CN222934904U - Continuous membrane material waste material cuts out back receiving device - Google Patents

Abstract

The utility model discloses a device for receiving waste materials after cutting of continuous film materials. The front feeding table and the rear feeding table are arranged flush on both sides of the machine table, with a gap formed between the two. The detection mechanism is arranged above the front feeding table, the front auxiliary roller group is arranged on the rear side of the front feeding table, the lifting cylinder in the collecting mechanism is arranged on the machine table and close to the front side of the rear feeding table, the cover plate is arranged at the output end of the lifting cylinder and is flush with the rear feeding table, the cover plate is driven to move upward and then opens the receiving port, the cutting mechanism is arranged between the front auxiliary roller group and the collecting mechanism for cutting waste materials into the receiving port, and the receiving mechanism is arranged above the rear feeding table for connecting the film material that continues to be fed after the waste materials are cut with the front film material through an adhesive tape. The utility model not only realizes the cutting of waste materials on the continuous film material, but also can connect the materials after the waste materials are cut so that they can be collected and rolled in a continuous form, thereby improving the automation level of collecting materials.

Description

Continuous membrane material waste material cuts out back receiving device

Technical Field

The utility model relates to the technical field of receiving devices, in particular to a receiving device for continuous film material waste after cutting.

Background

As shown in fig. 6, for a product formed after printing a discontinuous coating on a continuous film material 1A, it is necessary to detect a printing area with a coating and then receive the product, if a defect area 1B ' is detected in a certain printing area, the whole printing area is waste 1B and is removed, but the front forming material 1A ' and the rear forming material 1a″ located at two sides of the printing area are qualified areas, so that it is necessary to remove the waste 1B, connect the front forming material 1A ' and the rear forming material 1a″ and then roll the product in the form of a continuous film material for convenient subsequent storage and transportation.

In the prior art, in an automatic receiving device, like in the application number 201710247662.2, it discloses pressing mechanism, rectifying mechanism, connect material docking mechanism, goods cutting mechanism, laminating device and rubberizing tape manipulator, can realize the material area and the end to end of material area dock and improve the production efficiency of product, but it is not applicable to need the continuous membrane material of the rethread to cut out the part and then dock and bond cutting line department again.

Disclosure of utility model

The utility model aims to provide a continuous film material waste material after-cutting receiving device, which not only can realize the cutting of waste materials on continuous film materials, but also can connect the materials after the cutting of waste materials to enable the materials to be received and coiled in a continuous mode, thereby improving the automation level of receiving materials.

In order to achieve the aim, the technical scheme adopted by the utility model is that the continuous film material waste material after-cutting receiving device comprises a machine table, a feeding roller and a receiving roller which are arranged at two ends of the machine table, and further comprises:

The front feeding table and the rear feeding table are arranged on two sides of the machine table in a flush way and used for bearing continuous film materials, an interval is formed between the front feeding table and the rear feeding table,

The detection mechanism is arranged above the front feeding table and is used for detecting a defect area on the continuous film material,

The front auxiliary roller set is arranged at the rear side of the front feeding table and is used for conveying continuous film materials with power,

The collecting mechanism comprises a lifting cylinder and a cover plate, wherein the lifting cylinder is arranged on the machine table and is close to the front side of the rear feeding table, the cover plate is arranged at the output end of the lifting cylinder and is flush with the rear feeding table, a receiving opening communicated with the machine table is opened after the lifting cylinder is driven to move upwards,

The cutting mechanism is arranged between the front auxiliary roller set and the collecting mechanism and is used for cutting waste materials into the material receiving opening,

The receiving mechanism is arranged above the rear feeding table and comprises a moving module and an adhesive tape sticking module, wherein the adhesive tape sticking module is arranged on the moving module and used for continuously feeding the film materials after the waste materials are removed, and the film materials are connected with the front section film materials through adhesive tapes.

As further optimization, the material cutting mechanism comprises a base, a cutting cylinder and a cutter, wherein the base and the cutting cylinder are arranged on a machine table, the base is flush with the feeding table, and the cutter is arranged at the output end of the cutting cylinder to cut continuous film materials passing through the base.

