatic ring feeding device and a ring assembling device;

FIG. 24 is a schematic view of the structure of the automatic ring feeder;

FIG. 25 is a schematic view of the configuration of the ring supply, ring pick-up robot and ring transfer device of the ring automated glue supply device;

FIG. 26 is a schematic view of the configuration of the ring supply of the automatic ring feeder;

FIG. 27 is a schematic view of a construction of a garland pick-up robot of the garland automated glue supply apparatus;

FIG. 28 is a schematic view of a ring conveyor and a ring gumming device of the ring automated gumming device;

FIG. 29 is a schematic view of the configuration of the garland conveyor of the garland automatic glue supply device;

FIG. 30 is a schematic view of a construction of a garland drying apparatus of the garland automatic glue supply apparatus;

FIG. 31 is a schematic view showing a partial structure of a garland drying apparatus of the garland automatic glue supply apparatus;

FIG. 32 is an enlarged schematic view of the structure at A in FIG. 31;

FIG. 33 is a schematic view of the construction of the garter assembly device;

fig. 34 is a schematic structural view of a box loading station, a garland loading station, a combined assembly station and a finished product unloading station of the garland assembling device;

fig. 35 is a schematic structural view of a garland feeding manipulator of the garland assembling device;

FIG. 36 is a schematic view of the assembly station of the garter assembly apparatus;

FIG. 37 is a schematic view of the structure of the finished product blanking station of the garter assembly apparatus;

fig. 38 is a schematic view of a partial structure of a discharging manipulator of the garter assembly device.

Detailed Description

The following are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention.

As shown in fig. 1 to 38, the automatic forming and assembling line for the garland box provided by the invention comprises a box automatic conveying device 6, a paper holder automatic assembling device 4 for automatically forming paper holders, a garland automatic glue feeding device 1 for supplying garlands, a garland assembling device 2 for assembling garlands into an inner holder, and a finished product blanking device 5 connected with the garland assembling device 2, wherein the box automatic conveying device 6 is provided with a box conveying channel 60.

In a specific application, the invention loads the box body through the box body transmission channel 60, and transmits the box body to the paper holder automatic assembly equipment 4, the paper holder automatic assembly equipment 4 outputs a finished product inner holder to the box body transmission channel 60, so that the inner holder is assembled in the box body borne by the box body transmission channel 60, then, the box body transmission channel 60 transfers the box body assembled with the inner holder to the garland assembly device 2, the garland assembly device 2 automatically assembles the garland supplied by the garland automatic glue feeding device 1 on the box body assembled with the inner holder, thereby realizing the automatic assembly of various auxiliary materials of the box body, the inner holder and the garland, and finally, the assembled wine box is fed by the finished product feeding device 5, thereby solving the problem that the traditional wine box assembly production line cannot be adapted to the full-automatic production of novel wine box.

In this embodiment, the automatic paper holder assembling apparatus 4 includes a fifth machine body 40, a paper holder preforming machine core 3 connected to the fifth machine body 40 and used for preforming the paper board, a secondary bending forming machine core provided on the fifth machine body 40 and used for performing secondary forming on the preformed paper board, and a rotating wheel feeding unit 42 used for transferring the preformed paper board into the secondary bending forming machine core.

According to the invention, the paper support preforming machine core 3 is used for folding the paper board from a plane unfolding state into a board body structure with an inner support structure, then the preformed paper board is picked up by the rotating wheel feeding unit 42 and is rotationally fed into the secondary bending forming machine core, the feeding is simultaneously provided with a turn-over function, the action time difference between two working procedures is eliminated, and finally the board body structure is folded into a box body structure with an outer edge coated outside the inner support by the secondary bending forming machine core, so that the inner support full-automatic assembly of the novel wine box is realized.

In order to better illustrate the working principle of the invention, the working principle of each mechanism is explained in the following sections.

The following is an explanation of the working principle of the paper holder preform movement 3:

in this embodiment, the paper holder preforming movement 3 includes a fourth body 30, a preforming base 31 disposed on the fourth body 30, a board supplying device 32 disposed on the fourth body 30 and used for supplying boards to the preforming base 31, and a folding plate device 33 disposed above the preforming base 31, wherein the folding plate device 33 includes a folding plate base 330 fixedly disposed on the fourth body 30, a preforming mold core 331 movably disposed on the folding plate base 330, a primary bending assembly for bending boards carried by the preforming base 31, and a primary folding assembly for folding the folded boards.

According to the invention, the paperboard to be processed is automatically fed to the preformed base 31 through the paperboard supply device 32, and the paperboard is rapidly preformed through the cooperation of the movably arranged preformed mold core 331, the one-time bending component and the one-time flanging component, so that the structure can be rapidly demoulded after the paperboard is preformed, the condition that the paper support is deformed does not exist, the semi-finished paper support obtained by preforming is taken away by the runner feeding unit 42 conveniently, and the movably arranged preformed mold core 331 can be replaced conveniently according to the size of the finished paper support, so that the practicality and the universality are high.

In the present embodiment, the preformed core 331 includes a first flap slide 3310 slidably disposed on one side of the flap base 330, a second flap slide 3311 slidably disposed on the other side of the flap base 330, a first flap 3312 mounted on the first flap slide 3310, and a second flap 3313 mounted on the second flap slide 3311; the flap device 33 is further provided with a flap driving source 3314 for driving the first and second flap sliders 3310, 3311 to be close to each other.

