CN116674824A - Automatic printed matter packaging device capable of preventing packaging bubbling - Google Patents

Abstract

The invention discloses an automatic printed matter packaging device capable of preventing packaging bubbling, which relates to the technical field of printed matter packaging and comprises a chassis and a bottom plate, wherein a motor is arranged in the middle of the chassis, a sliding groove is arranged at the right part of the chassis, a sliding plate is connected in a clamping manner in the sliding groove, supporting columns are fixedly connected to four corners of the sliding plate, the bottom plate is fixedly connected above the supporting columns, a heating plate is fixedly connected in the bottom plate, an adsorption component is arranged at the left part of the bottom plate, a sliding frame is fixedly connected to the rear part of the bottom plate, a sliding rail is arranged in the middle of the sliding frame, a limiting groove is arranged in the middle of the sliding rail, a limiting ring is connected in the limiting groove in a clamping manner, a sliding rod is fixedly connected in the middle of the limiting ring, and a connecting rod is fixedly connected to the rear end of the sliding rod. When the printed matter is packaged, the printed matter can be heated to remove redundant moisture in the printed matter, dust on the surface of the printed matter can be cleaned, and the uniformity of gluing is ensured, so that the situation of packaging bubbling during film coating is avoided.

Description

Automatic printed matter packaging device capable of preventing packaging bubbling

Technical Field

The invention relates to the technical field of printed matter packaging, in particular to an automatic printed matter packaging device capable of preventing packaging bubbling.

Background

The printed matter needs to be coated and packaged in the production process, and the coating belongs to a main process of post-printing processing, namely, a plastic film coated with an adhesive is bonded with the paper printed matter after being heated and pressurized to form a paper-plastic integrated product, which is one of the common post-printing processing processes of the paper printed matter. The surface of the printed matter passing through the coating is smoother and brighter due to the fact that a thin and transparent plastic film is added on the surface, the glossiness and the fastness of the printed matter are improved, the service life of the printed matter is prolonged, and meanwhile the plastic film has protection effects of moisture resistance, water resistance, pollution resistance, wear resistance, folding resistance, chemical corrosion resistance and the like.

When the existing laminating device is used for laminating printed matters, impurities can be adhered to the surface of paper or moisture in the printed matters is not completely removed, so that packaging bubbling after lamination is caused, and packaging quality is affected.

In view of the above, an automatic packaging device for printed matter has been proposed which is improved in view of the conventional structure and drawbacks.

Disclosure of Invention

The invention aims to provide an automatic packaging device for printed matters, which is capable of preventing packaging bubbling and is used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an automatic packing device of printed matter of anti-package bubbling, includes chassis and bottom plate, the chassis middle part is provided with the motor, and chassis right part is provided with the spout, block is connected with the slide in the spout, and slide four corners fixedly connected with pillar, bottom plate fixedly connected with hot plate in the pillar top, and bottom plate, bottom plate left part is provided with adsorption component, and bottom plate rear fixedly connected with slipframe, the slide rail has been seted up at the slipframe middle part, and the slide rail middle part is provided with the spacing groove, block is connected with the spacing ring in the spacing groove, and spacing ring central authorities fixedly connected with slide bar, slide bar rear end fixedly connected with connecting rod, and the connecting rod other end fixedly connected with carousel, chassis right part top is provided with cleaning component.

Further, the limiting ring is in sliding connection with the sliding rail through the limiting groove, the sliding rod is in sliding connection with the sliding frame through the sliding rail, the sliding plate is in sliding connection with the chassis through the sliding groove, the cleaning assembly is located above the sliding groove, and the rotary table is in rotary connection with the chassis through the rotary shaft.

Further, the absorption subassembly includes absorption mouth, caulking groove, panel, embedded rod, absorption spring, roof and air exhauster, the absorption mouth has been seted up to the bottom plate left end, and the caulking groove has been seted up to absorption mouth lower part, sliding connection has the panel in the caulking groove, and panel left side fixedly connected with embedded rod, the embedded rod outside is provided with absorption spring, and embedded rod left end fixedly connected with roof, absorption mouth below is provided with the air exhauster, the panel passes through caulking groove and bottom plate block connection, and the embedded rod passes through caulking groove and bottom plate sliding connection, the roof passes through absorption spring and bottom plate elastic connection, and absorption spring both ends respectively with roof, bottom plate fixed connection.