As further optimization, the front feeding table and/or the rear feeding table are/is provided with adsorption areas, so that the fed materials can be adsorbed and fixed.

As a further optimization, the automatic feeding device further comprises a pair of material pressing mechanisms, wherein the pair of material pressing mechanisms are respectively arranged at two ends of the rear feeding table, each material pressing mechanism comprises a material pressing cylinder and a pressing rod, each material pressing cylinder is arranged on the machine table, and the pressing rods are arranged at the output ends of the material pressing cylinders and used for pressing the membrane materials located on the rear feeding table.

As a further optimization, the continuous film feeding machine further comprises a rear auxiliary roller set, has the same function as the front auxiliary roller set, is arranged on the machine table and is positioned at the rear side of the rear feeding table and is used for conveying the continuous film material with power.

As further optimization, the movable module comprises an electric cylinder and a vertical cylinder, a support is arranged on the machine table, the electric cylinder is arranged on the support, the vertical cylinder is arranged at the output end of the electric cylinder, and the output end is provided with an adhesive tape sticking module.

As further optimization, rubberizing belt module includes mounting panel, guide subassembly, pressure material wheel and scissors cylinder, one side of mounting panel is equipped with the adhesive tape roll, and is close to adhesive tape roll department and articulate there is the connecting plate, and first cylinder on this mounting panel links to each other with the free end of connecting plate, guide subassembly sets up and is used for the pay-off sticky tape on the connecting plate and compresses tightly the sticky tape on the membrane material, the output of second cylinder on the mounting panel sets up the pressure material wheel, the pressure material wheel is close to guide subassembly and compresses tightly the sticky tape through the drive, the output of third cylinder on the mounting panel is equipped with the scissors cylinder, the scissors cylinder cuts the sticky tape that is located between pressure material wheel and the guide subassembly through the drive.

As a further optimization, the guide assembly comprises a first guide wheel, a second guide wheel and a limiting plate, wherein the first guide wheel is arranged on one side, close to the pressing wheel, of the connecting plate, the second guide wheel is arranged on the other side of the connecting plate, the bottom ends of the first guide wheel and the second guide wheel are respectively abutted to the upper surface of the adhesive tape, an anti-sticking coating is arranged on the limiting plate, and the anti-sticking coating is arranged on the connecting plate and used for abutting the lower surface of the adhesive tape to at least avoid the adhesive tape from being far away from the first guide wheel.

The middle part of the adsorption plate is provided with a middle cavity, one side of the adsorption plate is provided with a vacuum suction head communicated with the middle cavity, the other side of the adsorption plate is provided with adsorption holes communicated with the middle cavity in a matrix shape, and the position of the end part of the adhesive tape can be positioned in an adsorption mode to ensure that the first material guiding wheel can act on the end part of the adhesive tape.

As a further optimization, the detection mechanism is a visual detection mechanism, which comprises a CCD camera for identifying defective areas on the continuous film material.

Compared with the prior art, the automatic material collecting device has the advantages that waste materials can be collected after being cut off through the functions of the detection mechanism, the material cutting mechanism and the collecting mechanism, and the cut film materials are continuously collected after being connected through the feeding of the front auxiliary roller set, the receiving of the rear material collecting roller and the material receiving mechanism, so that the continuous film materials are continuously collected and coiled in a continuous mode after the waste materials are cut off, and the automation level of material collecting is improved.

Drawings

Fig. 1 is a structural diagram of the present utility model.

Fig. 2 is a view of the structure of the present utility model from the other side.

Fig. 3 is a block diagram of a front auxiliary roller set, a cutting mechanism, a collecting mechanism and a rear auxiliary roller set of the present utility model.

Fig. 4 is a structural diagram of the taping module of the present utility model.

Fig. 5 is a structural view of the adsorption plate of the present utility model.