In particular operation, the flap drive source 3314 drives the first and second flap sliders 3310, 3311 toward each other to bring the first flap 3312 into the preform base 31 from the first side and the second flap 3313 into the preform base 31 from the second side, and at this time, the first and second flaps 3312, 3313 together form a preform core body adapted to the shape and size of the liner seat of the paper tray.

In this embodiment, the pre-forming base 31 includes a base body 310, a carrying plate 311 disposed in the middle of the base body 310, and two turning plate 312 disposed on two sides of the base body 310 in a rotating manner, the bending assembly includes two turning driving sources 313 assembled on the base body 310, and each turning driving source 313 drives the corresponding turning plate 312 to turn toward the carrying plate 311, so that two sides of the cardboard are respectively bent along the shape of the pre-forming mold core 331 to perform the pre-forming.

In a specific application, the paper board supplied by the paper board supplying device 32 is fed to the preformed base 31, then the first folding board 3312 enters the preformed base 31 from the first side, the second folding board 3313 enters the preformed base 31 from the second side, and the first folding board 3312 and the second folding board 3313 are located above the bearing board 311, so that the middle part of the paper board is kept between the preformed mold core 331 and the bearing board 311, two sides of the paper board are respectively located at the positions of the two turnover boards 312, then the turnover driving source 313 pushes the two turnover boards 312 to turn over 90 degrees respectively, so that the turnover boards 312 turn over along the preformed mold core 331, and then the folded paper board is folded by the one-time folding assembly.

Wherein, the turnover driving source 313 includes two link hinge structures correspondingly arranged, each link hinge structure includes a vertically arranged push plate cylinder 3130 mounted on the base body 310, a push plate shaft member 3131 drivingly connected to the push plate cylinder 3130, a push plate link 3132 hinged to the push plate shaft member 3131, a push plate center shaft 3133 assembled on the push plate link 3132, and a push plate swivel mount 3134 rotatably assembled on the push plate center shaft 3133, wherein the push plate swivel mount 3134 is fixedly connected to the turnover plate member 312.

More specifically, each flip plate 312 is rotatably coupled to the base body 310 by a flip center shaft 315.

The preformed base 31 is further provided with a cardboard lifting assembly 314, and the carrier plate 311 is connected to the cardboard lifting assembly 314.

During preforming, the board jacking component 314 is used for jacking the bearing board 311, so that the board bearing the board 311 is abutted against the bottom of the preforming mold core 331, the folded board is folded under the condition of being attached to the preforming mold core 331, then the two overturning boards 312 respectively overturn the first side and the second side of the board along the preforming mold core 331, and finally the one-time flanging is completed by the one-time flanging component.

In this embodiment, a flap guide holder 3100 is disposed on the left and right sides of the preformed base 31, each flap guide holder 3100 has a guide groove 3101, the guide groove 3101 of the flap guide holder 3100 is provided for the first flap 3312 to penetrate, the guide groove 3101 of the other flap guide holder 3100 is provided for the second flap 3313 to penetrate, the second flap 3313 is provided with a guide effect, and by such a structural design, the horizontal movement of the first flap 3312 and the second flap 3313 is not swayed, and the consistency of the paper support finished product is ensured.

In this embodiment, the primary folding assembly includes a first folding assembly 332 disposed on one side of the pre-forming mold core 331 and a second folding assembly 333 disposed on the other side of the pre-forming mold core 331, and the pre-forming mold core 331 can extend into the pre-forming base 31.

When the folding is performed once, first folding component 332 folds the first side of the folded paper board along the preformed mold core 331 for the first time, then second folding component 333 folds the second side of the folded paper board along the preformed mold core 331 again, the paper board after the first folding forms the lining seat of the paper holder, and the second side of the paper board after the second folding covers the lining seat, so that the supporting edge of the paper holder is formed later.

The first folding edge assembly 332 includes a first assembling inclined base 3320 fixedly mounted on the folding plate base 330, a first folding edge driving source 3323 disposed on the first assembling inclined base 3320, and a tilting folding edge sliding shovel 3322 disposed obliquely relative to the first assembling inclined base 3320 and driving the first folding edge driving source 3323.

In this embodiment, the number of the inclined folding sliding spades 3322 is two, the number of the first folding driving sources 3323 is correspondingly two, and the two inclined folding sliding spades 3322 can ensure the consistency of the left side and the right side of the paper board, so that the effect is better.

In the present embodiment, the second folding assembly 333 includes a second assembling inclined seat 3330 fixedly mounted on the folding plate base 330, a second folding driving source 3331 disposed on the second assembling inclined seat 3330, a second folding sliding frame 3333 obliquely and movably mounted on the folding plate base 330, and a horizontal folding sliding shovel 3332 mounted on the second folding sliding frame 3333, wherein the second folding driving source 3331 is used for driving the second folding sliding frame 3333 to slide.

In this embodiment, the first paperboard gluing assembly 34 is also included and is mounted to the fourth machine body 30 or the flap base 330, the first paperboard gluing assembly 34 being located at the output end of the paperboard supply device 32 for gluing a designated position of the paperboard prior to its preforming.

In this embodiment, the first cardboard glue passing assembly 34 is preferably mounted on the flap base 330, and the first cardboard glue passing assembly 34 includes a glue passing slide 340 slidably mounted on the flap base 330, a dispensing valve 341 mounted on the glue passing slide 340, and a glue passing driving source 342 for driving the glue passing slide 340 to slide. The dispensing valve 341 is used for dispensing the outer edge of the paper holder, so as to facilitate subsequent assembly of the garland.

