CN109940858B - Automatic film feeding equipment for plastic container film internal labeling and technology thereof - Google Patents

Abstract

The utility model relates to automatic film feeding equipment and a process for labeling in a plastic container film, wherein the equipment comprises a film feeding device and a film feeding device, the film feeding device comprises a film feeding device, a turning and pushing mechanism and a film feeding frame, the turning and pushing mechanism comprises a rotating assembly, a supporting piece, a pushing assembly a, a pushing assembly b, a pressing assembly and a turning and pushing assembly arranged between the rotating assembly and the film feeding frame, and the supporting piece is provided with four pieces in an array along the circumferential direction; the film feeding mechanism supports the film on a supporting piece positioned at the material receiving station, the film feeding mechanism drives the pressing component to press the pushing component a and the pushing component b, so that the film at the material receiving station is pushed to one side of the tilting component, which is close to the film feeding frame, and the rotating component rotates to transfer the film at the material receiving station to the pushing station and send the film on the tilting component into the film feeding frame. The utility model solves the problems that film feeding is carried out by manual staring equipment at the moment required by film internal labeling, and operators are easy to feed in time, so that subsequent production does not have film feeding and defective products are caused.

Description

Automatic film feeding equipment for plastic container film internal labeling and technology thereof

Technical Field

The utility model relates to the technical field of in-film labeling equipment, in particular to automatic film feeding equipment for in-film labeling of a plastic container and a process thereof.

Background

The label is placed in the mould, the label and the formed product are discharged simultaneously in the blow moulding process, the label is placed in the mould cavity of the blow moulding machine, the label is adsorbed on the mould cavity due to the vacuum adsorption hole arranged in the mould cavity, then the mould cavity rolls to the front of the high-temperature hot-melt plastic belt to catch the plastic belt, the plastic is blown into the mould after being closed, the plastic is formed into a shape limited by the mould cavity, the mould is opened after being slightly cooled, the plastic finished product falls into the trolley, the blow moulding action is completed, and the label is attached to the surface of the plastic finished product due to the high-temperature effect, and the final effect is permanent; the labeling method of the in-mold label can be divided into an automatic labeling method and a manual labeling method, the labeling position of the automatic in-mold labeling machine is accurate, the arm can be suspended at any middle position, and the labeling efficiency is high.

Chinese patent publication No. CN203357868U discloses an in-film labeling machine, and specifically discloses a fixing frame comprising a suction cup, a manipulator part for providing suction cup power, a label plate part for providing label paper, and a fixing frame for fixing the manipulator part and the label plate part; the manipulator component comprises an X-direction manipulator arm and a Y-direction manipulator arm.

The device has the following disadvantages: the label disc component is used for placing the film label, but the label disc component needs manual time to stare at and carry out the film label adding, and especially some labeling equipment with higher running speed are used up soon by one stack of label films, the manual feeding operation is inconvenient, and forgetting to cause the product produced later to be a defective product easily occurs.

Disclosure of Invention

The utility model aims to overcome the defects, and provides automatic film feeding equipment for film internal labeling of a plastic container, which is characterized in that a film feeding mechanism is arranged to transfer a film onto a turning mechanism, a pushing component is driven to push the film positioned at a feeding station by a pushing component to push the film out of a distance, a rotating component drives a supporting component to rotate to drive the film to continue pushing outwards, and then the film is fed into a film feeding frame by utilizing the matching of the turning component and a film feeding frame, so that the problems that the film feeding operation is carried out by marking equipment at the moment of manual time in the film internal labeling, defective products are not caused by the fact that the film is not fed in time in subsequent production, and the manual film feeding label operation is inconvenient are solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the automatic film feeding equipment for the plastic container film inner label comprises a film feeding device and a film feeding device arranged at one side of the film feeding device, wherein the film feeding device comprises a mechanical arm, the film feeding device comprises a film feeding mechanism, a turning and pushing mechanism arranged at one side of the film feeding mechanism and a film feeding frame arranged between the turning and pushing mechanism and the mechanical arm,

the turnover mechanism comprises a rotating component, a supporting piece arranged on the rotating component, a pushing component a and a pushing component b arranged on the supporting piece, a pressing component arranged above the pushing component a and the pushing component b and a turnover component arranged between the rotating component and the film feeding frame, wherein the supporting piece is provided with four turnover components in an array along the rotating circumferential direction of the supporting piece;

the film feeding mechanism supports the film in a lying state and drives the film feeding mechanism to be transmitted to a supporting piece positioned at the material receiving station, in the process, the film feeding mechanism drives the pushing component to push the pushing component a and the pushing component b downwards, so that the pushing component a and the pushing component b push the film positioned on the supporting piece positioned at the pushing station to the tilting component to lean against one side of the film feeding frame, and then the rotating component rotates to transfer the supporting piece positioned at the material receiving station together with the film thereon to the pushing station and in the process, the pushing component a and the pushing component b are matched with the tilting component to convey the film positioned on the tilting component into the film feeding frame.

