CN115534291A - Automatic laminating machine is used in processing of high sealed various box - Google Patents

Abstract

The invention discloses an automatic film laminating machine for processing a high-sealing color box, which relates to the technical field of processing of high-sealing color boxes, but when the existing automatic film laminating machine is used, impurities and dust on a paper board can be mixed between a film and the paper board, and the automatic film laminating machine is lack of a mechanism for cooling the paper board.

Description

Automatic laminating machine is used in processing of high sealed various box

Technical Field

The invention relates to the technical field of high-sealing color box processing, in particular to an automatic film laminating machine for high-sealing color box processing.

Background

Automatic laminating machine is to cardboard or printed matter surface covering film's industrial equipment, if be used for books, poster, color box packing, handbag etc. through the setting of automatic laminating machine, can be with the quick parcel protective film in object surface to can protect the object, prevent that external foreign matter from scraping colored wearing and tearing with the object surface.

According to Chinese patent publication No. CN209666268U, the purpose of this patent is to provide a precise automatic film laminating machine. The precise automatic film covering machine consists of a machine base part, a positioning die assembly, a conveying part, a film covering mechanism part, an upper cover part and an electric control system, wherein the die assembly is arranged on the conveying part, the film covering mechanism part and the upper cover part are arranged on the machine base part, and the electric control system automatically controls the action of each part. After the circuit board is placed on the positioning die assembly, the conveying component conveys the circuit board to the film laminating mechanism component, then the film laminating mechanism component carries out film laminating on the circuit board, and after the film laminating of the circuit board is finished, the conveying component conveys the circuit board out. The precise automatic film laminating machine has the advantages of high speed, high efficiency and good film laminating quality for the film laminating operation of the circuit board, can greatly reduce the labor intensity of workers, and is very suitable for circuit board manufacturers.

According to Chinese patent publication No. CN204400286U, this patent provides an automatic laminating machine of building block brick, belongs to brick production technical field. The automatic film laminating machine for the building block bricks comprises a frame, a film feeding device for releasing a film, a film conveying mechanism and a cutting device; the rack comprises two groups of support frames which are arranged in parallel and a hollow frame which is vertical to the upper parts of the support frames; the film conveying device is arranged on the supporting frame, the film conveying mechanism is arranged on inner frames on two sides of the hollow frame along the moving direction of the film, and the cutting device is arranged at an outlet of the film roll. When the building block bricks are produced from the forming machine, the building block bricks are required to be stacked on the tray layer by layer, so that the film is adhered between each layer of building block bricks of the just produced forming machine by the automatic building block brick laminating machine, and the bonding of wet building block bricks after hardening and curing is avoided.

Because the cardboard is when the transportation, can adsorb a certain amount of impurity on the surface, when the cardboard feeds to automatic laminating machine internal processing man-hour, the film pastes on the cardboard, dust and impurity separation can appear between cardboard and film, cause the local bellied phenomenon to appear in the film, very big influence the outward appearance aesthetic property of cardboard, simultaneously, because the inside mechanism that carries out quick cooling to the cardboard that lacks of current automatic laminating machine, cause the too high phenomenon of residual temperature on the cardboard surface, consequently need a equipment to improve it to above-mentioned problem.

Disclosure of Invention

The invention aims to provide an automatic film laminating machine for processing a high-sealing color box, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a high sealed various box processing is with automatic laminating machine, is including supporting transmission drainage mechanism, the one end top fixed mounting who supports transmission drainage mechanism has concentrated direction cleaning device, it has supplementary press device to support transmission drainage mechanism to keep away from equidistant fixed mounting on the top of concentrating direction cleaning device, the inside rotation that supports transmission drainage mechanism installs branch to power transmission mechanism, just it is located the below of concentrating direction cleaning device and supplementary press device to power transmission mechanism, supplementary press device is including restriction locating rack, fixed cooperation roof-rack, fixed point reset spring, connection extension pterygoid lamina, removal support inner panel, vertical movable groove and plastic live-rollers, fixed cooperation roof-rack fixed mounting is at the top both ends of restriction locating rack, fixed point reset spring fixed mounting is in the both ends bottom of fixed point reset spring, connect and extend pterygoid lamina fixed mounting at fixed point reset spring's bottom center, the removal support inner panel fixed mounting two connect and extend between the pterygoid lamina, the plastic live-rollers rotates and installs two between the removal support inner panel, the inside both ends at the restriction locating rack are seted up to vertical movable groove.

Preferably, the centralized guide cleaning device comprises an integrated dust collector, a first L-shaped directional drainage cavity, a positioning bolt, a first movable matching cavity, a sponge rotating sheet, planetary transmission gears, a rolling guide wheel, a second movable matching cavity, a positioning support frame and a second L-shaped directional drainage cavity, wherein the planetary transmission gears are rotatably installed at the centers of two ends of the positioning support frame, the sponge rotating sheet is fixedly installed between the two planetary transmission gears, the first L-shaped directional drainage cavity and the second L-shaped directional drainage cavity are fixedly installed at the top end of the positioning support frame, the first movable matching cavity is slidably inserted into the bottom end of the first L-shaped directional drainage cavity, the positioning bolt is threadedly inserted into the bottoms of the two ends of the first L-shaped directional drainage cavity, the second movable matching cavity is slidably inserted into the bottom end of the second L-shaped directional drainage cavity, the rolling guide wheel is rotatably installed at the bottoms of the two ends of the second movable matching cavity at equal intervals, and the integrated dust collector is fixedly installed on the tops of the second L-shaped directional drainage cavity and the first L-shaped directional drainage cavity.