Fig. 6 is a schematic diagram of the product.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

As shown in fig. 1 to 3, in combination with fig. 6, a continuous film waste material removing and receiving device comprises a machine 10, a feeding roller 21, a receiving roller 22, a front feeding table 31, a rear feeding table 32, a detecting mechanism 40, a front auxiliary roller set 51, a cutting mechanism 60, a collecting mechanism 70 and a receiving mechanism 80, wherein the feeding roller 21 and the receiving roller 22 are respectively arranged at two ends of the machine 10, the front feeding table 31 and the rear feeding table 32 are flush and arranged at two sides of the machine 10 for bearing a continuous film material 1A, a space for installing the front auxiliary roller set 51, the cutting mechanism 60 and the collecting mechanism 70 is formed between the front feeding table 31, the detecting mechanism 40 is arranged above the front feeding table 31, a CCD camera can be adopted for visually detecting a defect area 1B 'on the continuous film material 1A, a whole piece of material area with the defect area 1B' detected is positioned at the waste material 1B, the front auxiliary roller set 51 is arranged at the rear side of the front feeding table 31 and is used for conveying the continuous film material 1A with power, the collecting mechanism 70 comprises a lifting cylinder 71 and a cover plate 72, the lifting cylinder 71 is arranged on the machine table 10 and is close to the front side of the rear feeding table 32, the cover plate 72 is arranged at the output end of the lifting cylinder 71 and is flush with the rear feeding table 32, a material receiving opening 100 communicated with the machine table 10 is opened after the lifting cylinder is driven to move upwards, the material cutting mechanism 60 is arranged between the front auxiliary roller set 51 and the collecting mechanism 70 and is used for cutting waste 1B into the material receiving opening 100, the material receiving mechanism 80 is arranged above the rear feeding table 32 and comprises a moving module 82 and a tape attaching module 83, and the tape attaching module 83 is arranged on the moving module 82 and is used for connecting the film material which is continuously fed after the waste 1B is cut with the front section of film material through a tape so as to form continuous film material and then continuously fed and wound on the material receiving roller 22.

In the utility model, a whole roll of continuous film material 1A is placed on a feeding roller 21 for feeding, the continuous film material 1A in an unfolding state is sequentially pulled and conveyed forwards through the upper end of a front feeding table 31, passes through a front auxiliary roller group 51, passes through a cutting mechanism 60, is positioned at the upper end of a cover plate 72, passes through the upper end of a rear feeding table 32 and finally is wound on a collecting roller 22, in the whole feeding process, a detection mechanism (CCD camera) visually detects a defect area 1B 'on the continuous film material 1A, the whole material area where the defect area 1B' appears is waste material 1B, then the front end position of the waste material 1B is cut along a first cutting line 1C (virtual cutting line) through a cutting mechanism 60, the front forming material 1A 'close to the first cutting line 1C and the film material at the front end thereof are continuously driven to move forwards by the collecting roller 22 and are positioned at the upper end of the rear table 32 and stop moving forwards when the whole material area where the defect area 1B appears on the whole material area is positioned below a tape pasting module 83, meanwhile, as the continuous film 1A is already cut, the film behind the first cutting line 1C is pulled by the front auxiliary roller set 51 to move forward, the lifting cylinder 71 drives the cover plate 72 to move upward to open the receiving opening 100, the waste 1B is pushed into the receiving opening 100, when the tail end of the waste 1B is located below the cutting mechanism 60, the cutting mechanism 60 cuts along the second cutting line 1C' (virtual cutting line), the waste 1B is pulled into the receiving opening 100 under the action of gravity at the front end of the waste 1B, the lifting cylinder 71 drives the cover plate 72 to move downward to be level with the rear feeding table 32, the rear molding material 1A 'near the second cutting line 1C' and the film at the rear end of the rear molding material continue to move forward by the front auxiliary roller set 51, and is located at the upper end of the back feeding stage 32 and below the tape adhering module 83, so that the second cutting line 1C 'is close to and contacts with the first cutting line 1C, the tape adhering module 83 is driven by the moving module 82 to move to adhere the connection part of the first cutting line 1C and the second cutting line 1C', and after the back forming material 1A 'is connected with the front forming material 1A', the material is recovered by the back recovery roller 22. When the scrap area 1B 'is cut out by the whole material area defined as the scrap 1B, the front forming material 1A', the rear forming material a ", and the like all have the same length, namely, the length between the first cutting line 1C and the second cutting line 1C ', so that the accurate butt joint of the rear forming material 1A" and the front forming material 1A' can be realized by feeding the material receiving roller 22, the front auxiliary roller group 51, and the like controlled by the servo motor.

