CN217891874U - High accuracy dysmorphism section bar laminating machine - Google Patents

Abstract

The application discloses high accuracy dysmorphism section bar laminating machine, through setting up the tectorial membrane mechanism, the film pressing cylinder of tectorial membrane mechanism drives the film pressing rubber roll up-and-down motion, fixed establishment sets up in the film pressing rubber roll below, the dysmorphism section bar is fixed static through fixed establishment, the protection film is established between film pressing rubber roll and fixed establishment, the film pressing rubber roll pushes down and makes the protection film laminate to the dysmorphism section bar surface, tectorial membrane mechanism passes through the lead screw that the slip table set up of removal portion connection, thereby servo motor drive lead screw rotates makes tectorial membrane mechanism can be along special-shaped section bar surface linear motion, accomplish special-shaped section bar surface tectorial membrane, the mechanization degree is high, thereby can control servo motor adjusts tectorial membrane length, greatly reduced intensity of labour, improve special-shaped section bar tectorial membrane efficiency, reduce the bubble appears easily in artifical tectorial membrane, the phenomenon of crumpling, the product does not have the scratch, thereby the product percent of pass is improved the product qualification rate.

Description

High accuracy dysmorphism section bar laminating machine

Technical Field

The application belongs to the technical field of laminating machines, especially, relate to a high accuracy dysmorphism section bar laminating machine.

Background

The film covering process is a surface processing process of printing, also called as post-printing plastic coating, post-printing adhesive pasting or post-printing film pasting, and refers to a product processing technology of integrating paper and plastic by covering a layer of transparent plastic film with the thickness of 0.012-0.020 mm on the surface of a printed product by a film covering machine, and the film covering process can not only cover the surface abrasion of the section bar for building, but also improve the film covering section bar, which can cover the marking line generated by the friction of the film during the extrusion molding process, can embody different texture, can not chap and fall off, and improve the aesthetic degree of the section bar and the finished window.

The prior art carries out tectorial membrane equipment to section bar and only is fit for the section bar of regular shape, the tectorial membrane engineering is for placing the tectorial membrane production line with the section bar of regular cavity, it carries to under the press mold rubber roll to drive the section bar by the roller, carry out the tectorial membrane, but to special-shaped section bar for example short L shape sheet metal, can't steadily place on carrying the roller, so can't realize mechanical automatic tectorial membrane, so generally adopt artifical tectorial membrane, inefficiency, high in labor strength, and artifical tectorial membrane, bubble appears easily, press defects such as crape, lead to tectorial membrane cost to improve, it is thus visible, prior art is to further improve and improve.

SUMMERY OF THE UTILITY MODEL

The utility model provides a high accuracy dysmorphism section bar laminating machine to solve at least one among the above-mentioned technical problem. Through setting up the tectorial membrane mechanism, the press mold cylinder of tectorial membrane mechanism drives the up-and-down motion of press mold rubber roll, fixed establishment sets up in press mold rubber roll below, the dysmorphism section bar passes through fixed establishment fixedly, the protection film is established between press mold rubber roll and fixed establishment, the press mold rubber roll pushes down and makes the protection film laminate to the dysmorphism section bar surface, tectorial membrane mechanism passes through the lead screw that the slip table set up is connected to the removal portion, thereby servo motor drive lead screw motion makes tectorial membrane mechanism can be along the surperficial linear motion of dysmorphism section bar, thereby accomplish special-shaped section bar surface tectorial membrane, the mechanization degree is high, greatly reduced intensity of labour, improve special-shaped section bar tectorial membrane efficiency, reduce the bubble appears easily in artifical tectorial membrane, the crumple phenomenon, the product does not have the scratch, thereby the deformation has improved the product qualification rate.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a high accuracy dysmorphism section laminating machine includes:

the film laminating mechanism comprises a film laminating rubber roller and a film laminating cylinder, the film laminating rubber roller is connected with the film laminating cylinder, a protective film is arranged on the lower side of the film laminating rubber roller, and the film laminating cylinder drives the film laminating rubber roller to press downwards to enable the protective film to be attached to the surface of the special-shaped section;

the film laminating mechanism comprises a sliding table, a film laminating mechanism and a film laminating mechanism, wherein the sliding table comprises a servo motor and a lead screw, the film laminating mechanism is connected with the lead screw through a moving part, and the servo motor drives the lead screw to rotate so as to enable the film laminating mechanism to translate and laminate a film;

and the fixing mechanism is arranged below the film pressing rubber roller and is used for fixing the special-shaped section.

