CN116061560A - Printing tectorial membrane mechanical device - Google Patents

Abstract

The invention discloses a printing laminating mechanical device, which belongs to the technical field of printing laminating and comprises a cabinet, wherein a winding roller body is rotationally connected to the rear side of an inner cavity of the cabinet, a drying mechanism is fixedly arranged at the top of the inner cavity of the cabinet, a gluing box is fixedly arranged at the front side of the inner cavity of the cabinet, glue boxes are fixedly arranged at two sides of the gluing box, and a gluing mechanism is fixedly arranged in the inner cavities of the glue boxes at two sides. According to the invention, when the surface of the laminating printing body is contacted, the gluing is realized through the rotation of the gluing movable plate and the gluing fixed plate, after the glue is transferred to the surface of the laminating printing body, the continuously rotating gluing movable plate and the continuously rotating gluing fixed plate can continuously scrape corresponding glue after entering the glue box, the rotating gluing movable plate and the rotating gluing fixed plate can realize quantitative discharge of the glue in the glue box, meanwhile, the glue scraping uniformity is improved, the controllability of double-sided pre-gluing of the laminating printing body is realized, and the requirement of laminating glue processing is met.

Description

Printing tectorial membrane mechanical device

Technical Field

The invention belongs to the technical field of printing tectorial membrane, and particularly relates to a printing tectorial membrane mechanical device.

Background

Printing is a technology of transferring ink onto surfaces of materials such as paper, textile, plastic, leather, PVC, PC and the like by performing procedures such as plate making, ink application, pressurization and the like on originals such as characters, pictures, photos and the like, and along with development of printing technology, an automatic printing apparatus is replacing the traditional manual printing industry, and after printed matters are printed, in order to improve the wear resistance of surface printed matters, film coating treatment is generally performed, and the film coating can be divided into a film coating and a film precoating according to the used technology.

Chinese patent CN111439022B discloses a laminating machine for printed matter production, comprising a supporting frame, a discharging frame, a heating device, a smoothing device and a heat sealing device. The scheme can solve the problems that the existing printing product manufacturing laminating machine can not evenly and flatly heat the film when heating the film, and can not well remove gas between the printing product and the film, but when in actual use, the precoating film easily generates a large amount of residues when being bonded, and the situation that bubbles are easily generated or the laminating is uneven due to machine vibration when being bonded is solved, meanwhile, the gluing amount is not easy to control in the process of coating the film, gluing adhesion is easy to occur, and the film coating effect is influenced by glue overflow.

Disclosure of Invention

The invention aims at: in order to solve the problems that a large amount of residues are easy to generate during the bonding of a precoat film, and bubbles or uneven bonding are easy to generate due to machine vibration during the bonding, namely, in the film coating process, the precoat film is coated with glue; the quantity is not easy to control, glue spreading adhesion is easy to occur, and the problem that glue overflow affects the film coating effect is solved.

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

the utility model provides a printing tectorial membrane mechanical device, includes the rack, rack inner chamber rear side rotates and is connected with the winding roll body, rack inner chamber top fixed mounting has drying mechanism, rack inner chamber front side fixed mounting has the rubber coating box, equal fixed mounting in rubber coating box both sides has the rubber material case, and both sides rubber material case inner chamber fixed mounting has rubber coating mechanism, and both sides rubber coating mechanism all rotates to connect between rubber coating box inner chamber and rubber material case one side opening, rubber coating box inner chamber rotates and is connected with the supporting mechanism who is used for winding tectorial membrane printing body, and wears to be equipped with the tectorial membrane printing body between the rubber coating mechanism of supporting mechanism both sides and corresponding position.

As a further description of the above technical solution:

the gluing mechanism comprises a plurality of gluing fixed discs, a main shaft is fixedly connected between the gluing fixed discs, a driving motor is fixedly connected to one side of the main shaft, the driving motor is fixedly connected to the outside of the glue stock box, a plurality of gluing movable discs are slidably connected to the outer side wall of the main shaft, and a cavity for accommodating laminating glue is formed between the gluing fixed discs and the gluing fixed discs.