The utility model can collect the waste 1B after cutting through the functions of the detection mechanism 50, the cutting mechanism 60 and the collecting mechanism 70, and continuously collect the cut film material after connecting through the feeding of the front auxiliary roller group 51, the receiving of the rear receiving roller 22 and the receiving mechanism 80 (the adhesive tape sticking module 83), thereby realizing continuous material collecting and coiling of the material after cutting the waste 1B on the continuous film material 1A and improving the automation level of material collecting.

More specifically, the cutting mechanism 60 includes a cutting cylinder 61, a cutter 62 and a base 63, the base 63 and the cutting cylinder 61 are disposed on the machine 10, the base 63 is flush with the front/rear feeding table, the cutter 62 is disposed at an output end of the cutting cylinder 61 to cut the continuous film material 1A passing through the base 63, the base 63 can realize a supporting function when cutting the continuous film material 1A, and a gap can be provided on the base 63 for avoiding a blade of the cutter 62.

In order to ensure accurate visual detection of the defect area 1B 'on the continuous film material 1A, a first adsorption area 310 may be disposed on the front feeding table 31, the continuous film material 1A is flattened by the pulling action of the front auxiliary roller set 51 and the first adsorption area 310 on the continuous film material 1A, so as to more accurately identify the defect area 1B', in order to ensure accurate taping and receiving between the rear forming material 1a″ and the front forming material 1A ', a second adsorption area 320 may be disposed below the taping module 83 on the rear feeding table 32 for adsorbing and fixing the rear forming material 1a″ and the front forming material 1A', and of course, the second adsorption area 320 may also exert adsorption and fixing actions when moving the first cut line 1C on the cut film material onto the cut film material.

Similarly, the film forming machine further comprises a pair of pressing mechanisms 90, the pair of pressing mechanisms 90 are respectively arranged at two ends of the rear feeding table 32, the pressing mechanisms 90 comprise pressing cylinders 91 and pressing rods 92, the pressing cylinders 91 are arranged on the machine table 10, the pressing rods 92 are arranged at the output ends of the pressing cylinders 91 and used for pressing the film materials on the rear feeding table 32, the film materials can be fixed, and of course, the pressing mechanisms close to one side of the material collecting roller 22 can also move to the corresponding position on the rear feeding table 22 from the first cutting line 1C on the cut film materials to press and fix the film materials.

In addition, a rear auxiliary roller set 52 may be provided, which is disposed on the machine 10 and located at the rear side of the rear feeding stage 22 for conveying the continuous film material with power, and the positioning of the film material on the rear feeding stage 22 is also easily controlled by the provision of the rear auxiliary roller set 52.

For the concrete structure of the material receiving mechanism 80, the moving module 82 comprises an electric cylinder and a vertical cylinder, the machine 10 is provided with a bracket 81, the electric cylinder is arranged on the bracket 81, the vertical cylinder is arranged at the output end of the electric cylinder, the output end is provided with a tape sticking module 83, and the electric cylinder and the vertical cylinder cooperatively act to drive the tape sticking module 83 to move in the horizontal direction and the vertical direction.

