CN113352546A

CN113352546A - Food packaging container injection-printing integrated processing system

Info

Publication number: CN113352546A
Application number: CN202110470637.7A
Authority: CN
Inventors: 张稳; 夏云军; 周凡
Original assignee: Suzhou Donho Plastic Hardware Co ltd
Current assignee: Suzhou Donho Plastic Hardware Co ltd
Priority date: 2021-04-29
Filing date: 2021-04-29
Publication date: 2021-09-07

Abstract

The invention relates to the field of food packaging container injection molding and printing processing equipment, and discloses an injection molding and printing integrated processing system for a food packaging container. The method comprises the following steps: the frame, the container injection molding device who locates the frame, carries out the container loading attachment of material loading one by one with stack fashioned container, and container loading attachment includes: the supporting plate, the first fixing frame, the feeding conveying belt, the container limiting assembly and the feeding clamping assembly. Locate frame, accept container loading attachment's container processingequipment, container processingequipment includes: a rotation station assembly, a container surface cleaning assembly, a printing assembly, and a UV curing assembly. Locate frame, accept container processingequipment's container unloader, container unloader includes: unloading conveyer belt, unloading centre gripping subassembly. Through the arrangement, the equipment has automatic production from injection molding to printing, and the printing quality and the printing efficiency of the container are greatly improved.

Description

Food packaging container injection-printing integrated processing system

Technical Field

The invention relates to the field of food packaging container injection molding and printing processing equipment, in particular to an injection molding and printing integrated processing system for a food packaging container.

Background

With the continuous improvement of living standard, people not only have higher requirements on the quality of articles, but also have higher requirements on the attractiveness of the articles. Accordingly, various kinds of packaging boxes for packaging articles have been produced. The article is arranged in the base of the packaging box, so that the attractive effect can be achieved, and the article can be stored and moved more conveniently. The existing food packaging container processing equipment needs to perform injection molding on the container, take down the container to be stacked, place the container on a printing machine, and perform printing.

Disclosure of Invention

In order to solve the technical problems, the invention provides an injection molding and printing integrated processing system for food packaging containers, which has the advantages that the automatic production from injection molding to printing is realized through the arrangement of a container injection molding device, a container feeding device, a container processing device and a container discharging device, and the printing quality and the printing efficiency of the containers are greatly improved.

In order to achieve the purpose, the technical scheme of the invention is as follows:

an injection-printing integrated processing system for food packaging containers, comprising:

a frame;

locate the container of frame device of moulding plastics, the container device of moulding plastics includes: the container injection molding machine comprises an injection mold arranged on a rack, a container injection molding conveying belt arranged on one side of the injection mold, a first slide rail seat arranged on the rack, a first moving seat sleeved on the first slide rail seat, a propelling cylinder arranged on the rack and connected to the moving seat, a second slide rail seat arranged on the first moving seat, a belt transmission part arranged on the second slide rail seat, a second moving seat assembled on the second slide rail seat in a sliding mode and connected with the belt transmission part, and a container injection molding material taking assembly arranged on the second moving seat;

locate the frame, carry out the container loading attachment of material loading one by one with the fashioned container of stack, container loading attachment includes: the device comprises a support plate arranged on the rack, a first fixing frame arranged on the support plate, a feeding conveyer belt arranged on the first fixing frame, a container limiting component arranged on the feeding conveyer belt and used for limiting a container to carry out conveying motion, and a feeding clamping component arranged on the support plate and located at the feeding conveyer belt;

locate the frame, accept container processingequipment of container loading attachment, container processingequipment includes: the device comprises a rotary station component arranged on the rack, a container surface cleaning component arranged on one side of the rotary station component, a printing component arranged at a corresponding position above the rotary station component, and a UV curing component arranged on the other side of the rotary station component;

locate the frame, accept container processingequipment's container unloader, container unloader includes: the blanking clamping component is arranged at a corresponding position above the blanking conveying belt.