As an improvement, the film feeding mechanism comprises a base, a frame arranged on the base, a rotary assembly arranged on the frame and a supporting plate fixed on the rotary assembly and driven by the rotary assembly to perform rotary motion, wherein the supporting plate is used for supporting a film in a lying state, and the rotary assembly can be a chain wheel chain and is driven by a power piece to perform rotary conveying.

As an improvement, the rotating assembly comprises a rotating frame a arranged on the base, a roll shaft rotatably arranged on the rotating frame a and a driving piece arranged on one side of the rotating frame a and used for driving the roll shaft to rotate;

the support piece comprises a support plate a and a support plate b, wherein the support plate a and the support plate b are arranged in an L shape, and through grooves are formed in the positions, close to the middle, of the support plate a and the support plate b.

As an improvement, the pushing component a and the pushing component b are arranged in an array along the circumferential direction of a roll shaft, the roll shaft is also provided with supporting rods corresponding to the pushing component a and the pushing component b one by one, the supporting plates a and b are fixed on the supporting rods, the pushing component a and the pushing component b comprise sliding rods which are in sliding fit with the supporting rods, an extension rod a fixed at the end part of the sliding rods, a connecting rod a rotatably connected with the end part of the extension rod a, a connecting rod b with one end slidably connected with the connecting rod a, and a pushing rod with the end part rotatably connected with the other end of the connecting rod b, a sliding groove is formed in the supporting plate a, the pushing rod is in sliding fit with the sliding groove, and the pushing rod is arranged at the other end of the pushing rod;

the push plate is characterized by further comprising an extension rod b fixed at the end part of the slide rod and a rotating roller rotatably arranged at the end part of the extension rod b, wherein when the rotating roller moves to the lowest point, the vertical distance between the rotating roller and the outer side edge of the support plate b is L1, the vertical distance between the push plate and the outer side edge of the support plate b is L2, and L1 is more than L2.

As an improvement, the pressing component comprises a support frame fixed on the frame, a support slide bar fixed on the lower surface of the support frame and close to the middle position, a pressing frame slidably arranged on the support slide bar, and two guide blocks symmetrically arranged on two sides of the pressing frame and fixed on the support frame, wherein both ends of the pressing frame are respectively provided with a sliding support block and a sliding block in sliding fit with the sliding support blocks, a spring a is connected between the sliding block and the pressing frame, and the outer end of the sliding block is propped against the inner side edge of the guide block; the end part of the support slide bar is provided with a limiting block, and a spring b sleeved on the support slide bar is arranged between the lower pressing frame and the limiting block.

As an improvement, the tilting assembly comprises a bracket b arranged on the base, a rotating frame b arranged on the bracket b and a tilting plate rotatably arranged on the rotating frame b, wherein the width of the tilting plate is smaller than that of the through groove, and the tilting plate tilts towards one side of the film feeding frame in a free state.

As an improvement, the film feeding frame comprises a plurality of guide rods, wherein the distance between the guide rod a and the guide rod b which are positioned at the lowest part is smaller than the width of the turnover plate, the end parts of the guide rod a and the guide rod b are symmetrically provided with supporting grooves, and when the turnover plate is turned to the end part clamped into the supporting grooves, the contact parts of the guide rod a and the guide rod b and the film are on the same plane with the upper surface of the turnover plate.

As an improvement, a hiding groove for hiding the push plate is formed in one end of the sliding groove on the supporting plate a.

As an improvement, the supporting surface of the supporting plate b is an arc surface matched with the large arc edge of the film, and the supporting plate b is symmetrically provided with splayed limiting edges which can automatically limit the film.

As a further improvement, the rotating roller is provided as a metal roller with a smooth surface.