Further, clean subassembly includes base, gluey chamber, play gluey mouth, seal groove, card chamber, shrouding, cardboard, jump ring, draw-in lever, suction disc, scraping spring and scraper blade, chassis right part top is provided with the base, and the gluey chamber has been seted up on base upper left portion, glue out the mouth has been seted up to gluey chamber below, and has seted up the seal groove in play gluey mouth lower part, the card chamber has been seted up on the seal groove right-hand, and seal inslot block is connected with the shrouding, the right-hand fixedly connected with cardboard of shrouding, and the right-hand fixedly connected with jump ring of cardboard, the jump ring inboard is provided with the draw-in lever, and draw-in lever right-hand fixedly connected with suction disc, base lower left fixedly connected with scraping spring, and scraping spring below fixedly connected with scraper blade.

Further, the shrouding passes through seal groove and base sliding connection, and the cardboard passes through jump ring and card chamber elastic connection, card pole left end and cardboard fixed connection, the scraper blade passes through scraping spring and base elastic connection.

Further, clean subassembly still includes aspiration pump, exhaust tube, accomodates chamber, dust collecting chamber, negative pressure chamber, brush, dust collecting box, arm-tie, dust collection mouth, guide plate and filter screen, base left part top fixedly connected with aspiration pump, and the aspiration pump below is provided with the exhaust tube, the exhaust tube below is provided with accomodates the chamber, and accomodates the chamber below and be provided with the dust collecting chamber, dust collecting chamber left side is provided with the negative pressure chamber, and dust collecting chamber right-hand brush that is provided with, sliding connection has the dust collecting box in accomodating the chamber, and dust collecting box right-hand fixedly connected with arm-tie, the dust collection mouth has been seted up to dust collecting box lower surface, and the dust collection mouth right-hand guide plate that is provided with, dust collecting box top fixedly connected with filter screen.

Further, the suction plate is located in the negative pressure cavity, the pull plate is connected with the base through the accommodating cavity in a clamping mode, the filter screen is located under the exhaust pipe, the guide plate is obliquely fixed in the dust collecting box, and the dust collecting box is communicated with the dust collecting chamber through the dust collecting opening.

Further, the chassis left side is provided with the underframe, and is provided with the conveyer belt in the underframe, underframe right-hand member fixedly connected with shovel board, and underframe top fixedly connected with crossbeam, crossbeam right side below rotates and is connected with the traction roller, and the crossbeam right-hand member rotates and is connected with the guide roll, the crossbeam top rotates and is connected with the material roller, the motor passes through belt, belt pulley and conveyer belt, carousel constitution transmission structure.

Further, crossbeam lower surface left part symmetry fixedly connected with lifter, and lifter below fixedly connected with holding down plate, holding down plate below fixedly connected with hot pressboard, and hot pressboard left and right sides symmetry is provided with the cutter, one side that the hot pressboard was kept away from to the cutter is provided with the pressure spring, and pressure spring lower extreme fixedly connected with fixed plate.

Further, sleeve is fixedly connected with the right portion of the lower surface of the cross beam, clamping grooves are symmetrically formed in the inner wall of the sleeve, clamping blocks are connected in the clamping grooves in a clamping mode, a loop bar is fixedly connected between the clamping blocks, a compression roller is connected to the lower end of the loop bar in a rotating mode, and tension springs are arranged on the outer side of the loop bar.

The invention provides an automatic packaging device for printed matters, which is capable of preventing packaging bubbling and has the following beneficial effects: when packing the printed matter, can heat the printed matter in order to get rid of unnecessary moisture in it, and can clear up the dust of its surface, guaranteed the homogeneity of rubber coating to avoid appearing the condition of packing bubbling when the tectorial membrane.

1. According to the invention, after a printed matter is placed on the bottom plate, the heating plate heats the printed matter, so that excessive moisture in the printed matter is evaporated to dryness, the glue solution is prevented from being attached, then the air extractor is started, the left end of the printed matter is adsorbed and fixed through the adsorption port, the motor drives the turntable to rotate, thereby driving the slide bar to move through the connecting rod, when the slide bar rotates along with the turntable, the slide bar can synchronously move in the slide frame through the slide rail, the limit ring can limit the slide bar through the limit groove, the slide bar is prevented from deflecting or falling off, the slide frame drives the bottom plate to reciprocate in the left-right direction above the chassis, the slide plate can limit the bottom plate through the slide groove, the printed matter is prevented from deflecting, and therefore, the printed matter is conveyed, after the printed matter is cleaned and glued, the bottom plate moves to the rightmost end of the reciprocating track, the top plate compresses the adsorption spring, and drives the panel to move in the caulking groove through the embedded rod, so that the adsorption port is blocked, the printed matter can be smoothly transported, and after the transportation is completed, the bottom plate is reset, the panel is driven to reset through the embedded rod under the action of the adsorption spring, and the adsorption port is opened, so that the next printed matter is conveniently fixed.