Realize above-mentioned technical scheme, when food container carries out the injection printing processing, make container injection moulding through injection mold earlier, then, start the propulsion cylinder, make first removal seat remove along first slide rail seat, make first removal seat be located injection mold's top and correspond the position, open injection mold, start the belt driving spare, make the second remove the seat and carry out oscilaltion motion along the second slide rail seat, make the container mould plastics and get the material subassembly and get the material in getting into injection mold, make the container arrange the container in and mould plastics on the conveyer belt and pile up. Then, the stacked containers are placed on a feeding conveyor belt, then the containers are moved by the feeding conveyor belt through friction force between the containers and the conveyor belt, the containers on the feeding conveyor belt are placed on a rotating station assembly one by one through the matching of a container limiting assembly and a feeding clamping assembly, then the rotating station assembly is started to rotate the containers, the containers are cleaned through a container surface cleaning assembly, then the containers are subjected to paint printing through a printing assembly, finally the paints are irradiated and cured through a UV curing assembly to be firmly printed on the containers, and then the printed containers are unloaded from the rotating station assembly onto a discharging conveyor belt through a discharging clamping assembly.

As a preferred aspect of the present invention, the container injection and take-out assembly includes: locate through the pivot the second removes the sucking disc seat in the seat, the one end of pivot extends to outside the second removed the seat, and the cover is equipped with drive gear, locates the second removes the seat drive actuating cylinder, connect in drive actuating cylinder and with drive gear mesh complex drives the rack.

According to the technical scheme, when the formed container is taken in the injection mold, the driving cylinder is started, the driving rack is driven to move up and down, the driving gear is driven to rotate, the rotating shaft is driven to rotate synchronously, the formed container is sucked through the sucker seat to take the material, then the steps are repeated, the sucker seat rotates, and the formed container is changed from a horizontal state to a vertical state to the container injection molding conveying belt.

As a preferred aspect of the present invention, the container restraining assembly includes: locate the fender of material loading conveyer belt establishes the piece, keep off and establish the piece and include the first dog and the second dog that form the clearance, locate the second mount of backup pad is located the second mount is located the first cylinder of corresponding position in clearance top, be provided with the restriction pole on the first cylinder.

According to the technical scheme, in order to enable the feeding well of the container to be orderly, the first air cylinder is started to enable the limiting rod to move upwards, one end of the limiting rod leaves from the cup edge of the container, the container moves forwards for a certain distance, at the moment, the limiting rod rapidly moves downwards again, one end of the limiting rod penetrates through the gap between the first stop block and the second stop block, the stop block is arranged at the cup edge of the container, and then the movement of the container is limited.

As a preferable aspect of the present invention, the feeding clamping assembly includes: locate second cylinder in the backup pad is located first slip table in the backup pad, slidingtype assembly in first slip table and with the first stroke seat that the second cylinder is connected is located first double-end cylinder on the first stroke seat is located the first grip block at first double-end cylinder both ends.

When the technical scheme is realized, when the containers are loaded, the cup edge of one container is protruded to block the block, the first double-head cylinder is started to enable the first clamping block to clamp the container, and then the second cylinder is started to enable the first stroke seat to horizontally move, so that the container is placed on the next processing station.

As a preferable aspect of the present invention, the rotary station assembly includes: locate the first motor of frame, the cover is located the rotating circular disc of first motor output end locates rotating circular disc is along the axis of rotation of the interval evenly distributed of circumference direction, locates the container of axis of rotation one end is put the material end, sets up in the recess of accepting of the axis of rotation other end.

The technical scheme is realized, the container conveyed by the container feeding device is placed on the container placing end of the rotating shaft of the rotating disc, and then the first motor is started, so that the container is conveyed to the next required processing procedure step by step.

As a preferable aspect of the present invention, the container surface cleaning assembly includes: locate plasma controller in the frame, connect in plasma controller's plasma cleaning machine, plasma cleaning machine is located the container is put the material end department.