The utility model further aims to overcome the defects, and provides an automatic film feeding process for the in-film labeling of the plastic container, which is characterized in that a film feeding process, a horizontal pushing process, a turning and tilting process and a film sucking process are sequentially connected in series, so that the problems of low film feeding automation degree, poor film feeding timeliness and easiness in occurrence of outage in the in-film labeling forming process are solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

an automatic film feeding process for labeling in plastic container film comprises the following production steps:

step one, a film feeding procedure, wherein a film feeding mechanism supports a film in a lying state and drives the film to be conveyed towards a material receiving station;

a second step, a horizontal pushing procedure, wherein the film supply mechanism in the first step pushes down the pushing component through the pushing component in the transmission process, so that the pushing component pushes the film positioned at the pushing station to the tilting station;

step three, a turning and pushing procedure, wherein after the film in the step one is conveyed to a receiving station, a rotating assembly rotates to drive the film at the receiving station to rotate and transfer in the direction of a film pushing station, and a pushing assembly continuously pushes the film at the turning and pushing station to move towards a film feeding frame under the drive of the rotating assembly in the transferring process;

step four, a tilting procedure, wherein the film moving towards the film feeding frame in the step three slides into the film feeding frame along the tilting plate and the guide rod of the film feeding frame under the action of gravity;

and fifthly, a film sucking process, wherein a mechanical arm positioned at a film sucking station sucks the film in the film feeding frame and transfers the film backwards.

As an improvement, the film feeding mechanism in the first step adopts a sprocket and chain transmission mode to be matched with a supporting plate arranged on a chain to support film conveying in a lying state.

As an improvement, the pushing assembly in the second step pushes down the transmission connecting rod which is matched with the end part of the sliding rod of the pushing assembly through the pushing frame, so that the pushing plate horizontally moves to push the film to move outwards.

In the third step, the film is supported by a supporting piece on the rotating assembly, a rotating roller on the pushing assembly is abutted against the surface of the film at the pushing-out station in the rotating transfer process, and the rotating roller continuously presses the film to the outside along with the rotation of the rotating assembly.

In the fourth step, the film is pushed to pass through the rotation axis of the turnover plate, and then the turnover plate and the film are turned over towards one side of the film feeding frame by gravity.

The utility model has the beneficial effects that:

1. according to the utility model, the film which is placed on the film supplying mechanism in advance is automatically transferred to the turning and pushing mechanism by arranging the film supplying mechanism, then the supporting piece is driven to rotate by the rotating component of the turning and pushing mechanism, the film is supported by the supporting piece, and the pushing component a and the pushing component b are cooperatively arranged, so that the rotating component slowly rotates to drive the film to be slowly and continuously transferred from the feeding station to the feeding station, the pushing component a and the pushing component b are driven by the film supplying mechanism to jointly push the film on the supporting piece at the feeding station to the turning and pushing component, then the film is automatically fed into the film supplying frame by the matching of the turning and pushing component and the film supplying frame, the film adding work is not needed to be carried out by manual time marking equipment, and the problem that the follow-up production is not provided with the film due to the fact that the feeding is not timely occurs by operators is avoided while the manpower is saved;

2. according to the utility model, the pushing assembly a and the pushing assembly b are arranged and comprise the pushing plate which is horizontally pushed and the rotating roller which is pressed and conveyed along with the rotating track of the rotating assembly, so that the pushing plate horizontally pushes the film to push the film outwards for a certain distance in the initial stage of pushing, and the rotating roller is also arranged in the process in a linkage way to move downwards to a position close to the film, and then the rotating assembly can utilize the moving track of the rotating roller to push the film further slowly when rotating, so that the structure is simple and ingenious, the power is saved, and the pushing is stable;

3. according to the utility model, the pushing component a and the pushing component b can be driven to work through the pushing component b when the film feeding mechanism rotates for feeding by arranging the pushing component and arranging the pushing component to be driven by the film feeding mechanism, so that the power is saved, and the front-back connection is compact, so that the efficiency is improved. In addition, the sliding blocks can move to two sides along the guide blocks in the downward movement process of the downward pressing component, so that the downward pressing component can be automatically separated from the supporting plate of the film feeding mechanism after being pressed in place, and automatically reset under the action of elastic force after the separation to prepare for the next downward pressing, and the structure is simple and ingenious;

4. according to the utility model, the overturning assembly is arranged, and the supporting grooves are formed in the guide rod a and the guide rod b of the film frame, so that the film can automatically overturn towards one side of the film frame after sliding over the rotating axis of the overturning plate of the overturning assembly and is clamped into the supporting grooves, and then the film can automatically slide into the film frame under the continuous pushing of the rotating roller.