In this embodiment, the paper board supplying device 32 includes a paper board storing structure 320 disposed at an upper portion of the fourth machine body 30, a pick-up assembly 321 disposed below the paper board storing structure 320 and used for taking out paper boards in the paper board storing structure 320 one by one, and a paper board feeding assembly 322 used for feeding the taken paper boards into the pre-forming base 31.

The cardboard storing structure 320 includes a groove structure surrounded by a plurality of cardboard retaining rods used in cooperation and used for stacking the cardboard up and down, the shape of the groove structure is approximately cuboid, the material picking assembly 321 is a vacuum chuck assembly in this embodiment, however, in other embodiments, a push-pull structure may be used to pull or push the cardboard out of the storing groove, the cardboard feeding assembly 322 includes a cardboard feeding slide 300 slidingly connected to the fourth machine body 30, a feeding cylinder 301 mounted on the cardboard feeding slide 300, a cardboard feeding bearing seat 302 connected to the feeding cylinder 301, and a cardboard feeding driving source 303 driving the cardboard feeding slide 300 to slide along the fourth machine body 30, in specific applications, the pickup assembly 321 extracts the cardboard one by one through the vacuum chuck assembly, and then, the paper board feeding driving source 303 drives the paper board feeding sliding seat 300 to slide to the position of the pick-up assembly 321, the feeding cylinder 301 drives the paper board feeding bearing seat 302 to drive the paper board to lift up, so that the paper board is separated from the adsorption action of the vacuum chuck assembly and falls into the paper board feeding bearing seat 302, so that the paper board feeding driving source 303 drives the paper board feeding sliding seat 300 to slide to send the paper board to a designated position, the paper board is sent to the first paper board glue passing assembly 34, more specifically, a paper board pushing unit 35 assembled on the folded plate base 330 is arranged between the first paper board glue passing assembly 34 and the preformed base 31, the paper board pushing unit 35 pushes the glued paper board into the preformed base 31, wherein the paper board pushing unit 35 is provided with a paper board pushing cylinder 350 fixedly mounted on the folded plate base 330, a paper board pushing center shaft 351 rotatably mounted on the folded plate base 330, A board push-in link 352 connected to the board push-in cylinder 350 and hinged to the board push-in center shaft 351, and a board push-in plate 353 fitted to the board push-in center shaft 351.

In a more specific aspect, the flap base 330 includes a first substrate 3300, a second substrate 3301, and a third substrate 3302 connecting the first substrate 3300 and the second substrate 3301, the first substrate 3300 and the second substrate 3301 being spaced apart and disposed in parallel. The first folding edge assembly 332 is mounted on the first substrate 3300, and the second folding edge assembly 333, the first cardboard glue passing assembly 34, and the cardboard pushing unit 35 are all disposed on the second substrate 3301.

The working principle of the secondary bending forming machine core is explained as follows:

in this embodiment, the secondary bending machine core is provided with a secondary bending component 41 and at least one secondary forming mold core 430 capable of extending into the secondary bending component 41.

The secondary bending forming machine core is matched with the secondary bending assembly 41 through the secondary forming mold core 430, so that the preformed plate body structure is automatically folded into a box body structure along the secondary forming mold core 430, and the automatic folding machine is high in automation degree and high in practicability.

Preferably, the runner feeding unit 42 includes a runner center shaft 420 rotatably mounted to the fifth body 40, a runner driving source 421 fixedly mounted to the fifth body 40 for driving the runner center shaft 420 to rotate, and a plurality of feeding runners 422 mounted to the runner center shaft 420, each of the feeding runners 422 being provided with a plurality of feeding clamps 423 for clamping the preformed paper board. Each feeding clamp 423 is composed of two sheet metal parts which are arranged at intervals in parallel, and a paper board clamping groove is formed, and the feeding clamp 423 formed by adopting the split type structure can correspondingly adjust the size of the paper board clamping groove according to the size of a finished paper holder in the actual production process, so that the universality of equipment is improved.

In this embodiment, the fifth machine body 40 is provided with a secondary pushing unit 44 below the rotating wheel feeding unit 42, and the rotating feeding wheel 422 conveys the preformed paper board to one side of the secondary bending assembly 41, and the secondary pushing unit 44 is used for pushing the preformed paper board out of the feeding nip 423 and into the secondary bending assembly 41.

The secondary pushing unit 44 includes a secondary pushing mounting plate 440 fixedly mounted on the fifth body 40, a secondary pushing cylinder 441 assembled on the secondary pushing mounting plate 440, a secondary pushing sliding plate 442 slidably mounted on the secondary pushing mounting plate 440 and in driving connection with the secondary pushing cylinder 441, and a secondary pushing plate 443 fixedly mounted on the secondary pushing sliding plate 442, more specifically, the secondary pushing mounting plate 440 extends horizontally, and the secondary pushing mounting plate 440 is penetratingly disposed between two adjacent feeding rollers 422. In general, the number of the secondary pushing units 44 is set to be two to ensure that the pushing of the paper board is not deviated, and the consistency of the finished product is ensured.

In this embodiment, the secondary bending molding machine core is further provided with a turntable core unit 43, and the turntable core unit 43 includes a turntable core body 431 rotatably mounted on the fifth machine body 40 and a turntable core driving source 432 fixedly mounted on the fifth machine body 40 and used for driving the turntable core body 431, the turntable core body 431 has a plurality of secondary molding cores 430, and each secondary molding core 430 is equipped with a core tray for adsorbing a paper tray.

