CN111016228A - Multi-material breast-adhered TPU film processing device and method - Google Patents

Abstract

The invention provides a multi-material breast-adhered TPU film processing device and a processing method, and belongs to the technical field of film processing. It has solved current TPU membrane processingequipment can not many materials converting machining scheduling problem. This many materials breast pastes TPU membrane processingequipment, include the frame and set up the workstation in the frame, be provided with the feeding subassembly that can add multiple material simultaneously on the workstation, the feeding subassembly rotates to be connected on the workstation, feeding subassembly one end is connected on external feeding equipment, the other end of feeding subassembly cooperatees with the inside of workstation, the ejection of compact subassembly that supplies the interior material outflow of feeding subassembly is seted up to the lower extreme of workstation, still be provided with in the frame and cooperate with ejection of compact subassembly and be used for the fashioned shaping subassembly of material. The invention has the advantage that the multi-material latex-coated TPU film can be processed independently or simultaneously.

Description

Multi-material breast-adhered TPU film processing device and method

Technical Field

The invention belongs to the technical field of film processing, relates to a film processing device, and particularly relates to a multi-material breast-attached TPU film processing device and a processing method.

Background

The breast paste is used on the breast head in front of the chest of a human body to cover areola, and is comfortable, safe and beautiful, and has a decorative effect in visual effect.

Because the styles of the breast patches are various, each different breast patch possibly needs to correspond to different films, the breast patches on the existing market are generally divided into transparent films and flesh colors similar to the skin color of a human body, most of the films with the two different colors are processed and formed in batches, or are processed and finished through two processing devices, and the defects that multiple materials cannot be processed or converted simultaneously exist.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a multi-material breast-sticking TPU film processing device which can be processed independently or simultaneously, and a processing method for producing a multi-material breast-sticking TPU film.

The first object of the present invention can be achieved by the following technical solutions: the utility model provides a many materials breast pastes TPU membrane processingequipment, includes the frame and sets up the workstation in the frame, its characterized in that, the workstation on be provided with the feeding subassembly that can add multiple material simultaneously, the feeding subassembly rotate and connect on the workstation, feeding subassembly one end is connected on external feeding equipment, the other end of feeding subassembly cooperatees with the inside of workstation, the ejection of compact subassembly that supplies the interior material outflow of feeding subassembly is seted up to the lower extreme of workstation, the frame on still be provided with and cooperate and be used for the fashioned shaping subassembly of material with ejection of compact subassembly.

In foretell many materials breast pastes TPU membrane processingequipment, the feeding subassembly including set up the rotor plate in the workstation and set up the keysets that is used for storing the material on the rotor plate, the keysets in be equipped with the cavity of a plurality of mutual independence work, be provided with the connector that is used for external feeding equipment to insert in each cavity on the keysets, the bottom of keysets is offered and is used for introducing the inside discharge gate of rotor plate with every cavity material, the rotor plate on seted up the material passageway of intercommunication discharge gate and workstation inside.

In foretell many materials breast pastes TPU membrane processingequipment, the workstation in seted up and be used for holding the rotation groove of rotor plate, the inslot be provided with and be used for connecting the relative workstation of rotor plate and rotate the piece that resets, the workstation inside establish the accuse that the control material passes through and flow the subassembly, the upper end that the subassembly was flowed in the accuse is located and rotates the inslot and form the access mouth, the lower extreme that the subassembly was flowed in the accuse inserts in the ejection of compact subassembly.

In the above processing device for adhering the multi-material emulsion to the TPU film, the rotating plate is disc-shaped, the side end of the rotating plate is provided with a plurality of clamping blocks protruding in the radial direction, and the outlet of the material channel is arranged on the side surface of one side of the clamping blocks.

In foretell many materials breast pastes TPU membrane processingequipment, rotate the inslot be provided with fixture block joint complex cooperation piece, cooperation piece and fixture block one-to-one be formed with the chamber that resets that is used for the installation of piece that resets, the piece that resets transversely set up in the chamber that resets, and the one end that resets supports and lean on the side surface that the fixture block is not equipped with the material passageway export, the other end that resets supports and leans on the side surface of the cooperation piece relative with this side surface, the access mouth set up on the basal plane that rotates the groove.