In conclusion, the automatic film feeding device has the advantages of high automation degree, simple and ingenious structure, stable operation, labor saving and the like, and is particularly suitable for the technical field of automatic film feeding equipment for labeling and forming in plastic cup films.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, it being obvious that the drawings described below are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic front view of an automatic film feeding apparatus for in-film labeling of plastic containers;

FIG. 2 is a schematic view of a film feeding device;

FIG. 3 is a schematic view showing a state where the support film of the swing assembly is transferred;

FIG. 4 is a schematic diagram of the structure of the flip mechanism;

FIG. 5 is a schematic view showing a state that a turning mechanism supports a film to be turned from a material receiving station to a pushing station;

FIG. 6 is a schematic view showing the turning mechanism supporting the film and continuing to rotate after the film reaches the push-out station;

fig. 7 is a schematic structural diagram of a pushing component a, a pushing component b and a pressing component;

FIG. 8 is a schematic view of the structure of the pressing frame;

FIG. 9 is a schematic view of a film feeding frame and a turnover plate

FIG. 10 is a schematic view of the structure of the support;

FIG. 11 is a schematic structural view of an automatic film feeding device for labeling inside films of plastic containers;

FIG. 12 is a schematic diagram of an automatic film feeding process for the in-film labeling of plastic containers.

Detailed Description

The technical solutions in the embodiments of the present utility model are clearly and completely described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1 to 11, an automatic film feeding device for plastic container film inner label comprises a film feeding device 1 and a film feeding device 2 arranged at one side of the film feeding device 1, wherein the film feeding device 1 comprises a mechanical arm 11, the film feeding device 2 comprises a film feeding mechanism 21, a turning and pushing mechanism 22 arranged at one side of the film feeding mechanism 21 and a film feeding frame arranged between the turning and pushing mechanism 22 and the mechanical arm 11,

the turning mechanism 22 comprises a rotating component 221, a supporting piece 222 arranged on the rotating component 221, a pushing component a223 and a pushing component b224 arranged on the supporting piece 222, a pressing component 225 arranged above the pushing component a223 and the pushing component b224 and a turning component 226 arranged between the rotating component 221 and the film feeding frame, wherein the supporting piece 222 is provided with four components in an array along the rotating circumferential direction;

the film feeding mechanism 21 supports the film 10 in a lying state and drives the film 10 to be conveyed to the supporting piece 222 positioned at the material receiving station 100, in the process, the film feeding mechanism 21 drives the pushing component 225 to push the pushing component a223 and the pushing component b224 downwards, the pushing component a223 and the pushing component b224 push the film 10 positioned on the supporting piece 222 positioned at the material pushing station 200 to the side of the film feeding frame on the tilting component 226, and then the rotating component 221 rotates to transfer the supporting piece 222 positioned at the material receiving station 100 together with the film 10 thereon to the material pushing station 200 and in the process, the film 10 positioned on the tilting component 226 is conveyed into the film feeding frame through the cooperation of the pushing component a223 and the pushing component b224 and the tilting component 226.

It should be noted that, in this embodiment, the film that has been placed on the film feeding mechanism 21 in advance is automatically transferred onto the turning mechanism 22 by setting the film feeding mechanism 21, then the rotating component 221 of the turning mechanism 22 drives the supporting component to rotate, the supporting component is used to support the film, and the pushing component a223 and the pushing component b224 are cooperatively set, so that the rotating component 221 rotates slowly to drive the film to be transferred from the feeding station to the feeding station slowly but continuously, and the pushing component a223 and the pushing component b224 are driven by the film feeding mechanism 21 to jointly push the film on the supporting component at the feeding station to the tilting component 226, then the film is automatically fed into the film feeding frame by using the cooperation of the tilting component 226 and the film feeding frame, so that the manual time is not needed to stare the equipment for adding the film, and the problem that the subsequent production is not defective products caused by the fact that the feeding is not timely occurs by operators is avoided while the manpower is saved.

Further, the film feeding mechanism 21 includes a base 2211, a frame 211 disposed on the base 2211, a rotating assembly 212 disposed on the frame 211, and a supporting plate 213 fixed on the rotating assembly 212 and driven by the rotating assembly 212 to perform a rotating motion, where the supporting plate 213 is used for supporting the film 10 in a lying state.

Further, the rotating assembly 221 includes a rotating frame a2212 disposed on the base 2211, a roller 2213 rotatably disposed on the rotating frame a2212, and a driving member 2214 disposed on one side of the rotating frame a2212 for driving the roller 2213 to rotate;

the support 222 includes a support plate a2221 and a support plate b2222, the support plate a2221 and the support plate b2222 are in an L-shaped arrangement, and the support plate a2221 and the support plate b2222 are both provided with through grooves 2223 at positions near the middle.