Generally, the number of the secondary molding mold cores 430 is four, the connection lines of the four secondary molding mold cores 430 are square, and along with the rotation of the rotary table core 431 driven by the rotary table core driving source 432, one secondary molding mold core 430 extends into the secondary bending assembly 41, and at the same time, the other secondary molding mold core 430 conveys the secondarily bent paper to the dispensing station, the other secondary molding mold core 430 conveys the dispensed paper to the bottom box assembly station, and the other secondary molding mold core 430 conveys the paper support assembled with the bottom box to blanking.

In this embodiment, the secondary bending assembly 41 includes two second bending units 410 disposed at intervals and in parallel, and each second bending unit 410 includes a second bending base 411 fixedly mounted on the fifth body 40, a second bending plate 412 rotatably mounted on the second bending base 411, and a second bending driving source 413 for driving the second bending plate 412 to turn.

In this embodiment, the fifth body 40 is provided with a secondary folding assembly 45 above the secondary folding assembly 41, the secondary folding assembly 45 includes a secondary folding base 450 mounted on the fifth body 40, a secondary longitudinal base 451 mounted on the secondary folding base 450 in a tilting and movable manner, a secondary folding plate 452 mounted on the secondary longitudinal base 451 in a sliding manner longitudinally, a folding plate pusher 453 mounted on the secondary folding plate 452, and a rotating arm transmission source 454 hinged to the secondary folding plate 452, wherein the rotating arm transmission source 454 is used for vertically sliding the secondary folding plate 452 up and down along the secondary longitudinal base 451, and the secondary longitudinal base 451 slides up and down along the secondary folding base 450 in a tilting manner.

According to the invention, the motion track of the folded plate pushing part 453 is adjusted by matching movement of the secondary longitudinal base 451 and the secondary folding plate 452, so that the folded plate pushing part 453 automatically folds the folded plate after the paper board is secondarily folded, and the folding plate folding device is ingenious in design and high in folding precision.

More specifically, the arm transmission source 454 includes an arm driving motor 4540 fixedly mounted to the secondary hemming base 450, a coupling 4541 assembled to an output end of the arm driving motor 4540, and a hemming arm 4542 hinged to the coupling 4541, the hemming arm 4542 being hinged to the secondary hemming plate 452 through a hemming arm link 4543.

In this embodiment, the fifth machine body 40 is equipped with a secondary cardboard glue passing assembly 46 above the turntable core unit 43, the rotating turntable core 431 supports the secondarily folded paper into the secondary cardboard glue passing assembly 46 through the secondary molding core 430, and the secondary cardboard glue passing assembly 46 is configured with a Y-axis driving source 460 connected to the fifth machine body 40, an X-axis driving source 461 connected to the Y-axis driving source 460 in a driving manner, and a secondary glue dispensing valve 462 connected to the X-axis driving source 461 in a driving manner and used for secondarily dispensing the paper. The secondary dispensing valve 462 is used for dispensing the junction between two adjacent side surfaces of the box body structure, so that the stability of the folded box body structure is high, and the box body structure is prevented from being scattered.

In this embodiment, the fifth body 40 is provided with a bottom cover assembly device 47 on the third side of the turntable core unit 43, and the bottom cover assembly device 47 includes a bottom cover assembly base 473 fixedly mounted on the fifth body 40, a bottom cover storage structure 470 fixedly mounted on the bottom cover assembly base 473, a bottom cover pick-up assembly 471 arranged below the bottom cover storage structure 470 and used for taking out the bottom covers one by one, and a bottom cover feeding assembly 472 used for assembling the bottom covers taken out by the bottom cover pick-up assembly 471 into paper holders carried by the secondary molding core 430.

The preformed platy paper support only forms a square hollow inner support, and the complete paper support is required to be assembled with a bottom cover at the bottom of the inner support for sealing the bottom, so as to be used for supporting wine bottles. The third side of the turntable mold core unit 43 is provided with the bottom cover assembling device 47 to realize automatic assembly of the bottom cover, so that the production efficiency of the wine box assembly line is greatly optimized, wherein the bottom cover storage structure 470 is of a groove structure surrounded by a plurality of bottom cover baffle plates which are distributed at intervals, and the bottom cover pick-up assembly 471 adopts a vacuum material taking structure, and the vacuum material taking structure is more conventional, so that the invention is not described in detail herein; the bottom cover feeding assembly 472 includes a bottom cover feeding base 4720 fixedly installed to the bottom cover assembly base 473, a bottom cover feeding motor 4721 assembled to the bottom cover feeding base 4720, a bottom cover feeding swivel 4722 rotatably connected to the bottom cover feeding motor 4721, a bottom cover feeding cylinder 4723 installed to the bottom cover feeding swivel 4722, and a bottom cover feeding plate 4724 connected to the bottom cover feeding cylinder 4723, the bottom cover feeding plate 4724 being used for picking up a bottom cover vacuum chuck of the bottom cover.

The bottom cover feeding assembly 472 further comprises a paper support positioning device 4725 arranged above the secondary molding mold core 430, wherein the paper support positioning device 4725 comprises two paper support clamping units which are arranged left and right and can be mutually close to each other, and the two paper support clamping units are mutually close to position the paper support so that the bottom cover is arranged in the paper support.

