CN211000443U - No medium printing bubble chamber film production facility - Google Patents

Abstract

The utility model belongs to the technical field of lithography apparatus, a no medium printing bubble membrane production facility is related to, its major structure includes bubble membrane apparatus for producing, printing device and drying device, the printing device is located one side that there is the material on bubble membrane forming roll surface in the bubble membrane apparatus for producing, because the bubble membrane layer arch of being shaping is in the inside of bubble membrane forming roll, pressure is even and can not crush the arch when making bubble membrane forming roll extrude the plastic template with the printing roller, the china ink can be attached to the flat membrane layer surface evenly, thereby make the characters or the pattern of printing layer clear; the bubble film with the printing layer is produced and formed at one time by directly printing on the surface of the flat film layer of the bubble film in the process of producing the bubble film, and the printing layer is firmly and clearly attached; the production equipment is advanced, the operation process is simple, the production efficiency is high, the resources are saved, and the application environment is friendly.

Description

No medium printing bubble chamber film production facility

The technical field is as follows:

the utility model belongs to the technical field of lithography apparatus, concretely relates to no medium printing bubble film production facility uses no medium printing bubble film production facility, directly carries out the printing of no medium mode on the bubble film, reaches good printing effect.

Background art:

at present, the express industry develops very rapidly, almost everyone likes to buy things on the internet, after the things are mailed, the things are usually wrapped by a bubble film to prevent the things from being damaged in the transportation process, and the bubble film is waterproof and anti-falling and is the first choice of wrapping materials because the bubble film is light in texture; the existing bubble film is generally a double-layer single-sided bubble film (one side is a bubble layer and the other side is a flat film layer), the bubble film is a plastic packaging material with light texture, good transparency, no toxicity and no odor, and the double-layer single-sided bubble film is also the bubble film which is used in the largest amount and has the lowest price at present. As a packaging material, commodity information and the like are usually required to be printed on the surface of the packaging material, the bubbles can be broken by directly printing on the surface of a bubble film through a common plastic film printing device, the printing is not clear, and the existing bubble film mainly adopts a medium printing method, wherein a printing layer is firstly printed on a medium layer, then the medium layer is bonded with the bubble film in a heat sealing or bonding mode, and finally the printing effect is realized. For example, chinese patent 201010207776.2 discloses a bubble film forming apparatus, in which a bubble roller and a rubber roller are arranged in parallel side by side, the end surface of the bubble roller is connected with a vacuum tube, the end surface of the rubber roller is connected with a cooling water tube, and a printing film roller is arranged at the front end of the inlet of the bubble roller and the rubber roller. When the method is applied, the printed PE film is split into strips and directly thermally compounded on the bubble film during bubble forming, so that the problems of unclear printing and easy ink drop are solved; however, the prior art adopts medium printing, and has the defects of high production cost, multiple working procedures, low efficiency, resource waste and the like; at present, no equipment which needs no printing medium layer, directly prints in a medium-free mode on the surface of an air bubble film and has good printing clear effect is available.

The utility model has the following contents:

an object of the utility model is to overcome the shortcoming that prior art exists, seek to provide one kind can be directly at bubble chamber membrane surface printing characters or pattern and the clear bubble chamber membrane production facility of printing in bubble chamber membrane production process.

In order to achieve the purpose, the main structure of the non-medium printing bubble film production equipment comprises a bubble film production device, a printing device and a drying device, wherein the bubble film production device comprises a motor, a speed reducer, a hopper, a heater, a temperature sensor, a charging barrel, a filter, a connecting pipe, a die head, a die opening I, a die opening II, a bubble film forming roller, an air suction disc, a connecting rod, a bubble film guide roller II, a traction roller I, a traction roller II, a winding shaft, a plane bearing, a spring, a limiter, a machine frame I and a machine frame II; the main structure of the printing device comprises a printing roller, an ink container, an ink scraper and a plastic template; the main structure of the drying device comprises a fan, a dryer, a curing lamp, a heater II, an air temperature sensor, a temperature controller II and a bubble film guide roller I; the motor is connected with the speed reducer through a belt pulley and a belt; the speed reducer is fixedly arranged on one side of the charging barrel and is fixedly connected with the charging barrel through a flange; the hopper is arranged on the upper surface of one side of the charging barrel, which is close to the speed reducer, and the materials in the hopper flow downwards and fall into the charging barrel; the heaters are uniformly arranged on the material barrel in sections and used for heating materials in the material barrel; the temperature sensors are uniformly arranged on the charging barrel in a segmented manner and are used for measuring the temperature of the charging barrel; a screw is arranged in the charging barrel and is in fit connection with a speed reducer, the speed reducer drives the screw to rotate, and the other end of the charging barrel is connected with a filter; the filter is used for filtering impurities in the material; one end of the connecting pipe is connected with the filter, and the other end of the connecting pipe is connected with the die head; the bottom of the die head is provided with a die opening I and a die opening II; the surfaces of the filter, the connecting pipe and the die head are provided with a heating sheet and a temperature sensor; the bubble film forming roller is of a metal roller structure with a circular cross section and is positioned below the die orifice I and the die orifice II, the bubble film forming roller comprises an outer surface shell and an inner wall, bubble forming holes are uniformly distributed on the surface of the outer surface shell at equal intervals, small air holes are formed in the bottoms of the bubble forming holes, the diameter of each small air hole is 0.5-1.5 mm, a negative pressure air passage is arranged between the outer surface shell and the inner wall and communicated with the small air holes, an air passage partition plate is arranged in the middle of the negative pressure air passage, circulating cooling water is arranged in a cylinder formed by the inner wall, main shafts are respectively arranged on two sides of the bubble film forming roller, each main shaft is a hollow metal circular pipe, and the cooling water flows in from the main shaft on one side and flows; the structure of the air suction disc is a solid metal disc with the thickness of 20-40mm, the surface B of the air suction disc faces inwards and is attached to the side surface of the bubble film forming roller, the surface A of the air suction disc faces outwards, a bearing is arranged in the center of the air suction disc, the diameter of an inner hole of the bearing is equal to the outer diameter of a main shaft of the bubble film forming roller, the air suction disc is sleeved on the main shaft of the bubble film forming roller, the inner hole of the bearing and the main shaft of the bubble film forming roller are tightly matched without a gap, the surface A of the air suction disc is provided with an air suction hole A, the surface B of the air suction disc is provided with an air suction hole B, the air suction hole A is communicated with the air suction hole B, the air suction hole A is circular, the air suction hole B is arc-shaped, the circle center of the arc-shaped circle is 2-4 mm larger than the H1 size of the negative pressure air flue, the middle points of H1 and H2 are the same point, an air suction port A is connected with a negative pressure pipeline, an air suction port B is communicated with a negative pressure air passage, and an air suction disc is fixedly connected with a machine frame II through a connecting rod; the plane bearing is arranged outside the air suction disc and is provided with a plane bearing A surface and a plane bearing B surface, steel balls are arranged between the plane bearing A surface and the plane bearing B surface, the plane bearing B surface is attached to the air suction disc, and the plane bearing A surface is attached to the spring; the spring is arranged on the outer side of the plane bearing A surface, one side of the spring is attached to the plane bearing A surface, the other side of the spring is provided with a stopper, the stopper is fixed on a main shaft of the bubble film forming roller, and the spring simultaneously generates pressure on the stopper and the plane bearing A surface; when the bubble film forming roller rotates, the limiter, the spring, the surface A of the plane bearing and the steel balls rotate along with the bubble film forming roller, the connecting rod and the air suction disc are static, the surface B of the air suction disc is tightly attached to the side surface of the bubble film forming roller due to the action of the spring, the air suction port is just covered on the negative pressure air passage, the air suction port A is connected with the negative pressure pipeline, and negative pressure is formed in the bubble forming hole due to the fact that the air suction port A, the air suction port B, the negative pressure air passage, the small air hole and the bubble forming hole are communicated; when materials respectively flow out of two layers of films from a die opening I and a die opening II in a sheet shape, the two layers of films sequentially contact a bubble film forming roller, a bubble film layer contacts the bubble film forming roller first, the bubble film layer can be adsorbed and deformed under the action of negative pressure of bubble forming holes in the surface of the bubble film forming roller and small air holes in the bottom of the holes to form a plurality of bulges, a flat film layer contacts the bubble film forming roller later, the flat film layer directly flows onto the bubble film layer and is adhered with the bubble film layer together, and the flat film layer and the bubble film layer rotate together along with the bubble film forming roller; the air bubble film guide roller II is of a metal roller structure with a circular cross section and is used for stabilizing and guiding the movement of the air bubble film; the drawing roller I and the drawing roller II are both of a metal roller structure with a circular cross section, the drawing roller I and the drawing roller II are horizontally arranged, the rotating directions of the drawing roller I and the drawing roller II are opposite, when a bubble film passes through the bubble film guide roller II and reaches the middle of the drawing roller I and the drawing roller II, the drawing roller I and the drawing roller II extrude and clamp the bubble film, and simultaneously, the drawing roller I and the drawing roller II rotate oppositely at a constant speed to guide the movement of the bubble film; the winding shaft is of a roller structure with a circular cross section and is used for driving the bubble film to be curled into a bubble film roll; the machine frame I is positioned below the charging barrel and used for respectively supporting the charging barrel, the speed reducer, the filter and the connecting pipe; the machine frame II is positioned below the air bubble film forming roller and used for supporting the air bubble film forming roller, the printing roller and the ink container; the air bubble film forming roller, the traction roller I, the traction roller II and the winding shaft are controlled to be opened and closed by motors connected with the air bubble film forming roller, the traction roller I, the traction roller II and the winding shaft respectively.