By the technical scheme, when the container is cleaned, the plasma cleaning machine is started through the plasma controller, so that the surface of the container is effectively cleaned, and the printing quality of the container is improved.

As a preferable aspect of the present invention, the printing unit includes: locate the slide of frame, the cover is located the bracing piece of slide is located the frame drive the bracing piece is followed the third cylinder that the slide carries out the motion is located through the locking double-screw bolt the centre gripping frame of bracing piece is located print frame in the centre gripping frame, the last anchorage bar that is provided with of print frame locates the first connecting seat of frame is located the montant of first connecting seat, connect in the second connecting seat of montant is located fourth cylinder in the second connecting seat is located the fourth cylinder extends to the outer extension rod of second connecting seat is located the print head of extension rod one end.

Realize above-mentioned technical scheme, when the container prints, through starting the third cylinder, make the bracing piece carry out horizontal migration along the slide, drive print frame synchronous motion, meanwhile, start the fourth cylinder, make the print head pass through print frame, print paint on the container.

As a preferable aspect of the present invention, the UV curing assembly includes: the lamp comprises a reflecting lamp shade arranged on the rotating disc, and an ultraviolet lamp tube arranged in the reflecting lamp shade.

By adopting the technical scheme, when the paint on the container is cured, the irradiation effect of the container paint is obviously improved by irradiating the ultraviolet lamp tube and adding the assistance of the reflecting lampshade.

As a preferable scheme of the invention, a second motor which is positioned at one side of the rotating disc and matched with the receiving groove of the rotating shaft is arranged at the position of the container surface cleaning component and the UV curing component; the connecting plate is arranged at the tail part of the second motor, and the frame is arranged and connected with the fifth cylinder of the connecting plate.

Realize above-mentioned technical scheme, when above-mentioned clean container and solidification container coating, through starting the fifth cylinder, make the second motor remove towards the direction of rotating disc, make the output of second motor and the accepting recess of axis of rotation cooperate, make the axis of rotation rotate, make the container that is located container surface cleaning assembly and UV solidification subassembly department rotate, make the surface cleaning and the solidification of container more even.

As a preferable aspect of the present invention, the material holding member includes: locate the sixth cylinder of frame is located the second slip table of frame, slidingtype assemble in the second slip table and with the second stroke seat that the sixth cylinder is connected is located third connecting seat on the second stroke seat is located step motor in the third connecting seat is located fourth connecting seat on the step motor is located second double-end cylinder in the fourth connecting seat is located the second grip block at second double-end cylinder both ends.

According to the technical scheme, when the container is subjected to blanking, the sixth air cylinder is started, the second stroke seat is enabled to horizontally move along the second sliding table, the original vertical second clamping block is changed into a horizontal state by starting the stepping motor, and meanwhile, the second double-head air cylinder is started to clamp the container, so that the container is withdrawn from the rotary disc and conveyed onto the blanking conveying belt.

In conclusion, the invention has the following beneficial effects: when food containers are subjected to injection printing processing, the containers are subjected to injection molding through an injection mold, then, a propulsion cylinder is started, a first movable seat is made to move along a first slide rail seat, the first movable seat is made to be located at a corresponding position above the injection mold, the injection mold is opened, a belt transmission part is started, a second movable seat is made to move up and down along a second slide rail seat, a container injection molding material taking assembly enters the injection mold to take materials, and then the containers are placed on a container injection molding conveying belt to be stacked. Then, the stacked containers are placed on a feeding conveyor belt, then the containers are moved by the feeding conveyor belt through friction force between the containers and the conveyor belt, the containers on the feeding conveyor belt are placed on a rotating station assembly one by one through the matching of a container limiting assembly and a feeding clamping assembly, then the rotating station assembly is started to rotate the containers, the containers are cleaned through a container surface cleaning assembly, then the containers are subjected to paint printing through a printing assembly, finally the paints are irradiated and cured through a UV curing assembly to be firmly printed on the containers, and then the printed containers are unloaded from the rotating station assembly onto a discharging conveyor belt through a discharging clamping assembly. Through the arrangement, the equipment has automatic production from injection molding to printing, and the printing quality and the printing efficiency of the container are greatly improved.

