CN219257925U - Automatic material belt sealing film equipment - Google Patents

Abstract

The utility model discloses a material belt film sealing automatic device which comprises an automatic packaging device, a material supplementing and conveying mechanism and a material supplementing turnover mechanism, wherein the automatic packaging device comprises a material belt conveying line, a material cabin detection station, a film covering station, a film pressing composite station and a material belt traction station which are sequentially arranged along the running direction of the material belt conveying line, the material supplementing and conveying mechanism comprises a material supplementing and circulating material belt, a material feeding station matched with the material cabin detection station in a relative position is arranged on the material supplementing and circulating material belt, the material supplementing and turnover mechanism comprises a material turnover part for turnover between the material cabin detection station and the material feeding station, and the visual detection mechanism is in communication connection with the material turnover part. The utility model can realize the film pasting packaging of the material belt and the vacancy feeding, so that the material belt has no empty load of a material cabin, and the packaging requirement of the full material belt is met. And the vacancy monitoring and material supplementing turnover are easy to realize, and the operation is efficient and smooth. The film-sticking packaging is efficient and stable in operation, and the production efficiency and the product qualification rate are greatly improved.

Description

Automatic material belt sealing film equipment

Technical Field

The utility model relates to automatic material tape sealing film equipment, and belongs to the technical field of automatic packaging.

Background

Automation technology is widely used in industry, agriculture, military, scientific research, transportation, commerce, medical, services, and households. By adopting the automation technology, people can be liberated from heavy physical labor, partial mental labor and severe and dangerous working environments, the organ functions of the people can be expanded, the labor productivity is greatly improved, and the ability of the people to know and reform the world is enhanced.

At present, there is an automatic operation of sealing films of a material belt, a plurality of material cabins are arranged on the material belt at intervals, loading elements are arranged in the material cabins, and after the front end of the material belt is produced and processed, automatic sealing films are required to be carried out through film sealing equipment.

This material area can carry out automated inspection after loading element carries, exists the NG article after the detection, leads to appearing empty cabin on the material area, and the product encapsulation takes the requirement to have no empty cabin, and traditional encapsulation equipment can't satisfy its requirement.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides automatic equipment for sealing a film by a material belt, aiming at the problem that the traditional packaging equipment cannot fill an empty bin.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the material belt sealing film automation equipment comprises a material belt main body with a plurality of linear interval distribution cabins,

comprises an automatic packaging device, a material supplementing and conveying mechanism and a material supplementing turnover mechanism,

the automatic packaging device comprises a material belt conveying line, a material cabin detection station, a film coating station, a film pressing composite station and a material belt traction station, wherein the material cabin detection station, the film coating station, the film pressing composite station and the material belt traction station are sequentially arranged along the running direction of the material belt conveying line, the material cabin detection station comprises a visual detection mechanism arranged towards the material cabin, the film coating station comprises a composite film supply mechanism and a composite film rotary pre-attaching part arranged on the material belt conveying line, the film pressing composite station comprises a composite film pressing mechanism arranged on the running path of a material belt main body, and the material belt traction station comprises a traction driving source in transmission connection with the material belt main body;

the material supplementing and conveying mechanism comprises a material supplementing and circulating material belt, a material supplying station matched with the material cabin detecting station in relative position is arranged on the material supplementing and circulating material belt,

the material supplementing turnover mechanism comprises a material turnover part for turnover between the material cabin detection station and the material supply station for material transfer,

the visual detection mechanism is communicated with the material turnover part.

Preferably, the visual detection mechanism comprises a detection rack, a visual acquisition part with adjustment displacement and a light supplementing source arranged towards the material cabin, wherein the visual acquisition part is arranged on the detection rack.

Preferably, the composite film feeding mechanism comprises a composite film material roll carrier and a plurality of guide wheels for guiding and rotating the composite film,

the composite membrane rotary pre-attaching part comprises a composite membrane windowing used for the composite membrane to pass through.

Preferably, the composite film pressing mechanism comprises a composite bottom die and a composite top die, wherein the composite bottom die is positioned at the bottom of the material belt conveying line and used for supporting the material belt main body, and the composite top die is arranged opposite to the composite bottom die and provided with lifting displacement.

Preferably, the composite top mold has a lifting floating displacement.

Preferably, the traction driving source comprises a driving roller body positioned at the bottom of the material belt conveying line and a pressing roller for pressing the material belt main body on the driving roller body,

and an avoidance ring groove for avoiding the material cabin is formed in the driving roller body.