The printing device of the utility model is positioned at one side of the bubble film forming roller in the bubble film production device, which is provided with materials on the surface, and the ink container is in an open cylinder or square cylinder structure; the ink roller is of a metal roller structure with a circular cross section, is arranged in an ink container, and the bottom of the ink roller is immersed in ink and can freely rotate in the ink container; the blade part of the ink scraper is attached to the surface of the ink roller, the blade back part of the ink scraper is fixed on a machine frame II through a metal angle iron, a small amount of ink can be printed when the ink roller rotates, the ink can be attached to the surface of the ink roller, and redundant ink is scraped by the ink scraper; the printing roller is of a metal roller structure with a circular cross section, and a plastic template is adhered to the surface of the printing roller; the plastic template is elastic plastic with character or pattern information engraved on the surface, is adhered and fixed on the surface of the printing roller and rotates along with the rotation of the printing roller; the distance between the printing roller and the ink roller can just extrude the plastic template; the printing roller is positioned on one side of a material on the surface of the bubble film forming roller, the minimum distance between the printing roller and the bubble film forming roller just can extrude the plastic template to complete printing, the rotating direction of the printing roller is opposite to the rotating direction of the bubble film forming roller, the rotating direction of the ink roller is also opposite to the rotating direction of the printing roller, the rotating traveling speeds of the printing roller and the ink roller are the same as the rotating traveling speed of the bubble film forming roller, the printing roller and the ink roller share one servo motor, the rotating speeds of the printing roller and the ink roller are used for adjusting the contact times of the plastic template and the bubble film forming roller by manually setting the rotating speed of the servo motor and the waiting time, thereby adjusting the distance between characters or patterns printed on the bubble film, when the plastic template on the printing roller rotates between the printing roller and the ink roller, the printing roller and the ink roller continue to rotate, because the plastic template is extruded by the printing roller, the surface of the plastic template can be stained with ink on the ink roller, when the plastic template rotates to be in contact with the air bubble film forming roller soon, the printing roller and the ink roller stop rotating, when the waiting time reaches the set time, the printing roller and the ink roller continue to rotate, and when the plastic template rotates to be in contact with the air bubble film forming roller, the air bubble film forming roller and the printing roller continue to rotate to extrude the plastic template so that the ink on the surface of the plastic template is stained with a flat film layer on the surface of the air bubble film forming roller.

The main structure of the ink container comprises an oil container, a circulating pump, an ink storage box I, an ink storage box II, an ink quantity sensor, a viscometer, a diluent box, a heater I, a refrigerator, an ink temperature sensor, a temperature controller I, an ink quantity controller, a viscosity controller, an ink storage box electromagnetic valve I, an ink storage box electromagnetic valve II, a diluent box electromagnetic valve, a circulating pipeline and a discharge valve; an ink temperature sensor, a viscometer and an ink quantity sensor are arranged in the oil container, a heater I and a refrigerator are arranged at the bottom of the oil container, and the bottom of the oil container is also connected with a circulating pipeline; the ink temperature sensor is connected with the input end of the temperature controller I, the output end of the temperature controller I is respectively connected with the heater I and the refrigerator, the ink temperature sensor can detect the temperature of ink and transmit a temperature signal to the temperature controller I, and the temperature controller I controls the heater I and the refrigerator to be opened and closed according to the set temperature and the currently detected temperature, so that the temperature of the ink is controlled finally; the viscometer is connected with an input end of a viscosity controller, an output end of the viscosity controller is respectively connected with an ink storage box electromagnetic valve I and a diluent box electromagnetic valve, the ink storage box electromagnetic valve I is fixedly connected with the ink storage box I through a pipeline, the diluent box electromagnetic valve is fixedly connected with a diluent box through a pipeline, the viscometer can detect the viscosity of ink and transmit a viscosity signal to the viscosity controller, the viscosity controller controls the ink storage box electromagnetic valve I and the diluent box electromagnetic valve according to the set viscosity and the currently detected viscosity, and then the outflow and stop of the ink and the diluent are controlled, and finally the viscosity of the ink is controlled; the ink quantity sensor is connected with the input end of the ink quantity controller, the output end of the ink quantity controller is connected with the ink storage box electromagnetic valve II, the ink storage box electromagnetic valve II is fixedly connected with the ink storage box II through a pipeline, the ink quantity sensor can detect the amount of ink and transmit an ink quantity signal to the ink quantity controller, and the ink quantity controller controls the opening and closing of the ink storage box electromagnetic valve II according to the set ink quantity and the currently detected ink quantity so as to control the outflow and stop of the ink and finally control the ink quantity in the oil quantity container; the circulating pump is positioned in the middle of the circulating pipeline, and the ink in the oil volume container is circulated by the continuous work of the circulating pump, so that the viscosity of the ink is uniform, and precipitates in the ink can be prevented; the ink storage box I and the ink storage box II are filled with ink with untuned viscosity; the diluent box is filled with diluent; and the circulating pipeline is also provided with a discharge valve, and the discharge valve is used for discharging ink in the ink capacity container.