Preferably, divide to power transmission mechanism and include drainage transmission cingulum, first transmission gear, stellate drive gear, the supplementary cleaning device of intermittent type, inner cooperation gear, first conical gear and second drive gear, first transmission gear and second drive gear mesh respectively at the inside both ends of drainage transmission cingulum, stellate drive gear fixed mounting is at the both ends center of first transmission gear, first conical gear fixed mounting is at the both ends center of second drive gear, the inside bottom of inner cooperation gear equidistance meshing at drainage transmission cingulum, just inner cooperation gear is located between second drive gear and the first transmission gear, the supplementary cleaning device equidistance fixed mounting of intermittent type is on inner cooperation gear.

Preferably, cleaning device is assisted to intermittent type is including connecting the cooperation board, extending bracing piece, spacing check retaining ring, movable sleeve and nylon contact brush, extend bracing piece symmetry fixed mounting in the bottom of connecting the cooperation board, spacing check retaining ring fixed mounting is at the bottom center of extending the bracing piece, movable sleeve slides and cup joints on the outer lane of extending the bracing piece, nylon contact brush fixed mounting is in movable sleeve's bottom.

Preferably, the support transmission drainage mechanism comprises an automatic film covering machine, an L-shaped branch guide pipe, a U-shaped gas transmission pipe, a first centralized discharge cavity, a movable storage frame, a sliding support bottom rod, a lining bottom layer, a second centralized discharge cavity, a second bevel gear, an industrial fan blade, a support housing base and an auxiliary feed base plate, wherein the auxiliary feed base plate is fixedly installed at the top of one end of the support housing base, the automatic film covering machine is fixedly installed at the center of the top end of the support housing base, the U-shaped gas transmission pipe is fixedly installed at one end of the automatic film covering machine far away from the auxiliary feed base plate, the first centralized discharge cavity is fixedly installed at the bottom end of the U-shaped gas transmission pipe far away from the automatic film covering machine, the L-shaped branch guide pipe is fixedly installed at the opposite side ends of the U-shaped gas transmission pipe, the second centralized discharge cavity is fixedly installed at the bottom end of the L-shaped branch guide pipe, the second bevel gear is rotatably installed at the top ends of the support housing base close to the U-shaped gas transmission pipe, the second bevel gear is rotatably installed at the top end of the support housing base close to the top end of the U-shaped gas transmission pipe, and the sliding support base is inserted into the sliding support base and the sliding support base.

Preferably, the U-shaped gas transmission pipe comprises a hollow diversion trench, a connecting adaptation hole and a branch direction concentration pipe, the hollow diversion trench is arranged inside the U-shaped gas transmission pipe, the branch direction concentration pipe is fixedly arranged inside the hollow diversion trench, and the connecting adaptation hole is respectively arranged inside the hollow diversion trench and the branch direction concentration pipe.

Preferably, the positioning support frame is fixedly installed on the top end, close to the auxiliary feeding substrate, of the support housing base, the limiting and positioning frames are respectively and fixedly installed on the top end of the support housing base, and the limiting and positioning frames are located on two sides of the automatic film laminating machine.

Preferably, the sun drive gear is rotatably installed inside one end of the support housing base close to the auxiliary feeding base plate, the second drive gear is rotatably installed inside one end of the support housing base close to the movable storage frame, two ends of the inner end matching gear are rotatably installed on the inner wall of the support housing base, the connection matching plate is fixedly installed on the inner end matching gear, and one end, far away from the movable storage frame, of the first centralized discharge cavity is fixedly installed on the side end, close to the U-shaped gas transmission pipe, of the support housing base.

Preferably, the first L-shaped branch is arranged in a hollow state in the drainage cavity and the second L-shaped branch is arranged in the drainage cavity, the integrated dust collector is communicated with the first L-shaped branch in the drainage cavity and the second L-shaped branch in the drainage cavity respectively, sliding keys matched with the vertical movable grooves are fixedly mounted at two ends, away from the plastic rotating roller, of the movable support inner plate, the first transmission gear, the second transmission gear, the inner end of the first transmission gear and the inner end of the first transmission gear are arranged in a tightening state between the first transmission gear and the drainage transmission toothed belt, an anti-sliding cushion layer is fixedly mounted on an outer ring of the drainage transmission toothed belt, jacks matched with the extension supporting rods and the extension supporting rods are formed in the top end of the movable sleeve, a conical centralized disc is fixedly mounted at the bottom center of one end, away from the first centralized discharge cavity, of the U-shaped gas transmission pipe is communicated with the conical centralized disc, the industrial fan blades are located right below the hollow flow guide grooves and the centralized pipe, the L-shaped hollow flow guide pipe is fixedly mounted in the connection adaptive hole, the L-shaped branch discharge cavity and the second centralized discharge cavity, and the spray head is mounted at the bottom end of the centralized discharge cavity.

Preferably, the movable storage frame further comprises a connection matching bottom plate and an output cylinder, the connection matching bottom plate is symmetrically and fixedly installed at the bottom end of the movable storage frame, and the output cylinder is fixedly installed at one end, far away from the movable storage frame, of the connection matching bottom plate.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the centralized guide cleaning device is installed, the bidirectional absorption device is fixedly installed in the centralized guide cleaning device, so that the centralized guide cleaning device can perform absorption work from two directions simultaneously when in use, meanwhile, the circulating cleaning device is fixedly installed in the centralized guide cleaning device and is contacted with the top end of the paperboard, so that impurities attached to the paperboard can be swept away, and meanwhile, the swept away impurities can be absorbed in time by matching with the bidirectional absorption device, so that the cleanliness of the surface of the paperboard is improved, and the matching of the paperboard and a film is facilitated.

2. According to the invention, the support transmission drainage mechanism is installed, the gas diversion device is fixedly installed in the support transmission drainage mechanism, so that the position of the discharged paperboard can be corrected in time, the direction-dividing transmission device is fixedly installed in the gas diversion device and is positioned right above the paperboard, so that the surface of the paperboard can be quickly cooled, and the purpose of quickly cooling the paperboard while correcting the position of the paperboard is completed.