Through setting up the tectorial membrane mechanism, the press mold cylinder of tectorial membrane mechanism drives the up-and-down motion of press mold rubber roll, fixed establishment sets up in press mold rubber roll below, the dysmorphism section bar passes through fixed establishment fixedly, the protection film is established between press mold rubber roll and fixed establishment, the press mold rubber roll pushes down and makes the protection film laminate to the dysmorphism section bar surface, tectorial membrane mechanism passes through the lead screw that the slip table set up is connected to the removal portion, thereby servo motor drive lead screw motion makes tectorial membrane mechanism can be along the surperficial linear motion of dysmorphism section bar, thereby accomplish special-shaped section bar surface tectorial membrane, the mechanization degree is high, greatly reduced intensity of labour, improve special-shaped section bar tectorial membrane efficiency, reduce the bubble appears easily in artifical tectorial membrane, the crumple phenomenon, the product does not have the scratch, thereby the deformation has improved the product qualification rate.

In a preferred implementation, the servo motor is controlled by a plc controller that controls the rotation of the servo motor to precisely control the film length.

Servo motor passes through plc controller control and adjusts servo motor's rotation speed to the adaptation production rhythm, thereby can control servo motor's turned angle simultaneously and realize specific length tectorial membrane operation, the tectorial membrane is more intelligent controllable, can set up touch-sensitive screen and carry out length input to the plc procedure, thereby realize the operation of intelligent control pad pasting length.

In a preferred implementation mode, the laminating machine further comprises a fixed seat, the laminating mechanism is arranged on the fixed seat, the fixed seat is provided with a sliding portion and a moving portion, the sliding table is provided with a sliding guide rail, and the sliding portion is connected with the sliding guide rail in a matched mode.

The tectorial membrane mechanism sets up at the fixing base, and the lead screw is connected to the removal portion of fixing base, and the lead screw rotates back removal portion and removes, makes the fixing base can realize the motion, and the sliding part of fixing base and the sliding guide of slip table cooperate, make the motion more steady, improve the tectorial membrane precision.

In a preferred implementation mode, the fixing base is further provided with a film cutting mechanism, the film cutting mechanism is arranged on one side of the film laminating mechanism and comprises a film breaking knife and a cutting cylinder, and the cutting cylinder is perpendicular to the film pressing cylinder in the moving direction.

The motion direction of cutting off the cylinder is perpendicular with press mold cylinder motion direction, cuts off the cylinder action and makes and cut off to cut off the protection film, has improved and has cut off efficiency, and structural design is more reasonable.

In an optimal implementation mode, the fixing seat is further provided with a protective film installation part, a spreading rubber roll and a film supporting mechanism, the length of the spreading rubber roll is matched with the width of the protective film, one end of the protective film is arranged in the film supporting mechanism after passing through the spreading rubber roll, and the film cutting mechanism cuts off the protective film and is fixed by the film supporting mechanism.

The protection film installation department is used for installing the protection film, and the initial tip of protection film expandes through the rubber roll of spreading, spreads rubber roll length and protection film width looks adaptation to can make the protection film expand the wrinkle removal tensioning completely, the initial tip of protection film sets up in film supporting mechanism department after the rubber roll of spreading expandes, and film cutting mechanism cuts off behind the protection film and holds the protection film with fixed the film supporting mechanism and make it keep the tensioning state not kick-back, the tectorial membrane of the next work piece of being convenient for.