Further, the pushing assemblies a223 and b224 are arranged in an array along the circumferential direction of the roll shaft 2213, the roll shaft 2213 is further provided with supporting rods 2215 corresponding to the pushing assemblies a223 and b224 one by one, the supporting plates a2221 and b2222 are fixed on the supporting rods 2215, the pushing assemblies a223 and b224 each comprise a sliding rod 2231 in sliding fit with the supporting rods 2215, an extending rod a2232 fixed at the end part of the sliding rod 2231, a connecting rod a2233 rotatably connected with the end part of the extending rod a2232, a connecting rod b2234 with one end slidably connected with the connecting rod a2233, and a pushing rod 2235 with the end part rotatably connected with the other end of the connecting rod b2234, the supporting plates a2221 are provided with sliding grooves 30, the pushing rod 2235 is in sliding fit with the sliding grooves 30, and the other end of the pushing rod 2235 is provided with a pushing plate 2236;

the device also comprises an extension rod b2237 fixed at the end part of the sliding rod 2231 and a rotating roller 2238 rotatably arranged at the end part of the extension rod b2237, wherein when the rotating roller 2238 moves to the lowest point, the vertical distance from the outer side edge of the supporting plate b2222 is L1, the vertical distance from the pushing plate 2236 to the outer side edge of the supporting plate b2222 is L2, and L1 is more than L2.

It should be noted that, the pushing assembly a223 and the pushing assembly b224 are both provided with the pushing plate 2236 that pushes horizontally and the rotating roller 2238 that pushes horizontally along with the rotating track of the rotating assembly 221, so that the pushing plate 2236 pushes horizontally the film to the outside for a certain distance in the initial stage of pushing, and the rotating roller moves down to the position close to the film together due to the linkage, so that the rotating assembly 221 can push the film further slowly by using the moving track of the rotating roller during rotation, thereby having simple and smart structure, saving power and stabilizing pushing.

Further, the pressing component 225 includes a support frame 2251 fixed on the frame 211, a support slide rod 2252 fixed on the lower surface of the support frame 2251 and close to the middle position, a pressing frame 2253 slidably disposed on the support slide rod 2252, and two guide blocks 2254 symmetrically disposed on two sides of the pressing frame 2253 and fixed on the support frame 2251, two ends of the pressing frame 2253 are respectively provided with a sliding support block 2255 and a sliding block 2256 slidably matched with the sliding support block 2255, a spring a2257 is connected between the sliding block 2256 and the pressing frame 2253, and an outer end of the sliding block 2256 abuts against an inner side edge of the guide block 2254; a limiting block 2258 is arranged at the end part of the supporting sliding rod 2252, and a spring b2259 sleeved on the supporting sliding rod 2252 is arranged between the pressing frame 2253 and the limiting block 2258; it should be noted that the elastic force of the spring b2259 is greater than the sum of the elastic forces of the two springs a2257, so as to ensure that the pressing frame 2253 automatically lifts and returns under the action of the spring b2259 after pressing down and stretches the springs a 2257.

It should be noted that, by arranging the pressing component 225 and arranging the pressing component 225 to be driven by the film feeding mechanism 21, the film feeding mechanism 21 can drive the pushing component a223 and the pushing component b224 to work through the pressing component 225 during rotary feeding, so that power is saved, and the front-back connection is compact, so that the efficiency is improved. In addition, the sliding blocks 2256 can move to two sides along the guide blocks 2254 in the downward moving process of the pressing component 225, so that the pressing component 225 can be automatically separated from the supporting plate 213 of the film feeding mechanism 21 after being pressed down in place, and can be automatically reset under the action of elastic force after being separated to prepare for the next downward pressing, and the structure is simple and ingenious.

Further, a hiding groove 40 for hiding the push plate 2236 is formed at one end of the sliding slot 30 on the supporting plate a 2221.

Further, the supporting surface of the supporting plate b2222 is an arc surface matched with the large arc edge of the film 10, and the supporting plate b2222 is symmetrically provided with a splayed limit edge 2224.

Still further, the rotating roller 2238 is configured as a smooth-surfaced metal roller.