The drying device of the utility model is positioned at one side of the bubble film forming roller without material in the bubble film production device, the drying device is used for drying and solidifying the printing layer on the surface of the bubble film, and the main structure of the drying device comprises a fan, a dryer, a solidifying lamp, a heater II, an air temperature sensor and a temperature controller II; the dryer is of an empty box structure, and the formed bubble film with the printing layer leaves the bubble film forming roller and enters the dryer for drying so that the printing layer is quickly dried and solidified on the surface of the flat film layer; the fan is a centrifugal fan and can continuously convey air to the dryer, the air pressure and the air quantity of the fan can be adjusted randomly according to needs, and the fan is connected with the heater II through a pipeline; the heater II is used for heating air conveyed by the fan, the heater II is connected with the dryer through a pipeline, and the heated air enters the dryer; the air temperature sensor is positioned at the joint of the dryer and the pipeline and used for detecting the temperature of air entering the dryer and transmitting a temperature signal to the temperature controller II, and the temperature controller II controls the heater II to be turned on and off according to the set temperature and the currently detected temperature so as to finally realize the control of the temperature of the air entering the dryer; the curing lamp is positioned in the dryer and used for curing the printing layer on the surface of the bubble film, the curing lamp is an incandescent lamp or an ultraviolet lamp, the power of the curing lamp can be adjusted at will, the distance between the curing lamp and the bubble film can be adjusted at will, and the number of the curing lamps is one or more and can be adjusted at will according to the working requirement; according to the type of ink used for the printing layer, the working mode of the drying device is selected, and the working mode of the drying device has two modes, wherein one mode is that air heated by the heater II enters the dryer to realize the drying and curing effect on the printing layer, and the other mode is that the curing lamp is turned on to realize the drying and curing effect on the printing layer in a light irradiation mode.

The utility model discloses a circular cross section diameter ratio of printing roller and ink roller of printing device's circular cross section diameter ratio bubble chamber film forming roll of bubble chamber film apparatus for producing when enough hours, can increase the quantity of printing device, the printing device uses the bubble chamber film forming roll to be radial annular arrangement as the center, the printing device is mutually independent, the china ink colour of printing device is the same or inequality, the characters or the pattern on the plastic template surface of printing device are the same or inequality; in the production process, inks with different colors or the same color can be poured into the ink containers of the mutually independent printing devices according to the requirements of products, and the running time and the waiting time of each set of printing devices can be respectively controlled, so that the aim of producing continuous and regular non-medium printing bubble films with different colors and/or different characters or patterns is fulfilled.

Compared with the prior art, the utility model, through directly printing characters or patterns on the surface of the flat membrane layer of the bubble membrane in the process of producing the bubble membrane, the dielectric layer, the printing dielectric layer, the heat seal or the bonding dielectric layer are not required to be produced in advance, the bubble membrane with the printing layer is not crushed in the printing process, the bubble membrane with the printing layer is formed in one-step production, and the printing layer is firmly and clearly attached; the production equipment is advanced, the operation process is simple, the production efficiency is high, the resources are saved, and the application environment is friendly.

Description of the drawings:

fig. 1 is the general structural principle schematic diagram of the medium-free printing bubble film production equipment of the utility model.

Fig. 2 is a schematic diagram of the structural principle of the section of the charging barrel B-B.

Fig. 3 is a schematic view of the main structure principle of the bubble film forming roller according to the present invention.

Fig. 4 is a schematic view of the structural principle of the cross section a-a of the bubble film forming roller of the present invention.

Fig. 5 is a schematic view of the a-surface structure of the air suction disc according to the present invention.

Fig. 6 is a schematic diagram of the structure principle of the B-surface of the air suction disc of the present invention.

Fig. 7 is a schematic view of the structural principle of the ink container according to the present invention.

Fig. 8 is a schematic view of the structural principle of the drying device according to the present invention.

Fig. 9 is a schematic view of the structural principle of the medium-free printing bubble film production equipment product of the present invention.

Fig. 10 is a schematic block diagram of a process flow of a method for preparing a media-free printing bubble film according to the present invention.

The specific implementation mode is as follows:

the present invention will be described in detail below with reference to specific embodiments and accompanying drawings.

Example 1:

the major structure of the non-medium printing bubble film production equipment comprises a bubble film production device, a printing device and a drying device, and the major structure of the bubble film production device comprises a motor 1, a speed reducer 2, a hopper 3, a heater 4, a temperature sensor 5, a charging barrel 6, a filter 7, a connecting pipe 8, a die head 9, a die opening I10, a die opening II 11, a bubble film forming roller 12, an air suction disc 13, a connecting rod 19, a bubble film guide roller II 20, a traction roller I21, a traction roller II 22, a winding shaft 23, a plane bearing, a spring 50, a limiter 51, a machine frame I26 and a machine frame II 27; the main structure of the printing device comprises a printing roller 14, an ink roller 15, an ink container 16, an ink scraper 17 and a plastic template 18; the main structure of the drying device comprises a fan 191, a dryer 192, a curing lamp 193, a heater II 194, an air temperature sensor 195, a temperature controller II 196 and a bubble film guide roller I197; the motor 1 is connected with the speed reducer 2 through a belt pulley 25 and a belt 24; the speed reducer 2 is fixedly arranged on one side of the charging barrel 6, and the speed reducer 2 is fixedly connected with the charging barrel 6 through a flange; the hopper 3 is arranged on the upper surface of one side of the charging barrel 6 close to the speed reducer 2, and the materials 28 in the hopper 3 flow downwards and fall into the charging barrel 6; the heaters 4 are uniformly arranged on the material barrel 6 in sections and used for heating the material 28 in the material barrel 6; the temperature sensors 5 are uniformly arranged on the charging barrel 6 in a segmented manner and are used for measuring the temperature of the charging barrel 6; a screw 55 is arranged in the charging barrel 6, the screw 55 is matched and connected with the speed reducer 2, the speed reducer 2 drives the screw 55 to rotate, and the other end of the charging barrel 6 is connected with the filter 7; the filter 7 is used for filtering impurities in the materials; one end of the connecting pipe 8 is connected with the filter 7, and the other end of the connecting pipe 8 is connected with the die head 9; the bottom of the die head 9 is provided with a die opening I10 and a die opening II 11; the surfaces of the filter 7, the connecting pipe 8 and the die head 9 are provided with heating sheets and temperature sensors; the bubble film forming roller 12 is of a metal roller structure with a circular cross section and is positioned below the die orifice I10 and the die orifice II 11, the bubble film forming roller 12 comprises an outer shell 53 and an inner wall 39, the surface of the outer shell 53 is provided with bubble forming holes 35 which are uniformly distributed at equal intervals, the bottom of each bubble forming hole 35 is provided with a small air hole 36, the diameter of each small air hole 36 is about 0.5mm-1.5mm, a negative pressure air channel 37 is arranged between the outer shell 53 and the inner wall 39 and communicated with the small air holes 36, the middle of each negative pressure air channel 37 is provided with an air channel partition plate 38, a cylinder formed by the inner wall 39 is internally provided with circulating cooling water 40, two sides of the bubble film forming roller 12 are respectively provided with a main shaft 47, each main shaft 47 is a hollow metal round pipe, and the cooling water 40 flows in from the main shaft 47 on one side and; the structure of the air suction disc 13 is a solid metal disc with the thickness of 20-40mm, a B surface 46 of the air suction disc is attached to the side surface of the bubble film forming roller 12 inwards, an A surface 45 of the air suction disc faces outwards, a bearing 43 is arranged in the center of the air suction disc 13, the diameter of an inner hole 44 of the bearing 43 is equal to the outer diameter of a main shaft 47 of the bubble film forming roller 12, the air suction disc 13 is sleeved on the main shaft 47 of the bubble film forming roller 12, the inner hole 44 of the bearing 43 is tightly matched with the main shaft 47 of the bubble film forming roller 12 without a gap, the A surface 45 of the air suction disc is provided with an air suction hole A41, a B surface 46 of the air suction disc is provided with an air suction hole B42, an air suction hole A41 is communicated with an air suction hole B42, the air suction hole A41 is circular, an air suction hole B42 is arc-shaped, the arc-shaped circle center of the inner wall 39, the inner circle center of, the H2 size of the air suction port B42 is 2mm-4mm larger than the H1 size of the negative pressure air channel 37, the midpoint of the H1 and the H2 is the same point, the air suction port A41 is connected with the negative pressure pipeline 56, the air suction port B42 is communicated with the negative pressure air channel 37, and the air suction disc 13 is fixedly connected with the machine frame II 27 through the connecting rod 19; the plane bearing is arranged on the outer side of the air suction disc 13 and is provided with a plane bearing A surface 48 and a plane bearing B surface 49, steel balls 54 are arranged between the plane bearing A surface 48 and the plane bearing B surface 49, the plane bearing B surface 49 is attached to the air suction disc 13, and the plane bearing A surface 48 is attached to the spring 50; the spring 50 is arranged on the outer side of the plane bearing A surface 48, one side of the spring 50 is attached to the plane bearing A surface 48, the other side of the spring 50 is provided with a stopper 51, the stopper 51 is fixed on the spindle 47 of the bubble film forming roller 12, and the spring 50 simultaneously generates pressure on the stopper 51 and the plane bearing A surface 48; when the bubble film forming roller 12 rotates, the limiter 51, the spring 50, the plane bearing A surface 48 and the steel balls 54 rotate along with the bubble film forming roller 12, the connecting rod 19 and the air suction disc 13 are static, due to the action of the spring 50, the B surface 46 of the air suction disc is tightly attached to the side surface of the bubble film forming roller 12, the air suction port B42 just covers the negative pressure air channel 37, the air suction port A41 is connected with the negative pressure pipeline 56, and due to the fact that the air suction port A41, the air suction port B42, the negative pressure air channel 37, the small air hole 36 and the bubble forming hole 35 are communicated, negative pressure is arranged in the bubble forming hole 35; when the material 28 respectively flows out of two layers of thin films from the die orifice I10 and the die orifice II 11 in a sheet shape, the two layers of thin films are sequentially contacted with the bubble film forming roller 12, the bubble film layer 29 is contacted with the bubble film forming roller 12 firstly, the bubble film layer 29 can be adsorbed and deformed by the negative pressure action of the bubble forming holes 35 on the surface of the bubble film forming roller 12 and the small air holes 36 at the bottom of the holes to form a plurality of bulges 61, the flat film layer 30 is contacted with the bubble film forming roller 12 later, the flat film layer 30 directly flows onto the bubble film layer 29 and is adhered with the bubble film layer 29 to form a bubble film 31, and the bubble film 31 rotates together with the bubble film forming roller 12; the bubble film guide roller II 20 is of a metal roller structure with a circular cross section and is used for stabilizing and guiding the movement of the bubble film 31; the drawing roller I21 and the drawing roller II 22 are both of a metal roller structure with a circular cross section, the drawing roller I21 and the drawing roller II 22 are horizontally arranged, the rotating directions of the drawing roller I21 and the drawing roller II 22 are opposite, when the bubble film 31 passes through the bubble film guide roller II 20 and reaches the middle of the drawing roller I21 and the drawing roller II 22, the drawing roller I21 and the drawing roller II 22 extrude and clamp the bubble film 31, and simultaneously, the drawing roller I21 and the drawing roller II 22 rotate oppositely at a constant speed to guide the movement of the bubble film 31; the winding shaft 23 is of a roller structure with a circular cross section and is used for driving the bubble film 31 to be wound into a bubble film roll 33; the machine frame I26 is positioned below the charging barrel 6 and used for respectively supporting the charging barrel 6, the speed reducer 2, the filter 7 and the connecting pipe 8; the machine frame II 27 is positioned below the bubble film forming roller 12 and is used for supporting the bubble film forming roller 12, the printing roller 14 and the ink container 16; the air bubble film forming roller 12, the traction roller I21, the traction roller II 22 and the winding shaft 23 are controlled to be opened and closed by motors connected with the air bubble film forming roller, the traction roller I21, the traction roller II 22 and the winding shaft 23 respectively;