In a preferred implementation mode, the film supporting mechanism comprises a film supporting cylinder, a film supporting rubber roller and a film supporting piece, the film supporting piece is rotatably connected to the fixing seat, a gap is formed between the film supporting piece and the film supporting rubber roller, one end of the protective film penetrates through the gap, a push-out rod of the film supporting cylinder is connected with the film supporting piece through a linkage part, and the push-out rod of the film supporting cylinder is made to contact with the film supporting rubber roller to be compressed or kept away from the protective film to be loosened when the push-out rod of the film supporting cylinder stretches.

The supporting membrane piece rotates and sets up at the fixing base, supporting membrane cylinder and supporting membrane piece pass through the linkage portion and connect, at the tectorial membrane when beginning, supporting membrane cylinder shrink ejector beam makes supporting membrane piece rotate and keeps away from the supporting membrane rubber roll and loosen the protection film, the roll-like protection film tractive from the protection film installation department that makes the protection film can be smooth and easy arrives the section bar surface, and when the terminal point, film cutting mechanism cuts off the protection film, thereby supporting membrane cylinder stretches out ejector beam and makes supporting membrane piece contact supporting membrane rubber roll compress tightly the protection film and prevent its resilience wrinkle, influence the tectorial membrane operation of next work piece, structural design is more reasonable.

In a preferred implementation mode, the length of the film supporting piece and the length of the film supporting rubber roller are both adapted to the spreading rubber roller, the film supporting rubber roller is arranged on the lower side of the spreading rubber roller, the film supporting piece is provided with an inclined surface, and the inclined surface is parallel to a circle center connecting line of the film supporting rubber roller and the spreading rubber roller.

Thereby set up and hold in the palm membrane spare, hold in the palm membrane rubber roll and the rubber roll length adaptation of spreading and make the protection film expand completely and carry out crease-resistant operation, it is in the rubber roll below of spreading to set up and hold in the palm the membrane rubber roll, there is the inclined plane to the profile material face protection film in the protection film tractive, the tensioning effect is better, thereby it has bigger contact surface to improve tectorial membrane efficiency to press mold roll pushes down the protection film of slope, it has the inclined plane that inclined plane adaptation protective film formed to set up to hold in the palm the membrane spare, it is littleer to the pressure deformation of protection film when holding in the palm the membrane spare extrusion film rubber roll, the design is more reasonable.

In preferred implementation, still include film clamping mechanism, film clamping mechanism includes film clamping cylinder and film clamping spare, film clamping spare includes first clamping part and second clamping part, film clamping cylinder work makes first clamping part with second clamping part is close to or keeps away from each other, film clamping mechanism sets up in the slide rail cylinder, slide rail cylinder action makes film clamping mechanism keeps away from or is close to hold in the palm membrane mechanism, film clamping mechanism is used for with the protection film drags to press mold rubber roll downside.

Before the tectorial membrane begins, need with protection film tractive to press mold rubber roll below, for further realization machinery is automatic to move, set up the clamping mechanism, the clamping piece of clamping mechanism sets up first pretension portion and second pretension portion, the clamping cylinder is that the finger cylinder moves and makes first clamping part and second clamping part be close to each other or keep away from, the clamping mechanism sets up at the slide rail cylinder, the slide rail cylinder drives clamping mechanism and is close to or keep away from the film supporting mechanism with the protection film tractive to the press mold rubber roll position, need not the manual contact operation, the protection film does not have the dirt, work efficiency has been improved.

In a preferred implementation, the fixing mechanism comprises a base, and the base is provided with a vacuum generator which is connected with an air pump.

Fixing mechanism sets up to vacuum generator, vacuum generator's theory of operation utilizes the high-speed compressed air that sprays of spray tube, form the efflux at the spray tube export, it is mobile to produce the entrainment, under the entrainment effect, make the air around the spray tube export constantly pumped away, make the pressure that adsorbs the intracavity fall to below the atmospheric pressure, form certain vacuum, after opening the air pump, place special-shaped section bar at vacuum generator, thereby quick fixed special-shaped section bar, the efficiency that special-shaped section bar is fixed and is changed special-shaped section bar has been improved.