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, 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 the drawings without creative efforts.

Fig. 1 is a schematic top view of the present invention.

Fig. 2 is a schematic front view of the container injection molding apparatus of the present invention.

Fig. 3 is a schematic front view of the container loading device of the present invention.

Fig. 4 is a right-side view of the printing assembly of the present invention.

The corresponding part names indicated by the numbers and letters in the drawings:

1. a support plate; 2. a first fixing frame; 3. a feeding conveyer belt; 4. a second stopper; 5. a first stopper; 6. a first double-ended cylinder; 7. a second fixing frame; 8. a first clamping block; 9. a plasma cleaning machine; 10. a plasma controller; 11. a frame; 12. a fifth cylinder; 13. a connecting plate; 14. a second motor; 15. a first motor; 16. rotating the disc; 17. a receiving groove; 18. a container material placing end; 19. a reflective lamp cover; 20. an ultraviolet lamp tube; 21. a second sliding table; 22. a second stroke seat; 23. A second clamping block; 24. a second double-headed cylinder; 25. a stepping motor; 26. a third connecting seat; 27. A fourth connecting seat; 28. blanking a conveying belt; 29. a sixth cylinder; 30. a blocking block; 31. a second cylinder; 32. a first sliding table; 33. a first stroke seat; 34. a restraining bar; 35. a first cylinder; 36. A rotating shaft; 37. a third cylinder; 38. a slide base; 39. a support bar; 40. a first connecting seat; 41. A vertical rod; 42. a second connecting seat; 43. a fourth cylinder; 44. an extension rod; 45. a fastening rod; 46. A clamping frame; 47. a printing frame; 48. locking the stud; 49. a print head; 50. propelling the cylinder; 51. A first movable base; 52. injection molding a mold; 53. a first slide rail seat; 54. a container injection molding conveyor belt; 55. A second slide rail seat; 56. a belt drive member; 57. a second movable base; 58. a sucker seat; 59. a driving cylinder; 60. a drive gear; 61. a rotating shaft; 62. the rack is driven.

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.

Examples

As shown in fig. 1 to 4, the present invention is an injection-printing integrated processing system for food packaging containers, comprising: frame 11, the container of locating the frame device of moulding plastics, the container device of moulding plastics includes: the injection molding machine comprises an injection mold 52 arranged on a rack, a container injection molding conveying belt 54 arranged on one side of the injection mold 52, a first slide rail seat 53 arranged on the rack, a first moving seat 51 sleeved on the first slide rail seat 53, a propelling cylinder 50 arranged on the rack and connected to the moving seat, a second slide rail seat 55 arranged on the first moving seat 51, a belt transmission part 56 arranged on the second slide rail seat 55, a second moving seat 57 assembled on the second slide rail seat 55 in a sliding manner and connected with the belt transmission part 56, and a container injection molding material taking assembly arranged on the second moving seat 57.

The container is moulded plastics and is got material subassembly and includes: the sucker seat 58 is arranged in the second movable seat 57 through a rotating shaft 61, one end of the rotating shaft 61 extends out of the second movable seat 57 and is sleeved with a driving gear 60, a driving cylinder 59 is arranged on the second movable seat 57, and a driving rack 62 is connected to the driving cylinder 59 and is meshed with the driving gear 60.

When the molded container is taken from the injection mold 52, the driving cylinder 59 is started to enable the driving rack 62 to move up and down, the driving gear 60 is rotated to drive the rotating shaft 61 to rotate synchronously, the molded container is sucked by the sucker seat 58 to take the material, and then the steps are repeated, the sucker seat 58 is rotated, and the molded container is transferred from the horizontal state to the vertical state to the container injection conveyor belt 54.