Example two

As shown in fig. 5 and 9, wherein the same or corresponding parts as those in the first embodiment are denoted by the corresponding reference numerals as in the first embodiment, only the points of distinction from the first embodiment will be described below for the sake of brevity. The second embodiment is different from the first embodiment in that: further, the tilting assembly 226 includes a bracket b2261 provided on the base 2211, a rotating frame b2262 provided on the bracket b2261, and a tilting plate 2263 rotatably provided on the rotating frame b2262, the tilting plate 2263 has a width smaller than that of the through groove 2223, and the tilting plate 2263 is tilted toward the film supply frame in a free state.

Further, the film feeding frame includes a plurality of guide rods, wherein the distance between the guide rod a231 and the guide rod b232 at the lowest position is smaller than the width of the turning plate 2263, the end parts of the guide rod a231 and the guide rod b232 are symmetrically provided with the supporting grooves 233, and when the turning plate 2263 is turned to the end part clamped into the supporting grooves 233, the contact parts of the guide rod a231 and the guide rod b232 and the film 10 are on the same plane with the upper surface of the turning plate 2263.

In this embodiment, it should be mentioned that by setting the tilting assembly 226 and providing the supporting slot 233 on the guide rod a231 and the guide rod b232 of the film frame, the film can automatically turn towards one side of the film frame after sliding over the rotation axis of the tilting plate of the tilting assembly 226 and be clamped into the supporting slot, and then the film can automatically slide into the film frame under the continuous pushing of the rotating roller.

Example III

As shown in fig. 12, an automatic film feeding process for in-film labeling of plastic containers comprises the following production steps:

step one, a film feeding process, wherein a film feeding mechanism 21 supports a film 10 in a lying state and drives the film to be conveyed towards a material receiving station;

a second step, a horizontal pushing procedure, in which the film feeding mechanism 21 in the first step pushes down the pushing component through the pushing component 225 in the transmission process, so that the pushing component pushes the film 10 located at the pushing station to the tilting station;

step three, a turning and pushing procedure, wherein after the film 10 in the step one is conveyed to a material receiving station, the rotating component 221 rotates to drive the film 10 at the material receiving station to be pushed out of the station direction for rotating and transferring, and in the transferring process, the pushing component continuously pushes the film at the turning and pushing station to move towards the film feeding frame under the drive of the rotating component 221;

step four, a tilting procedure, wherein the film 10 moving towards the film feeding frame in step three slides into the film feeding frame along the tilting plate 2263 and the guide rod of the film feeding frame under the action of gravity;

and fifthly, a film sucking process, wherein a mechanical arm 11 positioned at a film sucking station sucks the film 10 in the film feeding frame and transfers the film backwards.

Further, the film feeding mechanism 21 in the first step is matched with a pallet arranged on a chain to support the film 10 in a lying state in a chain transmission mode.

Further, the pushing assembly in the second step pushes down the transmission connecting rod matched with the end part of the sliding rod of the pushing assembly through the pushing frame, so that the pushing plate horizontally moves to push the film 10 to move outwards.

Further, the film in the third step is supported by the support member on the rotating assembly 221, and the rotating roller on the pushing assembly abuts against the surface of the film at the pushing station during the rotation transfer process, and the rotating roller rotates along with the rotating assembly 221 to press the film to the outside.

Further, in the fourth step, the film 10 is pushed over the rotation axis of the turning plate 2263, and then the turning plate 2263 is turned over along with the film by gravity toward the film feeding frame.

The working process comprises the following steps:

a stack of films 10 is placed on a supporting plate 213 of a film supply mechanism 21 in a lying way, a rotating assembly 212 drives the supporting plate 213 to move downwards together with the films 10, and after the supporting plate 213 moves downwards to enter a through groove 2223 of a supporting piece 222 at a receiving station 100, the middle part of the films 10 is pressed on a supporting plate a2221 of the supporting piece 222;

the turning assembly 212 continues to rotate, in the process, the latter supporting plate 213 presses on the sliding block 2256 of the pressing assembly 225, the pressing frame 2253 is driven by the sliding block 2256 to move down along the supporting sliding rod 2252 to compress the spring b2259, in the process of moving down, the end of the pressing frame 2253 presses the end of the sliding rod 2231 of the pushing assembly a223 and the pushing assembly b224, so that the sliding rod 2231 slides down along the supporting rod 2215, in the process of sliding down, the pushing plate 2236 pushes the film 10 on the supporting member 222 at the pushing station 200 to the outside thereof, in the process, the rotating roller 2238 also moves towards the roller shaft 2213 under the action of the connecting rod a2233 and the connecting rod b2234, and the rotating roller 2238 is abutted against the surface of the film after moving to the limit position;