In a preferred implementation mode, the fixing base is further provided with a side pasting mechanism, the side pasting mechanism comprises a side pasting cylinder, the side pasting cylinder is connected with a mounting seat, the side pasting cylinder drives the mounting seat to move up and down, the mounting seat is provided with an auxiliary wheel and a side pasting wheel, the auxiliary wheel is in contact with the protective film and enables the protective film to bend towards the side direction of the special-shaped section bar to be close to the side direction of the special-shaped section bar, and the side pasting wheel is used for pasting the protective film to the side of the special-shaped section bar.

The side pasting mechanism is arranged on the fixing seat, when the film laminating mechanism moves to laminate the film on the special-shaped section, the auxiliary wheel and the side pasting wheel of the side pasting mechanism carry out film lamination on the side face of the special-shaped section, so that the film lamination of the upper surface and the side face of the special-shaped section is completed, the placing direction of the special-shaped section does not need to be changed, and the film laminating efficiency is greatly improved.

The structure has the following beneficial effects:

1. tectorial membrane mechanism passes through removal portion and servo motor and lead screw cooperation drive, special-shaped section bar passes through fixed static of fixed establishment, the protection film is established between film pressing rubber roll and fixed establishment, the film pressing rubber roll pushes down and makes the protection film laminate to special-shaped section bar surface, thereby servo motor drive lead screw rotates and makes tectorial membrane mechanism can be along special-shaped section bar surface linear motion, thereby accomplish special-shaped section bar surface tectorial membrane, servo motor passes through plc controller control and adjusts servo motor's rotation speed, thereby adapt to the production rhythm, thereby can control servo motor's turned angle simultaneously and realize specific length tectorial membrane operation, the tectorial membrane is more intelligent controllable. The degree of mechanization is high, greatly reduced intensity of labour, improve special-shaped section tectorial membrane efficiency, reduce artifical pad pasting bubble, crumple phenomenon easily appear, the product does not have scratch, warp thereby has improved the product percent of pass.

2. The fixing base is provided with a moving part, the screw rod rotates to drive the fixing base to do linear motion, the film covering mechanism, the film cutting mechanism, the film supporting mechanism, the film clamping mechanism and the side pasting mechanism are all arranged on the fixing base, so that the operations of automatic film breaking, automatic film pre-tightening, automatic film pulling and side pasting are realized, the degree of mechanization is high, and the film pasting efficiency is faster. The device design is more reasonable.

3. The special-shaped section bar is placed in the vacuum generator, so that the special-shaped section bar is rapidly fixed, and the efficiency of fixing and replacing the special-shaped section bar is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the application and not to limit the invention. In the drawings:

fig. 1 is a schematic perspective view of an exemplary embodiment of the present invention;

FIG. 2 is a schematic perspective view of another illustrative embodiment of the present invention;

FIG. 3 is a schematic view of a portion of an exemplary embodiment of the present invention;

description of the reference symbols:

1. a film covering mechanism; 10. film pressing rubber rolls; 11. a film pressing cylinder; 12. a side pasting mechanism; 120. laterally sticking a cylinder; 121. a mounting base; 122. an auxiliary wheel; 123. a side pasting wheel;

2. special-shaped section bars;

3. a sliding table; 30. a servo motor; 31. a lead screw; 32. a sliding guide rail;

4. a fixing mechanism; 40. a base; 41. a vacuum generator; 42. an air pump;

5. a fixed seat; 50. a sliding part; 51. a moving part; 52. a protective film mounting section; 520. a protective film; 53. Spreading a rubber roll;

6. a film cutting mechanism; 60. a film cutter; 61. cutting off the air cylinder;

70. a film supporting cylinder; 71. a film supporting rubber roller; 72. supporting a membrane piece; 73. a linkage section;

8. a film clamping mechanism; 80. a film clamping cylinder; 81. a film clamping piece; 810. a first clamping portion; 811. a second clamping portion; 82. a slide rail cylinder;

9. a plc controller.

Detailed Description

In order to more clearly explain the overall concept of the present invention, the following detailed description is given by way of example with reference to the accompanying drawings.

It should be noted that in the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus, the scope of the present invention is not limited by the specific embodiments disclosed below.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and to simplify the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the present invention. In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members.

