CN215550313U - Injection molding and film coating integrated forming machine - Google Patents

Abstract

The utility model provides an injection molding and film coating integrated forming machine, which comprises a machine body, wherein the machine body comprises a fixed plate and a rotating plate, the fixed plate is fixedly provided with a fixed mold for forming a substrate and a fixed mold for coating the substrate, the rotating plate is fixedly provided with at least one movable mold, and the fixed mold for forming the substrate and the fixed mold for coating the substrate are matched with the movable mold. Through the structural design of the whole machine, the multifunctional functions of base plate injection molding, base plate film coating and the like can be simultaneously realized in the forming machine of the all-in-one machine, and the multiple processes and the multiple devices are reduced, so that the occupied space of the devices is reduced; in the coating process, a solvent-free coating is used, the mechanism for evaporating the solvent can be omitted, and the load on the environment can be reduced.

Description

Injection molding and film coating integrated forming machine

Technical Field

The utility model relates to the technical field of injection molding machines, in particular to a molding machine integrating injection molding and film coating.

Background

The global environment is worse and worse, the harm of industrial pollution to human bodies is more and more serious, and the improvement of the processing technology is related to the survival rate of the existing enterprises.

The plastic surface treatment, especially the paint spraying and the vacuum plating, uses a large amount of paint and solvent in the production process, most of the paint and solvent are discharged to the atmosphere, and the environment is polluted.

In addition, if the painting is required, a lot of manpower is required, and equipment and space are required, so that the production efficiency is greatly affected.

SUMMERY OF THE UTILITY MODEL

The utility model provides a molding machine integrating injection molding and coating film aiming at the problems pointed out in the background technology.

The technical scheme of the utility model is realized as follows:

an injection molding and film coating integrated forming machine comprises a machine body, and is characterized in that: the machine body comprises a fixed plate and a rotating plate, wherein the fixed plate is fixedly provided with a fixed mold for forming a substrate and a fixed mold for coating the substrate, the rotating plate is fixedly provided with at least one movable mold, and the fixed mold for forming the substrate and the fixed mold for coating the substrate are matched with the movable mold.

The utility model is further configured to: the movable mold is fixedly arranged on a lifting platform, the lifting platform is fixedly connected with the rotating plate, the movable mold is provided with a protruding portion, an emptying channel and a substrate coating material injection channel are respectively arranged at two ends of the protruding portion, a vacuum valve is arranged on the emptying channel close to the protruding portion, an inlet coating material valve and an outlet coating material valve are arranged on the substrate coating material injection channel, and the movable mold comprises an abutting upper surface.

The utility model is further configured to: the fixed mould for forming the substrate is provided with a concave part for forming the substrate on one side close to the movable mould, the fixed mould for forming the substrate is in butt fit with the upper butt surface, the concave part for forming the substrate and the convex part form a forming cavity for forming the substrate, the forming cavity for forming the substrate is communicated with the emptying channel and the substrate coating material injection channel, the fixed mould for forming the substrate is provided with a flow channel, the bottom of the flow channel is provided with a pouring gate, the pouring gate is communicated with the forming cavity for forming the substrate, and the top of the flow channel is provided with a resin inflow port.

The utility model is further configured to: the fixed mold for substrate film coating comprises a glass mold for substrate film coating, a concave part for substrate film coating is arranged on one side, close to the movable mold, of the glass mold for substrate film coating, the glass mold for substrate film coating is in butt fit with the upper butt surface, a substrate film cavity is formed by the concave part for substrate film coating and the convex part, the substrate film cavity comprises a space for a substrate and a space for a base film, the substrate film cavity is communicated with the evacuation channel and the substrate coating material injection channel, the fixed mold for substrate film coating comprises a drain hole for substrate film coating and a substrate film coating injection hole, the substrate film coating injection hole is communicated with the substrate coating material injection channel, a substrate film coating valve is arranged on the substrate film coating injection hole, and the drain hole for substrate film coating is communicated with the evacuation channel.