In foretell many materials breast pastes TPU membrane processingequipment, accuse flow subassembly include that a plurality of upper ends are linked together with different access ports's subchannel and set up in the runner that gathers that the lower extreme is linked together with the lower tip of every subchannel under the subchannel, the junction of gathering runner and subchannel is provided with the control piece that is used for control channel to open and shut.

In foretell many materials breast pastes TPU membrane processingequipment, every control including set up the control panel on the workstation inner wall and connect the control block on the control panel lateral wall, be connected with the elastic component between the one end of control block and the control panel, the other end of control block is in the subchannel corresponding with the control block in, the control block on be equipped with the runner mouth that is used for leading through the subchannel and gathers the runner.

In foretell many materials breast pastes TPU membrane processingequipment, ejection of compact subassembly including the ejection of compact board of locating workstation bottom tip, set up on the ejection of compact board with gather ejection of compact interface 27 that the runner is linked together and be provided with the dispersion runner with material homodisperse in the inside of ejection of compact board, every the shaping export has all been seted up to the lower extreme of dispersion runner.

In foretell many materials breast pastes TPU membrane processingequipment, be connected with the dilatation board between two adjacent cavitys, two upper and lower tip swing joint of dilatation board are on the inner wall of adapter box, the bottom portion of adapter box be provided with the stopper that is used for restricting the dilatation board maximum displacement distance, the stopper set up in the inboard of discharge gate.

In foretell many materials breast pastes TPU membrane processingequipment, the shaping subassembly include the shaping board and set up in the frame and can carry out horizontal lateral shifting's sideslip slide relative to the frame, the sideslip slide on be equipped with the lifter that is used for driving the shaping board oscilaltion.

The second object of the present invention is achieved by the following technical means: a processing method of multi-material paste TPU film is characterized in that the processing device is used.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, the rotatable feeding assembly is arranged on the workbench, and the feeding assembly can rotate to adjust the mutual communication between different feeding ports of the feeding assembly and the interior of the workbench, so that the purposes of switching the processing films of different materials and simultaneously processing multiple materials by the film processing device are realized, and the structure is simple, reasonable and convenient to operate.

2. According to the invention, a closed space is formed between the cavities through the expansion plate, the upper end part and the lower end part of the expansion plate are movably connected to the inner wall of the adapter box, the bottom end part of the adapter box is provided with a limiting block for limiting the maximum displacement distance of the expansion plate, when materials are injected into different cavities, the expansion plate can move towards one side with smaller pressure due to the increase of the pressure intensity in the cavity, so that the volume of the cavity is increased, more materials can be conveniently injected, the maximum displacement of the expansion plate is limited through the limiting block, the movement stability of the expansion plate is ensured, and the unbalance of the internal volume of the adapter box caused by excessive displacement is avoided.

3. The forming plate disclosed by the invention can slide transversely relative to the workbench through the transverse sliding plate, and can lift up and down through the lifting rod on the transverse sliding plate, and the transverse sliding plate and the lifting rod are used for realizing the horizontal and vertical movement of the forming plate, so that the forming plate can move before product processing and after product forming.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of a connection structure of a pivotal plate and a table in the present invention.

Fig. 3 is a schematic view of the structure of the rotating plate in the present invention.

Fig. 4 is a schematic view of the entire structure of the discharging plate of the present invention.

Fig. 5 is an enlarged schematic view of the overall structure of the flow control assembly of the present invention.