Preferably, a positioning linear hole belt is arranged on the material belt main body, and a positioning matching driving fluted disc matched with the positioning linear hole belt is arranged on the driving roller body.

Preferably, the material turnover part comprises a horizontal displacement sliding seat with horizontal displacement switching, a lifting position transferring seat with lifting displacement arranged on the horizontal displacement sliding seat, and a material picking end arranged on the lifting position transferring seat,

the material picking end is a negative pressure picking part or a magnetic picking part.

Preferably, the material supplementing circulating material belt comprises a material supplementing circulating material belt main body and a material guide groove arranged on the material supplementing circulating material belt main body, wherein a material stopping stop block is arranged at the discharge end of the material guide groove, and a material feeding station is formed between the material stopping stop block and the material guide groove.

Preferably, the automatic packaging device comprises a base frame main body for carrying the automatic packaging device, the material supplementing and conveying mechanism and the material supplementing turnover mechanism, a control host and a display connected with the control host are arranged on the base frame main body,

the control host is in communication connection with the automatic packaging device, the material supplementing and conveying mechanism and the material supplementing turnover mechanism respectively.

The beneficial effects of the utility model are mainly as follows:

1. the material belt film packaging and vacancy feeding can be realized, so that the material belt has no empty cabin, and the packaging requirement of full material belt is met.

2. And the vacancy monitoring and material supplementing turnover are easy to realize, and the operation is efficient and smooth.

3. The film-sticking packaging is efficient and stable in operation, and the production efficiency and the product qualification rate are greatly improved.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the detailed description of non-limiting embodiments, made with reference to the following drawings, in which:

FIG. 1 is a schematic diagram of an automated web sealing apparatus of the present utility model.

FIG. 2 is a schematic diagram of the overall structure of the tape sealing automation device of the present utility model.

Fig. 3 is an enlarged schematic view of the portion a in fig. 1.

Fig. 4 is an enlarged schematic view of the portion B in fig. 1.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The present application is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not limiting of the utility model. It should be noted that, for convenience of description, only the portions related to the present utility model are shown in the drawings. It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other.

The present utility model provides a tape sealing automation apparatus, as shown in fig. 1 to 4, comprising a tape body 200 having a plurality of linearly spaced dispensing compartments 100.

As shown in fig. 1 and 2, the automatic material tape film sealing equipment comprises an automatic packaging device 1, a material supplementing and conveying mechanism 2 and a material supplementing turnover mechanism 3.

The automatic packaging device comprises a material belt conveying line 4, a material cabin detection station 5, a film coating station 6, a film pressing composite station 7 and a material belt traction station 8, wherein the material cabin detection station 5, the material belt traction station 8 and the material belt traction station are sequentially arranged along the running direction of the material belt conveying line 4, the material cabin detection station 5 comprises a visual detection mechanism 50 arranged towards the material cabin, the film coating station comprises a composite film supply mechanism 61 and a composite film rotary pre-laminating part 62 arranged on the material belt conveying line, the film pressing composite station 7 comprises a composite film pressing mechanism 70 arranged on the running path of a material belt main body, and the material belt traction station 8 comprises a traction driving source 80 in transmission connection with the material belt main body.

The feeding conveying mechanism 2 comprises a feeding circulating material belt 21, and a feeding station 22 matched with the cabin detection station in a relative position is arranged on the feeding circulating material belt.

The material supplementing turnover mechanism 3 comprises a material turnover part 30 for turnover between the material cabin detection station 5 and the material supply station 22 for material transfer, and the visual detection mechanism is in communication connection with the material turnover part.

The specific implementation process and principle description:

the material belt main body 200 loaded with materials runs along the material belt conveying line 4, the material belt main body 200 sequentially passes through the material cabin detection station 5, the film laminating station 6 and the film pressing composite station 7 and is in transmission connection with the traction driving source 80 of the material belt traction station 8, at this time, the composite film of the composite film supply mechanism 61 is pulled out and rotationally attached to the material belt main body by the composite film rotary pre-attaching part 62, and attaching and packaging between the composite film and the material belt main body are carried out at the position of the composite film pressing mechanism 70.