The utility model is further configured to: the fixed die for coating the substrate comprises a UV light curing device for coating the substrate, the UV light curing device for coating the substrate comprises a UV light irradiation lamp for coating the substrate, an opening and closing door for coating the substrate and a reflector for coating the substrate are respectively arranged on two sides of the UV light irradiation lamp for coating the substrate, the opening and closing door for coating the substrate is close to the glass die for coating the substrate and is arranged far away from the glass die for coating the substrate, and a ventilation inlet for coating the substrate and a ventilation outlet for coating the substrate are respectively arranged on two sides of the UV light curing device for coating the substrate.

The utility model is further configured to: the fixed plate is fixedly provided with a vacuum vapor deposition device and a fixed mold for forming a film after vapor deposition, and the fixed mold for forming the substrate, the fixed mold for coating the substrate, the vacuum vapor deposition device and the fixed mold for forming the film after vapor deposition are matched with the movable mold.

The utility model is further configured to: the vacuum vapor deposition device comprises a vacuum vapor deposition chamber, an opening of the vacuum vapor deposition chamber is in butt fit with the upper surface of the butt joint, a plurality of crucible type heaters are fixedly arranged in the vacuum vapor deposition chamber, a vacuum air inlet pipe and a vacuum exhaust pipe are respectively arranged on two sides of the vacuum vapor deposition chamber, and the vacuum air inlet pipe is provided with an air inlet valve.

The utility model is further configured to: the fixed mold for film formation after vapor deposition comprises a glass mold for film formation after vapor deposition, one side of the glass mold for film formation after vapor deposition, which is close to the movable mold, is provided with a concave part for film formation after vapor deposition, the glass mold for film formation after vapor deposition is in butt fit with the upper surface of the butt joint, the concave part for film formation after vapor deposition and the convex part form a film forming cavity after vapor deposition, the film forming cavity after vapor deposition comprises a space for a substrate after vapor deposition and a space for a film coating after vapor deposition, the film forming cavity after vapor deposition is communicated with the evacuation channel and the substrate coating material injection channel, the fixed mold for film formation after vapor deposition comprises an evacuation port for film formation after vapor deposition and a film coating injection port after vapor deposition, and the film coating injection port after vapor deposition is communicated with the substrate coating material injection channel, the coating injection port after vapor deposition is provided with a coating valve for forming a film after vapor deposition, and the evacuation port for forming a film after vapor deposition is communicated with the evacuation channel.

The utility model is further configured to: the fixed mold for forming the film after the vapor deposition comprises a UV light curing device for forming the film after the vapor deposition, the UV light curing device for forming the film after the vapor deposition comprises a UV light irradiation lamp for forming the film after the vapor deposition, an opening and closing door for forming the film after the vapor deposition and a reflector for forming the film after the vapor deposition are respectively arranged on two sides of the UV light irradiation lamp for forming the film after the vapor deposition, the opening and closing door for forming the film after the vapor deposition is close to the glass mold for forming the film after the vapor deposition and is arranged, the reflector for forming the film after the vapor deposition is far away from the glass mold for forming the film after the vapor deposition and is arranged, and a ventilation inlet for forming the film after the vapor deposition and a ventilation outlet for forming the film after the vapor deposition are respectively arranged on two sides of the UV light curing device for forming the film after the vapor deposition.

In conclusion, the beneficial effects of the utility model are as follows:

through the structural design of the whole machine, the multifunctional functions of base plate injection molding, base plate film coating and the like can be simultaneously realized in the forming machine of the all-in-one machine, and the multiple processes and the multiple devices are reduced, so that the occupied space of the devices is reduced; in the coating process, a solvent-free coating is used, the mechanism for evaporating the solvent can be omitted, and the load on the environment can be reduced.