As a further description of the above technical solution:

the two sides of the inner cavity of the gluing movable plate are fixedly connected with guide blocks, the guide blocks are in sliding connection in guide grooves which are formed in a penetrating manner in the outer side wall of the main shaft, the cross sections of the guide blocks and the guide grooves are rectangular, one side of the gluing movable plate is fixedly connected with a butt cone cover, one side of the butt cone cover is fixedly connected with a first spring, the first spring is sleeved outside the main shaft, the other end of the first spring is fixedly connected outside the main shaft, the extrusion rod for driving is fixedly connected to one side of the abutting conical cover, the cross section of the contact part between the front end of the extrusion rod and the abutting conical cover is circular, the rear sides of the extrusion rods are fixedly connected with driving blocks, and the driving blocks are slidably connected in sliding grooves formed in corresponding positions inside the rubber material box and used for controlling cavity gaps between the rubber coating movable disc and the rubber coating fixed disc through movement of the driving blocks.

As a further description of the above technical solution:

the gluing mechanism further comprises a sliding rod fixedly arranged in the inner cavity of the sliding groove, the sliding rod is connected between the driving blocks in a penetrating mode, one ends, far away from the driving motor, of the sliding rods on the two sides penetrate through one side of the glue stock box and are fixedly connected with a supporting plate, one side of the supporting plate is fixedly connected with an electric push rod, and the electric push rod is fixedly arranged on one side of the outer wall of the glue stock box.

As a further description of the above technical solution:

the four corners of the two sides of the inner cavity of the gluing box are fixedly connected with a glue scraping groove, the glue scraping groove is contacted with a gluing fixed disc and a gluing movable disc which are arranged at corresponding positions, a plurality of laminating pads are connected between the driving motors at the two adjacent sides in a sliding way, and the bonding pad is positioned between the gluing movable disc at the corresponding position and the gluing fixed disc at the other corresponding side, and two sides of the bonding pad are respectively bonded with one sides of the gluing movable disc and the gluing fixed disc.

As a further description of the above technical solution:

the top of the scraping groove is provided with an arc groove matched with the radian of the gluing movable disc, and the inner cavity of the arc groove is provided with a liquid overflow groove.

As a further description of the above technical solution:

the supporting mechanism comprises two oppositely arranged connecting plates, the connecting plates are fixedly connected to one side of the inner cavity of the sizing material box, one side of each connecting plate is rotationally connected with a rotating plate through a bearing, two sides of each rotating plate are rotationally connected with abutting rotating rollers through bearings, the abutting rotating rollers positioned on two sides of each rotating plate are respectively attached to the inner side and the outer side of the laminating printing body, and one side of each rotating plate is rotationally connected with one side of each spiral spring fixedly connected with one side of each connecting plate.

As a further description of the above technical solution:

the utility model discloses a flexible plastic strip, including butt commentaries on classics roller, butt commentaries on classics roller lateral wall fixedly connected with scraping adhesive tape, scraping adhesive tape is flexible plastic strip, and the one end that the scraping adhesive tape kept away from the butt commentaries on classics roller is the chamfer design.

As a further description of the above technical solution:

the drying mechanism comprises a drying air duct, the drying air duct is fixedly connected to the inner cavity of the cabinet, the film-covered printing body is arranged in the inner cavity of the drying air duct in a penetrating mode, the top of the drying air duct is fixedly connected with a blowing cover, the cross section of the blowing cover is conical, the top of the blowing cover is communicated with a blowing air duct, the other end of the blowing air duct is communicated with a drying fan, the bottom of the drying fan is fixedly connected with a mounting plate, and the mounting plate is fixedly connected to the inner cavity of the cabinet.