In operation, the material cabin 200 first performs image acquisition of the visual detection mechanism 50 through the visual detection station 5, and determines whether the current material cabin 200 is empty or not, and the empty material cabin 200 directly runs without empty load, and the empty load transfers and carries the material of the material feeding station 22 on the empty material cabin 200 through the material turnover part 30.

The material belt main body is then moved to the laminating station 6 for pre-laminating of the composite film, then is moved to the film pressing and compounding station 7 for compound lamination packaging between the composite film and the material belt main body, and can be realized by adopting modes of hot lamination and the like, and finally, the material belt is packaged and discharged through the material belt traction station 8.

The discharge end can be provided with a cutting mechanism for sectionally cutting, and winding equipment can be adopted for winding.

In one embodiment, the visual inspection mechanism 50 includes an inspection frame 51, a visual acquisition portion 52 provided on the inspection frame 51 and having an adjustment displacement, and a light supplementing source 53 provided toward the bin.

Specifically, the vision collection unit 52 is mounted on the detection frame 51 via an adjustable bracket, and the light supplementing source 53 is used for supplementing light to the photographed image, so as to ensure that the collected image is clear.

In one embodiment, the composite film feeding mechanism 61 includes a composite film roll carriage 611, a plurality of guide wheels 612 for guiding and revolving the composite film, and the composite film revolving pre-attaching portion includes a composite film windowing for the composite film to pass through.

Namely, unreeling is realized through the composite film material roll carrier 611, and the guide wheel 612 is used for realizing pre-attaching operation with the material belt main body through the composite film windowing after guiding the composite film.

Of course, the composite film window can be internally provided with a pressing guide wheel for pressing, thereby meeting the pre-pressing lamination of self-adhesive composite films and the like.

In one embodiment, the composite film pressing mechanism 70 includes a composite bottom die 71 located at the bottom of the material belt conveyor line for supporting the material belt main body, and a composite top die 72 provided opposite to the composite bottom die and having a lifting displacement. The composite top mold has lifting and floating displacement.

Namely, the clamping with the composite bottom die 71 is realized through the downward pressing of the composite top die 72, the requirement of mutually attaching and packaging between the composite film and the material belt main body is met, and the self-adhesive type thermal composite type packaging is applicable.

In a specific embodiment, the traction driving source 80 includes a driving roller 81 located at the bottom of the material belt conveying line, a pressing roller 82 for pressing the material belt main body onto the driving roller, and an avoidance groove 811 for avoiding the material cabin is formed on the driving roller. The material belt main body is provided with a positioning linear hole belt, and the driving roller body is provided with a positioning matching driving fluted disc 812 matched with the positioning linear hole belt.

Specifically, the driving roller 81 performs high-precision traction driving on the material belt main body through the positioning and matching driving fluted disc 812, the avoidance ring groove 811 realizes the avoidance of the material cabin, and the pressing roller 82 realizes the combined and matching transmission.

In one embodiment, the material turnover part 30 includes a horizontal displacement sliding seat 31 with horizontal displacement switching, a lifting position transferring seat 32 with lifting displacement arranged on the horizontal displacement sliding seat, and a material picking end 33 arranged on the lifting position transferring seat, wherein the material picking end is a negative pressure picking part or a magnetic picking part.

Namely, the requirements for aligning and picking up the materials are met through horizontal and lifting displacement, the material picking end 33 can be used for adsorbing the materials, magnetic attraction or negative pressure adsorption is uniform, and the structure of picking up the materials can be realized by adopting a clamp and the like.

In a specific embodiment, the feeding circulation material belt 21 comprises a feeding circulation material belt main body and a material guide groove arranged on the feeding circulation material belt main body, wherein a material stop block is arranged at the discharge end of the material guide groove, and a feeding station 22 is formed between the material stop block and the material guide groove.

Continuous feeding and guiding of the material supplementing materials are realized through the material supplementing circulating material belt main body and the material guiding groove, accurate limiting of the materials is realized through the material stopping stop block, and the requirement of picking up high-precision alignment matching is met.

In one embodiment, as shown in fig. 2, the device comprises a base frame body 9 for carrying an automatic packaging device, a feeding conveying mechanism and a feeding turnover mechanism, wherein a control host 91 and a display 92 connected with the control host are arranged on the base frame body 9, and the control host is respectively in communication connection with the automatic packaging device, the feeding conveying mechanism and the feeding turnover mechanism.

I.e. control programming and regulation can be realized through the control host 91, and the display 92 meets the requirements of programming and regulation display and visual acquisition display.

