CN117602150A - Online rocker arm winding comprehensive film-covering packaging machine - Google Patents

Abstract

The invention relates to the technical field of laminating equipment, and provides an online rocker arm winding comprehensive laminating packaging machine which comprises a main frame body which is arranged on a conveying mechanism in a crossing mode, wherein a fixed shaft is arranged on a cross beam of the main frame body, a peripheral laminating mechanism is rotationally arranged on the fixed shaft, base film clamping mechanisms are arranged on two sides of the conveying mechanism, a mounting plate is arranged at the lower end of the fixed shaft and is positioned in the rotation range of the peripheral laminating mechanism, and base film lifting mechanisms are arranged on two end sides of the mounting plate. The beneficial effects of the invention are as follows: the periphery side tectorial membrane mechanism can be with the film cladding in the side of article with pivoted mode, thereby can be after laying the plastic film, the limit side of centre gripping plastic film makes the plastic film follow article synchronous movement through plastic film clamping mechanism to can follow up the plastic film and lift the mechanism and laminate the plastic film at the periphery side of article and carry out comprehensive winding cladding through periphery side tectorial membrane mechanism.

Description

Online rocker arm winding comprehensive film-covering packaging machine

Technical Field

The invention relates to the technical field of film laminating packaging machines, in particular to an online rocker arm winding comprehensive film laminating packaging machine.

Background

Film wrapping machines are devices for wrapping articles, particularly palletized articles, in use by transporting the articles to the machine by means of a conveyor mechanism, and by continuously rotating the film around the articles by means of a rocker arm, thereby wrapping the film on the surface of the articles.

However, the existing film-coating packaging machine can basically realize film coating on the peripheral side and the top surface of the article, and the bottom film is generally laid on the tray, but the side of the bottom film cannot follow the movement of the article while being flush in the moving process, so that the subsequent side cannot be attached to the side surface of the article.

Disclosure of Invention

The invention provides an online rocker arm winding comprehensive film-covering packaging machine, which can clamp and pull the side of a bottom film and an article to synchronously move to the position right below the packaging machine, and then can lift and attach the side of the bottom film to the periphery of the article to more comprehensively cover the article through winding of a peripheral film-covering mechanism.

For this purpose, the invention adopts the following technical scheme: the utility model provides an online rocking arm winding comprehensive tectorial membrane packagine machine, includes strides the body frame body of establishing on conveying mechanism, be equipped with the fixed axle on the crossbeam of body frame body, it is equipped with week side tectorial membrane mechanism to rotate on the fixed axle, conveying mechanism both sides side is equipped with basement membrane fixture, and the fixed axle lower extreme is equipped with the mounting panel, the mounting panel is in week side tectorial membrane mechanism's rotation range, the both ends side of mounting panel is equipped with the basement membrane and lifts up the mechanism.

By adopting the technical scheme: the film can be coated on the side surface of the article in a rotating mode through the peripheral side film coating mechanism, the side of the bottom film can be clamped after the bottom film is paved through the bottom film clamping mechanism, so that the bottom film can move synchronously along with the article, and the bottom film can be attached to the peripheral side of the article through the peripheral side film coating mechanism through the subsequent bottom film lifting mechanism.

Optionally, the main frame body comprises upright posts vertically arranged at two sides of the conveying mechanism, the cross beam is fixed at the top ends of the upright posts, and the upright posts are provided with a basement membrane loosening mechanism.

By adopting the technical scheme: through setting up the basement membrane relaxation mechanism can be with the film unblock under the clamp condition, make it can laminate to the week side of article under the drive of basement membrane lift mechanism.

Optionally, week side tectorial membrane mechanism includes the rocking arm that rotates to set up on the fixed axle, the rocking arm includes horizontal pole and the montant of being connected with horizontal pole end, the montant reciprocates and is equipped with the side tectorial membrane subassembly.