it should be noted that, the outer circular arc edge of the film 10 on the supporting piece 222 at the pushing station 200 is attached to the surface of the supporting plate b2222, then the rotating assembly 221 rotates to drive the film 10 at the receiving station 100 to rotate 90 degrees to the pushing station 200, and during this rotation, the film 10 automatically slides down along the surface of the supporting plate a2221 due to gravity, so that the outer circular arc edge of the film 10 is attached to the supporting plate b 2222;

in the rotating process, the film 10 originally located at the push-out station 200 gradually breaks away from the support plate b2222 and is left on the turning plate 2263, and along with the movement of the rotating roller 2238 along the circumferential track, the film 10 is continuously pushed to slide along the turning plate 2263 towards the film feeding frame, after sliding over the rotation axis of the turning plate 2263, the turning plate 2263 automatically turns over, the end parts of the turning plate 2263 are buckled in the support grooves 233 of the guide rods a231 and b232, and then the film 10 automatically slides into the film feeding frame.

In the description of the present utility model, it should be understood that the terms "center," "upper," "lower," "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be configured and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; the device can be mechanically connected, electrically connected and communicated; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present utility model, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature.

The foregoing description of the disclosed embodiments will so enable those skilled in the art to make various modifications and equivalent changes to those described and illustrated without departing from the spirit and scope of the present utility model. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the utility model without departing from the essential scope thereof. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (6)

1. The automatic film feeding equipment for the plastic container film inner labeling is characterized by comprising a film feeding device (1) and a film feeding device (2) arranged on one side of the film feeding device (1), wherein the film feeding device (1) comprises a mechanical arm (11), the film feeding device (2) comprises a film feeding mechanism (21), a turning and pushing mechanism (22) arranged on one side of the film feeding mechanism (21) and a film feeding frame arranged between the turning and pushing mechanism (22) and the mechanical arm (11),

the turnover mechanism (22) comprises a rotating component (221), a supporting piece (222) arranged on the rotating component (221), a pushing component a (223) and a pushing component b (224) arranged on the supporting piece (222), a pressing component (225) arranged above the pushing component a (223) and the pushing component b (224) and a turnover component (226) arranged between the rotating component (221) and the film feeding frame, four turnover components are arranged in an array along the rotating circumferential direction of the supporting piece (222), the supporting piece (222) comprises a supporting plate a (2221) and a supporting plate b (2222), and through grooves (2223) are formed in the positions, close to the middle, of the supporting plate a (2221) and the supporting plate b (2222);

the film feeding mechanism (21) supports the film (10) in a lying state and drives the film to be conveyed onto a supporting piece (222) positioned at the receiving station (100), in the process, the film feeding mechanism (21) drives a pushing component (225) to push down a pushing component a (223) and a pushing component b (224), so that the pushing component a (223) and the pushing component b (224) push the film (10) positioned on the supporting piece (222) positioned at the pushing station (200) onto a tilting component (226) to lean against one side of the film feeding frame, and then the rotating component (221) rotates to transfer the supporting piece (222) positioned at the receiving station (100) together with the film (10) thereon to the pushing station (200) and in the process, the film (10) positioned on the tilting component (226) is conveyed into the film feeding frame through the cooperation of the pushing component a (223) and the pushing component b (224) and the tilting component (226);

the film feeding mechanism (21) comprises a base (2211), a frame (211) arranged on the base (2211), a rotary component (212) arranged on the frame (211) and a supporting plate (213) fixed on the rotary component (212) and driven by the rotary component (212) to perform rotary motion, wherein the supporting plate (213) is used for supporting a film (10) in a lying state;

four pushing components a (223) and four pushing components b (224) are arranged in an array along the circumferential direction of a roller shaft (2213), the roller shaft (2213) is also provided with supporting rods (2215) corresponding to the pushing components a (223) and the pushing components b (224) one by one, the supporting plates a (2221) and b (2222) are both fixed on the supporting rods (2215), the pushing components a (223) and b (224) both comprise sliding rods (2231) in sliding fit with the supporting rods (2215), extension rods a (2232) fixed at the end parts of the sliding rods (2231), connecting rods a (2233) rotatably connected with the end parts of the extension rods a (2232), connecting rods b (2234) with one ends rotatably connected with the connecting rods a (2233), and pushing rods (2235) with the other ends rotatably connected with the connecting rods b (2234), sliding grooves (30) are formed in the supporting plates a (2221), and the pushing rods (5) are in sliding fit with the sliding grooves (30), and pushing plates (2236) are arranged at the other ends of the pushing rods (2236);