the printing device related to the embodiment is positioned at one side of the surface of the bubble film forming roller 12 in the bubble film production device, wherein the surface is provided with materials, and the ink container 16 is of an open cylinder or square cylinder structure; the ink roller 15 is of a metal roller structure with a circular cross section, the ink roller 15 is arranged in the ink container 16, and the bottom of the ink roller 15 is immersed in the ink 34 and can freely rotate in the ink container 16; the blade part of the ink scraper 17 is attached to the surface of the ink roller 15, the blade back part of the ink scraper 17 is fixed on a machine frame II 27 through metal angle iron, when the ink roller 15 rotates, a small amount of ink is printed and attached to the surface of the ink roller 15, and redundant ink is scraped by the ink scraper 17; the printing roller 14 is of a metal roller structure with a circular cross section, and a plastic template 18 is adhered to the surface of the printing roller 14; the plastic template 18 is elastic plastic with characters or pattern information engraved on the surface, and the plastic template 18 is adhered and fixed on the surface of the printing roller 14 and rotates along with the rotation of the printing roller 14; the distance between the printing roller 14 and the ink roller 15 is just enough to extrude the plastic template 18; the printing roller 14 is positioned on one side of the surface of the air bubble film forming roller 12 with materials, the space between the printing roller 14 and the air bubble film forming roller 12 just can extrude the plastic template 18 to complete printing, the rotating direction of the printing roller 14 is opposite to the rotating direction of the air bubble film forming roller 12, the rotating direction of the ink roller 15 is also opposite to the rotating direction of the printing roller 14, the rotating traveling speeds of the printing roller 14 and the ink roller 15 are the same as the rotating traveling speed of the air bubble film forming roller 12, the printing roller 14 and the ink roller 15 share one servo motor, the rotating speeds of the printing roller 14 and the ink roller 15 adjust the contact times of the plastic template 18 and the air bubble film forming roller 12 by manually setting the rotating speed and the waiting time of the servo motor, thereby adjusting the space between characters or patterns printed on the film layer 30, when the plastic template 18 on the printing roller 14 rotates between the printing roller 14 and the ink roller 15, the printing roller 14 and the ink roller 15 continue to, as the plastic template 18 is squeezed by the printing roller 14 and the ink roller 15, the surface of the plastic template 18 is stained with the ink 34 on the ink roller 15, when the plastic template 18 rotates to be in contact with the bubble film forming roller 12, the printing roller 14 and the ink roller 15 stop rotating, when the waiting time reaches the set time, the printing roller 14 and the ink roller 15 continue rotating, and when the plastic template 18 rotates to be in contact with the bubble film forming roller 12, the bubble film forming roller 12 and the printing roller 14 continue rotating to squeeze the plastic template 18 so that the ink on the surface of the plastic template 18 is stained on the flat film layer 30 on the surface of the bubble film forming roller 12;

the main structure of the ink container 16 according to the present embodiment includes an oil tank 161, a circulation pump 162, an ink tank i 163, an ink tank ii 164, an ink amount sensor 165, a viscometer 166, a diluent box 167, a heater i 168, a refrigerator 169, an ink temperature sensor 170, a temperature controller i 171, an ink amount controller 172, a viscosity controller 173, an ink tank solenoid valve i 174, an ink tank solenoid valve ii 175, a diluent box solenoid valve 176, a circulation pipe 177, and a displacement valve 178; an ink temperature sensor 170, a viscometer 166 and an ink quantity sensor 165 are arranged in the oil container 161, a heater I168 and a refrigerator 169 are arranged at the bottom of the oil container 161, and a circulating pipeline 177 is connected to the bottom of the oil container 161; the ink temperature sensor 170 is connected with the input end of a temperature controller I171, the output end of the temperature controller I171 is respectively connected with a heater I168 and a refrigerator 169, the ink temperature sensor 170 can detect the temperature of the ink 34 and transmit a temperature signal to the temperature controller I171, and the temperature controller I171 controls the opening and closing of the heater I168 and the refrigerator 169 according to the set temperature and the currently detected temperature, so as to finally realize the control of the temperature of the ink 34; the viscometer 166 is connected with the input end of a viscosity controller 173, the output end of the viscosity controller 173 is respectively connected with an ink storage box solenoid valve I174 and a diluent box solenoid valve 176, the ink storage box solenoid valve I174 is fixedly connected with an ink storage box I163 through a pipeline, the diluent box solenoid valve 176 is fixedly connected with a diluent box 167 through a pipeline, the viscometer 166 can detect the viscosity of the ink 34 and transmit a viscosity signal to the viscosity controller 173, and the viscosity controller 173 controls the ink storage box solenoid valve I174 and the diluent box solenoid valve 176 according to the set viscosity and the currently detected viscosity, so as to control the outflow and stop of the ink 34 and the diluent, and finally realize the control of the viscosity of the ink 34; the ink quantity sensor 165 is connected with the input end of the ink quantity controller 172, the output end of the ink quantity controller 172 is connected with the ink storage box solenoid valve II 175, the ink storage box solenoid valve II 175 is fixedly connected with the ink storage box II 164 through a pipeline, the ink quantity sensor 165 can detect the quantity of ink and transmit an ink quantity signal to the ink quantity controller 172, and the ink quantity controller 172 controls the opening and closing of the ink storage box solenoid valve II 175 according to the set ink quantity and the currently detected ink quantity, so that the outflow and the stop of the ink 34 are controlled, and finally the ink quantity in the oil quantity container 161 is controlled; the circulation pump 162 is located in the middle of the circulation pipe 177, and the ink 34 in the oil tank 161 is circulated by the continuous operation of the circulation pump 162, so that the viscosity of the ink 34 is uniform, and the sediment in the ink 34 is prevented; the ink storage box I163 and the ink storage box II 164 are filled with ink 34 with untuned viscosity; the diluent box 167 is filled with diluent; a discharge valve 178 is further provided on the circulation duct 177, and the discharge valve 178 is used for discharging the ink 34 in the ink volume container 161;

the drying device related to the embodiment is positioned at the side without material on the surface of the bubble film forming roller 12 in the bubble film production device, and the drying device is used for drying and curing the printing layer 32 on the surface of the flat film layer 30; the dryer 192 is of an empty box structure, and the formed bubble film 31 with the printing layer 32 leaves the bubble film forming roller 12 and enters the dryer 192 for drying, so that the printing layer 32 is quickly dried and solidified on the surface of the flat film layer 30 of the bubble film 31; the fan 191 is a centrifugal fan and can continuously convey air to the dryer 192, the air pressure and the air volume of the fan 191 can be arbitrarily adjusted as required, and the fan 191 is connected with the heater II 194 through a pipeline; the heater II 194 is used for heating air conveyed by the fan 191, the heater II 194 is connected with the dryer 192 through a pipeline, and the heated air enters the dryer 192; the air temperature sensor 195 is positioned at the connection part of the dryer 192 and the pipeline and is used for detecting the temperature of the air entering the dryer 192 and transmitting a temperature signal to the temperature controller II 196, and the temperature controller II 196 controls the on and off of the heater II 194 according to the set temperature and the currently detected temperature, so that the temperature of the air entering the dryer 194 is controlled finally; the curing lamp 193 is positioned in the dryer 192 and is used for curing the printing layer 32 on the surface of the bubble film 31, the curing lamp 193 is an incandescent lamp or an ultraviolet lamp, the power of the curing lamp 193 can be adjusted at will, the distance between the curing lamp 193 and the bubble film 31 can be adjusted at will, the number of the curing lamps 193 is one or more, and the curing lamps can be adjusted at will according to the working requirement; according to the type of the ink 34 used for the printing layer 32, the operation mode of the drying device is selected, and the operation mode of the drying device is two, wherein one is that air heated by the heater II 194 enters the dryer 192 to realize the drying and curing effect on the printing layer 32, and the other is that the curing lamp 193 is turned on to realize the drying and curing effect on the printing layer 32 by light irradiation;