By adopting the technical scheme: the motor is arranged on the cross beam and connected with a gear after penetrating through the cross beam through an output shaft, the cross beam is provided with a fluted disc, the gear is meshed with the fluted disc, the motor rotates to drive the rocker arm to rotate around the fixed shaft, a limit bearing is arranged between the cross beam and the fixed shaft, and the side surface film coating assembly is driven to rotate around the article to coat films on the periphery of the article when the rocker arm rotates.

Optionally, the conveying mechanism comprises a conveying body and a power mechanism for driving the conveying mechanism to rotate, and the bottom film clamping mechanism comprises a limiting linkage clamping assembly arranged on the side of the conveying body.

Optionally, the spacing linkage centre gripping subassembly includes the spacing guide block of sliding setting on the conveying body, sets up the elastic linkage lower holder of conveying body avris, be equipped with the centre gripping body on the spacing guide block.

By adopting the technical scheme: firstly, placing a tray between limit guide blocks, then paving a bottom film on the upper part of the tray, when stacking articles on the tray, pressing the limit guide blocks to move to the side of a conveying body due to the gravity action of the articles, and driving an elastic linkage lower clamping piece to act through linkage in the moving process of the limit guide blocks, so that the elastic linkage lower clamping piece is attached to the upper clamping body, and the side of the film is clamped.

Optionally, two the guide parts are arranged on opposite sides of the limiting guide blocks, the upper clamping body comprises a connecting rod with one end fixedly connected with the limiting guide blocks, and a clamping piece is arranged at the other end of the connecting rod.

By adopting the technical scheme: through setting up the guide part, firstly can carry out spacing to the tray and make its position more accurate, secondly be convenient for the tray constantly push down the in-process that can drive spacing guide block to the avris removal of the conveying body to produce the avris that the clamping piece action pressed from both sides tight basement membrane under the linkage drive force promotion elasticity linkage through this removal process.

Optionally, the elastic linkage lower holder is including fixing the sleeve pipe at the conveying body avris, the inside movable rod that is equipped with of sleeve pipe, the cover is equipped with the spring on the movable rod, and the one end of spring is fixed on the end wall that the conveying body was kept away from to the sleeve pipe, and the other end of spring is fixed on the movable rod, sleeve pipe and spacing guide block butt are stretched out to movable rod one end, are connected with the clamping piece after the other end of movable rod stretches out the sleeve pipe, the lower part of movable rod is equipped with the roof that can be contacted with the basement membrane relaxation mechanism.

By adopting the technical scheme: when the limit guide block moves to the side of the conveying body, the moving rod is pushed to move in the direction away from the conveying body, one end of the sleeve is fixed to the side of the conveying body, the other end of the sleeve is inclined obliquely upwards, and the moving rod is convenient to have an upward moving component in the moving process, so that the side of the bottom film is matched with the upper clamping body to clamp the bottom film to move synchronously along with the tray.

Optionally, the basement membrane relaxing mechanism comprises a pushing piece which is fixed on the inner side of the upright post and can be contacted with the top plate.

By adopting the technical scheme: through setting up the impeller, after the tray removes in place, the impeller stretches out the top and connects on the roof with the direction promotion of carriage with the movable rod to lose clamping force and can release the plastic film base avris and be convenient for follow-up plastic film base lift mechanism and laminate the plastic film base to the week side of article.

Optionally, the basement membrane lifts up and lifts up the mechanism and includes the flexible elastic tube of articulated at the mounting panel both ends, and the slip sets up the removal articulated ear on flexible elastic tube, the downside of mounting panel articulates there is the power spare of being connected with the removal articulated ear, it is equipped with the acting as go-between to remove the inside that articulated ear is in flexible elastic tube, the lower part of flexible elastic tube is equipped with the elasticity and presss from both sides, the acting as go-between with the elasticity presss from both sides and is connected, the one end that the elasticity presss from both sides and is close to the conveying body is equipped with the conflict piece.