3. According to the invention, the movable containing frame is installed, and the electric guide device is fixedly installed inside the movable containing frame, so that the movable containing frame can be driven to move outwards or inwards quickly and laborsavingly, a person can conveniently take or collect paperboards inside the movable containing frame, and the convenience in use of the movable containing frame is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of the main body of the present invention;

FIG. 2 is a schematic view of the bottom structure of the main body according to the present invention;

FIG. 3 is a schematic view of the centralized guide cleaning apparatus of the present invention;

FIG. 4 is a schematic structural diagram of an auxiliary pressing device according to the present invention;

FIG. 5 is a schematic structural view of the power split transmission mechanism of the present invention;

FIG. 6 is a schematic view of the bottom end structure of the power splitting transmission mechanism of the present invention;

FIG. 7 is a schematic view of a disassembled structure of the intermittent auxiliary cleaning device of the present invention;

FIG. 8 is a schematic structural view of the supporting, conveying and drainage mechanism of the present invention;

FIG. 9 is a sectional view of the U-shaped gas transmission pipe of the present invention;

fig. 10 is a schematic structural view of a mobile storage frame according to a second embodiment of the invention.

In the figure: 1-centralized guide cleaning device, 2-auxiliary pressing device, 3-direction power transmission mechanism, 4-support transmission drainage mechanism, 11-integrated dust collector, 12-first L-shaped direction drainage cavity, 13-positioning bolt, 14-first movable fit cavity, 15-sponge rotating sheet, 16-planetary transmission gear, 17-rolling guide wheel, 18-second movable fit cavity, 19-positioning support frame, 110-second L-shaped direction drainage cavity, 21-limiting positioning frame, 22-fixed fit top frame, 23-fixed point reset spring, 24-connecting extension wing plate, 25-movable support wing plate, 26-vertical movable groove, 27-plastic rotating roller, 31-drainage transmission toothed belt, 32-first transmission gear, 33-sun transmission gear, 34-intermittent auxiliary cleaning device, 35-inner end fit gear, 36-first conical gear, 37-second transmission gear, 341-connecting hollow fit plate, 342-extending support rod, 343-limiting check ring, 344-movable sleeve, 41-nylon contact brush, 41-345-automatic brush, 41-L-directional gas guide pipe, 43-L-first conical gear, 37-second conical inner plate, 37-second hollow fit plate, 342-extension support rod, 344-integrated guide ring, 344-bottom guide pipe, fan-integrated guide pipe, 40-integrated guide pipe, 8-integrated guide pipe, and fan-bottom guide pipe, and fan-integrated vacuum cleaner, and vacuum cleaner, 432-connecting adaptive holes, 433-branch concentration pipes, 51-connecting matching bottom plates and 52-output cylinders.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the accompanying drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The invention is further described below with reference to the accompanying drawings.

Example 1

Referring to fig. 1, fig. 2, and fig. 4, an embodiment of the present invention: the utility model provides a high sealed various box processing is with automatic laminating machine, including supporting transmission drainage mechanism 4, the one end top fixed mounting who supports transmission drainage mechanism 4 has concentrated direction cleaning device 1, it has supplementary press device 2 to support equidistant fixed mounting on the top that transmission drainage mechanism 4 kept away from concentrated direction cleaning device 1, the internal rotation that supports transmission drainage mechanism 4 installs branch power transmission mechanism 3, and branch power transmission mechanism 3 is located the below of concentrating direction cleaning device 1 and supplementary press device 2, supplementary press device 2 is including restriction locating rack 21, fixed fit roof-rack 22, fixed point reset spring 23, connect and extend pterygoid lamina 24, remove and support inner panel 25, vertical movable groove 26 and plastic live-rollers 27, fixed fit roof-rack 22 fixed mounting is at the top both ends of restriction locating rack 21, fixed point reset spring 23 fixed mounting is in the both ends bottom of fixed point roof-rack 22, connect and extend pterygoid lamina 24 fixed mounting in the bottom center of fixed point reset spring 23, it extends the pterygoid lamina 25 fixed mounting to remove to support between pterygoid lamina 24 to connect for two, the rotation roller 27 rotates and installs between two removal support inner panels 25, vertical movable groove 26 is opened at the both ends of restriction locating rack 21.

Referring to fig. 3, the centralized guiding cleaning device 1 includes an integrated dust collector 11, a first L-shaped directional drainage cavity 12, a positioning bolt 13, a first movable matching cavity 14, a sponge rotating sheet 15, planetary transmission gears 16, a rolling guide wheel 17, a second movable matching cavity 18, a positioning support frame 19 and a second L-shaped directional drainage cavity 110, the planetary transmission gears 16 are rotatably installed at the centers of the two ends of the positioning support frame 19, the sponge rotating sheet 15 is fixedly installed between the two planetary transmission gears 16, the first L-shaped directional drainage cavity 12 and the second L-shaped directional drainage cavity 110 are fixedly installed at the top end of the positioning support frame 19, the first movable matching cavity 14 is slidably inserted into the bottom end of the first L-shaped directional drainage cavity 12, the positioning bolt 13 is threadedly inserted into the bottoms of the two ends of the first L-shaped directional drainage cavity 12, the second movable matching cavity 18 is slidably inserted into the bottom end of the second L-shaped directional drainage cavity 110, the rolling guide wheel 17 is rotatably installed at the bottom end of the second movable matching cavity 18 at equal intervals, the dust collector 11 is fixedly installed on the second L-shaped directional drainage cavity 110 and the bottom end of the second L-shaped directional drainage cavity 12, and the second L-shaped directional drainage cavity, and the second guide wheel are not more than the thicknesses of the first L-shaped directional drainage cavity and the second L-shaped directional drainage cavity, and the second movable matching cavity, and the first movable matching cavity, and the second guide wheel 14, and the second L-shaped directional drainage cavity, and the second guide wheel are matched with the first movable matching cavities, and the second L-shaped directional drainage cavity, and the second guide wheel 14, and the second guide wheel.