In this embodiment, the fifth machine body 40 extends to the position of the box body transmission channel 60 at the fourth side of the turntable core unit 43, the box body is transmitted to the position of the fourth side of the turntable core unit 43 by the box body transmission channel 60, the turntable core unit 43 releases the finished paper tray, the corresponding secondary molding mold core 430 does not absorb the paper tray, and the folded finished paper tray falls into the box body transmission channel 60 and is automatically loaded into the box body carried by the box body transmission channel 60. Wherein, the automatic box conveying device 6 can be a conventional linear conveying mechanism such as a belt conveying mechanism or a chain conveying mechanism, and the like, and therefore, not explained in detail herein,

for the convenience of understanding the present invention, the direction of the position of the secondary bending unit 41 is set to the first side of the rotary table core unit 43, and the direction of the position symmetrical to the secondary bending unit 41 is set to the third side, the upper relative orientation of the rotary table core unit 43 is set to the second side, and the lower relative orientation of the rotary table core unit 43 is set to the fourth side.

The working principle of the automatic ring feeding device 1 is explained as follows:

the automatic garland feeding device 1 comprises a first machine body 10, a garland supply device 12, a garland pick-up manipulator 13, a garland conveying device 14 and a garland gluing device 15 which are arranged on the first machine body 10, wherein the garland pick-up manipulator 13 is movably arranged on the first machine body 10 and used for conveying a plurality of garlands carried by the garland supply device 12 to the garland conveying device 14 one by one, and the garland conveying device 14 is fixedly arranged on the first machine body 10 and used for conveying garlands to the garland gluing device 15 one by one in sequence for gluing.

According to the invention, the garland of the garland supply device 12 is taken out by the garland pick-up manipulator 13 movably arranged on the first machine body 10 and placed on the garland conveying device 14, so that the garland can be taken out one by one, the situation of two pieces of adhesion is prevented, then the garland conveying device 14 sequentially conveys the garland to the garland gluing device 15 one by one for gluing, and the garland full-automatic feeding and gluing process is realized.

In a more specific technical solution, the automatic ring feeding device 1 is further provided with a ring drying device 16, the ring conveying device 14 is used for conveying the glued ring to the ring drying device 16 for drying, the ring drying device 16 includes a second machine body 160, a chain transmission assembly 161 assembled on the second machine body 160, and a heating assembly built in the second machine body 160, and the chain transmission assembly 161 is assembled with a plurality of material loading baffles 162 at intervals. Can separate the garland one by one through setting up a plurality of year material baffles 162, prevent the condition of two adhesion to through setting up year material baffles 162, make the garland can be to erect and place, improve the stoving area, shorten the stoving time length, improve drying efficiency.

In this embodiment, the ring feeding device 12 includes a first connecting seat 120 fixed to the first machine body 10 and a first storage seat 121 obliquely arranged to the first connecting seat 120, the first storage seat 121 has a first storage groove 122 for stacking rings, the first storage seat 121 is equipped with a plurality of discharging guide rods 123 at a discharging end for guiding the ring in the first storage groove 122 to discharge, the plurality of discharging guide rods 123 are spaced apart and arranged in parallel, the plurality of discharging guide rods 123 are arranged around the ring in the first storage groove 122, and a stop member 1230 for stopping the edge of the ring in the first storage groove 122 is configured at an end of the discharging guide rod 123.

Wherein, the number of the discharging guide rods 123 is at least two, and the two discharging guide rods 123 are respectively arranged at the left side and the right side or the upper side and the lower side of the first storage seat 121, and the invention preferably adopts four discharging guide rods 123.

Further, the feeding end of the first storage seat 121 is provided with a moving annular limiting slider 124, and the annular limiting slider 124 automatically abuts against the annular of the first storage tank 122. Specifically, the bottom of first storage seat 121 is equipped with the slide rail, the spacing slider 124 slidable mounting of wreath is in the slide rail to because first storage seat 121 is for the horizontal plane setting of slope, consequently, the spacing slider 124 of wreath can keep the wreath in contradicting first storage tank 122 under the dead weight effect, along with the wreath that is close to the discharge end is progressively taken out, the spacing slider 124 of wreath can automatic tracking compress tightly the wreath to prevent that the wreath from dropping from first storage tank 122, help the wreath of rear end to remove the front end along first storage tank 122 simultaneously, so that the wreath material picking manipulator 13 gets the material.

In this embodiment, the garland pick-up manipulator 13 includes a pick-up rack 130 rotatably disposed on the first body 10, a plurality of pick-up members 131 assembled on the pick-up rack 130, and a turnover conveying device 132 disposed on the first body 10 and used for driving the pick-up rack 130 to turn over.

The turnover conveying device 132 includes a turnover conveying motor 1320, a driving gear 1321 in driving connection with the turnover conveying motor 1320, a driving cam 1322 in driving connection with the driving gear 1321, a driving pull rod 1323 in driving connection with the driving cam 1322, a driving swing arm 1324 hinged with the driving pull rod 1323, a turnover driving rotating shaft 1325 rotatably provided on the first machine body 10 and hinged with the driving swing arm 1324, and a driving pull rod 1326 assembled on the turnover driving rotating shaft 1325, wherein the rotating driving pull rod 1326 is used for driving the pickup frame 130 to turn.

Specifically, after the turning transmission motor 1320 is started, the driving gear 1321 is driven to rotate, the driving gear 1321 drives the transmission cam 1322 to rotate through the driving rotation shaft, the rotating transmission cam 1322 drives the transmission pull rod 1323 to rotate, the rotating transmission pull rod 1323 pulls the transmission swing arm 1324 to swing and enables the turning transmission rotation shaft 1325 to rotate, so that the driving pull rod 1326 assembled on the turning transmission rotation shaft 1325 drives the pickup frame 130 to achieve turning, the structure is compact, the power transmission stability is good, and the precise material taking and discharging of the garland material picking manipulator 13 is guaranteed.