By adopting the technical scheme: through the lifting of power spare, owing to the clamping piece butt under the conflict piece and the elastic linkage, so flexible elastic tube does not move earlier, the articulated ear of pulling movement upward removal earlier to drive act of acting as a wire and tighten up the elastic clamp and clamp the carrier film avris, after the centre gripping is good, the clamping piece action promotes the elastic linkage lower clamping piece to the conveying body direction, after the contact butt, can stimulate flexible elastic tube to the direction swing of article through the power spare, thereby laminate carrier film avris on article surface, rethread week side tectorial membrane mechanism carries out the cladding to article week side.

Optionally, the telescopic elastic tube comprises a main tube hinged with the mounting plate and a sub tube embedded in the main tube, a sliding groove is formed in the main tube, the movable hinge lug is arranged in the sliding groove in a sliding manner, and the lower end of the sub tube is connected with the elastic clamp;

the lower part of the mounting plate is also provided with a top film covering mechanism.

The working principle and the beneficial effects of the invention are as follows:

1. the film can be coated on the side surface of the article in a rotating mode through the peripheral side film coating mechanism, the side of the bottom film can be clamped after the bottom film is paved through the bottom film clamping mechanism, so that the bottom film can move synchronously along with the article, and the bottom film can be attached to the peripheral side of the article through the peripheral side film coating mechanism through the subsequent bottom film lifting mechanism.

2. When the movable clamping device is used, the tray is placed between the limiting guide blocks, then the bottom film is paved on the upper portion of the tray, and when articles are stacked on the tray, the limiting guide blocks are pressed to move to the side of the conveying body due to the gravity action of the articles, and the elastic linkage lower clamping piece is driven to move through linkage in the moving process of the limiting guide blocks, so that the elastic linkage lower clamping piece is attached to the upper clamping body, and the side of the film is clamped.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a schematic diagram of the structure A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of the structure B in FIG. 1 according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a lifting mechanism for a bottom film according to an embodiment of the present invention.

In the figure: 100. a conveying mechanism; 110. a transport body; 200. a main frame body; 210. a column; 220. a cross beam; 300. a fixed shaft; 400. a peripheral side film covering mechanism; 410. a rocker arm; 411. a cross bar; 412. a vertical rod; 420. a side film-coating assembly; 500. a bottom film clamping mechanism; 510. limiting guide blocks; 511. a guide part; 520. a lower clamping piece is elastically linked; 521. a sleeve; 522. a moving rod; 523. a spring; 524. a top plate; 530. an upper clamping body; 531. a connecting rod; 532. a clamping piece; 600. a mounting plate; 700. a bottom film lifting mechanism; 710. a flexible elastic tube; 711. a main pipe; 712. a sub-tube; 713. a sliding groove; 720. moving the hinge lugs; 730. a power member; 740. a pull wire; 750. an elastic clamp; 760. a collision block; 800. a basement membrane loosening mechanism; 900. and a top film covering mechanism.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1-4, this embodiment provides an on-line rocker 410 winding full-surface film packaging machine, which comprises a main frame 200 straddling a conveying mechanism 100, a fixed shaft 300 is arranged on a beam 220 of the main frame 200, a peripheral film coating mechanism 400 is rotatably arranged on the fixed shaft 300, bottom film clamping mechanisms 500 are arranged on two sides of the conveying mechanism 100, a mounting plate 600 is arranged at the lower end of the fixed shaft 300, the mounting plate 600 is positioned in the rotation range of the peripheral film coating mechanism 400, a space is reserved for rotation of the peripheral film coating mechanism 400, and bottom film lifting mechanisms 700 are arranged on two sides of the mounting plate 600.

The main frame 200 comprises upright posts 210 vertically arranged at two sides of the conveying mechanism 100, the upright posts 210 anchor the two sides of the conveying mechanism 100, a cross beam 220 is fixed at the top end of the upright posts 210, and a basement membrane loosening mechanism 800 is arranged on the upright posts 210.