Drawings

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

Fig. 1 is a schematic structural view of a fixed plate and a rotating plate according to embodiment 1 of the present invention;

fig. 2 is a schematic structural view of a fixed plate and a rotating plate according to embodiment 2 of the present invention;

FIG. 3 is a schematic structural diagram of a substrate forming process performed in example 1 of the present invention;

FIG. 4 is a schematic structural view of a space-reducing process in example 1 of the present invention;

FIG. 5 is a schematic structural view showing a substrate coating film injection step in example 1 of the present invention;

FIG. 6 is a schematic view showing the structure of a UV curing step carried out in example 1 of the present invention;

FIG. 7 is a schematic view showing a structure of a vacuum vapor deposition process performed in example 2 of the present invention;

FIG. 8 is a schematic structural view showing a space-reducing process in example 2 of the present invention;

FIG. 9 is a schematic structural view showing a coating process after vapor deposition in example 2 of the present invention;

FIG. 10 is a schematic structural view of a UV curing process after coating film deposition in example 2 of the present invention;

FIG. 11 is a schematic sectional view of a molded article produced in example 2 of the present invention.

Detailed Description

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

The utility model is described below with reference to fig. 1-11:

example 1

An injection molding and coating integrated molding machine comprises a machine body, wherein the machine body comprises a fixed plate 1 and a rotating plate 2, the fixed plate 1 is fixedly provided with a fixed mold 11 for substrate molding and a fixed mold 12 for substrate coating, the rotating plate 2 is fixedly provided with two movable molds 21, one movable mold 21 is matched with the fixed mold 11 for substrate molding to perform a substrate molding process, and the other movable mold 21 is matched with the fixed mold 12 for substrate coating to perform a substrate coating process. As shown in fig. 1, the substrate molding step and the substrate coating step may be performed simultaneously, and after one substrate coating step is completed, the molded article is removed.

The movable mold 21 is fixedly provided on an elevating table for elevating the movable mold 21 up and down to be close to or away from the substrate molding fixed mold 11 and the substrate coating film fixed mold 12; the lifting platform is fixedly connected with the rotating plate 2. The movable mold 21 is provided with a projection provided at both ends thereof with an evacuation channel 21a and a substrate coating material injection channel 21b, respectively, the evacuation channel 21a being provided with a vacuum valve 211 near the projection, the substrate coating material injection channel 21b being provided with an inlet coating valve 212 and an outlet coating valve 213, and the movable mold 21 including the abutment upper surface 6.

As shown in fig. 3, a substrate molding recess 11a is provided on the side of the fixed mold 11 close to the movable mold 21, the fixed mold 11 is in contact with the contact upper surface 6, a substrate molding cavity 31 is formed by both the substrate molding recess 11a and the protrusion, the substrate molding cavity 31 communicates with the evacuation passage 21a and the substrate coating material injection passage 21b, the fixed mold 11 is provided with a runner 11c, a gate 11b is provided at the bottom of the runner 11c, the gate 11b communicates with the substrate molding cavity 31, and a resin inlet 4 is provided at the top of the runner 11 c. Where reference numeral P is a resin, a is a substrate, 211a, 21f are fillers for maintaining airtightness of the evacuation channel 21a, and 21e, 212a, and 213a are fillers for preventing leakage of the substrate coating material injected into the channel 21 b.

In the substrate molding step, the lift table is first raised to close the fixed mold 11 and the movable mold 21 for substrate molding to form the molding cavity 31 for substrate molding, and at this time, the vacuum valve 211, the inlet paint valve 212, and the outlet paint valve 213 are all closed. The molten resin P is injected from the resin inlet 4 into the molding cavity 31 for substrate molding through the runner 11c to the gate 11 b. Wherein the resin P includes ABS resin, AS resin, polycarbonate and acrylic resin.