In a further technical solution, the garland gluing device 15 includes a dispensing head 150, a dispensing movement driving source disposed on the first machine body 10 and used for driving the dispensing head 150 to move and dispense glue, and a clamping jaw cylinder 151 disposed below the dispensing head 150 and used for positioning garland, wherein the clamping jaw cylinder 151 is equipped with a garland carrier 152, and the garland carrier 152 is equipped with a plurality of suckers 153.

The dispensing movement driving source includes an X-axis driving source 154 provided on the first body 10, a Y-axis driving source 155 mounted on the X-axis driving source 154, and a Z-axis driving source 156 mounted on the Y-axis driving source 155, and the dispensing head 150 is connected to an output end of the Z-axis driving source 156.

In a further technical solution, the material loading baffle 162 includes a material blocking plate 1620 and a material loading plate 1621 formed by bending the material blocking plate 1620, wherein the material blocking plate 1620 and the material loading plate 1621 are combined in a V shape; in practical application, the material loading baffle 162 near the feeding end of the chain transmission assembly 161 extends to the output end of the garland conveying device 14, after garland gluing is completed, garland is conveyed to the position of the chain transmission assembly 161 by the garland conveying device 14, falls between the material blocking plate member 1620 and the material loading plate member 1621, the garland is turned from the horizontal direction to the vertical direction along with chain transmission of the chain transmission assembly 161, the bottom of the garland is abutted against the material loading plate member 1621, and the blocking plate member 1620 plays a role in blocking, and the garland is turned from the vertical direction to the horizontal direction along with conveying of the garland to the output end of the chain transmission assembly 161, so that automatic turn-over is realized.

More preferably, the end of the baffle member 1620 has an arc chamfer, which can guide the garter ring during feeding and discharging, and does not scratch the garter ring.

More specifically, the carrier baffle 162 further includes a pressing plate 1622 formed by bending the carrier baffle 1620, wherein the carrier plate 1621 and the pressing plate 1622 are respectively disposed on two sides of the pressing plate 1620, and the pressing plate 1622 of the previous carrier baffle 162 can press the garter ring against the pressing plate 1620 of the next carrier baffle 162 to further limit the garter ring.

In the present embodiment, a vacuum generating unit is further included; the garland transfer device 14 comprises two annular belts rotatably arranged on the first machine body 10 and parallel to each other, and a power assembly for driving the two annular belts to rotate, wherein the annular belts are provided with a plurality of through holes penetrating through the annular belts, the plurality of through holes are arranged along the length direction and the width direction of the annular belts, the vacuum generating unit is used for matching with the through holes of the annular belts so that garlands are adsorbed on the annular belts, and the two annular belts are used for bearing two ends of the garlands far away from each other; the first machine body 10 is provided with a yielding groove between two annular belts, and the garland gluing device 15 is used for gluing the part of the garland carried by the garland conveying device 14 corresponding to the yielding groove. The two annular belts form a garland conveying channel, the clamping jaw air cylinder 151 is positioned in the garland conveying channel, and along with the starting of the annular belts, the garland is transferred to the garland bearing piece 152 and sucked by the sucking disc 153, so that the accuracy of the glue melting position is ensured.

The specific working principle of the garland assembling device 2 is as follows:

the garland assembling device 2 comprises a third machine body 20, a carrying turntable 21 arranged on the third machine body 20 in a rotating mode, a rotating driving mechanism 22 for driving the carrying turntable 21 to intermittently rotate and a plurality of box body carrying molds 23 assembled on the carrying turntable 21, wherein the third machine body 20 is provided with a box body feeding station 200, a garland feeding station 201, a combined assembling station 202 and a finished product discharging station 203, the box body feeding station 200, the garland feeding station 201, the combined assembling station 202 and the finished product discharging station 203 are arranged around the center of the carrying turntable 21, each box body carrying mold 23 is respectively arranged at a corresponding station, and the garland after gluing is fed to the garland feeding station 201.

The garland assembling device 2 is mainly used for assembling garlands to the box body, and blanking the finished product after assembling, the box body is finished and loaded in the box body loading station 200, after each box body is loaded to the box body carrying die 23 in the box body loading station 200, the carrying turntable 21 intermittently rotates, the loaded box body is transferred to the garland loading station 201 to be connected with garlands, the garlands of the incoming material are positioned above the box body, then the rotating carrying turntable 21 conveys the garlands and the box body into the assembling station 202 to be assembled into a whole, and finally the finished product assembled into a whole is transferred into the finished product blanking station 203 to be blanked by the rotating carrying turntable 21.

The third machine body 20 is further provided with a garland feeding manipulator 24, and the garland feeding manipulator 24 is used for picking up the dried garland and transferring the garland to the garland feeding station 201.

The assembly station 202 is provided with a pressing assembly module 25, the pressing assembly module 25 is disposed above the box body carrying mold 23, and the pressing assembly module 25 is used for being inserted into a box body carried by the box body carrying mold 23 and pressing the inner edge of the embossing ring to enable the inner edge of the embossing ring to be attached to the inner wall of the box body.

That is, the automatic garland feeding device 1 provides garlands, and after the garlands are glued, dried and turned over, the garland is fed into the garland feeding station 201 of the garland assembling device 2 by the garland feeding manipulator 24 to be assembled into a box body.