Further, locate frame 11, carry out the container loading attachment of material loading one by one with the fashioned container of stack, container loading attachment includes: locate backup pad 1 in frame 11, locate backup pad 1's first mount 2, locate first mount 2's material loading conveyer belt 3, locate material loading conveyer belt 3 and restrict the container and carry out the container restriction subassembly of carrying out conveying motion and locate backup pad 1 and be located the material loading clamping subassembly of material loading conveyer belt 3 department.

The container restraint assembly includes: locate the fender of material loading conveyer belt 3 and establish piece 30, keep off and establish piece 30 and include first dog 5 and the second dog 4 that form the clearance, locate the second mount 7 of backup pad 1, locate the first cylinder 35 that second mount 7 is located the corresponding position in clearance top, be provided with the restriction pole 34 on the first cylinder 35.

In order to order the loading well of the container, the first cylinder 35 is actuated to move the limiting rod 34 upwards, one end of the limiting rod 34 is separated from the rim of the container, so that a container moves forwards for a certain distance, and at the moment, the limiting rod 34 moves downwards rapidly again, one end of the limiting rod 34 passes through the gap between the first stop block 5 and the second stop block 4 and is stopped at the rim of the container, so that the movement of the container is limited.

The material loading clamping component comprises: the device comprises a second cylinder 31 arranged on a support plate 1, a first sliding table 32 arranged on the support plate 1, a first stroke seat 33 assembled on the first sliding table 32 in a sliding manner and connected with the second cylinder 31, a first double-head cylinder 6 arranged on the first stroke seat 33, and first clamping blocks 8 arranged at two ends of the first double-head cylinder 6.

When the container is loaded, the block 30 is arranged on the cup edge of the container in a protruding way, the first double-head cylinder 6 is started to enable the first clamping block 8 to clamp the container, and then the second cylinder 31 is started to enable the first stroke seat 33 to horizontally move, so that the container is placed on the next processing station.

Further, locate frame 11, accept container loading attachment's container processingequipment, container processingequipment includes: the device comprises a rotary station component arranged on a frame 11, a container surface cleaning component arranged on one side of the rotary station component, a printing component arranged on the corresponding position above the rotary station component, and a UV curing component arranged on the other side of the rotary station component.

The rotation station subassembly includes: the container loading device comprises a first motor 15 arranged on a rack 11, a rotating disc 16 sleeved at the output end of the first motor 15, rotating shafts 36 arranged on the rotating disc 16 and evenly distributed along the circumferential direction at intervals, a container loading end 18 arranged at one end of the rotating shaft 36, and a bearing groove 17 arranged at the other end of the rotating shaft 36.

The containers transferred by the container loading device are placed on the container loading end 18 of the rotating shaft 36 of the rotating disc 16, and then the first motor 15 is activated to transfer the containers step by step to the next desired processing operation.

The container surface cleaning assembly comprises: a plasma controller 10 arranged on a frame 11, and a plasma cleaning machine 9 connected with the plasma controller 10, wherein the plasma cleaning machine 9 is positioned at a container material placing end 18.

When the container is cleaned, the plasma cleaning machine 9 is started through the plasma controller 10, so that the surface of the container is effectively cleaned, and the printing quality of the container is improved.

The printing assembly includes: the printing device comprises a sliding seat 38 arranged on a machine frame 11, a supporting rod 39 sleeved on the sliding seat 38, a third air cylinder 37 arranged on the machine frame 11 and used for driving the supporting rod 39 to move along the sliding seat 38, a clamping frame 46 arranged on the supporting rod 39 through a locking stud 48, a printing frame 47 arranged in the clamping frame 46, a fastening rod 45 arranged on the printing frame 47, a first connecting seat 40 arranged on the machine frame 11, a vertical rod 41 arranged on the first connecting seat 40, a second connecting seat 42 connected to the vertical rod 41, a fourth air cylinder 43 arranged in the second connecting seat 42, an extension rod 44 arranged on the fourth air cylinder 43 and extending out of the second connecting seat 42, and a printing head 49 arranged at one end of the extension rod 44.