As a further description of the above technical solution:

the corresponding positions of the two sides of the gluing box on one side of the feeding hole are fixedly connected with supporting rollers, and the supporting rollers are plastic rollers.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. according to the invention, a film-coated printing body to be coated can be sequentially wound on two sides of the supporting mechanism and then removed through the coating and rear discharge port after passing through the feed port on one side of the coating box, at the moment, two sides of the film-coated printing body can be fully contacted with the coating fixed disc and the coating movable disc which are at corresponding positions on two sides, when the film-coated printing body moves, the blank surface which is not coated can be contacted with the coating fixed disc and the coating movable disc during coating, the working output shaft of the driving motor can drive the coating fixed disc and the coating movable disc to rotate, the coating fixed disc and the coating movable disc rotate to scrape the surface of the film-coated printing body which is contacted with the corresponding side under the scraping and adhering action of the coating sizing material in the sizing material box, the coating movable disc and the coating fixed disc rotate to realize coating when the surface of the film-coated printing body is contacted with the corresponding side, after the sizing material is transferred to the surface of the film-coated printing body, the continuously rotating coating movable disc and the coating fixed disc can continuously scrape out corresponding sizing material after entering the sizing material box, the rotating coating movable disc and the coating fixed disc can realize quantitative discharging of the sizing material in the sizing material box, and simultaneously improve the coating uniformity of the coating in the coating and the coating in the coating box, and the coating of the coating can meet the requirements of the coating and the control.

2. According to the invention, by controlling the electric push rod to work, the extension or shortening of the telescopic part of the electric push rod can drive the supporting plate and the sliding rod to move, the sliding rod can move to pull the driving block and the extrusion rod to extrude and abut against the cone cover, the abutting cone cover can drive the gluing movable plate at one side to move through the limit of the extrusion rod, the distance between the gluing movable plate and the gluing fixed plate can be adjusted by moving the gluing movable plate, the effective control of the scraping and coating glue amount is realized by controlling the glue carrying gap between the gluing movable plate and the gluing fixed plate, and the adjustment adaptability of pre-scraping and coating of different glue amounts is met.

3. According to the invention, the glue scraping groove can prevent more glue solution from adhering to the surfaces of the glue spreading fixed disc and the glue spreading movable disc, the overflow groove in the glue scraping groove can send the scraped excessive glue solution into the glue box at one side through the negative pressure effect, waste of the film-covered glue solution is reduced, the bonding pad can seal a gap between the glue spreading movable disc and the glue spreading fixed disc after the glue spreading movable disc moves, overflow of the glue solution from the gap is avoided, and the glue solution scraping effect is ensured.

4. According to the invention, after the coating printing body is coated with the glue through the glue coating fixed disc and the glue coating fixed disc, the coating printing body can be wound on the surface of the abutting rotating roller at the corresponding position, the abutting rotating rollers at two sides can rotate under the laminating transmission of the coating printing body which is fully stretched, the abutting rotating rollers can rotate to drive the external scraping adhesive tape to fully mix glue liquid adhered on the surface of the coating printing body, so that a plurality of glue liquids falling into the gap between the glue coating fixed disc and the glue coating movable disc are fully scraped on the surface of the coating printing body, the uniformity of glue scraping on the surface of the coating printing body is improved, the treatment effect is improved, and the spiral spring can ensure the full lamination of the rotating plate and the abutting rotating roller and the coating printing body which is wound outside by utilizing the self elasticity.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a printing laminating machine according to the present invention;

fig. 2 is a schematic diagram of an explosion splitting structure of a printing film laminating mechanical device according to the present invention;

fig. 3 is a schematic diagram of a half-section structure of a glue spreading box of a printing laminating mechanical device according to the present invention;

fig. 4 is a schematic diagram of a half-section structure of a glue spreading box at another view angle of a printing laminating machine according to the present invention;

fig. 5 is an enlarged schematic view of a portion a in fig. 4 of a printing film laminating machine according to the present invention;

FIG. 6 is a schematic view of a supporting mechanism of a printing laminating machine according to the present invention;

fig. 7 is a schematic diagram of an assembly structure of a drying mechanism of a printing and laminating mechanical device according to the present invention;

FIG. 8 is an enlarged schematic view of the portion B in FIG. 7 of a printing film laminating machine according to the present invention;

fig. 9 is a schematic structural diagram of a glue spreading mechanism of a printing and laminating mechanical device according to the present invention;

FIG. 10 is a schematic view of a lateral semi-sectional structure of a glue tank of a printing laminating machine according to the present invention;

fig. 11 is a schematic diagram of an overall transverse half-section structure of a printing laminating machine according to the present invention.