2. According to the invention, when the printed matter is carried by the bottom plate and passes through the bottom plate from the lower part of the base, the brush firstly cleans the surface of the printed matter, and loosens the adhered impurities, when the printed matter passes through the lower part of the dust collecting chamber, the air in the dust collecting chamber can be pumped out by the air pump, so that dust and impurities on the surface of the printed matter are sucked into the dust collecting chamber and enter the filter frame through the dust collecting opening, the dust and impurities are accumulated in the filter frame after being intercepted by the filter screen under the guidance of the guide plate, so that the concentrated cleaning is facilitated, the filter frame is only required to be taken out from the containing chamber through the pulling plate during cleaning, the pulling plate can seal the containing chamber when the filter frame is used, the sealing state in the containing chamber is maintained, when the printed matter completely covers the lower end of the dust collecting chamber, negative pressure is formed in the negative pressure chamber, the suction plate drives the clamping plate to move in the clamping chamber through the clamping rod, and then drives the sealing plate to move in the sealing groove, the glue outlet is opened, the glue liquid flows out from the glue outlet and covers the printed matter, the glue liquid is tightly attached to the surface of the filter frame under the action of the glue spring, and the glue liquid is prevented from falling from the negative pressure outlet to the sealing plate, and the glue liquid is prevented from leaving the glue outlet to be polluted when the glue outlet is covered, and the glue is left on the bottom to the glue outlet.

3. According to the invention, after the bottom plate carries the printed matter to finish cleaning and gluing and reaches the right end of the bottom frame, the shoveling plate shovels the unfixed printed matter and conveys the printed matter through the conveying belt, the printed matter adheres the film and tears the film to move through the glue solution coated on the surface, the press roller presses the printed matter adhered with the film under the action of the tension spring, the film is smoothed, wrinkles are avoided, the clamping block limits the sleeve rod through the clamping groove, the sleeve rod is prevented from deflecting when the sleeve rod slides in the sleeve, when the printed matter is conveyed to the lower part of the hot pressing plate by the conveying belt, the conveying belt stops running, the lifting rod drives the lower pressing plate to descend, so that the fixing plate fixes the film outside the two ends of the printed matter, the cutter cuts the film from the edge of the printed matter along with the continuous descending of the lower pressing plate, the hot pressing plate presses the film and the printed matter, and after the pressing is finished, the lifting rod drives the lower pressing plate to reset, and the conveying belt continues running, and products and waste materials are discharged.

Drawings

FIG. 1 is a schematic top view of an automatic packaging device for printed matter, which is capable of preventing packaging bubbling;

FIG. 2 is a schematic structural view of an automatic packaging device for printed matter for preventing packaging bubbling;

FIG. 3 is a schematic structural view of an automatic packaging device for printed matter for preventing packaging bubbling;

FIG. 4 is a schematic structural view of an automatic packaging device for printed matter for preventing packaging bubbling according to the present invention;

FIG. 5 is a schematic view of the structure of an automatic packaging device for printed matter for preventing packaging bubbling;

FIG. 6 is a schematic view of an automatic packaging device for printed matter for preventing packaging bubbling;

fig. 7 is an enlarged schematic view of the printed matter automatic packaging device for preventing packaging bubbling in fig. 5.

In the figure: 1. a chassis; 2. a motor; 3. a chute; 4. a slide plate; 5. a support post; 6. a bottom plate; 7. a heating plate; 8. an adsorption assembly; 801. an adsorption port; 802. a caulking groove; 803. a panel; 804. a rod embedding; 805. an adsorption spring; 806. a top plate; 807. an air extractor; 9. a sliding frame; 10. a slide rail; 11. a limit groove; 12. a limiting ring; 13. a slide bar; 14. a connecting rod; 15. a turntable; 16. a cleaning assembly; 1601. a base; 1602. a glue cavity; 1603. a glue outlet; 1604. sealing the groove; 1605. a cavity is blocked; 1606. a sealing plate; 1607. a clamping plate; 1608. clamping springs; 1609. a clamping rod; 1610. a suction plate; 1611. a scraping spring; 1612. a scraper; 1613. an air extracting pump; 1614. an exhaust pipe; 1615. a storage chamber; 1616. a dust collection chamber; 1617. a negative pressure chamber; 1618. a brush; 1619. a dust collection box; 1620. pulling a plate; 1621. a dust collection port; 1622. a deflector; 1623. a filter screen; 17. a bottom frame; 18. a conveyor belt; 19. a shovel plate; 20. a cross beam; 21. a traction roller; 22. a guide roller; 23. a material roller; 24. a lifting rod; 25. a lower pressing plate; 26. a hot pressing plate; 27. a cutter; 28. a pressure spring; 29. a fixing plate; 30. a sleeve; 31. a clamping groove; 32. a clamping block; 33. a loop bar; 34. a press roller; 35. and a tension spring.