Referring to fig. 5 and 6, the branch power transmission mechanism 3 includes a drainage transmission toothed belt 31, a first transmission gear 32, a sun transmission gear 33, an intermittent auxiliary cleaning device 34, an inner end matching gear 35, a first conical gear 36 and a second transmission gear 37, the first transmission gear 32 and the second transmission gear 37 are respectively engaged with two ends of the interior of the drainage transmission toothed belt 31, the sun transmission gear 33 is fixedly installed at the center of two ends of the first transmission gear 32, the first conical gear 36 is fixedly installed at the center of two ends of the second transmission gear 37, the inner end matching gear 35 is engaged with the bottom end of the interior of the drainage transmission toothed belt 31 at equal intervals, the inner end matching gear 35 is located between the second transmission gear 37 and the first transmission gear 32, the intermittent auxiliary cleaning device 34 is fixedly installed at equal intervals on the inner end matching gear 35, and is located at the top end of the drainage transmission toothed belt 31 when the paper board is placed, so that the drainage transmission toothed belt 31 can drive the paper board to move forward continuously when the paper board rotates circularly.

Referring to fig. 7, the intermittent auxiliary cleaning device 34 includes a connection fitting plate 341, an extension supporting rod 342, a limit lattice retainer 343, a movable sleeve 344 and a nylon contact brush 345, the extension supporting rod 342 is symmetrically and fixedly installed at the bottom end of the connection fitting plate 341, the limit lattice retainer 343 is fixedly installed at the center of the bottom end of the extension supporting rod 342, the movable sleeve 344 is slidably sleeved on the outer ring of the extension supporting rod 342, the nylon contact brush 345 is fixedly installed at the bottom end of the movable sleeve 344, when the connection fitting plate 341 rotates downward, the movable sleeve 344 drives the nylon contact brush 345 to contact with the top end of the bottom lining layer 47 downward, so that the impurities on the top end of the bottom lining layer 47 can be swept away, and when the connection fitting plate 341 rotates upward, the movable sleeve 344 moves along the extension supporting rod to contact with the connection fitting plate 341, so that the movable sleeve 344 can be prevented from contacting with the cardboard on the drainage transmission toothed belt 31.

Referring to fig. 8, the supporting, conveying and guiding mechanism 4 includes an automatic film coating machine 41, an L-shaped branch guide pipe 42, a U-shaped gas transmission pipe 43, a first centralized discharge cavity 44, a movable receiving frame 45, a sliding supporting bottom rod 46, a lining bottom layer 47, a second centralized discharge cavity 48, a second bevel gear 49, an industrial fan blade 410, a supporting housing base 411 and an auxiliary feeding base plate 412, the auxiliary feeding base plate 412 is fixedly installed on the top of one end of the supporting housing base 411, the automatic film coating machine 41 is fixedly installed on the center of the top end of the supporting housing base 411, the U-shaped gas transmission pipe 43 is fixedly installed on one end of the automatic film coating machine 41 far away from the auxiliary feeding base plate 412, the first centralized discharge cavity 44 is fixedly installed on the bottom end of the U-shaped gas transmission pipe 43 far away from the automatic film coating machine 41, the L-shaped branch guide pipe 42 is fixedly installed on the opposite side end of the U-shaped gas transmission pipe 43, the second centralized discharge cavity 48 is fixedly installed at the bottom end of the L-shaped diversion pipe 42, the second bevel gear 49 is rotatably installed at the top end of the two ends of the support housing base 411 close to the U-shaped gas transmission pipe 43, the second bevel gear 49 is located below the bottom end of the U-shaped gas transmission pipe 43 close to the automatic film laminating machine 41, the industrial fan blade 410 is fixedly installed at the center of the top end of the second bevel gear 49, the lining bottom layer 47 is fixedly installed at the inner bottom end of the support housing base 411, the sliding support bottom rod 46 is equidistantly and slidably inserted into the bottom end of the support housing base 411 far away from the auxiliary feeding base plate 412, the movable accommodating frame 45 is fixedly installed at one end of the sliding support bottom rod 46 far away from the support housing base 411, and through the 45-degree slope arrangement of the top end of the lining bottom layer 47, when the nylon contact brush 345 sweeps away the top end of the lining bottom layer 47, the scraps on the top end of the lining bottom layer 47 can roll downwards, facilitating the discharge of the debris.

Please refer to fig. 9,U type gas transmission pipe 43, which includes a hollow guiding groove 431, a connecting fitting hole 432 and a direction dividing concentration pipe 433, wherein the hollow guiding groove 431 is disposed inside the U-shaped gas transmission pipe 43, the direction dividing concentration pipe 433 is fixedly mounted inside the hollow guiding groove 431, the connecting fitting hole 432 is disposed inside the hollow guiding groove 431 and the direction dividing concentration pipe 433, respectively, the gas inside the hollow guiding groove 431 can be divided into two sections by the direction dividing concentration pipe 433, and is output from the inside of the second concentrated discharge cavity 48 and the first concentrated discharge cavity 44, respectively, so as to perform cooling and directional flow guiding operations.