Legend description:

1. a cabinet; 2. a drying mechanism; 201. a drying air duct; 202. a blowing hood; 203. blowing an air pipe; 204. a drying fan; 3. winding a roller body; 4. a gluing mechanism; 401. gluing a fixed disc; 402. a gluing movable plate; 403. abutting the cone cover; 404. a first spring; 405. a slide bar; 406. a driving block; 407. an extrusion rod; 408. a support plate; 409. an electric push rod; 410. a main shaft; 5. a glue box; 6. a support roller; 7. a support mechanism; 701. a connecting plate; 702. a rotating plate; 703. abutting against the rotating roller; 704. scraping the adhesive tape; 705. a spiral spring; 8. a glue box; 9. a scraping groove; 10. a driving motor; 11. and (5) attaching the pad.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-2 and fig. 7-10, the present invention provides a technical solution: a printing laminating mechanical device comprises a cabinet 1, a winding roller body 3 is rotationally connected to the rear side of an inner cavity of the cabinet 1, a drying mechanism 2 is fixedly arranged at the top of the inner cavity of the cabinet 1, a gluing box 5 is fixedly arranged at the front side of the inner cavity of the cabinet 1, a gluing box 8 is fixedly arranged at both sides of the gluing box 5, a gluing mechanism 4 is fixedly arranged in the inner cavity of the gluing box 8 at both sides, the two-side gluing mechanisms 4 are rotationally connected between the inner cavity of the gluing box 5 and an opening at one side of the gluing box 8, a supporting mechanism 7 for winding a laminating printing body is rotationally connected to the inner cavity of the gluing box 5, a laminating printing body is arranged between both sides of the supporting mechanism 7 and the gluing mechanism 4 at the corresponding position in a penetrating manner, the gluing mechanism 4 comprises a plurality of gluing fixed discs 401, a main shaft 410 is fixedly connected between the gluing fixed discs 401, a driving motor 10 is fixedly connected to one side of the main shaft 410, the driving motor 10 is fixedly connected to the outside of the glue stock box 8, the outer side wall of the main shaft 410 is slidably connected with a plurality of glue coating discs 402, a cavity for accommodating the film coating glue is formed between the glue coating discs 401 and the glue coating discs 401, guide blocks are fixedly connected to two sides of the inner cavity of the glue coating moving disc 402, the guide blocks are slidably connected to the outer side wall of the main shaft 410 in a penetrating manner, the cross section of each guide block is rectangular, the glue coating moving disc 402 can slide in the guide grooves through the guide blocks when moving through the designed guide blocks and the guide grooves, the glue coating moving disc 402 can move while rotating around the main shaft 410, the first spring 404 on one side can be extruded when the glue coating moving disc 402 moves, the stability of the glue coating moving disc 402 can be improved through self elasticity, and offset of the glue coating moving disc 402 caused by vibration is avoided.

The implementation mode specifically comprises the following steps: when gluing, can pass through the coating box 5 one side feed inlet with the tectorial membrane printing body of waiting to glue and shift out through rubber coating and rear side discharge gate after twining in proper order in supporting mechanism 7 both sides, this moment tectorial membrane printing body both sides face can with the corresponding position of both sides rubber coating fixed disk 401 and rubber coating movable disk 402 between abundant contact, when gluing, the rear side winding roll body 3 work is convoluteed and is driven the tectorial membrane printing body to move to the front side, the blank not glued surface can with the rubber coating fixed disk 401 and rubber coating movable disk 402 contact when the tectorial membrane printing body moves, driving motor 10 work output shaft rotates and can drive rubber coating fixed disk 401 and rubber coating movable disk 402 rotation this moment, rubber coating fixed disk 401 and rubber coating movable disk 402 rotate and scrape the tectorial membrane printing body surface that moves the corresponding side and contact under the effect of scraping adhesion one side rubber coating material case 8, thereby can be through rubber coating movable disk 402 and rubber coating fixed disk 401 rotation realization when the contact to the tectorial membrane printing body surface, after the rubber coating movable disk 402 and rubber coating fixed disk 401 that continues to rotate can get into corresponding position and glue coating movable disk 401 and can be satisfied, the relative position of the rubber coating movable disk 8 can be realized, the relative position of the rubber coating can be realized, and the coating is improved and the coating is realized and the device is glued and the relative to the device is moved.