Detailed Description

Referring to fig. 1 to 7, the present invention provides the following technical solutions: the utility model provides an automatic packing device of printed matter of anti-package bubbling, including chassis 1 and bottom plate 6, chassis 1 middle part is provided with motor 2, and chassis 1 right part is provided with spout 3, the block is connected with slide 4 in the spout 3, and slide 4 four corners fixedly connected with pillar 5, bottom plate 6 fixedly connected with is above pillar 5, and fixedly connected with hot plate 7 in the bottom plate 6, bottom plate 6 left part is provided with adsorption component 8, and bottom plate 6 rear fixedly connected with sliding frame 9, sliding rail 10 has been seted up at sliding frame 9 middle part, and sliding rail 10 middle part is provided with spacing groove 11, block is connected with spacing ring 12 in the spacing groove 11, and spacing ring 12 central authorities fixedly connected with slide bar 13, slide bar 13 rear end fixedly connected with connecting rod 14, and connecting rod 14 other end fixedly connected with carousel 15, chassis 1 right part top is provided with cleaning component 16.

Referring to fig. 1 to 5, a limit ring 12 is slidably connected with a slide rail 10 through a limit groove 11, a slide bar 13 is slidably connected with a slide frame 9 through the slide rail 10, a slide plate 4 is slidably connected with a chassis 1 through a slide groove 3, a cleaning assembly 16 is positioned above the slide groove 3, a turntable 15 is rotatably connected with the chassis 1 through a rotating shaft, an adsorption assembly 8 comprises an adsorption opening 801, a caulking groove 802, a panel 803, a rod 804, an adsorption spring 805, a top plate 806 and an air extractor 807, the left end of the bottom plate 6 is provided with the adsorption opening 801, the lower part of the adsorption opening 801 is provided with the caulking groove 802, the panel 803 is slidably connected in the caulking groove 802, the left end of the panel 803 is fixedly connected with the rod 804, the outer side of the rod 804 is provided with the adsorption spring 805, the left end of the rod 804 is fixedly connected with the top plate 806, the air extractor 807 is arranged below the adsorption opening 801, the panel 803 is in snap connection with the bottom plate 6 through the caulking groove 802, the rod 804 is slidably connected with the bottom plate 6 through the caulking groove 802, the top plate 806 is elastically connected with the bottom plate 6 through the adsorption spring 805, two ends of the adsorption spring 805 are respectively and fixedly connected with the top plate 806 and the bottom plate 6, a bottom frame 17 is arranged at the left side of the chassis 1, a conveying belt 18 is arranged in the bottom frame 17, a shovel plate 19 is fixedly connected at the right end of the bottom frame 17, a cross beam 20 is fixedly connected above the bottom frame 17, a traction roller 21 is rotationally connected at the right lower side of the cross beam 20, a guide roller 22 is rotationally connected at the right end of the cross beam 20, a material roller 23 is rotationally connected above the cross beam 20, a motor 2 forms a transmission structure with the conveying belt 18 and the turntable 15 through a belt and a belt pulley, a lifting rod 24 is symmetrically and fixedly connected at the left part of the lower surface of the cross beam 20, a lower pressing plate 25 is fixedly connected below the lifting rod 24, a hot pressing plate 26 is fixedly connected at the left side and right side of the hot pressing plate 26 is symmetrically provided with a cutter 27, a pressure spring 28 is arranged at one side of the cutter 27 away from the hot pressing plate 26, the lower end of the pressure spring 28 is fixedly connected with a fixed plate 29, the right part of the lower surface of the cross beam 20 is fixedly connected with a sleeve 30, clamping grooves 31 are symmetrically formed in the inner wall of the sleeve 30, clamping blocks 32 are connected in the clamping grooves 31 in a clamping manner, a sleeve rod 33 is fixedly connected between the clamping blocks 32, the lower end of the sleeve rod 33 is rotatably connected with a compression roller 34, and tension springs 35 are arranged on the outer side of the sleeve rod 33;