The positioning support frame 19 is fixedly installed on the top end of the support housing base 411 close to the auxiliary feeding base plate 412, the limiting positioning frames 21 are respectively and fixedly installed on the top end of the support housing base 411, the limiting positioning frames 21 are located on two sides of the automatic film laminating machine 41, the sun transmission gear 33 is rotatably installed inside one end of the support housing base 411 close to the auxiliary feeding base plate 412, the second transmission gear 37 is rotatably installed inside one end of the support housing base 411 close to the movable receiving frame 45, two ends of the inner end matching gear 35 are rotatably installed on the inner wall of the support housing base 411, the connecting matching plate 341 is fixedly installed on the inner end matching gear 35, one end of the first concentrated discharge cavity 44 far away from the movable receiving frame 45 is fixedly installed on the side end of the support housing base 411 close to the U-shaped gas transmission pipe 43, and the first L-shaped diversion cavity 12 and the second L-shaped diversion cavity 110 are arranged in a hollow state, and the integrated dust collector 11 is communicated with the first L-shaped directional drainage cavity 12 and the second L-shaped directional drainage cavity 110 respectively, sliding keys matched with the vertical movable grooves 26 are fixedly installed on two ends of the movable supporting inner plate 25 departing from the plastic rotating roller 27, the first transmission gear 32, the second transmission gear 37, the inner end matched gear 35 and the drainage transmission toothed belt 31 are arranged in a tightening state, an anti-slip cushion layer is fixedly installed on the outer ring of the drainage transmission toothed belt 31, inserting holes matched with the extension supporting rod 342 and the extension supporting rod 342 are formed in the top end of the movable sleeve 344, a conical concentration disc is fixedly installed at the bottom center of one end of the U-shaped gas transmission pipe 43 far away from the first concentrated discharge cavity 44, the U-shaped gas transmission pipe 43 is communicated with the conical concentration disc, and the industrial fan blade 410 is positioned right below the hollow diversion groove 431 and the directional concentration tube 433, the L-shaped branch guide pipe 42 is fixedly installed inside the connecting adapting hole 432, the L-shaped branch guide pipe 42 is communicated with the branch concentration pipe 433, the interiors of the first concentrated discharge cavity 44 and the second concentrated discharge cavity 48 are arranged in a hollow state, the bottom ends of the first concentrated discharge cavity 44 and the second concentrated discharge cavity 48 are respectively and fixedly provided with a spray head, the sponge rotating piece 15 can be driven to rapidly rotate on the paperboard through the transmission ratio of the sun transmission gear 33 to the planetary transmission gear 16 being 1.

In the embodiment, when the cardboard enters the lower portion of the sponge rotation piece 15, the sun gear 33 can be connected with the external output motor to be adapted, and then the output motor is started, the sun gear 33 is driven to rotate simultaneously, so that the planet gear 16 can be driven to rotate, the transmission ratio of the sun gear 33 to the planet gear 16 is 1, at this time, when the cardboard enters the bottom end of the plastic roller 27, the elasticity of the fixed point return spring 23 always drives the connection extension wing plate 24, the mobile support inner plate 25 and the plastic roller 27 to move downwards, so that the contact stability between the plastic roller 27 and the cardboard can be improved, and the cardboard is prevented from tilting upwards, meanwhile, when the mobile support inner plate 25 moves, the mobile support inner plate 25 can be driven to slide in the vertical movable groove 26 away from the sliding key at the side end of the plastic roller 27, so that the plastic roller 27 can be ensured to move downwards along a straight line, when the cardboard enters the bottom end of the automatic laminating machine 41, the laminating work on the surface can be performed, another auxiliary pressing device 2 is arranged at one end of the automatic laminating machine 41 away from the auxiliary feeding substrate 412, so that the film can be pressed on the top end of the cardboard by the plastic roller 27 in another auxiliary pressing device 2, the phenomenon that the film upwarps is prevented, the attaching tightness between the film and the paperboard is improved, meanwhile, when the paperboard passes through the bottom end of the plastic rotating roller 27, the paperboard can enter the lower part of the second centralized discharge cavity 48, the second centralized discharge cavity 48 can be driven to rotate through the rotation of the first conical gear 36, the transmission ratio of the first conical gear 36 to the second conical gear 49 is 1, one section enters the inside of the branch concentration pipe 433, the other section is discharged into the inside of the first concentrated discharge cavity 44 through the hollow diversion trench 431, when gas enters the inside of the branch concentration pipe 433, the branch diversion pipe 42 is fixedly installed between the second concentrated discharge cavity 48 and the U-shaped gas transmission pipe 43 through the L-shaped branch, the second concentrated discharge cavity 48 and the L-shaped branch are communicated with each other between the diversion pipe 42 and the U-shaped gas transmission pipe 43, so that gas which is divided into the inside of the branch concentration pipe 433 can be discharged from the second concentrated discharge cavity 48, the second concentrated discharge cavity 48 is positioned right above the paperboard, so that when the paperboard passes through the bottom end of the second concentrated discharge cavity 48, cooling work can be performed, when the paperboard passes below the second concentrated discharge cavity 48, the paperboard falls into the movable accommodating frame 45, meanwhile, the U-shaped gas transmission pipe 43 is communicated with the first concentrated discharge cavity 44, so that the other section of gas which is inside of the U-shaped gas transmission pipe 43 can be discharged downwards from the first concentrated discharge cavity 44, and the phenomenon that the paperboard can be blown downwards to the periphery can be prevented from floating.

Example 2

On the basis of embodiment 1, as shown in fig. 10, the movable accommodating frame 45 further includes a connection fitting bottom plate 51 and an output cylinder 52, the connection fitting bottom plate 51 is symmetrically and fixedly installed at the bottom end of the movable accommodating frame 45, and the output cylinder 52 is fixedly installed at one end of the connection fitting bottom plate 51 far away from the movable accommodating frame 45.

In the embodiment, the output cylinder 52 is fixedly installed at the bottom end of the support housing base 411 close to the U-shaped gas transmission pipe 43, so that the output cylinder 52 can be supported to work, when the movable storage frame 45 needs to be moved outwards to pull, the output cylinder 52 can be started to drive the piston rod inside the output cylinder 52 to move, the output cylinder 52 is fixedly installed between the piston rod and the bottom end of the movable storage frame 45 by connecting the matching bottom plate 51, so that when the output cylinder 52 is started, the movable storage frame 45 can be driven to move towards the end far away from the output cylinder 52, so that the movable storage frame 45 can be far away from the support housing base 411, and a user can conveniently take the paper board inside the movable storage frame 45.