Referring to fig. 7-9, an abutting cone cover 403 is fixedly connected to one side of a glue spreading movable plate 402, a first spring 404 is fixedly connected to one side of the abutting cone cover 403, the first spring 404 is sleeved outside a main shaft 410, the other end of the first spring 404 is fixedly connected to the outside of the main shaft 410, a driving extrusion rod 407 is fixedly connected to one side of the abutting cone cover 403, the cross section of the contact part between the front end of the extrusion rod 407 and the abutting cone cover 403 is circular, driving blocks 406 are fixedly connected to the rear sides of the extrusion rods 407, the driving blocks 406 are slidably connected in sliding grooves formed in corresponding positions inside the glue stock box 8, wherein the cross section of the driving blocks 406 and the sliding grooves are rectangular, guarantee sliding stability for control the cavity clearance between rubber coating movable plate 402 and the rubber coating fixed plate 401 through the removal of driving piece 406, rubber coating mechanism 4 still includes the slide bar 405 who sets firmly in the spout inner chamber, slide bar 405 through-connection is between a plurality of driving pieces 406, and the one end that driving motor 10 was kept away from to both sides slide bar 405 passes glue case 8 one side and fixedly connected with backup pad 408, backup pad 408 one side fixedly connected with electric putter 409, electric putter 409 fixed mounting is in glue case 8 outer wall one side, the equal fixedly connected with backing roll 6 in position is corresponding to glue case 5 both sides feed inlet one side, and backing roll 6 is the plastic roller.

The implementation mode specifically comprises the following steps: when gluing, if the glue layer thickness and the glue coating amount need to be changed, through controlling the work of the electric push rod 409, the extension or shortening of the telescopic part of the electric push rod 409 can drive the support plate 408 to move, the support plate 408 can drive the rear sideslip rod 405 to move, the slide bar 405 can pull the driving block 406 to slide in the chute, the driving block 406 can drive the inner side extrusion rod 407 to extrude or keep away from one side to butt the cone cover 403, the butt cone cover 403 can drive one side glue coating movable plate 402 to move through the limit of the extrusion rod 407, the glue coating movable plate 402 can adjust the distance between the glue coating fixed plate 401, thereby can realize the effective control of the glue coating amount through controlling the glue carrying gap between the glue coating movable plate 402 and the glue coating fixed plate 401, the adjustment adaptability to different glue amount pre-scraping is satisfied, and through the driving block 406 of design, the stability of the extrusion rod 407 through the movement of the driving block 406 can be guaranteed, the occurrence of shaking offset is avoided.

Referring to fig. 7-8, four corners of the inner cavity of the glue spreading box 5 are fixedly connected with glue spreading grooves 9, the glue spreading grooves 9 are in contact with a glue spreading fixed plate 401 and a glue spreading movable plate 402 at corresponding positions, a plurality of attaching pads 11 are slidably connected between adjacent two-side driving motors 10, the attaching pads 11 are positioned between the glue spreading movable plate 402 at corresponding positions and the glue spreading fixed plate 401 at the other corresponding sides, two sides of each attaching pad 11 are respectively attached to one side of the glue spreading movable plate 402 and one side of the glue spreading fixed plate 401, arc-shaped grooves matched with the radian of the glue spreading movable plate 402 are formed in the tops of the glue spreading grooves 9, and overflow grooves are formed in the inner cavities of the arc-shaped grooves.

