CN220763464U - Feeding mechanism of laminating machine - Google Patents

Abstract

The utility model provides a feeding mechanism of laminating machine, includes extrusion device, direction chassis, removes frame subassembly, first drive arrangement, second drive arrangement and elevating platform subassembly, and first drive arrangement drive connection removes frame subassembly, and second drive arrangement installs on removing the frame subassembly, and elevating platform subassembly is connected in the drive of second drive arrangement, and extrusion device installs on elevating platform subassembly, removes the horizontal activity of frame subassembly and sets up on the direction chassis, and the activity sets up on removing the frame subassembly from top to bottom to the elevating platform subassembly. According to the utility model, the extruding device can be driven to horizontally and transversely move and vertically and longitudinally move by arranging the guide underframe, the movable frame assembly, the first driving device, the second driving device and the lifting table assembly, so that the extruding device can be automatically moved to the position of the laminating roller device, the movable frame assembly can drive the extruding device to horizontally and transversely move so as to adapt to lamination of films with different widths, and the lifting table assembly can drive the extruding device to vertically and longitudinally move so as to adapt to lamination of films with different thicknesses.

Description

Feeding mechanism of laminating machine

Technical Field

The utility model relates to a film coating machine, in particular to a feeding mechanism of the film coating machine.

Background

Chinese patent document No. CN108724896a discloses a single extrusion double-sided laminating machine in 2018, 11 months and 2 days, comprising a substrate unreeling component, an auxiliary material unreeling component, a laminating component, a composite component and a reeling component, and is characterized in that: the composite component is characterized in that only one group of composite rollers and one group of composite press rollers are arranged, the extrusion laminating heads of the laminating component are also only one group, a left substrate conveying channel and a right substrate conveying channel are arranged between the substrate unreeling component and the composite component, a reverse component is arranged at the input end of the right substrate conveying channel, the reverse component turns the front side and the back side of an in-out substrate and forms left-right dislocation, a first guide roller is arranged at the discharge end of the composite component to guide the front laminating composite substrate to the reverse component, a second guide roller is arranged to guide the double-sided laminating composite substrate to the reeling component, a slitting component is also arranged at the discharge end of the composite component, and auxiliary materials are split left and right from the middle position by the slitting component; the single-extrusion double-sided laminating machine cannot be suitable for films with different specifications, and has low production efficiency.

Therefore, further improvements are needed.

Disclosure of Invention

The utility model aims to provide a feeding mechanism of a laminating machine, which has the advantages of simple structure, strong applicability, high production efficiency and strong practicability, so as to overcome the defects in the prior art.

According to the feeding mechanism of this purpose design, including extrusion device, its characterized in that: still including direction chassis, remove the frame subassembly, first drive arrangement, second drive arrangement and elevating platform subassembly, first drive arrangement drive connection removes the frame subassembly, second drive arrangement installs on removing the frame subassembly, second drive arrangement drive connection elevating platform subassembly, extrusion device installs on the elevating platform subassembly, remove the frame subassembly level activity and set up on the direction chassis to drive extrusion device and remove to pressfitting roller device top, the elevating platform subassembly is movable about setting on removing the frame subassembly, in order to adjust the relative height of pressfitting roller device of extrusion device.

The first driving device comprises a first driving assembly and a chain wheel assembly, wherein the first driving assembly is in driving connection with one end of the chain wheel assembly, and the other end of the chain wheel assembly is connected with the movable frame assembly.

The first driving assembly comprises a first motor, a synchronous wheel assembly and a first speed reducer, wherein one end of the synchronous wheel assembly is connected with the first motor in a driving mode, the other end of the synchronous wheel assembly is connected with the input end of the first speed reducer, and the output end of the first speed reducer is connected with one end of the sprocket assembly.

The movable frame assembly comprises a movable frame, connecting pieces, wheels and a rotating shaft, wherein the wheels are arranged on the guide underframe in a rolling mode, the rotating shaft is connected with the wheels in a matched mode, the connecting pieces are arranged on the side portions of the movable frame, and the connecting pieces are connected with the rotating shaft in a rotating mode.

The wheels are provided with guide grooves, the guide underframe is provided with guide rails, and the wheels are arranged on the guide underframe in a rolling manner through the guide matching of the guide grooves and the guide rails.

The second driving device is arranged on the movable frame and comprises a second driving component, a first synchronous shaft, a reverser, a second synchronous shaft and a lifting component, wherein the second driving component is in driving connection with the first synchronous shaft, the reverser is respectively arranged at two ends of the first synchronous shaft, the reverser is connected with the second synchronous shaft, the lifting component is respectively arranged at two ends of the second synchronous shaft, and the lifting component is connected with the lifting platform component.

The second driving assembly comprises a second motor and a second speed reducer, the second motor is connected with the input end of the second speed reducer, and the output end of the second speed reducer is connected with the first synchronous shaft.