In the figure, 1, a frame; 2. a work table; 3. a feed assembly; 4. a discharge assembly; 5. a molding assembly; 6. a rotating plate; 7. a transfer box; 8. a cavity; 9. a connecting port; 10. a discharge port; 11. a material channel; 12. a rotating groove; 13. a reset member; 14. a flow control assembly; 15. an access port; 16. a clamping block; 17. a matching block; 18. a reset chamber; 19. a shunt channel; 20. collecting a flow channel; 21. a control member; 22. a control panel; 23. a control block; 24. an elastic member; 25. a runner port; 26. a discharge plate; 27. a discharge port; 28. a dispersion flow channel; 29. a forming outlet; 30. a flash plate; 31. a limiting block; 32. forming a plate; 33. transversely moving the sliding plate; 34. a lifting rod.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in figure 1, many materials breast pastes TPU membrane processingequipment, include frame 1 and set up workstation 2 in frame 1, be provided with the feeding subassembly 3 that can add multiple material simultaneously on workstation 2, feeding subassembly 3 rotates and connects on workstation 2, feeding subassembly 3 one end is connected on external feeding equipment, the other end of feeding subassembly 3 cooperatees with workstation 2's inside, the ejection of compact subassembly 4 that supplies the interior material of feeding subassembly 3 to flow is seted up to workstation 2's lower extreme, still be provided with in frame 1 and cooperate with ejection of compact subassembly 4 and be used for the fashioned shaping subassembly 5 of material.

Combine fig. 1 to show, in this embodiment, feeding component 3 is including setting up rotor plate 6 in workstation 2 and setting up the keysets 7 that is used for storing the material on rotor plate 6, be equipped with the cavity 8 of a plurality of mutual independence work in the keysets 7, be provided with on the keysets 7 and be used for external feeding equipment to insert the connector 9 in each cavity 8, the bottom of keysets 7 is offered and is used for introducing the inside discharge gate 10 of rotor plate 6 with the material in every cavity 8, set up intercommunication discharge gate 10 and the inside material passageway 11 of workstation 2 on the rotor plate 6.

Be provided with a plurality of relatively independent cavitys 8 in the keysets 7, every cavity 8 all communicates with connector 9 and discharge gate 10, can be with different materials leading-in rather than corresponding cavity 8 in through connector 9, then rotate through the self of rotor plate 6 and realize the intercommunication of runner between every cavity 8 and the workstation 2 on the rotor plate 6 again, with this exchange of controlling material between different cavitys 8 and the workstation 2, simple structure is reasonable, and convenient operation.

Preferably, in this embodiment, a rotating groove 12 for accommodating the rotating plate 6 is formed in the workbench 2, a reset member 13 for connecting the rotating plate 6 to reset after rotating relative to the workbench 2 is arranged in the rotating groove, a flow control assembly 14 for controlling the passage of the material is arranged in the workbench 2, the upper end of the flow control assembly 14 is positioned in the rotating groove 12 to form an inlet 15, the lower end of the flow control assembly 14 is connected to the discharging assembly 4,

the rotating plate 6 is disc-shaped, a plurality of clamping blocks 16 protruding in the radial direction are arranged at the side end portion of the rotating plate 6, an outlet of the material channel 11 is formed in the side surface of one side of each clamping block 16, a matching block 17 matched with the clamping blocks 16 in a clamping mode is arranged in the rotating groove 12, as shown in fig. 2, a resetting cavity 18 used for installing the resetting piece 13 is formed in a one-to-one correspondence mode of the matching block 17 and the clamping blocks 16, the resetting piece 13 is transversely arranged in the resetting cavity 18, one end of the resetting piece 13 abuts against the side surface of the clamping block 16, which is not provided with the outlet of the material channel 11, the other end of the resetting piece 13 abuts against the side surface of the matching block 17 opposite to the side surface, and the.

The rotating plate 6 is integrally accommodated in the rotating groove 12, and the upper end of the rotating plate 6 is in sealing contact with the rotating groove 12, the latch block 16 on the rotating plate 6 and the matching block 17 in the rotating groove 12 form a sealed reset cavity 18, and the initial position state of the rotating plate 6 in the rotating groove 12 is as follows: reset piece 13 is equipped with the one end butt that material passageway 11 exported with fixture block 16 through self stretching force at one's own cooperation piece 17, access port 15 is located the basal plane of rotation groove 12, fixture block 16 covers on access port 15 this moment, material passageway 11 export and access port 15 at this moment are in the not-communicating state, when the material flows out in material passageway 11, the pressure between material passageway 11 exit and cooperation are fast increases gradually, lead to rotor plate 6 to rotate towards access port 15 one side, cause access port 15 to open and be linked together with material passageway 11.