In the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; they may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. However, the direct connection means that the two bodies are not connected to each other by the intermediate structure but connected to each other by the connecting structure to form a whole. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The description in this application as relating to "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying any relative importance or implicit indication of the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

As shown in fig. 1-3, the utility model provides a high accuracy dysmorphism section bar laminating machine, include:

the film laminating mechanism 1 comprises a film laminating rubber roll 10 and a film laminating cylinder 11, wherein the film laminating rubber roll 10 is connected with the film laminating cylinder 11, a protective film 520 is arranged on the lower side of the film laminating rubber roll 10, and the film laminating cylinder 11 drives the film laminating rubber roll 10 to press downwards so that the protective film 520 is attached to the surface of the special-shaped section bar 2;

the film laminating machine comprises a sliding table 3, wherein the sliding table 3 comprises a servo motor 30 and a lead screw 31, the film laminating mechanism 1 is connected with the lead screw 31 through a moving part 51, and the servo motor 30 drives the lead screw 31 to rotate so as to enable the film laminating mechanism 1 to translate and laminate;

fixing mechanism 4, fixing mechanism 4 set up in press mold rubber roll 10 below, and fixing mechanism 4 is used for fixed special-shaped section bar 2.

Through setting up tectorial membrane mechanism 1, the press mold cylinder 11 of tectorial membrane mechanism 1 drives press mold rubber roll 10 up-and-down motion, fixed establishment 4 sets up in press mold rubber roll 10 below, dysmorphism section bar 2 is fixed through fixed establishment 4, protection film 520 is established between press mold rubber roll 10 and fixed establishment 4, press mold rubber roll 10 pushes down and makes protection film 520 laminate to 2 surfaces of dysmorphism section bar, tectorial membrane mechanism 1 connects the lead screw 31 that the slip table 3 set up through removal portion 51, thereby servo motor 30 drives the motion of lead screw 31 makes tectorial membrane mechanism 1 can be along 2 surface linear motions of dysmorphism section bar, thereby accomplish 2 surface tectorial membranes of dysmorphism section bar, the mechanization degree is high, greatly reduced intensity of labour, improve 2 tectorial membrane efficiency of dysmorphism section bar, reduce the bubble of artifical pad pasting easily appears, the crumple phenomenon, the product does not have the scratch, thereby the deformation has improved the product qualification rate.

As a preferred embodiment of the present application, as shown in fig. 1, the servo motor 30 is controlled by a plc controller 9, and the plc controller 9 controls the rotation of the servo motor 30 to precisely control the coating length.

Servo motor 30 adjusts servo motor 30's rotation speed through plc controller 9 control to adaptation production rhythm can thereby control servo motor 30's turned angle simultaneously and realize specific length tectorial membrane operation, and the tectorial membrane is more intelligent controllable, can set up touch-sensitive screen and carry out length input setting to the plc procedure, thereby realizes the operation of intelligent control pad pasting length.

As a preferred embodiment of the present application, as shown in fig. 2 and fig. 3, the film covering device further includes a fixed seat 5, the film covering mechanism 1 is disposed on the fixed seat 5, the fixed seat 5 is provided with a sliding portion 50 and a moving portion 51, the sliding table 3 is provided with a sliding guide rail 32, and the sliding portion 50 is in fit connection with the sliding guide rail 32.

Tectorial membrane mechanism 1 sets up at fixing base 5, and lead screw 31 is connected to fixing base 5's removal portion 51, and lead screw 31 rotates back removal portion 51 and removes, makes fixing base 5 can realize the motion, and the sliding part 50 of fixing base 5 and the sliding guide 22 of slip table 3 cooperate, make the motion more steady, improve the tectorial membrane precision.

As a first preferred embodiment in this embodiment, as shown in fig. 1 to 3, the fixing base 5 is further provided with a side pasting mechanism 12, the side pasting mechanism 12 includes a side pasting cylinder 120, the side pasting cylinder 120 is connected with a mounting base 121, the side pasting cylinder 120 drives the mounting base 121 to move up and down, the mounting base 121 is provided with an auxiliary wheel 122 and a side pasting wheel 123, the auxiliary wheel 122 contacts the protection film 520 and bends the protection film to approach the side of the special-shaped profile 2, and the side pasting wheel 123 pastes the bent protection film 520 to the side of the special-shaped profile 2.