The lifting assembly comprises a worm gear and a lifting screw rod, two ends of the second synchronous shaft are respectively connected with the worm gear and the worm gear, the lifting screw rod is movably installed on the worm gear up and down, and the lifting screw rod is connected with the lifting table assembly in a matched mode.

The extruding device is provided with a film spraying die for spraying the sizing material on the film.

The two ends of the guiding underframe are respectively provided with a limiting part, and the time limit of the wheels rolling to the two ends of the guiding underframe is positioned on the limiting parts.

According to the utility model, the guide underframe, the movable frame assembly, the first driving device, the second driving device and the lifting table assembly are arranged, so that the extruding device can be driven to horizontally and transversely move and vertically and longitudinally move, the extruding device can be automatically moved to the position of the laminating roller device, the feeding efficiency is improved, the production efficiency is improved, the movable frame assembly can drive the extruding device to horizontally and transversely move so as to adapt to lamination of films with different widths, and the lifting table assembly can drive the extruding device to vertically and longitudinally move so as to adapt to lamination of films with different thicknesses, so that the laminating machine can be suitable for films with different specifications.

Drawings

Fig. 1 is a schematic diagram of an overall structure of a feeding mechanism according to an embodiment of the present utility model.

Fig. 2 is a schematic view of a part of a feeding mechanism according to an embodiment of the present utility model.

FIG. 3 is a schematic view of a part of a feeding mechanism in another direction according to an embodiment of the present utility model.

Fig. 4 is an enlarged schematic view of the structure at a in fig. 2.

Fig. 5 is a schematic diagram of operation of a laminating die and a laminating roller apparatus according to an embodiment of the present utility model.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1-5, the feeding mechanism of the laminating machine comprises an extrusion device a, a guide underframe 1, a movable frame assembly b, a first driving device c, a second driving device d and a lifting table assembly e, wherein the first driving device c is in driving connection with the movable frame assembly b, the second driving device d is arranged on the movable frame assembly b, the second driving device d is in driving connection with the lifting table assembly e, the extrusion device a is arranged on the lifting table assembly e, the movable frame assembly b is horizontally and movably arranged on the guide underframe 1 so as to drive the extrusion device a to move above a laminating roller device f, and the lifting table assembly e is vertically and movably arranged on the movable frame assembly b so as to adjust the height of the extrusion device a relative to the laminating roller device f.

The first driving device c comprises a first driving component and a chain wheel component 3, one end of the first driving component is connected with the chain wheel component 3 in a driving mode, the other end of the chain wheel component 3 is connected with a movable frame component b, and the chain wheel component 3 comprises a driving chain wheel, a driven chain wheel and a chain.

The first driving assembly comprises a first motor 4, a synchronous wheel assembly 5 and a first speed reducer 6, wherein one end of the synchronous wheel assembly 5 is connected with the first motor 4 in a driving mode, the other end of the synchronous wheel assembly 5 is connected with the input end of the first speed reducer 6, the output end of the first speed reducer 6 is connected with one end of the sprocket assembly 3, and the synchronous wheel assembly 5 comprises a driving wheel, a driven wheel and a synchronous belt.

The movable frame component b comprises a movable frame 7, a connecting piece 8, wheels 9 and a rotating shaft 10, wherein the wheels 9 are arranged on the guide underframe 1 in a rolling mode, the rotating shaft 10 is connected with the wheels 9 in a matched mode, the connecting piece 8 is arranged on the side portion of the movable frame 7, the connecting piece 8 is rotationally connected with the rotating shaft 10, the rotating shaft 10 is connected with a driven sprocket, a bearing 20 is arranged on the connecting piece 8, the bearing 20 is rotationally connected with the rotating shaft 10, and the first motor 4 and the first speed reducer 6 are fixed on the movable frame 7.

The wheels 9 are provided with guide grooves 9.1, the guide underframe 1 is provided with guide rails 1.1, and the wheels 9 are arranged on the guide underframe 1 in a rolling manner through the guide matching of the guide grooves 9.1 and the guide rails 1.1.

The second driving device d is arranged on the movable frame 7 and comprises a second driving component, a first synchronous shaft 11, a commutator 12, a second synchronous shaft 13 and a lifting component, the second driving component is in driving connection with the first synchronous shaft 11, the commutator 12 is respectively arranged at two ends of the first synchronous shaft 11, the commutator 12 is connected with the second synchronous shaft 13, the lifting component is respectively arranged at two ends of the second synchronous shaft 13, and the lifting component is connected with the lifting platform component e.

The second driving assembly comprises a second motor 14 and a second speed reducer 15, the second motor 14 is connected with the input end of the second speed reducer 15, the output end of the second speed reducer 15 is connected with the first synchronous shaft 11, and the second motor 14, the second speed reducer 15 and the commutator 12 are fixed on the movable frame 7.