Through the description, the material belt film sealing automatic equipment can realize material belt film pasting and packaging and vacancy feeding, so that the material belt has no empty cabin, and the packaging requirement of full material belt is met. And the vacancy monitoring and material supplementing turnover are easy to realize, and the operation is efficient and smooth. The film-sticking packaging is efficient and stable in operation, and the production efficiency and the product qualification rate are greatly improved.

The terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus/apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus/apparatus.

Thus far, the technical solution of the present utility model has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present utility model is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present utility model, and such modifications and substitutions will fall within the scope of the present utility model.

Claims (10)

1. The material area seals membrane automation equipment, the material area is including possessing a plurality of linear intervals and divide the material area main part in cloth cabin, its characterized in that:

comprises an automatic packaging device, a material supplementing and conveying mechanism and a material supplementing turnover mechanism,

the automatic packaging device comprises a material belt conveying line, a material cabin detection station, a film coating station, a film pressing composite station and a material belt traction station, wherein the material cabin detection station, the film coating station, the film pressing composite station and the material belt traction station are sequentially arranged along the running direction of the material belt conveying line, the material cabin detection station comprises a visual detection mechanism arranged towards the material cabin, the film coating station comprises a composite film supply mechanism and a composite film rotary pre-attaching part arranged on the material belt conveying line, the film pressing composite station comprises a composite film pressing mechanism arranged on the running path of a material belt main body, and the material belt traction station comprises a traction driving source in transmission connection with the material belt main body;

the material supplementing and conveying mechanism comprises a material supplementing and circulating material belt, a material supplying station matched with the material cabin detecting station in relative position is arranged on the material supplementing and circulating material belt,

the material supplementing turnover mechanism comprises a material turnover part for turnover between the material cabin detection station and the material supply station for material transfer,

the visual detection mechanism is communicated with the material turnover part.

2. The web sealing automation device of claim 1, wherein:

the visual detection mechanism comprises a detection rack, a visual acquisition part with adjustable displacement and a light supplementing source arranged towards the material cabin, wherein the visual acquisition part is arranged on the detection rack.

3. The web sealing automation device of claim 1, wherein:

the composite film supply mechanism comprises a composite film material roll carrier and a plurality of guide wheels for guiding and rotating the composite film,

the composite membrane rotary pre-attaching part comprises a composite membrane windowing used for the composite membrane to pass through.

4. The web sealing automation device of claim 1, wherein:

the composite film pressing mechanism comprises a composite bottom die and a composite top die, wherein the composite bottom die is positioned at the bottom of the material belt conveying line and used for supporting the material belt main body, and the composite top die is arranged opposite to the composite bottom die and provided with lifting displacement.

5. The web sealing automation device of claim 4, wherein:

the composite top die is provided with lifting floating displacement.

6. The web sealing automation device of claim 1, wherein:

the traction driving source comprises a driving roller body positioned at the bottom of the material belt conveying line and a pressing roller for pressing the material belt main body on the driving roller body,

and an avoidance ring groove for avoiding the material cabin is formed in the driving roller body.

7. The web sealing automation device of claim 6, wherein:

the material belt main body is provided with a positioning linear hole belt, and the driving roller body is provided with a positioning matching driving fluted disc matched with the positioning linear hole belt.

8. The web sealing automation device of claim 1, wherein:

the material turnover part comprises a horizontal displacement sliding seat with horizontal displacement switching, a lifting position transferring seat with lifting displacement arranged on the horizontal displacement sliding seat, and a material picking end arranged on the lifting position transferring seat,

the material picking end is a negative pressure picking part or a magnetic picking part.

9. The web sealing automation device of claim 1, wherein:

the material feeding circulating material belt comprises a material feeding circulating material belt main body and a material guide groove arranged on the material feeding circulating material belt main body, wherein a material stopping stop block is arranged at the discharge end of the material guide groove, and a material feeding station is formed between the material stopping stop block and the material guide groove.

10. The tape sealing automation device according to any one of claims 1 to 9, wherein:

comprises a base frame main body used for carrying the automatic packaging device, the material supplementing and conveying mechanism and the material supplementing turnover mechanism, a control host and a display connected with the control host are arranged on the base frame main body,

the control host is in communication connection with the automatic packaging device, the material supplementing and conveying mechanism and the material supplementing turnover mechanism respectively.

Images