CN114055880A - Sterile composite roll film for candy packaging and production process thereof - Google Patents

Abstract

The invention discloses an aseptic composite roll film for candy packaging and a production process thereof. The invention has the beneficial effect that the aseptic composite roll film for candy packaging is designed, so that the aseptic composite roll film is convenient to rapidly package and store. Improve current production mode, pack upper strata membrane, middle level and lower floor's membrane equipment for the compound membrane of rolling up and accomodate through the production cell, carry out quantitative transfer and cooperation selection by winnowing when the unloading to the filler fast, improve production quality, utilize quantitative transfer unit to fill filler ration and quick spiral lifting transportation, improve production efficiency.

Description

Sterile composite roll film for candy packaging and production process thereof

Technical Field

The invention relates to the technical field of production of candy packaging composite films, in particular to a sterile composite roll film for candy packaging and a production process of the sterile composite roll film.

Background

When the candies are packaged, the candies need to be stored through the composite roll film, and the existing composite roll film has defects in toughness, bacteriostasis and production process equipment, so that the sterile composite roll film for candy packaging needs to be developed to rapidly package the candies, and the production process for producing the composite roll film is improved, so that the production speed and the production quality during production are improved, and the production cost during production is reduced.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made keeping in mind the above problems occurring in the prior art.

Therefore, an object of the present invention is to provide a sterile composite roll film for candy packaging, which can rapidly package candies.

Another object of the present invention is to provide a process for producing a composite roll film, which can rapidly produce a composite roll film, and improve the work efficiency and the product quality.

In order to solve the technical problems, the invention provides the following technical scheme: an aseptic composite roll film for candy packaging comprises a composite roll film, which comprises an upper layer film, a middle layer filling arranged below the upper layer film, and a lower layer film arranged below the middle layer filling.

As a preferable aspect of the aseptic composite roll film for candy packaging of the present invention, wherein: the upper layer film and the lower layer film are both PE films, and the middle layer is filled with fillers.

As a preferred scheme of the composite roll film production process, the method comprises the following steps: the production unit comprises a workbench, a lower layer winding drum arranged at one end of the workbench, an upper layer winding drum arranged in the middle of the workbench, a blanking assembly arranged at one side of the upper layer winding drum, a packaging assembly and a cutting assembly arranged at the other side of the upper layer winding drum, a containing roller arranged at the bottom of the workbench, a plurality of groups of limiting rollers arranged in the workbench, and a rolling column arranged on the workbench; the lower layer of the drum is made up of a lower layer of film roll and the upper layer of the drum is made up of an upper layer of film roll. The quantitative transfer unit comprises a quantitative material taking assembly connected with the workbench, a transfer assembly arranged on one side of the workbench and a blanking winnowing assembly connected with the workbench.

As a preferred scheme of the composite roll film production process, the method comprises the following steps: the blanking assembly comprises a collecting funnel, a blanking disc arranged at the bottom of the collecting funnel, a blanking port arranged on the blanking disc, and a periodic rotating motor arranged at the bottom of the blanking port; the packaging assembly comprises a first support frame, a first telescopic cylinder arranged below the first support frame, and a heating edge sealing block connected with the bottom of the first telescopic cylinder; the cutting assembly comprises a second support frame, a second telescopic cylinder connected with the bottom of the second support frame, a cutting knife connected with the bottom of the second telescopic cylinder, and a allowance anti-cutting block arranged on the workbench; accomodate the roll-up, including accomodating the roller and accomodating the motor with accomodating roller connection.

As a preferred scheme of the composite roll film production process, the method comprises the following steps: the quantitative material taking assembly comprises a first arc-shaped guide rail, a first arc-shaped switch block, a first arc-shaped spring, a material storage barrel and a material discharging nozzle, wherein the first arc-shaped switch block is arranged in the first arc-shaped guide rail and is attached to the first arc-shaped guide rail; the arc wall of first arc guide rail is higher than the height at first arc switch block top, ejection of compact mouth bottom and the contact of first arc switch block top.