The lifting assembly comprises a worm gear 16 and a lifting screw 17, two ends of the second synchronizing shaft 13 are respectively connected with the worm gear 16, the lifting screw 17 is vertically movably mounted on the worm gear 16, the lifting screw 17 is connected with the lifting platform assembly e in a matched manner, and the lifting assembly is respectively arranged at four corners of the movable frame 7 and can forcefully support the lifting platform assembly e.

The extruding device a is provided with a film spraying die 18 for spraying sizing material onto the film 2; when the laminating machine works, the moving frame component b drives the extrusion device a to move above the laminating roller device f, the lifting table component e drives the extrusion device a to descend, the laminating die 18 is used for laminating the adhesive on the films 2 of the two laminating rollers, and then the two laminating rollers are used for laminating the two films 2 to form a composite film.

The two ends of the guide underframe 1 are respectively provided with a limiting piece 19, and the time limit of the wheels 9 rolling to the two ends of the guide underframe 1 is positioned on the limiting piece 19, so that the wheels 9 are prevented from being separated from the guide underframe 1.

The foregoing is a preferred embodiment of the utility model showing and describing the general principles, features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, which have been described in the foregoing description merely illustrates the principles of the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a feeding mechanism of laminating machine, includes extrusion device (a), its characterized in that: still include direction chassis (1), remove frame subassembly (b), first drive arrangement (c), second drive arrangement (d) and elevating platform subassembly (e), first drive arrangement (c) drive connection removes frame subassembly (b), second drive arrangement (d) are installed on removing frame subassembly (b), elevating platform subassembly (e) are connected in the drive of second drive arrangement (d), extrusion device (a) are installed on elevating platform subassembly (e), remove frame subassembly (b) horizontal activity and set up on direction chassis (1) to drive extrusion device (a) and remove to pressfitting roller device (f) top, elevating platform subassembly (e) upper and lower activity sets up on removing frame subassembly (b), in order to adjust the height of extrusion device (a) relative pressfitting roller device (f).

2. The feed mechanism of a laminator of claim 1, wherein: the first driving device (c) comprises a first driving assembly and a chain wheel assembly (3), wherein the first driving assembly is in driving connection with one end of the chain wheel assembly (3), and the other end of the chain wheel assembly (3) is connected with the movable frame assembly (b).

3. The feed mechanism of a laminator of claim 2, wherein: the first driving assembly comprises a first motor (4), a synchronous wheel assembly (5) and a first speed reducer (6), wherein the first motor (4) is in driving connection with one end of the synchronous wheel assembly (5), the other end of the synchronous wheel assembly (5) is connected with the input end of the first speed reducer (6), and the output end of the first speed reducer (6) is connected with one end of the sprocket assembly (3).

4. A feed mechanism for a laminator according to claim 3, wherein: the movable frame assembly (b) comprises a movable frame (7), connecting pieces (8), wheels (9) and a rotating shaft (10), wherein the wheels (9) are arranged on the guide underframe (1) in a rolling mode, the rotating shaft (10) is connected with the wheels (9) in a matched mode, the connecting pieces (8) are arranged on the side portions of the movable frame (7), and the connecting pieces (8) are connected with the rotating shaft (10) in a rotating mode.

5. The feed mechanism of a laminator of claim 4, wherein: the wheel (9) is provided with a guide groove (9.1), the guide underframe (1) is provided with a guide rail (1.1), and the wheel (9) is arranged on the guide underframe (1) in a rolling manner through the guide cooperation of the guide groove (9.1) and the guide rail (1.1).

6. The feed mechanism of a laminator of claim 4, wherein: the second driving device (d) is arranged on the movable frame (7) and comprises a second driving component, a first synchronizing shaft (11), a reverser (12), a second synchronizing shaft (13) and a lifting component, the second driving component is in driving connection with the first synchronizing shaft (11), the reverser (12) is respectively arranged at two ends of the first synchronizing shaft (11), the reverser (12) is connected with the second synchronizing shaft (13), the lifting component is respectively arranged at two ends of the second synchronizing shaft (13), and the lifting component is connected with the lifting platform component (e).

7. The feed mechanism of a laminator of claim 6, wherein: the second driving assembly comprises a second motor (14) and a second speed reducer (15), the second motor (14) is connected with the input end of the second speed reducer (15), and the output end of the second speed reducer (15) is connected with the first synchronous shaft (11).

8. The feed mechanism of a laminator of claim 7, wherein: the lifting assembly comprises a worm gear (16) and a lifting screw (17), two ends of the second synchronizing shaft (13) are respectively connected with the worm gear (16), the lifting screw (17) is movably installed on the worm gear (16) up and down, and the lifting screw (17) is connected with the lifting table assembly (e) in a matched mode.

9. The feed mechanism of a laminator of claim 1, wherein: the extruding device (a) is provided with a film spraying die (18) for spraying the sizing material onto the film (2).

10. The feed mechanism of a laminator of claim 4, wherein: limiting pieces (19) are respectively arranged at two ends of the guide underframe (1), and the time limit of the wheels (9) rolling to the two ends of the guide underframe (1) is located on the limiting pieces (19).