The implementation mode specifically comprises the following steps: through setting up the frictioning groove 9, avoid the more glue solution of gluing fixed disk 401 and gluing movable disk 402 surface adhesion to produce the adhesion, wherein gluing fixed disk 401 and gluing movable disk 402 can select flexible brush strip roller, sponge roller or stereoplasm plastic roller, satisfy the frictioning and handle the needs, and the excessive glue solution that the frictioning inslot 9 was scraped can send into one side glue box 8 through the negative pressure effect in, reduce the waste of tectorial membrane glue solution, and through the laminating pad 11 of design, can realize gluing movable disk 402 and seal the space between the gluing fixed disk 401 after removing, avoid the glue solution to spill over from the space department, guarantee the glue solution and scrape the effect.

Referring to fig. 4-5, the supporting mechanism 7 includes two oppositely disposed connection plates 701, the connection plates 701 are fixedly connected to one side of an inner cavity of the glue box 8, one side of each connection plate 701 is rotatably connected with a rotation plate 702 through a bearing, two sides of each rotation plate 702 are rotatably connected with a contact roller 703 through bearings, the contact rollers 703 positioned at two sides of each rotation plate 702 are respectively attached to two inner sides and outer sides of the film-coated printing body, one side of each rotation plate 702 is rotatably connected with one side of a spiral spring 705, wherein the spiral spring 705 can ensure supporting stress after the rotation plate 702 is abutted to the film-coated printing body by using self-rewinding elasticity, the contact effect is ensured, meanwhile, the excessively inclined rotation plate 702 is prevented from influencing the laminating and scraping effect, the outer side wall of each contact roller 703 is fixedly connected with a scraping strip 704, the scraping strip 704 is a flexible plastic strip, and one end of each scraping strip 704, which is far away from the contact roller 703, is in a chamfer design.

The implementation mode specifically comprises the following steps: through the supporting mechanism 7 of design, after the tectorial membrane printing body carries out the rubber coating through rubber coating fixed disk 401 and rubber coating fixed disk 401, the tectorial membrane printing body can twine on the butt roller 703 surface of corresponding position, both sides butt roller 703 can rotate under the laminating transmission of the tectorial membrane printing body of fully stretching, butt roller 703 rotates and can drive outside scratch strip 704 and carry out abundant mixing with the glue solution of tectorial membrane printing body surface adhesion, make many glue solutions that fall into through the gap between rubber coating fixed disk 401 and the rubber coating movable disk 402 fully scratch on tectorial membrane printing body surface, thereby can improve tectorial membrane printing body surface scratch uniformity, improve the treatment effect, and through the spiral spring 705 of design, spiral spring 705 can utilize self elasticity to guarantee the abundant laminating of rotor plate 702 and butt roller 703 and the tectorial membrane printing body of outside winding.

Referring to fig. 2 and 7, the drying mechanism 2 includes a drying air duct 201, the drying air duct 201 is fixedly connected to an inner cavity of the cabinet 1, and a film-covered printing body is penetrated in the inner cavity of the drying air duct 201, a blowing cover 202 is fixedly connected to the top of the drying air duct 201, the cross section of the blowing cover 202 is conical, a blowing air duct 203 is communicated to the top of the blowing cover 202, a drying fan 204 is communicated to the other end of the blowing air duct 203, a mounting plate is fixedly connected to the bottom of the drying fan 204, and the mounting plate is fixedly connected to the inner cavity of the cabinet 1.

The implementation mode specifically comprises the following steps: through the stoving mechanism 2 of design, the tectorial membrane printing body is after getting into stoving dryer 201, and top stoving fan 204 can bulge the stoving gas and carry out abundant drying to tectorial membrane printing body both sides to the air can overflow at stoving dryer 201 both sides inlet and produce the stoving air current, make the colloid of tectorial membrane printing body both sides tectorial membrane can air-dry fast and form the tectorial membrane, and carry out the rolling processing of tectorial membrane back printing body through rear side coiling roll body 3.