the diameter of the circular cross section of the printing roller 14 and the ink roller 15 of the printing device related to the embodiment is sufficiently smaller than that of the circular cross section of the bubble film forming roller 12 of the bubble film production device, so that the number of the printing devices can be increased, the printing devices are radially and annularly arranged by taking the bubble film forming roller 12 as a center, the printing devices are mutually independent, the colors of the inks 34 of the printing devices are the same or different, and the characters or patterns on the surface of the plastic template 18 of the printing devices are the same or different; in the production process, the ink 34 with different colors or the same color can be poured into the ink containers 16 of the mutually independent printing devices according to the requirements of products, and the running and waiting time of each set of printing devices can be respectively controlled, so as to achieve the aim of producing continuous and regular medium-free printing bubble films with different colors and/or different characters or patterns;

the bubble film production device related to the embodiment also comprises a temperature control device, a negative pressure air pump 57 and a circulating cooling water pump device 58; the temperature control device heats and monitors the temperatures of the charging barrel 6, the filter 7, the connecting pipe 8 and the die head 9 through heaters and temperature sensors on the surfaces of the charging barrel 6, the filter 7, the connecting pipe 8 and the die head 9, and when materials pass through the charging barrel 6, the filter 7, the connecting pipe 8 and the die head 9, the heat of the materials is transferred to the materials to achieve the purpose of heating the materials; the negative pressure air pump 57 is connected with the air suction port A41 through the negative pressure pipeline 56 and is used for providing negative pressure for the bubble film forming roller 12; the temperature of the cooling water 40 of the circulating cooling water pump device 58 is 30-50 ℃, and the cooling water 40 flows in from the main shaft 47 on one side of the bubble film forming roller 12 and flows out from the main shaft 47 on the other side of the bubble film forming roller 12 and is used for taking away the heat of the bubble film forming roller 12.

The product of the production equipment for the medium-free printing bubble film is the medium-free printing bubble film, and the main structure of the medium-free printing bubble film comprises a bubble film layer 29, a flat film layer 30 and a printing layer 32; the bubble film layer 29 is a plastic film structure with a plurality of bulges 61 on the surface, the directions of the uniformly arranged bulges 61 are consistent, the heights of the bulges 61 are more than or equal to 1mm, the border distance between the bulges 61 is more than or equal to 0.01mm, the bulges 61 are in the shape of one or a combination of a plurality of circular, square, heart-shaped, diamond, pentagram-shaped, oval, polygon and irregular shapes, and the thickness of the plastic film structure of the bubble film layer 29 is more than or equal to 0.002 mm; the flat film layer 30 is a flat plastic film structure with a smooth surface, the thickness of the flat film layer is more than or equal to 0.002mm, and the thicknesses of the plastic film structures of the flat film layer 30 and the bubble film layer 29 can be equal or unequal; the bubble film layer 29 and the flat film layer 30 are bonded together in a gapless manner, a closed pressure space is formed between the bulge 61 on the bubble film layer 29 and the flat film layer 30, and air is filled in the bulge 61, so that the bubble film has good buffering, anti-seismic and anti-pressure capabilities, can protect products in a package from being broken or cracked, and has good protection capability; the printing layer 32 is arranged on one side, far away from the bubble film layer 29, of the flat film layer 30 in a gapless sealing mode, the printing layer 32 is composed of ink with character or pattern information, the characters or patterns of the printing layer 32 can be trademarks, addresses, websites, numbers, Chinese characters, English, telephones, bar codes, one-dimensional codes, two-dimensional codes, expression patterns or other patterns, the printing layer 32 is directly printed or smeared on the surface of the flat film layer 30, the characters or patterns of the printing layer 32 with non-uniform structure and thickness are clear and do not deform, and the characters or patterns are continuous, regular and not easy to wear; the foam film layer 29 and the flat film layer 30 are made of main raw materials and auxiliary materials, wherein the main raw materials are polyethylene, polyamide or polypropylene, and the auxiliary materials mainly comprise an anti-adhesive agent, a slipping agent, a plasticizer, a heat stabilizer, an antioxidant, an antistatic agent, a coloring agent and a processing aid; the ink of the printing layer 32 is water-based ink, solvent ink, UV ink, organic ink, inorganic ink or anti-counterfeit ink.