Set up side at fixing base 5 and paste mechanism 12, when tectorial membrane mechanism 1 removed and carry out the tectorial membrane to special-shaped section bar 2, the auxiliary wheel 122 and the side of side subsides mechanism 12 are pasted the membrane to 2 sides of special-shaped section bar to accomplish the tectorial membrane of 2 upper surfaces of special-shaped section bar and side, need not change the direction of placing of special-shaped section bar 2, thereby improve tectorial membrane efficiency greatly.

As a second preferred embodiment of the present embodiment, as shown in fig. 1, the fixed base 5 is further provided with a film cutting mechanism 6, the film cutting mechanism 6 is provided on one side of the film covering mechanism 1, the film cutting mechanism 6 comprises a film cutting knife 60 and a cutting cylinder 61, and the movement directions of the cutting cylinder 61 and the film pressing cylinder 11 are perpendicular.

The moving direction of the cutting cylinder 61 is perpendicular to the moving direction of the film pressing cylinder 11, the cutting cylinder 61 acts to enable the cutting knife 60 to cut off the protective film, the cutting efficiency is improved, and the structural design is more reasonable.

As a third preferred embodiment in this embodiment, the fixing base 5 is further provided with a protection film mounting part 52, a spreading rubber roller 53 and a film supporting mechanism, the length of the spreading rubber roller 53 is adapted to the width of the protection film 520, one end of the protection film 520 passes through the spreading rubber roller 53 and then is arranged in the film supporting mechanism, and the protection film 520 is fixed by the film supporting mechanism after the film cutting mechanism 6 cuts the protection film 520.

The protective film mounting part 52 is used for mounting a protective film 520, the initial end part of the protective film 520 is unfolded through the spreading rubber roll 53, the length of the spreading rubber roll 53 is matched with the width of the protective film 520, so that the protective film 520 can be completely unfolded, wrinkle-removing and tensioning, the initial end part of the protective film 520 is arranged at the film supporting mechanism after being unfolded through the spreading rubber roll 53, and the film supporting mechanism is fixed to retain the protective film 520 after the film cutting mechanism 6 cuts off the protective film 520 so that the protective film 520 can be kept in a tensioning state and does not rebound, so that the film covering of the next workpiece is facilitated.

As a preferable scheme in this embodiment, as shown in fig. 2 and fig. 3, the film supporting mechanism includes a film supporting cylinder 70, a film supporting rubber roller 71 and a film supporting member 72, the film supporting member 72 is rotatably connected to the fixing base 5, a gap is provided between the film supporting member 72 and the film supporting rubber roller 71, one end of the protection film 520 penetrates through the gap, a push-out rod of the film supporting cylinder 70 is connected to the film supporting member through a linkage portion 73, and the push-out rod of the film supporting cylinder 70 is extended and retracted to make the film supporting member 72 contact with the film supporting rubber roller 71 to press or separate from the film supporting rubber roller 71 to loosen the protection film 520.

The film supporting piece 72 is rotatably arranged on the fixing seat 5, the film supporting cylinder 70 and the film supporting piece 72 are connected through the linkage part 73, when film covering starts, the film supporting cylinder 70 contracts to push out the rod to enable the film supporting piece 72 to rotate to be far away from the film supporting rubber roller 71 to loosen the protective film 520, the protective film 520 can be smoothly pulled to the surface of the special-shaped section bar 2 from the roll-shaped protective film 520 on the protective film mounting part 52, when the film covering reaches the terminal point, the film cutting mechanism 6 cuts off the protective film 520, the film supporting cylinder 70 extends out the push-out rod to enable the film supporting piece 72 to be in contact with the film supporting rubber roller 71 to press the protective film 520 to prevent the protective film from rebounding and wrinkling, film covering operation of the next workpiece is influenced, and the structural design is more reasonable.