In further detail, the flow control assembly 14 includes a plurality of branch channels, the upper ends of which are communicated with the different inlets 15, and a summary channel 20, the summary channel is disposed at the lower end of each branch channel and is communicated with the lower end of each branch channel, a control member 21 for controlling the opening and closing of the channel is disposed at the joint of the summary channel 20 and the branch channels, each control member 21 includes a control plate 22 disposed on the inner wall of the workbench 2 and a control block 23 connected to the side wall of the control plate 22, an elastic member 24 is connected between one end of the control block 23 and the control plate 22, the other end of the control block 23 is disposed in the branch channel corresponding to the control block 23, and a channel opening 25 for communicating the branch.

Under the normal non-conducting state, control block 23 wholly is located the subchannel, blocks up between subchannel and summarizing runner 20 as a end cap, when material liquid flows down, can assault control block 23 and move towards control panel 22 one side, makes the runner mouth 25 on the control block 23 between subchannel and summarizing runner 20 for runner mouth 25 is as the connected channel of both intercommunications.

In a further elaboration, in order to increase the uniformity of the discharged material, the discharging component 4 comprises a discharging plate 26 arranged at the bottom end of the workbench 2, a discharging interface 27 communicated with the collecting flow channel 20 is arranged on the discharging plate 26, a dispersing flow channel 28 for uniformly dispersing the material is arranged in the discharging plate 26, and a forming outlet 29 is arranged at the lower end of each dispersing flow channel 28.

The expansion plate 30 is connected between two adjacent cavities 8, the upper end and the lower end of the expansion plate 30 are movably connected to the inner wall of the junction box 7, the bottom end of the junction box 7 is provided with a limiting block 31 used for limiting the maximum displacement distance of the expansion plate 30, and the limiting block 31 is arranged on the inner side of the discharge port 10. When injecting the material in different cavitys 8, because the pressure increase in this cavity 8, dilatation board 30 can move towards the less one side of pressure to this increases this cavity 8's volume, moulds plastics with the material that makes things convenient for more, limits dilatation board 30's maximum displacement through stopper 31, guarantees the stability that dilatation board 30 removed with this, avoids excessive displacement to cause 7 inside volumetric unbalance of adapter box.

The forming assembly 5 comprises a forming plate 32 and a traverse sliding plate 33 which is arranged on the frame 1 and can horizontally move relative to the frame 1, wherein a lifting rod 34 for driving the forming plate 32 to lift up and down is arranged on the traverse sliding plate 33. The forming plate 32 can slide transversely relative to the workbench 2 through the transverse sliding plate 33, and then can lift up and down through the lifting rod 34 on the transverse sliding plate 33, and the transverse sliding plate 33 and the lifting rod 34 can be used for realizing the horizontal and vertical movement of the forming plate 32, so that the forming plate 32 can move before product processing and after product forming.

In the present embodiment, the sliding movement of the traverse sliding plate 33 can be performed by directly driving the traverse sliding plate 33 to slide by the motor-driven lead screw or the gear shaft, and it is a common technical knowledge that those skilled in the art should understand that the vertical movement of the lifting rod 34 can be performed by an air cylinder, and the structure is also a common technical knowledge, so that the detailed description thereof is omitted.

In this embodiment, the restoring member 13 and the elastic member 24 may be springs with different elastic coefficients, and their names are slightly different according to different environments, but both effects play a role of compression and rebound, which is well known to those skilled in the art.