The working flow of the production equipment for the medium-free printing bubble film related to the embodiment is as follows: (1) and (3) starting equipment: pouring a proper amount of ink 34 into an ink container 16, starting a circulating pump 162, a temperature controller I171, an ink amount controller 172 and a viscosity controller 173, pasting a plastic template 18 engraved with character or pattern information onto a printing roller 14, starting a temperature control device to heat a cylinder 6, a filter 7, a connecting pipe 8 and a die head 9, wherein the cylinder 6 is heated in 3 sections, the temperature of the 1 section, the 2 section, the 3 section and the 1 section is 140-170 ℃ from the cylinder 6 to the filter 7 direction, the temperature of the 2 section is 150-190 ℃, the temperature of the 3 section is 210-230 ℃, the temperature of the filter 7 is 220-230 ℃, the temperature of the connecting pipe 8 is 220-230 ℃, the temperature of the die head 9 is 240-260 ℃, and after reaching the heating temperature, starting a screw 55, a bubble film forming roller 12, the printing roller 14, an ink roller 15, a traction roller I21, a traction roller II 22, a traction roller II, The winding shaft 23, the negative pressure air pump 57, the circulating cooling water pump device 58 and the drying device; (2) heating materials: putting a material 28 into a hopper 3, feeding the material 28 into a charging barrel 6 from the hopper 3, pushing the material 28 towards a filter 7 by a screw 55 in the charging barrel 6, absorbing heat of the charging barrel 6 by the material 28 in the pushing process, enabling the melted material 28 to reach the filter 7, heating the material 28 by the filter 7 and filtering impurities in the material 28, enabling the material 28 to reach the interior of a die head 9 through a connecting pipe 8, and further heating the material 28 by the connecting pipe 8 and the die head 9; (3) material molding: after reaching the inside of the die head 9, the material 28 respectively flows out of two layers of thin films from a die opening I10 and a die opening II 11 in a sheet shape, the two layers of thin films are sequentially contacted with a bubble film forming roller 12, a bubble film layer 29 is contacted with the bubble film forming roller 12 firstly, the bubble film layer 29 can be adsorbed and deformed under the action of negative pressure of a bubble forming hole 35 on the surface of the bubble film forming roller 12 and a small air hole 36 at the bottom of the hole to form a plurality of bulges 61, a flat film layer 30 is contacted with the bubble film forming roller 12 later, the flat film layer 30 directly flows onto the bubble film layer 29 and is adhered with the bubble film layer 29 to form a bubble film 31, the flat film layer 30 and the bubble film layer 29 jointly rotate along with the bubble film forming roller 12 and simultaneously transfer heat to the bubble film forming roller 12, and the bubble film forming roller 12 transfers heat to circulating cooling water 40; (4) printing: when the material 28 forms the bubble film 31 on the bubble film forming roller 12, the printing device arranged on the side of the surface of the bubble film forming roller 12 with the material 28 prints the surface of the flat film layer 30 of the formed bubble film 31; the printing roller 14 and the ink roller 15 of the printing device share a servo motor, the contact times of the plastic template 18 on the printing roller 14 and the bubble film forming roller 12 are adjusted by manually setting the rotation speed of the servo motor and the waiting time, so as to adjust the space between characters or patterns printed on the flat film layer 30, when the plastic template 18 on the printing roller 14 rotates to the position between the printing roller 14 and the ink roller 15, the printing roller 14 and the ink roller 15 continue to rotate, because the plastic template 18 is pressed by the printing roller 14 and the ink roller 15, the ink 34 on the surface of the plastic template 18 is dipped on the ink roller 15, when the plastic template 18 rotates to be in contact with the bubble film forming roller 12, the printing roller 14 and the ink roller 15 stop rotating, when the waiting time reaches the set time, the printing roller 14 and the ink roller 15 continue to rotate, and when the plastic template 18 rotates to be in contact with the bubble film forming roller 12, the bubble film forming roller 12 and the printing roller 14 continue to rotate to press the plastic template 18, so that the ink 34 on the On the flat film layer 30 on the surface of the shaping roller 12, because the bulges 61 of the bubble film layer 29 being formed are arranged inside the bubble forming holes 35 of the bubble film forming roller 12, the pressure is uniform when the bubble film forming roller 12 and the printing roller 14 press the plastic template 18, and the bulges 61 are not crushed, the ink 34 can be uniformly attached to the surface of the flat film layer 30, so that the characters or patterns of the printing layer 32 are clear; in the printing process, the temperature of the forming bubble film 31 is more than or equal to 40 ℃, and the synchronous rotating speed of the bubble film forming roller 12 and the printing roller 14 is 0-30 meters per minute; (5) and (3) ink drying: with the rotation of the bubble film forming roller 12, the bubble film 31 printed with the printing layer 32 is separated from the bubble film forming roller 12 and reaches the dryer 192 through a bubble film guide roller I197, and ink drying modes are selected according to the type of ink 34 used for the printing layer 32, wherein one mode is that air conveyed by a fan 192 is heated through a heater II 194, the heated air enters the dryer 192 so as to rapidly dry and cure the printing layer 32 on the surface of the flat film layer 30, and the other mode is that a curing lamp 193 is turned on, and the printing layer 32 is rapidly dried and cured on the surface of the flat film layer 30 through light irradiation; (6) winding: along with the rotation of the drawing roller I21 and the drawing roller II 22, the bubble film 31 printed with the printing layer 32 leaves the dryer 192 and reaches the middle of the drawing roller I21 and the drawing roller II 22 through the bubble film guide roller II 20, and along with the rotation of the winding shaft 23, the bubble film 31 printed with the printing layer 32 leaves the drawing roller I21 and the drawing roller II 22 and is wound into a bubble film roll 33 by the winding shaft 23, so that the preparation of the medium-free printing bubble film is completed.

This embodiment is used for producing no medium printing bubble membrane, adds printing device and drying device in bubble membrane apparatus for producing and forms a set of no medium printing bubble membrane production facility, has optimized the medium printing technology that has of traditional bubble membrane, need not traditional three sets of devices (need not medium film production facility, medium film printing apparatus and medium film and bubble membrane bonding equipment), saves 75% the cost of labor, saves 75% the storage cost, saves 75% industrial factory building usable floor area, reduces resource consumption, has improved production efficiency.

Claims (7)

1. The utility model provides a no medium printing bubble chamber film production facility which characterized in that: the bubble film production device mainly comprises a motor, a speed reducer, a hopper, a heater, a temperature sensor, a charging barrel, a filter, a connecting pipe, a die head, a die opening I, a die opening II, a bubble film forming roller, an air suction disc, a connecting rod, a bubble film guide roller II, a traction roller I, a traction roller II, a winding shaft, a plane bearing, a spring, a limiter, a machine frame I and a machine frame II; the main structure of the printing device comprises a printing roller, an ink container, an ink scraper and a plastic template; the main structure of the drying device comprises a fan, a dryer, a curing lamp, a heater II, an air temperature sensor, a temperature controller II and a bubble film guide roller I.