Further, as shown in fig. 1, the length of the film supporting piece 72 and the length of the film supporting rubber roller 71 are both adapted to the spreading rubber roller 53, the film supporting rubber roller 71 is arranged on the lower side of the spreading rubber roller 53, the film supporting piece 72 is provided with an inclined surface, and the inclined surface is parallel to a connecting line of circle centers of the film supporting rubber roller 71 and the spreading rubber roller 53.

Set up and hold in the palm membrane spare 72, thereby hold in the palm membrane rubber roll 71 and the rubber roll 53 length adaptation of spreading make protection film 53 expand completely and carry out crease-resist operation, set up and hold in the palm membrane rubber roll 71 in the rubber roll 53 below of spreading, protection film 520 tractive has the inclined plane to the profile material face, the tensioning effect is better, thereby press mold roller 10 has bigger contact surface to improve tectorial membrane efficiency when pushing down the protection film 520 of slope, it has the inclined plane of inclined plane adaptation protection film 520 formation to set up to hold in the palm membrane spare 72, it is littleer to the pressure deformation of protection film 520 when holding in the palm membrane spare 72 extrusion and holding in the palm membrane rubber roll 71, the design is more reasonable.

As another preferable scheme in this embodiment, as shown in fig. 2 and fig. 3, the film clamping mechanism 8 is further included, the film clamping mechanism 8 includes a film clamping cylinder 80 and a film clamping piece 81, the film clamping piece 81 includes a first clamping portion 810 and a second clamping portion 811, the film clamping cylinder 80 operates to make the first clamping portion 810 and the second clamping portion 811 approach or separate from each other, the film clamping mechanism 8 is disposed on the slide rail cylinder 82, the slide rail cylinder 82 operates to make the film clamping mechanism 8 separate from or approach the film supporting mechanism 70, and the film clamping mechanism 8 is used to pull the protective film 520 to the lower side of the film pressing rubber roller 10.

Before laminating starts, the protective film 50 needs to be drawn to the position below the film pressing rubber roll 10, for further mechanical automation, the film clamping mechanism 8 is arranged, the film clamping piece 81 of the film clamping mechanism 8 is provided with a first pre-tightening part 810 and a second pre-tightening part 811, the film clamping cylinder 80, namely a finger cylinder, acts to enable the first clamping part 810 and the second clamping part 811 to be close to or far away from each other, the film clamping mechanism 80 is arranged on the sliding rail cylinder 82, the sliding rail cylinder 82 drives the film clamping mechanism 8 to be close to or far away from the film supporting mechanism 71 to draw the protective film 520 to the position below the film pressing rubber roll 10, manual contact operation is not needed, the protective film is free of dirt, the working efficiency is improved, the sliding rail cylinder 82 can move along with the fixed seat, and any position of the profile can be used as a laminating starting point.

As a preferred embodiment of the present application, as shown in fig. 1, the fixing mechanism 4 comprises a base 40, the base 40 is provided with a vacuum generator 41, and the vacuum generator 41 is connected to an air pump 42.

Fixing mechanism 4 sets up to vacuum generator 41, vacuum generator 41's theory of operation utilizes the spray tube high-speed compressed air that sprays, form the efflux in the spray tube export, it is mobile to produce the entrainment, under the entrainment effect, make the air around the spray tube export constantly pumped away, make the pressure that adsorbs the intracavity fall to below the atmospheric pressure, form certain vacuum, after opening air pump 42, place special-shaped section bar 2 on vacuum generator 41, thereby quick fixed special-shaped section bar 2, the efficiency of special-shaped section bar 2 fixed and change special-shaped section bar 2 has been improved.

The utility model can be realized by adopting or using the prior art for reference in places which are not mentioned in the utility model.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments.