As shown in fig. 4 to 6, the fixed mold 12 for substrate coating includes a glass mold 121 for substrate coating, a concave portion 121a for substrate coating is provided on a side of the glass mold 121 for substrate coating close to the movable mold 21, the glass mold 121 for substrate coating is in abutting engagement with the abutting upper surface 6, both the concave portion 121a for substrate coating and the convex portion form a substrate film cavity 32, the substrate film cavity 32 includes a space 32a for substrate and a space 32b for substrate film, the substrate film cavity 32 communicates with the evacuation passage 21a and the substrate coating material injection passage 21b, the fixed mold 12 for substrate coating includes an evacuation port 127 for substrate coating and a substrate coating material injection port 128, the substrate coating material injection port 128 communicates with the substrate coating material injection passage 21b, the substrate coating material injection port 128 is provided with a coating valve 129 for substrate coating, and the evacuation port 127 for substrate coating communicates with the evacuation passage 21 a.

The substrate coating fixing mold 12 includes a substrate coating UV light curing device including a substrate coating UV light irradiation lamp 122, an opening/closing door 123 for substrate coating and a substrate coating mirror 124 are provided on both sides of the substrate coating UV light irradiation lamp 122, respectively, the opening/closing door 123 for substrate coating is provided close to the substrate coating glass mold 121, the substrate coating mirror 124 is provided away from the substrate coating glass mold 121, and a substrate coating vent inlet 125 and a substrate coating vent outlet 126 are provided on both sides of the substrate coating UV light curing device, respectively.

Where reference numeral B is a substrate coating material, 121B is a filler for maintaining airtightness of the base film cavity 32, and X is a molded product produced by the injection molding machine 100 corresponding to embodiment 1.

As shown in fig. 4, in the space pressure reducing step, the lift table is first raised to close the substrate coating film fixing mold 12 and the movable mold 21, thereby forming the substrate cavity 32, and the vacuum valve 211 is opened to discharge the air in the substrate film space 32b through the evacuation passage 21a and the evacuation port 127.

As shown in fig. 5, in the substrate coating film injection step, the substrate coating film coating valve 129, the inlet paint valve 212, and the outlet paint valve 213 are opened, and the vacuum valve 211 is closed; the substrate coating material B is injected into the base film cavity 32. In the present embodiment, the substrate coating material B is an ultraviolet-curable solvent-free paint for a top coat, and by using the solvent-free paint, the mechanism for evaporating the solvent can be omitted, and the load on the environment can be reduced.

As shown in fig. 6, in the UV curing step, the substrate coating film valve 129, the inlet paint valve 212, and the outlet paint valve 213 are closed, the substrate coating film switch door 123 and the substrate coating film UV light irradiation lamp 122 are opened, and UV curing is performed for a predetermined irradiation time.

Example 2

In addition to example 1, a vacuum vapor deposition apparatus 13 and a fixed mold 14 for film formation after vapor deposition were added.

The fixed plate 1 is fixedly provided with a vacuum vapor deposition device 13 and a fixed mold 14 for vapor deposition and film formation, and the rotating plate 2 is fixedly provided with four movable molds 21. Therefore, one movable mold 21 is engaged with the fixed mold 11 for substrate molding to perform a substrate molding process, one movable mold 21 is engaged with the fixed mold 12 for substrate coating to perform a substrate coating process, one movable mold 21 is engaged with the vacuum vapor deposition device 13 to perform a vacuum vapor deposition process, and one movable mold 21 is engaged with the fixed mold 14 for vapor deposition post-film formation to perform a vapor deposition post-coating process. As shown in fig. 2, the substrate molding step, the substrate coating step, the vacuum vapor deposition step, and the post-vapor deposition coating step may be performed simultaneously, and after one substrate coating step is completed, the molded article is removed.

The specific structure and process of the substrate forming process and the substrate coating process refer to example 1.