The basic principle of this embodiment is: the film can be coated on the side surface of the article in a rotating manner through the peripheral side film coating mechanism 400, and the side of the bottom film can be clamped after the bottom film is paved through the bottom film clamping mechanism 500, so that the bottom film moves synchronously along with the article, and the bottom film can be attached to the peripheral side of the article through the subsequent bottom film lifting mechanism 700 and is wound and coated through the peripheral side film coating mechanism 400. By providing the base film loosening mechanism 800, the film in the clamped state can be unlocked, and can be attached to the peripheral side of the article by the base film lifting mechanism 700.

Referring to fig. 1, the peripheral side film coating mechanism 400 in this embodiment includes a swing arm 410 rotatably disposed on a fixed shaft 300, the swing arm 410 includes a cross bar 411 and a vertical bar 412 connected to an end of the cross bar 411, the vertical bar 412 is provided with a side film coating assembly 420 that moves up and down, wherein a moving manner of the side film coating assembly 420 on the vertical bar 412 can be a screw driving manner, which is also mature in the prior art.

Wherein a motor is arranged on the beam 220, the motor can penetrate through the beam 220 through an output shaft and then is connected with a gear, a fluted disc is arranged on the cross rod 411, the gear is meshed with the fluted disc, the motor rotates to drive the rocker arm 410 to rotate around the fixed shaft 300, a limit bearing is arranged between the cross rod 411 and the fixed shaft 300, the side film coating assembly 420 is driven to rotate around an article to coat the periphery of the article when the rocker arm 410 rotates, the transmission structure of the gear and the fluted disc is shown in the drawing, and the structure is not difficult to realize, and reference numerals are omitted here.

The conveying mechanism 100 in this embodiment includes a conveying body 110 and a power mechanism for driving the conveying mechanism 100 to rotate, where the bottom film clamping mechanism 500 includes a limiting linkage clamping assembly disposed at an edge of the conveying body 110, and the conveying body 110 may adopt a mesh belt or a mesh plate type structure, and is driven to rotate by the power mechanism, such as a motor.

Referring to fig. 1 and 2, the limiting linkage clamping assembly includes a limiting guide block 510 slidably disposed on the conveying body 110, for example, a T-shaped sliding rail and sliding groove matching manner may be adopted, an elastic linkage lower clamping member 520 disposed at an edge of the conveying body 110 is disposed on the limiting guide block 510, and an upper clamping body 530 is disposed on the limiting guide block 510, where a set of limiting linkage clamping assemblies may be disposed at four corners of each tray placement position, respectively, so that the tray may be guided and positioned, and the four corners of the carrier film may be clamped.

When the movable type film clamping device is used, a tray is placed between the limiting guide blocks 510, then a bottom film is paved on the upper portion of the tray, when articles are stacked on the tray, the limiting guide blocks 510 are pressed to move to the side of the conveying body 110 due to the gravity action of the articles, and the elastic linkage lower clamping piece 520 is driven to move through linkage in the moving process of the limiting guide blocks 510, so that the upper clamping piece is attached to the upper clamping body 530, and the side of the film is clamped.

The two opposite sides of the limiting guide blocks 510 are provided with guide portions 511, the upper clamping body 530 includes a connecting rod 531 with one end fixedly connected with the limiting guide blocks 510, and a clamping piece 532 is provided at the other end of the connecting rod 531.

Through setting up the guide 511, firstly can carry out spacing to the tray and make its position more accurate, secondly can drive spacing guide block 510 to the avris of carrying body 110 in the in-process that the tray is convenient for push down constantly to produce the avris of elastic linkage lower holder 520 action clamp base film through this removal process and promote the linkage drive power.

Referring to fig. 3, the elastic linkage lower clamping member 520 in this embodiment includes a sleeve 521 fixed at the side of the conveying body 110, a moving rod 522 is disposed inside the sleeve 521, a spring 523 is sleeved on the moving rod 522, one end of the spring 523 is fixed on an end wall of the sleeve 521 far away from the conveying body 110, the other end of the spring 523 is fixed on the moving rod 522, one end of the moving rod 522 extends out of the sleeve 521 and abuts against the limit guide block 510, the other end of the moving rod 522 extends out of the sleeve 521 and is connected with a clamping piece 532, and a top plate 524 capable of contacting with the basement membrane loosening mechanism 800 is disposed at the lower part of the moving rod 522.