The above description is only an example of the present invention and is not intended to limit the present invention. Various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a high accuracy dysmorphism section bar laminating machine which characterized in that includes:

the film laminating mechanism comprises a film laminating rubber roller and a film laminating cylinder, the film laminating rubber roller is connected with the film laminating cylinder, a protective film is arranged on the lower side of the film laminating rubber roller, and the film laminating cylinder drives the film laminating rubber roller to press downwards to enable the protective film to be attached to the surface of the special-shaped section;

the film laminating mechanism comprises a sliding table, a film laminating mechanism and a control device, wherein the sliding table comprises a servo motor and a lead screw, the film laminating mechanism is connected with the lead screw through a moving part, and the servo motor drives the lead screw to rotate so as to enable the film laminating mechanism to translate and laminate a film;

and the fixing mechanism is arranged below the film pressing rubber roller and is used for fixing the special-shaped section.

2. A high accuracy special-shaped section laminating machine according to claim 1, characterized in that, the servo motor is through plc controller control, the plc controller control the rotation of servo motor thereby the accurate control tectorial membrane length.

3. A high accuracy dysmorphism section laminating machine according to claim 1, characterized by, still include a fixing base, the tectorial membrane mechanism sets up in the fixing base, the fixing base is provided with sliding part and the removal portion, the slip table is provided with sliding guide, sliding part the sliding guide cooperation is connected.

4. A high accuracy dysmorphism section laminating machine according to claim 3, characterized in that, the fixing base still is provided with film cutting mechanism, film cutting mechanism sets up in one side of the laminating mechanism, film cutting mechanism includes disconnected membrane sword and cuts off the cylinder, cut off the cylinder and press mold the cylinder the direction of motion perpendicular mutually.

5. A high-precision special-shaped section laminating machine according to claim 4, characterized in that the fixing base is further provided with a protective film mounting part, a spreading rubber roll and a film supporting mechanism, the length of the spreading rubber roll is adapted to the width of the protective film, one end of the protective film is arranged on the film supporting mechanism after passing through the spreading rubber roll, and the protective film is fixed by the film supporting mechanism after the protective film is cut off by the film cutting mechanism.

6. A high-precision special-shaped section material laminating machine according to claim 5, characterized in that the film supporting mechanism comprises a film supporting cylinder, a film supporting rubber roller and a film supporting piece, the film supporting piece is rotatably connected to the fixing base, a gap is arranged between the film supporting piece and the film supporting rubber roller, one end of the protective film penetrates through the gap, a push-out rod of the film supporting cylinder is connected with the film supporting piece through a linkage part, and the push-out rod of the film supporting cylinder is made to contact with the film supporting rubber roller to press or keep away from the protective film to loosen the protective film when stretching.

7. A high-precision special-shaped section laminating machine according to claim 6, characterized in that the length of the film supporting piece and the length of the film supporting rubber roll are both adapted to the spreading rubber roll, the film supporting rubber roll is arranged on the lower side of the spreading rubber roll, the film supporting piece is provided with an inclined plane, and the inclined plane is parallel to the circle center connecting line of the film supporting rubber roll and the spreading rubber roll.

8. A high accuracy dysmorphism section material laminating machine according to claim 5, characterized in that still includes film clamping mechanism, film clamping mechanism includes film clamping cylinder and film clamping spare, film clamping spare includes first clamping part and second clamping part, film clamping cylinder work make first clamping part and second clamping part be close to each other or keep away from, film clamping mechanism sets up in the slide rail cylinder, the slide rail cylinder action makes film clamping mechanism keep away from or be close to hold in the palm membrane mechanism, film clamping mechanism is used for dragging the protection film to press mold rubber roll downside.

9. A high accuracy special-shaped section laminating machine according to claim 1, characterized in that, the fixed establishment includes a base, the base is provided with vacuum generator, vacuum generator connects the air pump.

10. A high-precision special-shaped section laminating machine according to claim 3, wherein the fixing base is further provided with a side pasting mechanism, the side pasting mechanism comprises a side pasting cylinder, the side pasting cylinder is connected with a mounting base, the side pasting cylinder drives the mounting base to move up and down, the mounting base is provided with an auxiliary wheel and a side pasting wheel, the auxiliary wheel contacts the protective film and enables the protective film to be bent towards the side face direction of the special-shaped section, and the side pasting wheel pastes the bent protective film to the side face of the special-shaped section.

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