In this embodiment, each of the box loading molds 23 includes a first baffle 230 and a second baffle 231, and the first baffle 230 and the second baffle 231 are respectively spaced and arranged in parallel to form a box positioning slot for limiting the box. The size of box body constant head tank and the size looks adaptation of box body play the effect of location to the box body of incoming material, set up the box body into the split type structure of double baffle and can correspond the size of adjustment box body constant head tank according to the specification of box body at in-service use, improve the commonality of equipment.

In this embodiment, the first baffle 230 and the second baffle 231 are both equipped with a plurality of positioning suction cups 232 for sucking the garlands, and after the garlands are sent to the box body loading mold 23, the positioning suction cups 232 can automatically suck the garlands, so as to prevent the garlands from dislocating or sliding out.

In this embodiment, the garland feeding manipulator 24 includes a horizontal fixing plate 240 mounted on the third body 20, a translational driving source 241 mounted on the horizontal fixing plate 240, a translational material taking seat 242 connected to the translational driving source 241, a longitudinal driving cylinder 243 mounted on the translational material taking seat 242, and a material sucking plate 244 connected to the longitudinal driving cylinder 243, wherein the material sucking plate 244 is provided with a plurality of material sucking discs 245. The translation driving source 241 is matched with the longitudinal driving cylinder 243 for use, so that the suction plate 244 can be taken out at a specified position and is transferred to the garland feeding station 201, and the motion track of the suction plate 244 can be more accurate by adopting a double driving source mode. Wherein, the translation driving source 241 is used by matching a motor with a belt transmission assembly in the embodiment.

In this embodiment, more specifically, the assembly station 202 is further provided with a positioning and jacking module 26, the pressing combination module 25 and the positioning and jacking module 26 are respectively disposed on the upper and lower sides of the box body carrying mold 23, and the positioning and jacking module 26 stretches into the box body carrying mold 23 to jack the box body so that the box body is positioned in the box body carrying mold 23, so that the pressing combination module 25 is inserted into the inner side of the pressing ring of the box body carrying mold 23.

Wherein, the pressing combination module 25 includes a pressing fixing seat 250, a pressing cylinder 251 mounted on the pressing fixing seat 250, a pressing sliding seat 252 slidably connected to the pressing fixing seat 250, a fitting finger cylinder 253 disposed in the middle of the pressing sliding seat 252, and two pressing positioning blocks 254 disposed on left and right sides of the pressing sliding seat 252, wherein the fitting finger cylinder 253 is equipped with a plurality of fitting pressing blocks 255, and when the pressing positioning blocks 254 move downwards and stop on the box body material loading mold 23, the fitting finger cylinder 253 drives each fitting pressing block 255 to fit the inner edge of the garland on the inner wall of the box body.

In general, the number of the laminating press blocks 255 is four, when the pressing cylinder 251 drives the pressing slide base 252 to move downwards, the pressing positioning block 254 moves downwards to stop on the box body carrying mold 23, and then the laminating finger cylinder 253 drives the four laminating press blocks 255 to respectively laminate the inner ring of the garland on the four side walls of the box body.

In a further technical solution, the product blanking station 203 is provided with a blanking manipulator 27, and the blanking manipulator 27 includes a traversing in-place driving source 270 that is erected on the third machine body 20, a longitudinal moving driving source 271 that is assembled on the traversing in-place driving source 270, a material taking and placing seat 272 that is connected to the longitudinal moving driving source 271 in a transmission manner, and a plurality of material taking and placing clamping claws 273 that are assembled on the material taking and placing seat 272.

In this embodiment, the traversing in-place driving source 270 and the longitudinal moving driving source 271 are both of a conventional structure in which a motor is used in combination with a belt transmission assembly, so that further explanation will not be given here, and of course, the traversing in-place driving source 270 and the longitudinal moving driving source 271 may be replaced by other conventional linear structures.

More specifically, the middle part of the material taking and placing seat 272 is provided with a material taking and placing finger cylinder 274, the material taking and placing finger cylinder 274 is provided with a plurality of material taking and placing press blocks 275, one material taking and placing press block 275 is matched with one material taking and placing clamping jaw 273 for use, in this embodiment, the structure adopted by the material taking and placing press blocks 275 and the bonding press blocks 255 is consistent, so that the universality of the device is higher, and the material taking and placing finger cylinder 274 and the bonding finger cylinder 253 can also be replaced by adopting the same structure.

In a more specific solution, the finished product blanking station 203 is also provided with a positioning and jacking module 26 for positioning the box body, so as to improve the overall accuracy of the equipment.

In a more specific technical solution, the box feeding manipulator 28 is disposed in the box feeding station 200, and the box feeding manipulator 28 may adopt a box feeding gripper structure in the prior art, so that a detailed description will not be made here.

Finally, the finished product blanking device 5 is similar to the structure of the automatic box body conveying device 6, and blanking of finished wine boxes can be realized through the existing linear conveying mechanism, such as a belt conveying mechanism and the like, so that detailed explanation of the finished product blanking device is omitted.

The foregoing is merely exemplary of the present invention, and those skilled in the art should not be considered as limiting the invention, since modifications may be made in the specific embodiments and application scope of the invention in light of the teachings of the present invention.