2. The media-free printing bubble film production facility of claim 1, wherein: the motor is connected with the speed reducer through a belt pulley and a belt; the speed reducer is fixedly arranged on one side of the charging barrel and is fixedly connected with the charging barrel through a flange; the hopper is arranged on the upper surface of one side of the charging barrel, which is close to the speed reducer, and the materials in the hopper flow downwards and fall into the charging barrel; the heaters are uniformly arranged on the charging barrel in sections; the temperature sensors are uniformly arranged on the charging barrel in sections; a screw is arranged in the charging barrel and is matched and connected with a speed reducer, the speed reducer drives the screw to rotate, and the other end of the charging barrel is connected with a filter; the filter is used for filtering impurities in the material; one end of the connecting pipe is connected with the filter, and the other end of the connecting pipe is connected with the die head; the bottom of the die head is provided with a die opening I and a die opening II; the surfaces of the filter, the connecting pipe and the die head are provided with a heating sheet and a temperature sensor; the bubble film forming roller is of a metal roller structure with a circular cross section and is positioned below the die orifice I and the die orifice II, the bubble film forming roller comprises an outer surface shell and an inner wall, bubble forming holes are uniformly distributed on the surface of the outer surface shell at equal intervals, small air holes are formed in the bottoms of the bubble forming holes, the diameter of each small air hole is 0.5-1.5 mm, a negative pressure air passage is formed between the outer surface shell and the inner wall and communicated with the small air holes, an air passage partition plate is arranged in the middle of the negative pressure air passage, circulating cooling water is arranged in a cylinder formed by the inner wall, main shafts are respectively arranged on two sides of the bubble film forming roller, each main shaft is a hollow metal circular pipe, and the cooling water flows in from the main shaft on one side and; the structure of the air suction disc is a solid metal disc with the thickness of 20-40mm, the surface B of the air suction disc faces inwards and is attached to the side surface of the bubble film forming roller, the surface A of the air suction disc faces outwards, a bearing is arranged in the center of the air suction disc, the diameter of an inner hole of the bearing is equal to the outer diameter of a main shaft of the bubble film forming roller, the air suction disc is sleeved on the main shaft of the bubble film forming roller, the inner hole of the bearing and the main shaft of the bubble film forming roller are tightly matched without a gap, the surface A of the air suction disc is provided with an air suction hole A, the surface B of the air suction disc is provided with an air suction hole B, the air suction hole A is communicated with the air suction hole B, the air suction hole A is circular, the air suction hole B is arc-shaped, the circle center of the arc-shaped air suction hole B is 2mm-4mm larger than the H2 size of a negative pressure air flue, the middle points of H1 and H2 are the same point, an air suction port A is connected with a negative pressure pipeline, an air suction port B is communicated with a negative pressure air passage, and an air suction disc is fixedly connected with a machine frame II through a connecting rod; the plane bearing is arranged outside the air suction disc and is provided with a plane bearing A surface and a plane bearing B surface, steel balls are arranged between the plane bearing A surface and the plane bearing B surface, the plane bearing B surface is attached to the air suction disc, and the plane bearing A surface is attached to the spring; the spring is arranged on the outer side of the plane bearing A surface, one side of the spring is attached to the plane bearing A surface, the other side of the spring is provided with a stopper, the stopper is fixed on a main shaft of the bubble film forming roller, and the spring simultaneously generates pressure on the stopper and the plane bearing A surface; the air bubble film guide roller II is of a metal roller structure with a circular cross section and is used for stabilizing and guiding the movement of the air bubble film; the drawing roller I and the drawing roller II are both of a metal roller structure with a circular cross section, and are horizontally arranged, and the rotating directions of the drawing roller I and the drawing roller II are opposite; the winding shaft is of a roller structure with a circular cross section; the machine frame I is positioned below the charging barrel; and the machine frame II is positioned below the air bubble film forming roller.

3. The media-free printing bubble film production facility of claim 1, wherein: the printing device is positioned at one side of the bubble film forming roller in the bubble film production device, which is provided with materials on the surface, and the ink container is of an open cylinder or square cylinder structure; the ink roller is of a metal roller structure with a circular cross section, is arranged in the ink container and can freely rotate in the ink container; the blade part of the ink scraper is attached to the surface of the ink roller; the printing roller is of a metal roller structure with a circular cross section, and a plastic template is adhered to the surface of the printing roller; the plastic template is elastic plastic with character or pattern information engraved on the surface, is adhered and fixed on the surface of the printing roller and rotates along with the rotation of the printing roller; the distance between the printing roller and the ink roller can just extrude the plastic template; the distance between the printing roller and the bubble film forming roller can just extrude the plastic template to complete printing, the rotating direction of the printing roller is opposite to that of the bubble film forming roller, the rotating direction of the ink roller is also opposite to that of the printing roller, and the rotating traveling speeds of the printing roller and the ink roller and the rotating traveling speed of the bubble film forming roller are the same.

4. The media-free printing bubble film production facility of claim 1, wherein: the printing roller and the inking roller share a servomotor, and the rotational speeds of the printing roller and the inking roller are adjusted by manually setting the servomotor rotational speed and the waiting time.

5. The media-free printing bubble film production facility of claim 1, wherein: the main structure of the ink container comprises an oil container, a circulating pump, an ink storage box I, an ink storage box II, an ink quantity sensor, a viscometer, a diluent box, a heater I, a refrigerator, an ink temperature sensor, a temperature controller I, an ink quantity controller, a viscosity controller, an ink storage box electromagnetic valve I, an ink storage box electromagnetic valve II, a diluent box electromagnetic valve, a circulating pipeline and a displacement valve; an ink temperature sensor, a viscometer and an ink quantity sensor are arranged in the oil container, a heater I and a refrigerator are arranged at the bottom of the oil container, and the bottom of the oil container is also connected with a circulating pipeline; the ink temperature sensor is connected with the input end of the temperature controller I, the output end of the temperature controller I is respectively connected with the heater I and the refrigerator, the ink temperature sensor can detect the temperature of ink and transmit a temperature signal to the temperature controller I, and the temperature controller I controls the heater I and the refrigerator to be opened and closed according to the set temperature and the currently detected temperature, so that the temperature of the ink is controlled finally; the viscometer is connected with the input end of a viscosity controller, the output end of the viscosity controller is respectively connected with an ink storage box solenoid valve I and a diluent box solenoid valve, the ink storage box solenoid valve I is fixedly connected with the ink storage box I through a pipeline, and the diluent box solenoid valve is fixedly connected with a diluent box through a pipeline; the ink quantity sensor is connected with the input end of the ink quantity controller, the output end of the ink quantity controller is connected with the ink storage box solenoid valve II, and the ink storage box solenoid valve II is fixedly connected with the ink storage box II through a pipeline; the circulating pump is positioned in the middle of the circulating pipeline; the ink storage box I and the ink storage box II are filled with ink with untuned viscosity; the diluent box is filled with diluent; the circulating pipeline is also provided with a discharge valve.

6. The media-free printing bubble film production facility of claim 1, wherein: the drying device is positioned on the side, without the material, of the surface of the bubble film forming roller in the bubble film production device; the dryer is of an empty box structure; the fan is a centrifugal fan, the air pressure and the air quantity of the fan can be adjusted randomly according to needs, and the fan is connected with the heater II through a pipeline; the heater II is connected with the dryer through a pipeline; the air temperature sensor is positioned at the joint of the dryer and the pipeline; the curing lamp is positioned in the dryer, the incandescent lamp or the ultraviolet lamp is selected as the curing lamp, the power of the curing lamp can be adjusted at will, the distance between the curing lamp and the air bubble film can be adjusted at will, the number of the curing lamps is one or more, and the curing lamps can be adjusted at will according to the working requirement.

7. The media-free printing bubble film production facility of claim 1, wherein: the diameter of the circular cross section of the printing roller and the ink roller of the printing device is small enough than that of the circular cross section of the bubble film forming roller of the bubble film production device, the number of the printing devices can be increased, the printing devices are arranged in a radial annular mode by taking the bubble film forming roller as the center, the printing devices are mutually independent, and characters or patterns on the surface of a plastic template of the printing devices are the same or different.

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