the specific operation is that after the printed matter is placed on the bottom plate 6, the heating plate 7 heats the printed matter, thereby evaporating redundant moisture in the printed matter to dryness, avoiding moisture from affecting adhesion of glue solution, then the air extractor 807 is started, the left end of the printed matter is adsorbed and fixed through the adsorption port 801, the motor 2 drives the rotary table 15 to rotate, thereby driving the slide bar 13 to move through the connecting rod 14, when the slide bar 13 rotates along with the rotary table 15, the slide bar 13 can synchronously move in the slide frame 9 through the slide rail 10, the limiting ring 12 can limit the slide bar 13 through the limiting groove 11, avoiding the slide bar 13 from deflecting or falling, the slide frame 9 drives the bottom plate 6 to reciprocate above the bottom plate 1 in the left-right direction, the slide plate 4 can limit the bottom plate 6 through the sliding groove 3, avoiding the bottom plate 6 from deflecting, thereby conveying the printed matter, after the printed matter is cleaned and glued, the bottom plate 6 moves to the rightmost end of the reciprocating track, the top plate 806 is pressed to compress the adsorption spring 805 and drives the panel 803 to move in the caulking groove 802 through the embedded rod 804, so that the adsorption port 801 is blocked, the adsorption to the printed matter is removed, the printed matter can be smoothly transported, after the transportation is completed, the bottom plate 6 is reset, the top plate 806 drives the panel 803 to reset through the embedded rod 804 under the action of the adsorption spring 805, the adsorption port 801 is opened so as to adsorb and fix the next printed matter, after the bottom plate 6 carries the printed matter to finish cleaning and gluing and reaches the right end of the bottom frame 17, the shovel 19 scoops up the unfixed printed matter and conveys the printed matter through the conveyor belt 18, the printed matter is adhered to the film through the glue solution coated on the surface and is pulled to move, the press roller 34 is pressed on the printed matter adhered with the film under the action of the tension spring 35, the film is smoothed, the clamp block 32 is prevented from limiting the sleeve rod through the clamping groove 31, avoid the cover pole to take place the skew when sliding in sleeve 30, conveyer belt 18 stop operation after the printed matter is carried hot pressboard 26 below by conveyer belt 18, lifter 24 drives holding down plate 25 and descends for fixed plate 29 fixes the film outside the printed matter both ends, along with holding down plate 25 continues to descend, cutter 27 cuts off the film from the printed matter edge, hot pressboard 26 presss from both sides film and printed matter, after the pressfitting is accomplished, lifter 24 drives holding down plate 25 and resets, conveyer belt 18 continues to operate, carries out the unloading to product and waste material.

Referring to fig. 6-7, the cleaning module 16 includes a base 1601, a glue cavity 1602, a glue outlet 1603, a sealing slot 1604, a card cavity 1605, a sealing plate 1606, a card 1607, a clamp spring 1608, a card rod 1609, a suction plate 1610, a scraping spring 1611 and a scraper 1612, wherein the base 1601 is disposed above the right portion of the base 1601, the glue cavity 1602 is disposed above the left portion of the base 1601, the glue outlet 1603 is disposed below the glue cavity 1602, the sealing slot 1604 is disposed below the glue outlet 1603, the card cavity 1605 is disposed on the right of the sealing slot 1604, the sealing plate 1606 is connected with the sealing plate 1606 in a clamping manner, the card plate 1607 is fixedly connected with the right of the card plate 1607, the clamp spring 1608 is disposed inside the card rod 1619, the suction plate 1610 is fixedly connected with the right end of the card rod 1609, the scraping spring 1611 is fixedly connected with the scraper 2 is fixedly connected with the left lower portion of the base 1601, the sealing plate 1604 is slidably connected with the base 1601 through the sealing slot, the clamping plate 1607 is elastically connected with the clamping plate 1605 through the clamping spring 1608, the left end of the clamping rod 1609 is fixedly connected with the clamping plate 1607, the scraping plate 1612 is elastically connected with the base 1601 through the scraping spring 1611, the cleaning component 16 further comprises an air pump 1613, an air suction pipe 1614, a storage cavity 1615, a dust collection cavity 1616, a negative pressure cavity 1617, a brush 1618, a dust collection box 1619, a pull plate 1620, a dust collection port 1621, a flow guide plate 1622 and a filter screen 1623, the air suction pump 1613 is fixedly connected above the left part of the base 1601, the air suction pipe 1614 is arranged below the air suction pump 1613, the storage cavity 1615 is arranged below the air suction pipe 1614, the dust collection cavity 1616 is arranged below the storage cavity 1616, the negative pressure cavity 1617 is arranged at the left side of the dust collection cavity 1616, the brush 1618 is arranged at the right side of the dust collection cavity 1615, the dust collection cavity 1619 is connected with the dust collection box 1619 in a sliding mode, the lower surface of the dust collection box 1621 is fixedly connected with the pull plate 1620, the dust collection port 1622 is arranged at the right side of the dust collection box 9, a filter screen 1623 is fixedly connected above the dust collection box 1619, the suction plate 1610 is positioned in the negative pressure cavity 1617, the pull plate 1620 is in clamping connection with the base 1601 through the storage cavity 1615, the filter screen 1623 is positioned under the exhaust pipe 1614, the deflector 1622 is obliquely fixed in the dust collection box 1619, and the dust collection box 1619 is communicated with the dust collection chamber 1616 through the dust collection port 1621;