The working principle of the invention is as follows: the working table 2 is fixed on the frame 1, before the film processing component works, the film processing component is matched with the discharging component 4 on the working table 2 through the adjusting and forming component 5, when the film processing component starts to perform film processing, materials can be selected from different directions to be added into the feeding component 3, the feeding component 3 is rotationally connected onto the working table 2, a plurality of relatively independent cavities 8 are arranged in the transfer box 7 on the rotating plate 6, each cavity 8 is communicated with a connecting port 9 and a discharging port 10, different materials can be guided into the corresponding cavity 8 through the connecting ports 9, when the materials flow out of the material channel 11 of the rotating plate 6, the pressure between the outlet of the material channel 11 and the matching block is gradually increased, the rotating plate 6 is caused to rotate towards one side of the access port 15, the access port 15 is caused to be opened to be communicated with the material channel 11, and the materials enter the branch channel from the access port 15, until the control component, under the normal non-conducting state, the control block 23 is wholly located in the branch runner, and when being a plug, the plug blocks between the branch runner and the collecting runner 20, when the material liquid flows down, the control block 23 can be impacted to move towards one side of the control plate 22, so that the runner port 25 on the control block 23 is located between the branch runner and the collecting runner 20, the runner port 25 is used as a connecting channel communicated with the branch runner and the collecting runner, so that the material flows to the discharging plate 26, and then enters the forming plate 32 through the forming outlet 29 on the material plate for forming the film.

When injecting multiple materials simultaneously, each material is injected into the independent cavity 8 through the connecting port 9, at this time, the expansion plate 30 is in a dynamic balance adjusting state and moves back and forth according to the pressure intensity between different cavities 8, the lower end of each cavity 8 is provided with an independent discharge port 10, when the material in each cavity 8 flows out from the material channel 11, the pressure between the outlet of the material channel 11 and the matching block is gradually increased, so that the rotating plate 6 rotates towards one side of the inlet 15, because the volume of the material sprayed out of the outlet of the material channel 11 of each cavity 8 is different, the rotating plate is always in a rotation adjusting state, so that each inlet 15 is opened to be communicated with the material channel 11 or is in a closed state, similarly, each branch channel 19 is provided with an independently working flow control assembly 13, and according to the flowing speed of the material in each branch channel 19, The pressure opens or closes the path between the sub-runners 19 and the summing runner 20 to allow different materials to enter the exit plate 26.

The processing method of the multi-material breast-adhered TPU film uses the processing device.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the terms of the frame 1, the workbench 2, the feeding assembly 3, the discharging assembly 4, the forming assembly 5, the rotating plate 6, the adapter box 7, the cavity 8, the connecting port 9, the discharging port 10, the material passage 11, the rotating groove 12, the resetting member 13, the flow control assembly 14, the inlet port 15, the clamping block 16, the matching block 17, the resetting cavity 18, the branch flow passage 19, the summarizing flow passage 20, the control member 21, the control plate 22, the control block 23, the elastic member 24, the flow passage port 25, the discharging plate 26, the discharging port 27, the dispersing flow passage 28, the forming outlet 29, the expansion plate 30, the limiting block 31, the forming plate 32, the traverse sliding plate 33, the lifting rod 34 and the like are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (10)

1. The utility model provides a many materials breast pastes TPU membrane processingequipment, includes frame (1) and sets up workstation (2) on frame (1), its characterized in that, workstation (2) on be provided with feeding subassembly (3) that can add multiple material simultaneously, feeding subassembly (3) rotate and connect on workstation (2), feeding subassembly (3) one end is connected on external feeding equipment, the other end of feeding subassembly (3) cooperatees with the inside of workstation (2), ejection of compact subassembly (4) that supply feeding subassembly (3) interior material to flow are seted up to the lower extreme of workstation (2), frame (1) on still be provided with and cooperate with ejection of compact subassembly (4) and be used for fashioned shaping subassembly (5) of material.