As shown in fig. 4 and 5, the tape sticking module 83 has a specific structure that the tape sticking module 83 includes a first mounting plate 8301, the first mounting plate 8301 is disposed at an output end of a vertical electric cylinder, a winding shaft 8302 is disposed at one side of the first mounting plate 8301, a tape roll 800a is sleeved on the winding shaft 8302, a connecting plate 831 is hinged on the first mounting plate 8301, the other end of the connecting plate 831 is connected with a first air cylinder 832 disposed on the first mounting plate 8301, a material guiding assembly 833 is disposed on the connecting plate 831 near a connection position between the connecting plate 831 and the first air cylinder 832, a tape 800b passes through the material guiding assembly 833 and is tightly pressed on a film (a first cutting line 1C and a second cutting line 1C'), a material pressing wheel 835 is disposed at an output end of a second air cylinder 834 disposed on one side of the first mounting plate 8301, the material pressing wheel 835 is near the material guiding assembly 833 and is driven to press the tape 800b, a scissor air cylinder 837 is disposed at an output end of a third air cylinder 836 on the second mounting plate 8303, and the scissor air cylinder 837 is driven to cut the tape located between the material pressing wheel 835 and the material guiding assembly 833. The specific working process of the taping module 83 is that the first air cylinder 832 drives the guiding component 833 to compress the adhesive tape 800b at the end position of the joint of the first cutting line 1C and the second cutting line 1C ', the electric cylinder drives the vertical air cylinder and the taping module 83 to translate, in the translating process, as the end of the adhesive tape 800b is compressed and adhered to the film material, the guiding component 833 can drive the adhesive tape at the rear position to adhere to the film material in the translating process, and force the adhesive tape roll 800a to continuously discharge the adhesive tape and compress the adhesive tape to adhere to the film material until the other end position of the joint of the first cutting line 1C and the second cutting line 1C', the second air cylinder 834 can drive the pressing wheel 835 to move downwards to abut against the adhesive tape 800b to further compress the adhesive tape, then the first air cylinder 832 drives the guiding component 833 to lift a certain distance, the third air cylinder drives the scissor air cylinder 837 to stretch between the guiding component 833 and the pressing wheel 835, and the scissor 837 drives the cutting wheel 835 to further compress the adhesive tape to adhere to the film material until the cutting wheel 835 is connected with the film material by a certain distance, and the cutting section of the adhesive tape is further compressed by the cutting wheel 835 is further driven by the electric cylinder to continuously compress the adhesive tape to the film material.

More specifically, the guiding assembly 833 includes a first guiding wheel 8331, a second guiding wheel 8332 and a limiting plate 8333, the first guiding wheel 8331 is disposed on one side of the connecting plate 831 near the pressing wheel 835 through a first rotating shaft 833a on the connecting plate 831, the second guiding wheel 8332 is disposed on the other side of the connecting plate 831 through a first rotating shaft 833b on the connecting plate 831, bottom ends of the first guiding wheel 8331 and the second guiding wheel 8332 are respectively abutted to an upper surface of the adhesive tape 800b, an anti-sticking coating is disposed on the limiting plate 8333, and the anti-sticking coating is disposed on the connecting plate 831 and is used for abutting against a lower surface of the adhesive tape 800b to avoid the adhesive tape from being far away from the first guiding wheel 8331 under the unsupported effect to affect the pressing action of the first guiding wheel 8331 on the adhesive tape.

The guiding assembly 833 further comprises an adsorption plate 8334, the adsorption plate 8334 is arranged between the first guiding wheel 8331 and the second guiding wheel 8332 and is used for adsorbing the adhesive tape, particularly, a middle cavity 8330 is arranged in the middle of the adsorption plate 8334, one side of the adsorption plate 8334 is provided with a vacuum suction head 8330' communicated with the middle cavity 8330, the other side of the adsorption plate 8334 is provided with a matrix-shaped adsorption hole 8330″ communicated with the middle cavity 8330, the adhesive tape 800b can be positioned in the guiding assembly 833 through the negative pressure adsorption action of the vacuum suction head 8330', the middle cavity 8330 and the adsorption hole 8330', and the position of the adhesive tape 800 and the end part thereof is guaranteed through the combined action of the adsorption plate 8333, so that the first guiding wheel 8331 can accurately act on the end part of the adhesive tape 800b when the adhesive tape is adhered next time.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims (10)

1. The utility model provides a continuous membrane material waste material cuts out back receiving device, includes the board, and set up in the feed roll and the receipts material roller at board both ends, its characterized in that still includes:

The front feeding table and the rear feeding table are arranged on two sides of the machine table in a flush way and used for bearing continuous film materials, an interval is formed between the front feeding table and the rear feeding table,

The detection mechanism is arranged above the front feeding table and is used for detecting a defect area on the continuous film material,

The front auxiliary roller set is arranged at the rear side of the front feeding table and is used for conveying continuous film materials with power,