The working principle is as follows: when in use, firstly, the external paperboard is placed on the top end of the auxiliary feeding base plate 412, then the paperboard is pushed towards the inside of the automatic laminating machine 41, so that the paperboard can enter the bottom end of the second L-shaped directional drainage cavity 110, at the moment, the paperboard is rotatably installed on two ends of the second movable matching cavity 18 through the rolling guide wheel 17, the second movable matching cavity 18 is slidably inserted in the second L-shaped directional drainage cavity 110, the paperboard passes through the bottom end of the rolling guide wheel 17 when moving forwards, meanwhile, the second movable matching cavity 18 can be supported on the top end of the paperboard through the rolling guide wheel 17, meanwhile, the integrated dust collector 11 can be started, so that air can be respectively absorbed from the first L-shaped directional drainage cavity 12 to the inside of the drainage cavity 110 and from the second L-shaped directional drainage cavity 110 through the second movable matching cavity 18, and the second L-shaped directional drainage cavity 110 are communicated, when the cardboard enters the lower part of the sponge rotating piece 15, the fixed star transmission gear 33 can be connected and adapted with an external output motor, then the output motor is started to drive the fixed star transmission gear 33 to rotate, so that the planetary transmission gear 16 can be driven to rotate, the transmission ratio of the fixed star transmission gear 33 to the planetary transmission gear 16 is 1, the integrated dust collector 11 can absorb the air in the first movable matching cavity 14 at the same time, so that the cleaned impurities can be absorbed in time, the first movable matching cavity 14 is inserted in the positioning bolt 13 in a sliding manner, the distance between the first movable matching cavity 14 and the paper board can be adjusted, the paper boards with different thicknesses can be adapted, meanwhile, the positioning bolt 13 can be screwed inwards to a limit position, so that the first movable matching cavity 14 can be fixed at a specified height, at the moment, when the fixed star drive gear 33 rotates, the first drive gear 32 can be driven to rotate, the first drive gear 31 is meshed on the outer rings of the first drive gear 32 and the second drive gear 37 through the drainage drive toothed belt 31, when the first drive gear 32 rotates, the second drive gear 37 can be driven to rotate at the same time, and the paper board on the top end of the drainage drive toothed belt 31 can be transmitted to the end close to the first conical gear 36, at this time, when the cardboard enters the bottom end of the plastic rotating roller 27, the elastic fixed point return spring 23 drives the connecting extending wing plate 24, the movable supporting inner plate 25 and the plastic rotating roller 27 to move downwards all the time, so that the contact stability between the plastic rotating roller 27 and the cardboard can be improved, the cardboard is prevented from tilting upwards, meanwhile, when the movable supporting inner plate 25 moves, the sliding key of the movable supporting inner plate 25 departing from the side end of the plastic rotating roller 27 can be driven to slide in the vertical movable groove 26, so that the plastic rotating roller 27 can be ensured to move downwards along a straight line, when the cardboard enters the bottom end of the automatic film laminating machine 41, the film laminating work on the surface can be performed, another auxiliary pressing device 2 is arranged at one end of the automatic film laminating machine 41 far away from the auxiliary feeding substrate 412, so that the film can be pressed on the top end of the cardboard by the plastic rotating roller 27 in another auxiliary pressing device 2, preventing the film from tilting upward, improving the adhesion tightness between the film and the paperboard, meanwhile, when the paperboard passes through the bottom end of the plastic rotating roller 27, the paperboard enters the lower part of the second centralized discharge cavity 48, when the paperboard rotates through the first bevel gear 36, the second bevel gear 49 can be driven to rotate, the transmission ratio of the first bevel gear 36 to the second bevel gear 49 is 1, so that the second bevel gear 49 and the industrial fan blade 410 can be driven to rotate at high speed, meanwhile, the industrial fan blade 410 is positioned right below the end of the first centralized discharge cavity 44 away from the U-shaped gas transmission tube 43, so that the gas generated when the industrial fan blade 410 rotates can be blown to the inside of the U-shaped gas transmission tube 43, when the gas enters the inside of the centralized transmission tube 433, the gas can be divided into two sections, one section enters the inside of the centralized transmission tube 433, the other section is discharged into the inside of the first centralized discharge cavity 44 by the hollow guide tube 431, when the gas enters the inside of the centralized transmission tube 433, the centralized transmission tube is separated into the inside of the fixed transmission tube 431, one section enters the second centralized discharge cavity 44, when the gas is discharged from the second centralized discharge cavity 48, the second centralized discharge cavity, the second centralized discharge cavity 48, the centralized discharge tube 43, the second centralized discharge cavity 48, the second centralized discharge tube 43, the centralized discharge cavity 44, when the gas is discharged from the second centralized discharge tube 48, the second centralized discharge tube 433, so that the other section of gas inside the U-shaped gas transmission pipe 43 can be discharged downwards from the first centralized discharge cavity 44, when the paper board enters the movable storage frame 45, the bottom end of the first centralized discharge cavity 44 sprays gas downwards, so that the paper board can be blown downwards, the phenomenon that the paper board floats around is prevented, the film covering and transmission work of the paper board is completed, when the drainage transmission toothed belt 31 rotates circularly, the inner end matching gear 35 is meshed with the inner bottom end of the drainage transmission toothed belt 31 through the inner end matching gear 35, so that the drainage transmission toothed belt 31 can drive the inner end matching gear 35 to rotate simultaneously when rotating, the inner end matching gear 35 is fixedly arranged on the inner end matching gear 35 at equal intervals through the connecting matching plate 341, and the connecting matching plate 341 is positioned at the gap between the drainage transmission toothed belt 31 and the drainage transmission toothed belt 31, so that the connecting matching plate 341 can be prevented from interfering with the drainage transmission toothed belt 31 when rotating, when the connection matching plate 341 rotates to incline downwards, the movable sleeve 344 slides on the extension support rod 342 to contact with the limit check ring 343, and the falling-off phenomenon of the movable sleeve 344 can be prevented by the arrangement of the limit check ring 343, at this time, when the movable sleeve 344 passes through the top end of the inner lining bottom layer 47, the nylon contact brush 345 can be driven to remove the cardboard debris on the top end of the inner lining bottom layer 47, so that the surface cleanliness of the inner lining bottom layer 47 can be improved, meanwhile, when the connection matching plate 341 rotates to incline upwards, the movable sleeve 344 slides on the extension support rod 342 to contact with the bottom end of the connection matching plate 341, so that the movable sleeve 344 can be driven to be accommodated on the extension support rod 342, thereby preventing the movable sleeve 344 from contacting with the cardboard on the drainage transmission toothed belt 31 when rotating, and preventing the movable sleeve 344 from lifting up the cardboard when rotating, the cleaning work of the surface of the inner liner bottom layer 47 is completed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a processing of high sealed various box is with automatic laminating machine, is including supporting transmission drainage mechanism (4), the one end top fixed mounting that supports transmission drainage mechanism (4) has concentrated direction cleaning device (1), support transmission drainage mechanism (4) keep away from on the top of concentrated direction cleaning device (1) equidistant fixed mounting have supplementary press device (2), the internal rotation that supports transmission drainage mechanism (4) installs branch to power transmission mechanism (3), just it is located the below of concentrated direction cleaning device (1) and supplementary press device (2) to power transmission mechanism (3), its characterized in that: supplementary press device (2) extend pterygoid lamina (24), removal support inner panel (25), vertical movable groove (26) and plastic live-rollers (27) including restriction locating rack (21), fixed cooperation roof-rack (22), fixed point reset spring (23), connection, fixed cooperation roof-rack (22) fixed mounting is at the top both ends of restriction locating rack (21), fixed point reset spring (23) fixed mounting is in the both ends bottom of fixed cooperation roof-rack (22), connect the bottom center of extending pterygoid lamina (24) fixed mounting at fixed point reset spring (23), remove support inner panel (25) fixed mounting two connect and extend between pterygoid lamina (24), plastic live-rollers (27) rotate and install two remove and support between inner panel (25), the inside both ends at restriction locating rack (21) are seted up in vertical movable groove (26).