The basic principle is as follows: when the limit guide block 510 moves to the side of the conveying body 110, the moving rod 522 is pushed to move away from the side of the conveying body 110, wherein one end of the sleeve is fixed to the side of the conveying body 110, and the other end of the sleeve is inclined obliquely upwards, so that the moving rod 522 has an upward moving component in the moving process, and accordingly the side of the bottom film is matched with the upper clamping body 530 to clamp the bottom film to move synchronously with the following tray.

The bottom film loosening mechanism 800 in this embodiment includes a pushing member, which may be an electric push rod, fixed inside the upright post 210 and capable of making contact with the top plate 524.

By adopting the technical scheme: by providing the pushing member, after the tray moves in place, the pushing member extends out to push the moving rod 522 to the direction of the conveying body 110 on the top plate 524, so that the side of the bottom film can be released due to the loss of clamping force, and the subsequent bottom film lifting mechanism 700 is convenient for attaching the bottom film to the peripheral side of the article.

Referring to fig. 4, the bottom film lifting mechanism 700 in this embodiment includes a flexible elastic tube 710 hinged at two ends of the mounting plate 600, a movable hinge ear 720 slidably disposed on the flexible elastic tube 710, a power member 730 connected to the movable hinge ear 720 is hinged at the lower side of the mounting plate 600, a pull wire 740 is disposed in the movable hinge ear 720 and is located inside the flexible elastic tube 710, an elastic clip 750 is disposed at the lower portion of the flexible elastic tube 710, the pull wire 740 is connected to the elastic clip 750, and an abutting block 760 is disposed at one end of the elastic clip 750 near the conveying body 110, where the power member 730 may be an electric push rod.

By lifting the power part 730, the abutting block 760 is abutted with the elastic linkage lower clamping part 520, so that the telescopic elastic tube 710 does not act first, the movable hinge lug 720 is pulled to move upwards first, the stay 740 is driven to act to tighten the elastic clamp 750 to clamp the edge of the bottom film, after clamping is finished, the pushing part acts to push the elastic linkage lower clamping part 520 towards the direction of the conveying body 110, after contact and abutment, the telescopic elastic tube 710 can be pulled to swing towards the direction of an article through the power part 730, so that the edge of the bottom film is attached to the surface of the article, and the periphery of the article is covered by the periphery covering mechanism 400.

Specifically, the telescopic elastic tube 710 in this embodiment includes a main tube 711 hinged to the mounting plate 600 and a sub tube 712 embedded in the main tube 711, a sliding groove 713 is provided on the main tube 711, the movable hinge ear 720 is slidably disposed in the sliding groove 713, and the lower end of the sub tube 712 is connected to the elastic clip 750;

when the lower end of the sub-tube 712 contacts the article, the bottom film is fully attached to the side of the article by continuing to move up the side of the article by the pulling of the power member 730 through its stretchability.

Wherein the lower portion of the mounting plate 600 is further provided with a top film coating mechanism 900, the top film coating mechanism 900 is substantially similar to the prior art, and the present embodiment is not described.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (10)

1. The utility model provides an on-line rocking arm winding comprehensive tectorial membrane packagine machine, its characterized in that, including striding main frame body (200) of establishing on conveying mechanism (100), be equipped with fixed axle (300) on crossbeam (220) of main frame body (200), it is equipped with week side tectorial membrane mechanism (400) to rotate on fixed axle (300), conveying mechanism (100) both sides side is equipped with basement membrane fixture (500), and fixed axle (300) lower extreme is equipped with mounting panel (600), mounting panel (600) are in the rotation scope of week side tectorial membrane mechanism (400), the both ends side of mounting panel (600) are equipped with basement membrane lift mechanism (700).