Claims (10)

1. An automatic shaping equipment production line of garland box body, its characterized in that: the automatic paper tray assembling device comprises a box body automatic conveying device (6), paper tray automatic assembling equipment (4) for automatically forming paper trays, a garland automatic glue feeding device (1) for supplying garlands, a garland assembling device (2) for assembling garlands to inner trays, and a finished product blanking device (5) connected to the garland assembling device, wherein the box body automatic conveying device (6) is provided with a box body conveying channel (60), the paper tray automatic assembling equipment (4) outputs formed inner trays to the box body conveying channel (60) to enable the inner trays to be assembled in the box body borne by the box body conveying channel (60), and the box body conveying channel (60) transfers the box bodies assembled with the inner trays to the garland assembling device (2) for garland assembling.

2. The automatic forming and assembling line for a garland box according to claim 1, wherein: the automatic paper holder assembly equipment (4) comprises a fifth machine body (40), a paper holder preforming machine core (3) which is connected with the fifth machine body (40) and used for preforming paper boards, a secondary bending forming machine core which is arranged on the fifth machine body (40) and used for carrying out secondary forming on the preformed paper boards, and a rotating wheel feeding unit (42) which is used for conveying the preformed paper boards into the secondary bending forming machine core.

3. The automatic forming and assembling line for a garland box according to claim 2, wherein: the paper support preforming core (3) comprises a fourth machine body (30), a preforming base (31) arranged on the fourth machine body (30), a paper board supply device (32) arranged on the fourth machine body (30) and used for supplying paper boards to the preforming base (31) and a folding plate device (33) arranged above the preforming base (31), wherein the folding plate device (33) comprises a folding plate base (330) fixedly arranged on the fourth machine body (30), a preforming mold core (331) movably arranged on the folding plate base (330), a primary bending assembly used for bending the paper boards borne by the preforming base (31) and a primary folding assembly used for folding the folded paper boards.

4. An automatic forming assembly line for a garland box according to claim 3, wherein: the preformed mold core (331) comprises a first folding plate sliding seat (3310) arranged on one side of the folding plate base (330) in a sliding manner, a second folding plate sliding seat (3311) arranged on the other side of the folding plate base (330) in a sliding manner, a first folding plate (3312) assembled on the first folding plate sliding seat (3310) and a second folding plate (3313) assembled on the second folding plate sliding seat (3311); the flap device (33) is also provided with a flap driving source (3314) for driving the first flap slide (3310) and the second flap slide (3311) to be close to each other.

5. The automatic forming and assembling line for a garland box according to claim 2, wherein: the secondary bending forming machine core is provided with a secondary bending assembly (41) and a rotary table mold core unit (43), the rotary table mold core unit (43) comprises a rotary table core body (431) rotatably mounted on a fifth machine body (40) and a rotary table machine core driving source (432) fixedly mounted on the fifth machine body (40) and used for driving the rotary table core body (431), the rotary table core body (431) is provided with a plurality of secondary forming mold cores (430), and each secondary forming mold core (430) is provided with a mold core disc sucking piece used for sucking a paper tray.

6. The automatic forming and assembling line for the garland box according to claim 5, wherein: the first side of carousel mold core unit (43) is connected with secondary subassembly (41) of bending, and the second side of carousel mold core unit (43) is equipped with secondary cardboard and crosses gluey subassembly (46), the third side of carousel mold core unit (43) is provided with bottom assembly quality (47), and the fourth side of carousel mold core unit (43) is connected with the automatic conveyer of box body.

7. The automatic forming and assembling line for a garland box according to claim 1, wherein: the automatic garland feeding device (1) comprises a first machine body (10), a garland supply device (12), a garland pick-up manipulator (13), a garland conveying device (14) and a garland gluing device (15) which are arranged on the first machine body (10), the garland pick-up manipulator (13) is movably arranged on the first machine body (10) and used for conveying garlands borne by the garland supply device (12) to the garland conveying device (14) one by one, and the garland conveying device (14) is fixedly arranged on the first machine body (10) and used for conveying garlands to the garland gluing device (15) one by one for gluing.

8. The automatic forming and assembling line for a garland box according to claim 1, wherein: the garland assembling device (2) comprises a third machine body (20), a carrying turntable (21) arranged on the third machine body (20) in a rotating mode, a rotating driving mechanism (22) for driving the carrying turntable (21) to intermittently rotate and a plurality of box body carrying molds (23) assembled on the carrying turntable (21), wherein the third machine body (20) is provided with a box body feeding station (200), a garland feeding station (201), a combined assembling station (202) and a finished product discharging station (203), the box body feeding station (200), the garland feeding station (201), the combined assembling station (202) and the finished product discharging station (203) are arranged around the center of the carrying turntable (21), each box body carrying mold (23) is arranged at a corresponding station, and the garland after gluing is fed to the garland feeding station (201).

9. The automatic forming and assembling line for the garland box according to claim 7, wherein: the automatic garland feeding device (1) of garland still includes garland drying device (16), and garland conveyer (14) are used for sending into garland drying device (16) interior stoving with the garland after the rubber coating, garland drying device (16) include second organism (160), assemble in chain transmission subassembly (161) of second organism (160) and built-in heating element of second organism (160), chain transmission subassembly (161) interval is equipped with a plurality of year material baffles (162), and garland after the stoving is carried to garland material station (201) by year material baffles (162).

10. The automatic forming and assembling line for a garland box according to claim 9, wherein: the material carrying baffle plate (162) comprises a material blocking plate (1620) and a material carrying plate (1621) formed by bending the material blocking plate (1620), wherein the material blocking plate (1620) and the material carrying plate (1621) are in a V-shaped structure.