As shown in fig. 7, the vacuum vapor deposition apparatus 13 includes a vacuum vapor deposition chamber 5, an opening of the vacuum vapor deposition chamber 5 is in butt fit with the butt upper surface 6, a plurality of crucible heaters 131 are fixedly disposed in the vacuum vapor deposition chamber 5, a vacuum intake pipe 132 and a vacuum exhaust pipe 133 are respectively disposed on two sides of the vacuum vapor deposition chamber 5, and the vacuum intake pipe 132 is provided with an intake valve 134. Wherein reference numeral 13a is a packing for maintaining the airtightness of the vacuum vapor deposition chamber 5.

When the vacuum vapor deposition process is performed, the lift table is raised so that the movable mold 21 is inside the vacuum vapor deposition chamber 5, the vacuum valve 211, the inlet coating valve 212, and the outlet coating valve 213 are closed, the inside of the vacuum vapor deposition chamber 5 is evacuated through the vacuum exhaust pipe 133, and then the crucible heater 131 is heated to evaporate the vapor deposition metal previously charged into the crucible of the crucible heater 131 and vapor-deposit on the surface of the substrate X after the vapor deposition to form the vapor deposition film C. As the metal for vapor deposition, a known metal for vapor deposition can be suitably used in addition to aluminum, tin, copper, and the like. When the vapor deposition is completed, the intake valve 134 is opened to introduce air into the vacuum vapor deposition chamber 5, and the movable mold 21 is lowered to open the vacuum vapor deposition chamber 5.

As shown in fig. 8 to 10, the fixed mold 14 for film formation after vapor deposition includes a glass mold 141 for film formation after vapor deposition, a concave portion 141a for film formation after vapor deposition is provided on a side of the glass mold 141 for film formation after vapor deposition near the movable mold 21, the glass mold 141 for film formation after vapor deposition is in abutting engagement with the abutting upper surface 6, both the concave portion 141a and the convex portion for film formation after vapor deposition form a film formation cavity 33 after vapor deposition, the film formation cavity 33 after vapor deposition includes a space 33a for a substrate after vapor deposition and a space 33b for a film coating after vapor deposition, the film formation cavity 33 after vapor deposition communicates with the evacuation channel 21a and the substrate coating material injection channel 21b, the fixed mold 14 for film formation after vapor deposition includes an evacuation port 147 for film formation after vapor deposition and a film coating 148 after vapor deposition, the film coating 148 communicates with the substrate coating material injection channel 21b, the post-vapor deposition coating inlet 148 is provided with a post-vapor deposition film-forming coating valve 149, and the post-vapor deposition film-forming evacuation port 147 communicates with the evacuation passage 21 a.

The fixed mold 14 for film formation after vapor deposition comprises a UV light curing device for film formation after vapor deposition, the UV light curing device for film formation after vapor deposition comprises a UV light irradiation lamp 142 for film formation after vapor deposition, an opening and closing door 143 for film formation after vapor deposition and a reflective mirror 144 for film formation after vapor deposition are respectively arranged on two sides of the UV light irradiation lamp 142 for film formation after vapor deposition, the opening and closing door 143 for film formation after vapor deposition is arranged close to the glass mold 141 for film formation after vapor deposition, the reflective mirror 144 for film formation after vapor deposition is arranged away from the glass mold 141 for film formation after vapor deposition, and a ventilation inlet 145 for film formation after vapor deposition and a ventilation outlet 146 for film formation after vapor deposition are respectively arranged on two sides of the UV light curing device for film formation after vapor deposition.

Wherein reference numerals 214, 215, 216 are a vacuum valve, an inlet paint valve and an outlet paint valve on different movable molds 21, respectively; 21c, 21d are evacuation channels and substrate coating material injection channels on different movable molds 21, respectively; 214a is a packing for maintaining airtightness of the evacuation passage 21 c; 215a and 216a are fillers for preventing the substrate coating material in the substrate coating material injection passage 21d from leaking; 141b is a packing for maintaining airtightness of the film forming chamber 33 after vapor deposition.