the method comprises the following specific operations that when a base plate 6 carries a printed matter to pass through from the lower side of a base 1601, a brush 1618 firstly cleans the surface of the printed matter for the first time, and enables firm adhesion impurities to loosen, when the printed matter passes through the lower side of the dust collecting chamber 1616, an air pump 1613 can suck dust and impurities on the surface of the printed matter into the dust collecting chamber 1616, and the dust collecting chamber 1611 enters a filter frame through a dust collecting port 1621, the filter frame is accumulated in the filter frame after being intercepted by a filter screen 1623 under the guidance of a guide plate 1622, the filter frame is convenient to clean in a concentrated manner, the filter frame is only required to be taken out from the storage chamber 1615 through a pulling plate 1620 during cleaning, the storage chamber 1615 can be sealed during use, a closed state in the storage chamber 1615 is kept, after the printed matter completely covers the lower end of the dust collecting chamber 1616, negative pressure is formed in the negative pressure chamber 1617, and accordingly the suction plate 1609 drives the clamping plate 1607 to move in the clamping chamber 1605 to move in the sealing groove 1603, the glue outlet 1603 is opened, glue liquid is accumulated in the filter frame after the filter screen 1623 is intercepted by the filter screen 1623, the glue liquid is discharged from the lower end of the filter screen 1603, the glue liquid is prevented from leaving the sealing plate 1603, and the glue liquid is prevented from leaving the printing end of the sealing plate 1603, and the adhesive liquid is prevented from leaving the end of the sealing plate 1603, and the adhesive end of the adhesive end is gradually and the adhesive end is completely covered by the adhesive end of the adhesive plate 1603.

In summary, when the automatic packaging device for printed matter capable of preventing packaging bubbling is used, firstly, a film is pulled out from a material roller 23, passes through the upper part of a guide roller 22, passes through a space between traction rollers 21 and enables the end of the film to be attached to the surface of a conveying belt 18, then the printed matter is placed on a bottom plate 6, a heating plate 7 heats the printed matter, so that excessive moisture in the printed matter is evaporated to dryness, glue solution is prevented from being influenced, then an air extractor 807 is started, the left end of the printed matter is adsorbed and fixed through an adsorption port 801, a motor 2 drives a turntable 15 to rotate, so that a slide bar 13 is driven to move through a connecting rod 14, when the slide bar 13 rotates along with the turntable 15, the slide bar 13 can synchronously move in a slide frame 9 through a slide rail 10, a limit ring 12 can limit the slide bar 13 through a limit groove 11, the slide bar 13 is prevented from deflecting or falling off, the slide frame 9 drives the bottom plate 6 to reciprocate in the left-right direction above a chassis 1, the slide plate 4 can limit the bottom plate 6 through the slide groove 3 to avoid the deflection of the bottom plate 6, so as to convey the printed matter, when the bottom plate 6 carries the printed matter to pass through from the lower part of the base 1601, the brush 1618 firstly cleans the surface of the printed matter for the first time and loosens the firmly adhered impurities, when the printed matter passes through the lower part of the dust collecting chamber 1616, the air pump 1613 can pump the air in the dust collecting chamber 1616, thereby sucking the dust and impurities on the surface of the printed matter into the dust collecting chamber 1616, and the dust collecting chamber enters the filter frame through the dust collecting port 1621, is intercepted by the filter screen 1623 under the guidance of the guide plate 1622 and accumulated in the filter frame, so that the concentrated cleaning is facilitated, when the filter frame is cleaned, the filter frame is taken out from the containing chamber 1615 through the pull plate 1620, the containing chamber 1615 can be sealed when the filter plate 1620 is used, the sealed state in the containing chamber 1615 is kept, when the printed matter covers the lower end of the dust collecting chamber 1616 completely, negative pressure is formed in the negative pressure cavity 1617, thereby sucking the suction plate 1610, driving the clamping plate 1607 to move in the clamping cavity 1605 through the clamping rod 1609, further driving the sealing plate 1606 to move in the sealing groove 1604, opening the glue outlet 1603, enabling glue solution to flow out of the glue cavity 1602 through the glue outlet 1603 and cover the printed matter, enabling the scraping plate 1612 to cling to the surface of the printed matter under the action of the scraping spring 1611, uniformly smearing the glue solution, after the printed matter cannot completely cover the lower end of the dust collecting chamber 1616, reducing the negative pressure in the negative pressure cavity 1617, driving the sealing plate 1606 to gradually reset in the sealing groove 1604 through the clamping plate 1607, sealing the residual glue solution at the lower end of the glue outlet 1603 to be continuously coated on the printed matter, avoiding pollution caused by glue drops falling onto the chassis 1 when the printed matter leaves from the lower side of the glue outlet 1603, the bottom plate 6 moves to the rightmost end of the reciprocating track, the top plate 806 is pressed in contact with the bottom frame 17, the adsorption spring 805 is compressed, the panel 803 is driven to move in the caulking groove 802 through the embedded rod 804, the adsorption port 801 is blocked, the adsorption to the printed matter is removed, the printed matter can be smoothly transported, when the transportation is completed, the bottom plate 6 is reset, the top plate 806 drives the panel 803 to reset under the action of the adsorption spring 805, the adsorption port 801 is opened, so that the next printed matter is adsorbed and fixed, after the bottom plate 6 carries the printed matter to complete cleaning and gluing and reaches the right end of the bottom frame 17, the shovel plate 19 shovels the unfixed printed matter and conveys the printed matter through the conveyor belt 18, the printed matter adheres the film and moves the film through the glue solution coated on the surface, the pressing roller 34 is pressed on the printed matter adhered with the film under the action of the tension spring 35, the film is smoothed, the film is avoided from wrinkling, the fixture block 32 restricts the sleeve rod through the draw-in groove 31, avoid the sleeve rod to take place the skew when sliding in sleeve 30, after the printed matter is carried hot pressboard 26 below by conveyer belt 18, conveyer belt 18 stop operation, lifter 24 drives holding down plate 25 decline for fixed plate 29 fixes the film outside the printed matter both ends, along with holding down plate 25 continues to descend, cutter 27 cuts off the film from the printed matter edge, hot pressboard 26 presss in to film and printed matter, after the pressfitting is accomplished, lifter 24 drives holding down plate 25 and resets, conveyer belt 18 continues to operate, carry out the unloading to product and waste material.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. The utility model provides an automatic packing device of printed matter of anti-package bubbling, its characterized in that, including chassis (1) and bottom plate (6), chassis (1) middle part is provided with motor (2), and chassis (1) right part is provided with spout (3), block is connected with slide (4) in spout (3), and slide (4) four corners fixedly connected with pillar (5), bottom plate (6) fixedly connected with in pillar (5) top, and fixedly connected with hot plate (7) in bottom plate (6), bottom plate (6) left part is provided with adsorption component (8), and bottom plate (6) rear fixedly connected with slipframe (9), slide rail (10) have been seted up at slipframe (9) middle part, and slide rail (10) middle part is provided with spacing groove (11), block is connected with spacing ring (12) in spacing ring (12) central authorities fixedly connected with slide bar (13), slide bar (13) rear end fixedly connected with connecting rod (14), and connecting rod (14) other end fixedly connected with carousel (15), right side 1 top is provided with clean subassembly (16).