When printing is to be performed on the containers, the third cylinder 37 is actuated to move the support rod 39 horizontally along the slide 38, which moves the printing frame 47 synchronously, and at the same time, the fourth cylinder 43 is actuated to cause the printing head 49 to print the paint onto the containers through the printing frame 47.

The UV curing assembly includes: a reflector lamp shade 19 arranged on the rotary disk 16, and an ultraviolet lamp tube 20 arranged in the reflector lamp shade 19.

When the paint on the container is cured, the irradiation effect of the container paint is obviously improved by the irradiation of the ultraviolet lamp tube 20 and the assistance of the reflecting lamp shade 19.

The container surface cleaning assembly and the UV curing assembly are provided with a second motor 14 located at one side of the rotating disc 16 and cooperating with the receiving recess 17 of the rotating shaft 36. A connecting plate 13 arranged at the tail part of the second motor 14, and a fifth cylinder 12 arranged on the frame 11 and connected to the connecting plate 13.

When the container is cleaned and the container coating is cured, the fifth air cylinder 12 is started, the second motor 14 moves towards the direction of the rotating disc 16, the output end of the second motor 14 is matched with the bearing groove 17 of the rotating shaft 36, the rotating shaft 36 rotates, the containers located at the container surface cleaning assembly and the UV curing assembly rotate, and the surface of the containers is cleaned and cured more uniformly.

Further, locate frame 11, accept the container unloader of container processingequipment, container unloader includes: a blanking conveyer belt 28 arranged on the frame 11 and a blanking clamping component arranged at a corresponding position above the blanking conveyer belt 28.

Unloading centre gripping subassembly includes: the device comprises a sixth air cylinder 29 arranged on the frame 11, a second sliding table 21 arranged on the frame 11, a second stroke seat 22 assembled on the second sliding table 21 in a sliding manner and connected with the sixth air cylinder 29, a third connecting seat 26 arranged on the second stroke seat 22, a stepping motor 25 arranged in the third connecting seat 26, a fourth connecting seat 27 arranged on the stepping motor 25, a second double-head air cylinder 24 arranged in the fourth connecting seat 27, and second clamping blocks 23 arranged at two ends of the second double-head air cylinder 24.

When the container is discharged, the sixth air cylinder 29 is started to enable the second stroke seat 22 to horizontally move along the second sliding table 21, the stepping motor 25 is started to enable the original vertical second clamping block 23 to be in a horizontal state, meanwhile, the second double-head air cylinder 24 is started to enable the second clamping block 23 to clamp the container, and the container is withdrawn from the rotating disc 16 to the discharging conveying belt 28.

In this embodiment, when the food container is subjected to injection printing, the container is first injection molded by the injection mold 52, then the propulsion cylinder 50 is started to move the first moving seat 51 along the first slide rail seat 53, so that the first moving seat 51 is located at a position corresponding to the upper side of the injection mold 52, the injection mold 52 is opened, the belt transmission member 56 is started to vertically move the second moving seat 57 along the second slide rail seat 55, so that the container injection molding and material taking assembly enters the injection mold 52 to take the material, and then the container is placed on the container injection conveyor belt 54 to be stacked. Then, the stacked containers are placed on the feeding conveyor belt 3, then the feeding conveyor belt 3 moves along with the containers through friction force between the containers and the conveyor belt, the containers on the feeding conveyor belt 3 are placed on the rotating station assembly one by one through cooperation of the container limiting assembly and the feeding clamping assembly, then the rotating station assembly is started to rotate the containers, the containers are cleaned through the container surface cleaning assembly, then the containers are printed with coatings through the printing assembly, finally the coatings are irradiated and cured through the UV curing assembly to enable the coatings to be printed on the containers firmly, and then the printed containers are discharged onto the discharging conveyor belt 28 from the rotating station assembly through the discharging clamping assembly. Through the arrangement, the equipment has automatic production from injection molding to printing, and the printing quality and the printing efficiency of the container are greatly improved.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. An injection-printing integrated processing system for food packaging containers is characterized by comprising:

a frame;