The collecting mechanism comprises a lifting cylinder and a cover plate, wherein the lifting cylinder is arranged on the machine table and is close to the front side of the rear feeding table, the cover plate is arranged at the output end of the lifting cylinder and is flush with the rear feeding table, a receiving opening communicated with the machine table is opened after the lifting cylinder is driven to move upwards,

The cutting mechanism is arranged between the front auxiliary roller set and the collecting mechanism and is used for cutting waste materials into the material receiving opening,

The receiving mechanism is arranged above the rear feeding table and comprises a moving module and an adhesive tape sticking module, wherein the adhesive tape sticking module is arranged on the moving module and used for continuously feeding the film materials after the waste materials are removed, and the film materials are connected with the front section film materials through adhesive tapes.

2. The continuous film material waste material cutting and receiving device according to claim 1, wherein the cutting mechanism comprises a base, a cutting cylinder and a cutter, the base and the cutting cylinder are arranged on a machine table, the base is flush with the feeding table, and the cutter is arranged at an output end of the cutting cylinder to cut the continuous film material passing through the base.

3. The continuous film scrap removal and post-receipt device of claim 1 or 2, wherein the front feed table and/or the post feed table are provided with adsorption zones.

4. The continuous film material waste cutting and rear receiving device according to claim 1, further comprising a pair of material pressing mechanisms, wherein the pair of material pressing mechanisms are respectively arranged at two ends of the rear feeding table, each material pressing mechanism comprises a material pressing cylinder and a pressing rod, each material pressing cylinder is arranged on the machine table, and the pressing rods are arranged at the output ends of the material pressing cylinders and used for pressing the film materials on the rear feeding table.

5. The continuous film scrap removal and post-receipt apparatus of claim 1 further comprising a post-assist roller set disposed on the machine and positioned at a rear side of the post-feed station for powered delivery of the continuous film.

6. The continuous film material waste material removing and receiving device according to claim 1, wherein the moving module comprises an electric cylinder and a vertical cylinder, a support is arranged on the machine, the electric cylinder is arranged on the support, the vertical cylinder is arranged at the output end of the electric cylinder, and the output end is provided with an adhesive tape sticking module.

7. The continuous film material waste material cutting and back receiving device according to claim 1 or 6, wherein the adhesive tape sticking module comprises a mounting plate, a material guiding component, a material pressing wheel and a scissor cylinder, one side of the mounting plate is provided with an adhesive tape roll, a connecting plate is hinged at a position close to the adhesive tape roll, a first cylinder on the mounting plate is connected with the free end of the connecting plate, the material guiding component is arranged on the connecting plate and used for feeding adhesive tape and pressing the adhesive tape on the film material, the output end of a second cylinder on the mounting plate is provided with the material pressing wheel, the material pressing wheel is close to the material guiding component and is used for pressing the adhesive tape through driving, and the output end of a third cylinder on the mounting plate is provided with the scissor cylinder which is used for cutting the adhesive tape between the material pressing wheel and the material guiding component through driving.

8. The continuous film material waste material removing and receiving device according to claim 7, wherein the material guiding assembly comprises a first material guiding wheel, a second material guiding wheel and a limiting plate, the first material guiding wheel is arranged on one side, close to the material pressing wheel, of the connecting plate, the second material guiding wheel is arranged on the other side of the connecting plate, the bottom ends of the first material guiding wheel and the second material guiding wheel are respectively abutted against the upper surface of the adhesive tape, and the limiting plate is provided with an anti-sticking coating which is arranged on the connecting plate and used for being abutted against the lower surface of the adhesive tape, and at least preventing the adhesive tape from being far away from the first guiding wheel.

9. The continuous membrane material waste material after-cutting receiving device according to claim 8, wherein the material guiding assembly further comprises an adsorption plate, the adsorption plate is arranged between the first material guiding wheel and the second material guiding wheel and used for adsorbing adhesive tapes, a middle cavity is arranged in the middle of the adsorption plate, one side of the adsorption plate is provided with a vacuum suction head communicated with the middle cavity, and the other side of the adsorption plate is provided with adsorption holes communicated with the middle cavity in a matrix shape.

10. The continuous film stock removal post-take-up device of claim 1, wherein the detection mechanism is a visual detection mechanism comprising a CCD camera.