2. The automatic packaging device for printed matters capable of preventing packaging bubbling according to claim 1, wherein the limiting ring (12) is in sliding connection with the sliding rail (10) through the limiting groove (11), the sliding rod (13) is in sliding connection with the sliding frame (9) through the sliding rail (10), the sliding plate (4) is in sliding connection with the chassis (1) through the sliding groove (3), the cleaning assembly (16) is located above the sliding groove (3), and the rotary disc (15) is in rotating connection with the chassis (1) through the rotary shaft.

3. The automatic packaging device for printed matters capable of preventing packaging bubbling according to claim 1, wherein the adsorption component (8) comprises an adsorption port (801), a caulking groove (802), a panel (803), a caulking rod (804), an adsorption spring (805), a top plate (806) and an air pump (807), the adsorption port (801) is formed in the left end of the bottom plate (6), the caulking groove (802) is formed in the lower portion of the adsorption port (801), the panel (803) is connected in a sliding manner in the caulking groove (802), the caulking rod (804) is fixedly connected to the left side of the panel (803), the adsorption spring (805) is arranged on the outer side of the caulking rod (804), the top plate (806) is fixedly connected to the left end of the caulking rod (804), the air pump (807) is arranged below the adsorption port (801), the panel (803) is connected with the bottom plate (6) in a clamping manner through the caulking groove (802), the caulking rod (804) is connected with the bottom plate (6) in a sliding manner through the caulking groove (802), the top plate (806) is connected with the bottom plate (6) in a sliding manner through the adsorption spring (805), and the two ends of the caulking spring (805) are respectively fixedly connected with the top plate (806).