As shown in fig. 8, in the space depressurizing step, first, the lift table is raised to close the fixed vapor-deposited film-forming die 14 and the movable die 21, thereby forming the post-vapor-deposited film-forming cavity 33. The vacuum valve 214 is opened, and the air in the space 33b for coating film after vapor deposition is discharged through the evacuation passage 21c and the evacuation port 147 for film formation after vapor deposition.

As shown in fig. 9, in the post-vapor deposition coating process, the inlet paint valve, the outlet paint valve, and the post-vapor deposition film-forming coating valve are opened, and the vacuum valve is closed. The post-vapor deposition coating material D is injected into the post-vapor deposition coating film space 33 b. In this example, the post-vapor deposition coating material D was a uv-curable solventless coating for a topcoat. By using the solvent-free paint, a mechanism for evaporating the solvent can be omitted, and the load on the environment can be reduced.

As shown in fig. 10, in the post-vapor deposition coating film UV curing step, the post-vapor deposition film-forming coating film valve 149, the inlet paint valve, and the outlet paint valve are closed, the post-vapor deposition film-forming opening/closing valve 143, and the post-vapor deposition film-forming UV light irradiation lamp 142 are opened, and UV curing is performed for a predetermined irradiation time.

As shown in fig. 11, Y is a molded product produced by the injection molding machine 200 according to example 2.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. An injection molding and film coating integrated forming machine comprises a machine body, and is characterized in that: the machine body comprises a fixed plate (1) and a rotating plate (2), wherein the fixed plate (1) is fixedly provided with a fixed mold (11) for forming a substrate and a fixed mold (12) for coating the substrate, the rotating plate (2) is fixedly provided with at least one movable mold (21), and the fixed mold (11) for forming the substrate and the fixed mold (12) for coating the substrate are matched with the movable mold (21).

2. The injection molding and coating film integrated molding machine according to claim 1, wherein: the movable mould (21) is fixedly arranged on a lifting platform, the lifting platform is fixedly connected with the rotating plate (2), the movable mould (21) is provided with a protruding portion, two ends of the protruding portion are respectively provided with an emptying channel (21a) and a substrate coating material injection channel (21b), the emptying channel (21a) is provided with a vacuum valve (211) close to the protruding portion, the substrate coating material injection channel (21b) is provided with an inlet coating material valve (212) and an outlet coating material valve (213), and the movable mould (21) comprises an abutting upper surface (6).

3. The injection molding and coating film integrated molding machine according to claim 2, wherein: the base plate is close to with fixed mould (11) of base plate shaping one side of movable mould (21) is provided with concave part (11a) for the base plate shaping, base plate shaping with fixed mould (11) with butt upper surface (6) butt cooperation, base plate shaping with concave part (11a) with protruding portion both form base plate shaping with shaping chamber (31), base plate shaping with shaping chamber (31) with evacuation passageway (21a) and base plate coating material injection channel (21b) are linked together, base plate shaping is with fixed mould (11) and is provided with runner (11c), runner (11c) bottom is provided with runner (11b), runner (11b) with base plate shaping is linked together with shaping chamber (31), runner (11c) top is provided with resin inflow mouth (4).

4. The injection molding and coating film integrated molding machine according to claim 2, wherein: the substrate film coating fixed mold (12) comprises a substrate film coating glass mold (121), a substrate film coating concave part (121a) is arranged on one side, close to the movable mold (21), of the substrate film coating glass mold (121), the substrate film coating glass mold (121) is in abutting fit with the abutting upper surface (6), a substrate film cavity (32) is formed by the substrate film coating concave part (121a) and the convex part, the substrate film cavity (32) comprises a substrate space (32a) and a base film space (32b), the substrate film cavity (32) is communicated with the evacuation channel (21a) and the substrate coating material injection channel (21b), the substrate film coating fixed mold (12) comprises a substrate film coating evacuation port (127) and a substrate film injection port (128), and the substrate film injection port (128) is communicated with the substrate coating material injection channel (21b), the substrate coating injection port (128) is provided with a substrate coating valve (129), and the substrate coating evacuation port (127) is communicated with the evacuation channel (21 a).