2. The automatic laminating machine for processing the high-sealing color boxes according to claim 1, characterized in that: the centralized guide cleaning device (1) comprises an integrated dust collector (11), a first L-shaped directional drainage cavity (12), a positioning bolt (13), a first movable matching cavity (14), a sponge rotating sheet (15), a planetary transmission gear (16), a rolling guide wheel (17), a second movable matching cavity (18), a positioning support frame (19) and a second L-shaped directional drainage cavity (110), the planetary transmission gear (16) is rotatably arranged at the centers of two ends of the positioning support frame (19), the sponge rotating piece (15) is fixedly arranged between the two planetary transmission gears (16), the first L-shaped directional drainage cavity (12) and the second L-shaped directional drainage cavity (110) are fixedly arranged on the top end of the positioning support frame (19), the first movable matching cavity (14) is inserted in the bottom end of the first L-shaped directional drainage cavity (12) in a sliding manner, and the positioning bolt (13) is inserted at the bottoms of the two ends of the first L-shaped directional drainage cavity (12) in a threaded manner, the second movable matching cavity (18) is inserted in the bottom end of the second L-shaped directional drainage cavity (110) in a sliding manner, the rolling guide wheels (17) are rotationally arranged at the bottoms of the two ends of the second movable matching cavity (18) at equal intervals, the integrated dust collector (11) is fixedly arranged at the top end of the second L-shaped branch drainage cavity (110) and the top end of the first L-shaped branch drainage cavity (12).

3. The automatic laminating machine for processing the high-sealing color boxes according to claim 2, characterized in that: divide power transmission mechanism (3) to include drainage transmission toothed belt (31), first transmission gear (32), sun drive gear (33), intermittent type auxiliary cleaning device (34), inner cooperation gear (35), first conical gear (36) and second drive gear (37), first transmission gear (32) and second drive gear (37) mesh respectively at the inside both ends of drainage transmission toothed belt (31), sun drive gear (33) fixed mounting is at the both ends center of first transmission gear (32), first conical gear (36) fixed mounting is at the both ends center of second drive gear (37), inner cooperation gear (35) equidistance meshing is in the inside bottom of drainage transmission toothed belt (31), just inner cooperation gear (35) are located between second drive gear (37) and first transmission gear (32), intermittent type auxiliary cleaning device (34) equidistance fixed mounting is on inner cooperation gear (35).

4. The automatic film laminating machine for processing the high-sealing color boxes according to claim 3, characterized in that: the intermittent auxiliary cleaning device (34) comprises a connecting matching plate (341), an extending supporting rod (342), a limiting lattice check ring (343), a movable sleeve (344) and a nylon contact brush (345), wherein the extending supporting rod (342) is symmetrically and fixedly installed at the bottom end of the connecting matching plate (341), the limiting lattice check ring (343) is fixedly installed at the center of the bottom end of the extending supporting rod (342), the movable sleeve (344) is sleeved on the outer ring of the extending supporting rod (342) in a sliding mode, and the nylon contact brush (345) is fixedly installed at the bottom end of the movable sleeve (344).