2. The on-line rocker arm winding full-face film wrapping machine according to claim 1, wherein the main frame body (200) comprises upright posts (210) vertically arranged at two sides of the conveying mechanism (100), the cross beam (220) is fixed at the top ends of the upright posts (210), and a bottom film loosening mechanism (800) is arranged on the upright posts (210).

3. The on-line rocker arm winding full-face film wrapping machine according to claim 1, wherein the peripheral side film wrapping mechanism (400) comprises a rocker arm (410) rotatably arranged on a fixed shaft (300), the rocker arm (410) comprises a cross rod (411) and a vertical rod (412) connected with the end of the cross rod (411), and the vertical rod (412) moves up and down and is provided with a side film wrapping assembly (420).

4. The on-line rocker arm winding full-face film wrapping machine according to claim 2, wherein the conveying mechanism (100) comprises a conveying body (110) and a power mechanism for driving the conveying mechanism (100) to rotate, and the bottom film clamping mechanism (500) comprises a limiting linkage clamping assembly arranged on the side of the conveying body (110).

5. The on-line rocker arm winding full-face film laminating packaging machine according to claim 4, wherein the limiting linkage clamping assembly comprises a limiting guide block (510) which is slidably arranged on the conveying body (110), an elastic linkage lower clamping piece (520) which is arranged on the side of the conveying body (110), and an upper clamping body (530) is arranged on the limiting guide block (510).

6. The on-line rocker arm winding comprehensive film wrapping machine according to claim 5, wherein two opposite sides of the limiting guide block (510) are provided with guide parts (511), the upper clamping body (530) comprises a connecting rod (531) with one end fixedly connected with the limiting guide block (510), and the other end of the connecting rod (531) is provided with a clamping piece (532).

7. The on-line rocker arm winding comprehensive film wrapping machine according to claim 5, wherein the elastic linkage lower clamping piece (520) comprises a sleeve (521) fixed on the side of the conveying body (110), a moving rod (522) is arranged inside the sleeve (521), a spring (523) is sleeved on the moving rod (522), one end of the spring (523) is fixed on the end wall of the sleeve (521) far away from the conveying body (110), the other end of the spring (523) is fixed on the moving rod (522), one end of the moving rod (522) extends out of the sleeve (521) to be abutted with the limiting guide block (510), a clamping piece (532) is connected to the other end of the moving rod (522) after the other end of the moving rod (522) extends out of the sleeve (521), and a top plate (524) capable of being contacted with the basement membrane loosening mechanism (800) is arranged on the lower portion of the moving rod (522).

8. The in-line rocker arm winding full-face film wrapping machine of claim 7, wherein the base film relaxation mechanism (800) includes a pusher secured inside the post (210) that is capable of making contact with the top plate (524).

9. The on-line rocker arm winding full-face film wrapping machine according to any one of claims 1 to 8, wherein the bottom film lifting mechanism (700) comprises a telescopic elastic tube (710) hinged to two ends of a mounting plate (600), a movable hinge lug (720) slidably arranged on the telescopic elastic tube (710), a power piece (730) connected with the movable hinge lug (720) is hinged to the lower side of the mounting plate (600), a pull wire (740) is arranged in the telescopic elastic tube (710) of the movable hinge lug (720), an elastic clamp (750) is arranged at the lower portion of the telescopic elastic tube (710), the pull wire (740) is connected with the elastic clamp (750), and an abutting block (760) is arranged at one end, close to the conveying body (110), of the elastic clamp (750).

10. The on-line rocker arm winding full-face film wrapping machine according to claim 9, characterized in that the telescopic elastic tube (710) comprises a main tube (711) hinged with the mounting plate (600) and a sub tube (712) embedded in the main tube (711), a sliding groove (713) is arranged on the main tube (711), the movable hinge lug (720) is slidably arranged in the sliding groove (713), and the lower end of the sub tube (712) is connected with the elastic clip (750);

the lower part of the mounting plate (600) is also provided with a top film laminating mechanism (900).