5. The injection molding and coating film integrated molding machine according to claim 4, wherein: the substrate coating fixing mold (12) comprises a substrate coating UV light curing device, the substrate coating UV light curing device comprises a substrate coating UV light irradiation lamp (122), a substrate coating opening and closing door (123) and a substrate coating reflecting mirror (124) are respectively arranged on two sides of the substrate coating UV light irradiation lamp (122), the substrate coating opening and closing door (123) is arranged close to the substrate coating glass mold (121), the substrate coating reflecting mirror (124) is arranged far away from the substrate coating glass mold (121), and a substrate coating ventilation inlet (125) and a substrate coating ventilation outlet (126) are respectively arranged on two sides of the substrate coating UV light curing device.

6. The injection molding and coating film integrated molding machine according to claim 2, wherein: the fixed plate (1) is fixedly provided with a vacuum vapor deposition device (13) and a fixed mold (14) for forming a film after vapor deposition, and the fixed mold (11) for forming the substrate, the fixed mold (12) for coating the substrate, the vacuum vapor deposition device (13) and the fixed mold (14) for forming a film after vapor deposition are matched with the movable mold (21).

7. The injection molding and coating film integrated molding machine according to claim 6, wherein: vacuum vapor deposition device (13) include vacuum vapor deposition room (5), vacuum vapor deposition room (5) opening with butt upper surface (6) butt cooperation, vacuum vapor deposition room (5) internal fixation sets up a plurality of crucible formula heaters (131), vacuum vapor deposition room (5) both sides are provided with vacuum intake pipe (132) and vacuum exhaust pipe (133) respectively, vacuum intake pipe (132) are provided with air inlet valve (134).

8. The injection molding and coating film integrated molding machine according to claim 6, wherein: the fixed mold (14) for film formation after vapor deposition comprises a glass mold (141) for film formation after vapor deposition, one side, close to the movable mold (21), of the glass mold (141) for film formation after vapor deposition is provided with a concave part (141a) for film formation after vapor deposition, the glass mold (141) for film formation after vapor deposition is in butt fit with the upper butting surface (6), the concave part (141a) and the convex part for film formation after vapor deposition form a film forming cavity (33) after vapor deposition, the film forming cavity (33) after vapor deposition comprises a space (33a) for a substrate after vapor deposition and a space (33b) for a film coating after vapor deposition, the film forming cavity (33) after vapor deposition is communicated with the evacuation channel (21a) and the substrate coating material injection channel (21b), and the fixed mold (14) for film formation after vapor deposition comprises an evacuation port (147) for film formation after vapor deposition and a film coating injection port after vapor deposition (148) The post-vapor deposition coating injection port (148) is communicated with the substrate coating material injection passage (21b), the post-vapor deposition coating injection port (148) is provided with a post-vapor deposition coating valve (149), and the post-vapor deposition coating evacuation port (147) is communicated with the evacuation passage (21 a).

9. The injection molding and coating film integrated molding machine according to claim 8, wherein: the fixed die (14) for forming the film after vapor deposition comprises a UV light curing device for forming the film after vapor deposition, the UV light curing device for forming the film after vapor deposition comprises a UV light irradiation lamp (142) for forming the film after vapor deposition, a switch door (143) for forming the film after vapor deposition and a reflective mirror (144) for forming the film after vapor deposition are respectively arranged at two sides of the UV light irradiation lamp (142) for forming the film after vapor deposition, the switch door (143) for film formation after vapor deposition is arranged close to the glass mold (141) for film formation after vapor deposition, the reflector (144) for film formation after vapor deposition is arranged away from the glass mold (141) for film formation after vapor deposition, and a ventilation inlet (145) for forming the film after vapor deposition and a ventilation outlet (146) for forming the film after vapor deposition are respectively arranged on two sides of the UV light curing device for forming the film after vapor deposition.

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