5. The automatic film laminating machine for processing the high-sealing color boxes according to claim 4, characterized in that: the support transmission drainage mechanism (4) comprises an automatic film laminating machine (41), an L-shaped branch guide pipe (42), a U-shaped gas transmission pipe (43), a first concentrated discharge cavity (44), a movable accommodating frame (45), a sliding support bottom rod (46), a lining bottom layer (47), a second concentrated discharge cavity (48), a second conical gear (49), an industrial fan blade (410), a support shell base (411) and an auxiliary feeding base plate (412), wherein the auxiliary feeding base plate (412) is fixedly arranged at the top of one end of the support shell base (411), the automatic film laminating machine (41) is fixedly arranged at the top center of the support shell base (411), the U-shaped gas transmission pipe (43) is fixedly arranged at one end, far away from the auxiliary feeding base plate (412), of the automatic film laminating machine (41), the first concentrated discharge cavity (44) is fixedly arranged at the bottom end, far away from the automatic film laminating machine (41), of the U-shaped gas transmission pipe (43), the L-shaped branch guide pipe (42) is fixedly arranged at the opposite side end of the U-shaped gas transmission pipe (43), the second concentrated discharge cavity (48) is fixedly arranged at the bottom end of the L-shaped gas transmission pipe (42), the second concentrated discharge cavity (49) is arranged at the top of the U-shaped gas transmission pipe (43), and the U-shaped gas transmission pipe (43) is close to the two side end of the U-shaped gas transmission pipe (49), and the U-shaped gas transmission pipe (43), and the two side end (43) are positioned at the two side end of the U-shaped gas transmission pipe (43), and close to the U-shaped gas transmission pipe (43), and the two U-shaped gas transmission pipe (43) are positioned at the two side end of the U-shaped gas transmission pipe (43) Move the bottom below of laminating machine (41), industrial fan leaf (410) fixed mounting is in the top center of second bevel gear (49), inside lining bottom (47) fixed mounting is in the inside bottom of support housing base (411), slide support sill bar (46) equidistance slide peg graft in support housing base (411) keep away from the inside bottom of supplementary feeding base plate (412), remove storage frame (45) fixed mounting and on the one end that support housing base (411) is kept away from to slide support sill bar (46).

6. The automatic laminating machine for high-sealing color boxes according to claim 5, wherein the automatic laminating machine comprises: u type gas transmission pipe (43) include cavity guiding gutter (431), connect adaptation hole (432) and divide to concentrate pipe (433), the inside at U type gas transmission pipe (43) is seted up in cavity guiding gutter (431), divide to concentrate pipe (433) fixed mounting in the inside of cavity guiding gutter (431), connect adaptation hole (432) and set up respectively in cavity guiding gutter (431) and divide to concentrate the inside of pipe (433).

7. The automatic film laminating machine for processing the high-sealing color boxes according to claim 6, wherein the automatic film laminating machine comprises: the positioning and supporting frame (19) is fixedly installed on the top end, close to the auxiliary feeding base plate (412), of the supporting shell base (411), the limiting and positioning frames (21) are respectively and fixedly installed on the top end of the supporting shell base (411), and the limiting and positioning frames (21) are located on two sides of the automatic film laminating machine (41).

8. The automatic film laminating machine for processing the high-sealing color boxes according to claim 7, wherein the automatic film laminating machine comprises: the fixed sun transmission gear (33) is rotatably installed inside one end, close to the auxiliary feeding base plate (412), of the supporting shell base (411), the second transmission gear (37) is rotatably installed inside one end, close to the movable containing frame (45), of the supporting shell base (411), two ends of the inner end matching gear (35) are rotatably installed on the inner wall of the supporting shell base (411), the connecting matching plate (341) is fixedly installed on the inner end matching gear (35), and one end, far away from the movable containing frame (45), of the first concentrated discharge cavity (44) is fixedly installed on the side end, close to the U-shaped gas transmission pipe (43), of the supporting shell base (411).

9. The automatic film laminating machine for processing the high-sealing color boxes according to claim 8, characterized in that: the first L-shaped branch is arranged in a hollow state towards the interior of the drainage cavity (12) and the second L-shaped branch is arranged in a hollow state towards the interior of the drainage cavity (110), the integrated dust collector (11) is communicated with the drainage cavity (12) and the second L-shaped branch respectively, sliding keys matched with the vertical movable grooves (26) are fixedly arranged at two ends of the movable supporting inner plate (25) deviating from the plastic rotating roller (27), the first transmission gear (32), the second transmission gear (37), the inner end of the movable supporting inner plate are matched with the gears (35) and the drainage transmission toothed belt (31) to be arranged in a tightening state, and an anti-slip cushion layer is fixedly arranged on the outer ring of the drainage transmission toothed belt (31), the improved gas distribution device is characterized in that jacks matched with the extension supporting rods (342) and the extension supporting rods (342) are formed in the top end of the movable sleeve (344), a conical concentration disc is fixedly mounted at the center of the bottom of one end, away from the first concentrated discharge cavity (44), of the U-shaped gas transmission pipe (43), the U-shaped gas transmission pipe (43) is communicated with the conical concentration disc, the industrial fan blades (410) are located right below the hollow flow guide groove (431) and the branch concentration pipe (433), the L-shaped branch flow guide pipe (42) is fixedly mounted in the connecting adaptation hole (432), the L-shaped branch flow guide pipe (42) is communicated with the branch concentration pipe (433), and the interiors of the first concentrated discharge cavity (44) and the second concentrated discharge cavity (48) are hollow The state is set, and the bottom ends of the first concentrated discharge cavity (44) and the second concentrated discharge cavity (48) are respectively and fixedly provided with a spray head.

10. The automatic film laminating machine for processing the high-sealing color boxes according to claim 9, characterized in that: the movable storage frame (45) further comprises a connection matching bottom plate (51) and an output cylinder (52), the connection matching bottom plate (51) is symmetrically and fixedly installed at the bottom end of the movable storage frame (45), and the output cylinder (52) is fixedly installed at one end, far away from the movable storage frame (45), of the connection matching bottom plate (51).

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