4. The automatic printed matter packaging device capable of preventing packaging bubbling according to claim 1, wherein the cleaning component (16) comprises a base (1601), a glue cavity (1602), a glue outlet (1603), a sealing groove (1604), a clamping cavity (1605), a sealing plate (1606), a clamping plate (1607), a clamping spring (1608), a clamping rod (1609), a suction plate (1610), a scraping spring (1611) and a scraping plate (1612), the base (1601) is arranged above the right part of the base (1), the glue cavity (1601) is formed in the upper left part of the base (1601), the glue outlet (1603) is formed in the lower part of the glue cavity (1602), a sealing groove (1604) is formed in the lower part of the glue outlet (1603), a clamping cavity (1605) is formed in the right part of the sealing groove (1604), the sealing plate (1606) is connected with the sealing plate (1606) in a clamping mode, the clamping plate (1607) is fixedly connected with the right part of the clamping plate, the clamping spring (1608) is fixedly connected with the clamping spring (1608), the inner side (1608) is fixedly connected with the clamping plate (1609) and the scraping rod (1609) is fixedly connected with the scraping spring (1611) below the scraping plate (1601).

5. The automatic packaging device for printed matters capable of preventing packaging bubbling according to claim 4, wherein the sealing plate (1606) is in sliding connection with the base (1601) through a sealing groove (1604), the clamping plate (1607) is in elastic connection with the clamping cavity (1605) through a clamping spring (1608), the left end of the clamping rod (1609) is fixedly connected with the clamping plate (1607), and the scraping plate (1612) is in elastic connection with the base (1601) through a scraping spring (1611).

6. The automatic packaging device for printed matters capable of preventing packaging bubbling according to claim 4, wherein the cleaning component (16) further comprises an air pump (1613), an air suction pipe (1614), a containing cavity (1615), a dust collecting cavity (1616), a negative pressure cavity (1617), a brush (1618), a dust collecting box (1619), a pulling plate (1620), a dust collecting port (1621), a flow guide plate (1622) and a filter screen (1623), the air suction pump (1613) is fixedly connected to the upper left part of the base (1601), the air suction pipe (1614) is arranged below the air suction pump (1613), the containing cavity (1615) is arranged below the air suction pipe (1614), the dust collecting cavity (1616) is arranged below the containing cavity (1615), the negative pressure cavity (1617) is arranged on the left side of the dust collecting cavity (1616), the dust collecting cavity (1618) is arranged on the right side, the dust collecting box (1629) is connected to the dust collecting port (1622) in a sliding mode, the dust collecting box (9) is fixedly connected to the right side of the pulling plate (1601), and the dust collecting port (1611) is fixedly connected to the dust collecting port (1613) on the dust collecting port (1621).

7. The automatic packaging device for printed matters capable of preventing packaging bubbling according to claim 6, wherein the suction plate (1610) is located in the negative pressure cavity (1617), the pull plate (1620) is connected with the base (1601) in a clamping manner through the storage cavity (1615), the filter screen (1623) is located under the air suction pipe (1614), the deflector (1622) is obliquely fixed in the dust collecting box (1619), and the dust collecting box (1619) is communicated with the dust collecting chamber (1616) through the dust collecting port (1621).

8. The automatic packaging device for printed matters capable of preventing packaging bubbling according to claim 1, wherein a bottom frame (17) is arranged on the left side of the chassis (1), a conveying belt (18) is arranged in the bottom frame (17), a shovel plate (19) is fixedly connected to the right end of the bottom frame (17), a cross beam (20) is fixedly connected to the upper side of the bottom frame (17), a traction roller (21) is rotatably connected to the right lower side of the cross beam (20), a guide roller (22) is rotatably connected to the right end of the cross beam (20), a material roller (23) is rotatably connected to the upper side of the cross beam (20), and the motor (2) and the conveying belt (18) and the rotary table (15) form a transmission structure through a belt.

9. The automatic packaging device for printed matters capable of preventing packaging bubbling according to claim 8, wherein lifting rods (24) are symmetrically and fixedly connected to the left part of the lower surface of the cross beam (20), a lower pressing plate (25) is fixedly and fixedly connected to the lower part of the lifting rods (24), a hot pressing plate (26) is fixedly and fixedly connected to the lower part of the lower pressing plate (25), cutters (27) are symmetrically arranged on the left side and the right side of the hot pressing plate (26), a pressure spring (28) is arranged on one side, far away from the hot pressing plate (26), of each cutter (27), and a fixing plate (29) is fixedly connected to the lower end of each pressure spring (28).

10. The automatic packaging device for printed matters capable of preventing packaging bubbling according to claim 8, wherein a sleeve (30) is fixedly connected to the right part of the lower surface of the cross beam (20), clamping grooves (31) are symmetrically formed in the inner wall of the sleeve (30), clamping blocks (32) are connected in the clamping grooves (31) in a clamping mode, a sleeve rod (33) is fixedly connected between the clamping blocks (32), a pressing roller (34) is rotatably connected to the lower end of the sleeve rod (33), and tension springs (35) are arranged on the outer side of the sleeve rod (33).