2. The multi-material breast-sticking TPU film processing device according to claim 1, wherein the feeding assembly (3) comprises a rotating plate (6) arranged in the workbench (2) and an adapter box (7) arranged on the rotating plate (6) and used for storing materials, a plurality of cavities (8) which work independently are arranged in the adapter box (7), a connecting port (9) used for connecting external feeding equipment into each cavity (8) is arranged on the adapter box (7), a discharge port (10) used for introducing materials in each cavity (8) into the rotating plate (6) is formed in the bottom end of the adapter box (7), and a material channel (11) communicating the discharge port (10) with the interior of the workbench (2) is formed in the rotating plate (6).

3. The multi-material paste TPU film processing device according to claim 2, wherein a rotating groove (12) for accommodating the rotating plate (6) is formed in the workbench (2), a reset piece (13) for connecting the rotating plate (6) to reset after rotating relative to the workbench (2) is arranged in the groove, a flow control assembly (14) for controlling the material to pass through is arranged in the workbench (2), the upper end of the flow control assembly (14) is positioned in the rotating groove (12) to form an access opening (15), and the lower end of the flow control assembly (14) is connected into the discharging assembly (4).

4. A multi-material paste TPU film processing apparatus as claimed in claim 3, wherein said rotating plate (6) is disc-shaped, and a plurality of radially protruding blocks (16) are provided at the side end of the rotating plate (6), and the outlet of said material channel (11) is provided on the side surface of one side of the blocks (16).

5. The multi-material paste TPU film processing device according to claim 4, wherein a matching block (17) in clamping fit with the fixture block (16) is arranged in the rotating groove (12), a reset cavity (18) for installing the reset piece (13) is formed in the matching block (17) and the fixture block (16) in one-to-one correspondence, the reset piece (13) is transversely arranged in the reset cavity (18), one end of the reset piece (13) abuts against the side surface of the fixture block (16) not provided with the outlet of the material channel (11), the other end of the reset piece (13) abuts against the side surface of the matching block (17) opposite to the side surface, and the access port (15) is arranged on the bottom plane of the rotating groove (12).

6. A multi-material paste TPU film processing device as claimed in claim 3, wherein said flow control assembly (14) comprises a plurality of branch channels (19) having upper ends communicating with different inlets (15) and a collection channel (20) disposed at the lower ends of the branch channels (19) and communicating with the lower end of each branch channel (19), and a control member (21) for controlling the opening and closing of the channels is disposed at the junction of the collection channel (20) and the branch channels (19).

7. The multi-material breast-pasting TPU film processing device of claim 6, wherein the control member (21) comprises a control plate (22) arranged on the inner wall of the workbench (2) and a control block (23) connected to the side wall of the control plate (22), an elastic member (24) is connected between one end of the control block (23) and the control plate (22), the other end of the control block (23) is positioned in the branch channel (19) corresponding to the control block (23), and a channel opening (25) for conducting the branch channel (19) and the summary channel (20) is arranged on the control block (23).

8. The multi-material breast-sticking TPU film processing device according to claim 6, wherein the discharge assembly (4) comprises a discharge plate (26) disposed at the bottom end of the worktable (2), the discharge plate (26) is provided with a discharge port (27) communicated with the collecting flow channel (20) and a dispersing flow channel (28) for uniformly dispersing the materials is disposed inside the discharge plate (26), and a forming outlet (29) is disposed at the lower end of each dispersing flow channel (28).

9. The multi-material breast-sticking TPU film processing device according to claim 2, wherein a capacity expansion plate (30) is connected between two adjacent cavities, the upper and lower ends of the capacity expansion plate (30) are movably connected to the inner wall of the adapter box (7), a limiting block (31) for limiting the maximum displacement distance of the capacity expansion plate (30) is arranged at the bottom end of the adapter box (7), and the limiting block (31) is arranged at the inner side of the discharge port (10); the forming assembly (5) comprises a forming plate (32) and a transverse sliding plate (33) which is arranged on the rack (1) and can horizontally and transversely move relative to the rack (1), and a lifting rod (34) used for driving the forming plate (32) to lift up and down is arranged on the transverse sliding plate (33).

10. A multi-material paste TPU film processing method characterized by being produced by the multi-material paste TPU film processing apparatus of any one of claims 1 to 9.

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