Working principle: when the automatic glue spreading device is used, a film-covered printing body to be glued sequentially passes through a feed inlet at one side of a glue spreading box 5 and then is wound at the two sides of the glue spreading box 7 and then is removed through glue spreading and a rear discharge outlet, the two sides of the film-covered printing body are fully contacted with a glue spreading fixed disc 401 and a glue spreading movable disc 402 at the corresponding positions at the two sides, when the glue spreading is carried out, a rear winding roller body 3 works to wind and drive the film-covered printing body to move towards the front side, a blank non-glued surface of the film-covered printing body contacts with the glue spreading fixed disc 401 and the glue spreading movable disc 402 when the film-covered printing body moves, a working output shaft of a driving motor 10 rotates to drive the glue spreading fixed disc 401 and the glue spreading movable disc 402 to rotate, glue stock in a glue spreading box 8 is scraped at the corresponding positions at the rotating and scraping and adhering sides of the glue spreading fixed disc 401, glue stock is spread by the rotating the glue spreading movable disc 402 and the glue spreading fixed disc 401 when the glue spreading fixed disc 401 contacts with the surface of the film-covered printing body, after the glue stock is transferred to the surface of the film-covered printing body, the glue stock is continuously rotated, and the glue stock is continuously scraped into the glue box 8, and the glue spreading fixed disc 401 is quantitatively discharged;

the extension or shortening of the telescopic part of the electric push rod 409 drives the support plate 408 and the slide bar 405 to move, the slide bar 405 moves to pull the driving block 406 and the extrusion bar 407 to extrude and abut against the cone cover 403, the abutment cone cover 403 drives the one side gluing movable plate 402 to move through the limit of the extrusion bar 407, the gluing movable plate 402 moves to adjust the distance between the gluing movable plate 402 and the gluing fixed plate 401, and the glue outlet amount is adjusted by controlling the glue carrying gap between the gluing movable plate 402 and the gluing fixed plate 401;

after the coating printing body is coated with glue through the glue coating fixed disc 401 and the glue coating fixed disc 401, the coating printing body is wound on the surface of the abutting rotating roller 703 at the corresponding position, the abutting rotating rollers 703 at two sides rotate under the laminating transmission of the coating printing body which is fully stretched, the abutting rotating rollers 703 rotate to drive the external scraping strips 704 to fully mix glue solution adhered on the surface of the coating printing body, after the coating printing body enters the drying air drum 201, the top drying fan 204 bulges drying gas to fully dry two sides of the coating printing body, and air overflows at inlet openings at two sides of the drying air drum 201 to generate drying air flow, so that the glue coated on two sides of the coating printing body is quickly air-dried to form a coating.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (10)

1. The utility model provides a printing tectorial membrane mechanical device, includes rack (1), rack (1) inner chamber rear side rotates and is connected with winding roll body (3), a serial communication port, rack (1) inner chamber top fixed mounting has stoving mechanism (2), rack (1) inner chamber front side fixed mounting has rubber coating box (5), rubber coating box (5) both sides all fixed mounting have rubber material case (8), and both sides rubber material case (8) inner chamber fixed mounting have rubber coating mechanism (4), and both sides rubber coating mechanism (4) all rotate and connect between rubber coating box (5) inner chamber and rubber material case (8) one side opening, rubber coating box (5) inner chamber rotation is connected with supporting mechanism (7) that are used for winding tectorial membrane printing body, and wears to be equipped with the tectorial membrane printing body between rubber coating mechanism (4) of supporting mechanism (7) both sides and corresponding position.

2. The printing laminating mechanical device according to claim 1, wherein the glue coating mechanism (4) comprises a plurality of glue coating fixed discs (401), a main shaft (410) is fixedly connected between the glue coating fixed discs (401), a driving motor (10) is fixedly connected to one side of the main shaft (410), the driving motor (10) is fixedly connected to the outside of the glue stock box (8), a plurality of glue coating movable discs (402) are slidably connected to the outer side wall of the main shaft (410), and a cavity for accommodating laminating glue is formed between the glue coating fixed discs (401) and the glue coating fixed discs (401).