the device also comprises an extension rod b (2237) fixed at the end part of the sliding rod (2231) and a rotating roller (2238) rotatably arranged at the end part of the extension rod b (2237), wherein when the rotating roller (2238) moves to the lowest point, the vertical distance from the rotating roller to the outer side edge of the supporting plate b (2222) is L1, the vertical distance from the pushing plate (2236) to the outer side edge of the supporting plate b (2222) is L2, and L1 is more than L2;

the pressing component (225) comprises a support frame (2251) fixed on the frame (211), a support sliding rod (2252) fixed on the lower surface of the support frame (2251) and close to the middle position, a pressing frame (2253) slidably arranged on the support sliding rod (2252), and two guide blocks (2254) symmetrically arranged on two sides of the pressing frame (2253) and fixed on the support frame (2251), wherein sliding support blocks (2255) and sliding blocks (2256) in sliding fit with the sliding support blocks (2255) are arranged at two ends of the pressing frame (2253), a spring a (2257) is connected between the sliding blocks (2256) and the pressing frame (2253), and the outer end parts of the sliding blocks (2256) are abutted against the inner side edges of the guide blocks (2254); a limiting block (2258) is arranged at the end part of the supporting sliding rod (2252), and a spring b (2259) sleeved on the supporting sliding rod (2252) is arranged between the lower pressing frame (2253) and the limiting block (2258);

the tilting assembly (226) comprises a bracket b (2261) arranged on a base (2211), a rotating frame b (2262) arranged on the bracket b (2261) and a tilting plate (2263) rotatably arranged on the rotating frame b (2262), wherein the width of the tilting plate (2263) is smaller than that of the through groove (2223), and the tilting plate (2263) is tilted towards one side of the film supply frame in a free state.

2. The automatic film feeding device for the in-film labeling of the plastic container as in claim 1, wherein the rotating assembly (221) comprises a rotating frame a (2212) arranged on the base (2211), a roll shaft (2213) rotatably arranged on the rotating frame a (2212), and a driving piece (2214) arranged on one side of the rotating frame a (2212) and used for driving the roll shaft (2213) to rotate;

the support plate a (2221) and the support plate b (2222) are arranged in an L shape.

3. An automatic film feeding device for film inner labeling of plastic container according to claim 1, wherein the film feeding frame comprises a plurality of guide rods, wherein the distance between the guide rod a (231) and the guide rod b (232) which are positioned at the lowest part is smaller than the width of the turning plate (2263), the end parts of the guide rod a (231) and the guide rod b (232) are symmetrically provided with support grooves (233), and when the turning plate (2263) is turned to the end part clamped into the support grooves (233), the contact parts of the guide rod a (231) and the guide rod b (232) and the film (10) are on the same plane with the upper surface of the turning plate (2263).

4. An automatic film feeding device for plastic container film inner labeling as in claim 1, wherein a hiding groove (40) for hiding a push plate (2236) is provided on one end of a sliding groove (30) on the supporting plate a (2221).

5. The automatic film feeding device for the in-film labeling of the plastic container according to claim 1, wherein the supporting surface of the supporting plate b (2222) is an arc surface matched with the large arc edge of the film (10), and the supporting plate b (2222) is provided with limit edges (2224) which are arranged in a splayed shape in a bilateral symmetry manner.

6. An automatic film feeding process using an automatic film feeding apparatus for in-film labeling of plastic containers according to claim 1, comprising the following steps:

step one, a film feeding process, wherein a film feeding mechanism (21) supports a film (10) in a lying state and drives the film to be conveyed towards a material receiving station;

step two, a horizontal pushing procedure, wherein the film supply mechanism (21) in the step one pushes down the pushing component through the pushing component (225) in the transmission process, so that the pushing component pushes the film (10) positioned at the pushing station to the tilting station;

step three, a turning and pushing procedure, wherein after the film (10) in the step one is conveyed to a material receiving station, a rotating component (221) rotates to drive the film (10) at the material receiving station to be pushed out of the station for rotating and transferring, and in the transferring process, a pushing component continuously pushes the film at the turning and pushing station to move towards a film feeding frame under the driving of the rotating component (221);

step four, a tilting procedure, wherein the film (10) moving towards the film feeding frame in the step three slides into the film feeding frame along the tilting plate (2263) and the guide rod of the film feeding frame under the action of gravity;

and fifthly, a film sucking process, wherein a mechanical arm (11) positioned at a film sucking station sucks the film (10) in the film feeding frame and transfers the film backwards.