2. The integrated injection molding and printing processing system for food packaging containers as claimed in claim 1, wherein the container injection molding and taking assembly comprises: locate through the pivot the second removes the sucking disc seat in the seat, the one end of pivot extends to outside the second removed the seat, and the cover is equipped with drive gear, locates the second removes the seat drive actuating cylinder, connect in drive actuating cylinder and with drive gear mesh complex drives the rack.

3. The integrated injection molding and printing processing system for food packaging containers as claimed in claim 1, wherein the container restraining assembly comprises: locate the fender of material loading conveyer belt establishes the piece, keep off and establish the piece and include the first dog and the second dog that form the clearance, locate the second mount of backup pad is located the second mount is located the first cylinder of corresponding position in clearance top, be provided with the restriction pole on the first cylinder.

4. The integrated injection molding and printing processing system for food packaging containers according to claim 1, wherein the feeding clamping assembly comprises: locate second cylinder in the backup pad is located first slip table in the backup pad, slidingtype assembly in first slip table and with the first stroke seat that the second cylinder is connected is located first double-end cylinder on the first stroke seat is located the first grip block at first double-end cylinder both ends.

5. An injection-printing integrated processing system for food packaging containers as defined in claim 1, wherein the rotary station assembly comprises: locate the first motor of frame, the cover is located the rotating circular disc of first motor output end locates rotating circular disc is along the axis of rotation of the interval evenly distributed of circumference direction, locates the container of axis of rotation one end is put the material end, sets up in the recess of accepting of the axis of rotation other end.

6. An injection-printing integrated processing system for food packaging containers as claimed in claim 5, wherein the container surface cleaning assembly comprises: locate plasma controller in the frame, connect in plasma controller's plasma cleaning machine, plasma cleaning machine is located the container is put the material end department.

7. An injection-printing integrated processing system for food packaging containers as defined in claim 1, wherein the printing assembly comprises: locate the slide of frame, the cover is located the bracing piece of slide is located the frame drive the bracing piece is followed the third cylinder that the slide carries out the motion is located through the locking double-screw bolt the centre gripping frame of bracing piece is located print frame in the centre gripping frame, the last anchorage bar that is provided with of print frame locates the first connecting seat of frame is located the montant of first connecting seat, connect in the second connecting seat of montant is located fourth cylinder in the second connecting seat is located the fourth cylinder extends to the outer extension rod of second connecting seat is located the print head of extension rod one end.

8. An injection printing integrated processing system for food packaging containers as defined in claim 5, wherein the UV curing assembly comprises: the lamp comprises a reflecting lamp shade arranged on the rotating disc, and an ultraviolet lamp tube arranged in the reflecting lamp shade.

9. An injection-printing integrated processing system for food packaging containers as claimed in claim 1, wherein the container surface cleaning assembly and the UV curing assembly are provided with a second motor located at one side of the rotating disc and engaged with the receiving groove of the rotating shaft; the connecting plate is arranged at the tail part of the second motor, and the frame is arranged and connected with the fifth cylinder of the connecting plate.

10. The integrated injection-printing processing system for food packaging containers as claimed in claim 1, wherein the blanking clamping assembly comprises: locate the sixth cylinder of frame is located the second slip table of frame, slidingtype assemble in the second slip table and with the second stroke seat that the sixth cylinder is connected is located third connecting seat on the second stroke seat is located step motor in the third connecting seat is located fourth connecting seat on the step motor is located second double-end cylinder in the fourth connecting seat is located the second grip block at second double-end cylinder both ends.