3. The printing laminating mechanical device according to claim 2, wherein guide blocks are fixedly connected to two sides of an inner cavity of the gluing moving plate (402), the guide blocks are slidably connected in guide grooves formed in the outer side wall of the main shaft (410) in a penetrating mode, the cross section of each guide block and each guide groove is rectangular, a butt cone cover (403) is fixedly connected to one side of the gluing moving plate (402), a first spring (404) is fixedly connected to one side of the butt cone cover (403), the first spring (404) is sleeved outside the main shaft (410), the other end of the first spring (404) is fixedly connected to the outside of the main shaft (410), a driving extrusion rod (407) is fixedly connected to one side of the butt cone cover (403), the cross section of a contact portion of the front end of each extrusion rod (407) and the butt cone cover (403) is circular, a driving block (406) is fixedly connected to the rear side of each extrusion rod (407), and the driving block (406) is slidably connected in a chute formed in a corresponding position inside the glue stock box (8) and is used for controlling a gap between the glue coating moving plate (401) and the moving plate (401) through the driving block (404).

4. A printing laminating mechanical device according to claim 3, wherein the glue spreading mechanism (4) further comprises a sliding rod (405) fixedly arranged in the inner cavity of the chute, the sliding rod (405) is connected between the driving blocks (406) in a penetrating manner, one end of the sliding rod (405) on two sides, far away from the driving motor (10), penetrates through one side of the glue box (8) and is fixedly connected with a supporting plate (408), one side of the supporting plate (408) is fixedly connected with an electric push rod (409), and the electric push rod (409) is fixedly arranged on one side of the outer wall of the glue box (8).

5. The printing laminating mechanical device according to claim 4, wherein the four corners of the two sides of the inner cavity of the glue spreading box (5) are fixedly connected with glue spreading grooves (9), the glue spreading grooves (9) are in contact with the glue spreading fixed disc (401) and the glue spreading movable disc (402) at the corresponding positions, a plurality of laminating pads (11) are slidably connected between the adjacent two-side driving motors (10), the laminating pads (11) are located between the glue spreading movable disc (402) at the corresponding positions and the glue spreading fixed disc (401) at the other corresponding sides, and two sides of each laminating pad (11) are respectively laminated with one sides of the glue spreading movable disc (402) and one side of the glue spreading fixed disc (401).

6. The printing laminating machine according to claim 5, wherein an arc-shaped groove matched with the radian of the glue spreading movable plate (402) is formed in the top of the glue spreading groove (9), and a liquid overflow groove is formed in the inner cavity of the arc-shaped groove.

7. The printing laminating mechanical device according to claim 1, wherein the supporting mechanism (7) comprises two oppositely arranged connecting plates (701), the connecting plates (701) are fixedly connected to one side of an inner cavity of the glue stock box (8), one side of each connecting plate (701) is rotatably connected with a rotating plate (702) through a bearing, two sides of each rotating plate (702) are rotatably connected with abutting rotating rollers (703) through bearings, the abutting rotating rollers (703) positioned at two sides of each rotating plate (702) are respectively attached to two inner sides and two outer sides of the laminating printing body, and one side of each rotating plate (702) is fixedly connected with one side of a scroll spring (705) rotatably connected with one side of each connecting plate (701).

8. The printing laminating machine according to claim 7, wherein a doctor strip (704) is fixedly connected to the outer side wall of the abutting rotating roller (703), the doctor strip (704) is a flexible plastic strip, and one end of the doctor strip (704) far away from the abutting rotating roller (703) is in a chamfer design.

9. The printing tectorial membrane mechanical device of claim 1, wherein the drying mechanism (2) comprises a drying air duct (201), the drying air duct (201) is fixedly connected with an inner cavity of the cabinet (1), and the tectorial membrane printing body is arranged in the inner cavity of the drying air duct (201) in a penetrating mode, a blowing cover (202) is fixedly connected to the top of the drying air duct (201), the cross section of the blowing cover (202) is conical, a blowing air duct (203) is communicated to the top of the blowing cover (202), a drying fan (204) is communicated to the other end of the blowing air duct (203), a mounting plate is fixedly connected to the bottom of the drying fan (204), the mounting plate is fixedly connected with the inner cavity of the cabinet (1), and the drying fan (204) is located at the top of the blowing cover (202).

10. The printing laminating machine according to claim 1, wherein the supporting rollers (6) are fixedly connected to the corresponding positions of the two sides of the glue spreading box (5) on one side of the feeding hole, and the supporting rollers (6) are plastic rollers.

Images