As a preferred scheme of the composite roll film production process, the method comprises the following steps: the transfer assembly comprises a lifting column, a guide spiral groove arranged on the lifting column, a guide head in contact with the guide spiral groove, a movable sleeve connected with the guide head, a quantitative transport piece connected with one side of the movable sleeve, a lantern ring arranged at the bottom of the movable sleeve, a lifting sleeve movably connected with the movable sleeve through the lantern ring, and a group of control cylinders connected with one side of the lifting sleeve.

As a preferred scheme of the composite roll film production process, the method comprises the following steps: the blanking winnowing component comprises a second arc-shaped guide rail, a trigger block arranged on the outer wall of the second arc-shaped guide rail, an inclined buffer groove arranged on the trigger block, a vertical switch groove communicated with the inclined buffer groove, a slope winnowing block arranged in the second arc-shaped guide rail, a covering groove arranged at the top of the slope winnowing block, a dust removing opening arranged on the slope surface of the slope winnowing block, a blower arranged at one end of the second arc-shaped guide rail, an access closing opening arranged at the other end of the second arc-shaped guide rail and a dust outlet arranged below the access closing opening; the blower is disposed obliquely and perpendicular to the covering groove.

As a preferred scheme of the composite roll film production process, the method comprises the following steps: the quantitative conveying part comprises an operation frame connected with the movable sleeve, a material conveying barrel connected with the tail end of the operation frame, an arc guide block connected with one side of the material conveying barrel, a propelling head arranged on one side of the arc guide block, an inclined guide slope arranged in the arc guide block, storage slopes symmetrically arranged on two sides of the inclined guide slope, an arc support groove arranged at the bottom of the arc guide block, an arc support block partially arranged in the arc support groove and with one end extending out, a second arc spring connected with one end of the arc support block, a trigger column arranged on the outer side of the arc support block, a switch board arranged at the top of the arc support block and hinged with the bottom of the arc guide block, and a horizontal moving groove arranged on the outer side of the arc support groove and matched with the trigger column; one end of the arc-shaped supporting block is provided with a falling opening matched with the switch plate.

As a preferred scheme of the composite roll film production process, the method comprises the following steps: the switch plate is arranged above the arc-shaped supporting block and is contacted with the arc-shaped supporting block.

As a preferred scheme of the composite roll film production process, the method comprises the following steps: the groove diameters of the oblique buffer groove and the vertical switch groove are the same as the diameter of the trigger column.

The invention has the beneficial effects that: the invention designs the sterile composite roll film for candy packaging, which is convenient for quick packaging and storage. Improve current production mode, fill and the lower floor film equipment is for compound book membrane and accomodate through the production unit with upper strata membrane, middle level, carry out quantitative transfer and cooperation selection by winnowing when the unloading to the filler fast, improve production quality, utilize quantitative transfer unit to fill filler ration and quick lifting transportation, improve production efficiency.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

fig. 1 is a structural view of a sterile composite roll film for candy wrapping.

Fig. 2 is an overall equipment structure diagram of the composite roll film production process.

Fig. 3 is another view of the overall equipment structure of the composite roll film production process.

Fig. 4 is a structure diagram of a quantitative transfer unit of the composite roll film production process.

Fig. 5 is a structure diagram of a blanking air separation component of the composite roll film production process.

Fig. 6 is a matching diagram of a quantitative material taking assembly and a transferring assembly in the composite roll film production process.

Fig. 7 is a top view of fig. 5.

Fig. 8 is an omitted view of fig. 5.

Fig. 9 is a omitted view of fig. 5.

FIG. 10 is an exploded view of the lift sleeve and traveling sleeve of the composite roll film manufacturing process.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1, a first embodiment of the present invention provides a sterilized composite roll film for candy wrapping, which can wrap candy quickly and record corresponding data.

Specifically, the composite roll film 100 includes an upper film 101, a middle layer filling 102 disposed below the upper film 101, and a lower film 103 disposed below the middle layer filling 102.

Further, the upper film 101 and the lower film 103 are both PE films, and the middle layer 102 is a filler. The filler may be polypropylene particles or the like as required.

The filler can be sealed in the upper film 101 and the lower film 103 by heat-sealing the boundary between the upper film 101 and the lower film 103.

Preferably, a label sheet can be adhered on the outer side of the upper film 101 for recording data.

In conclusion, the candy can be quickly packaged by the sterile composite roll film for candy packaging, and the working efficiency is improved.

Example 2

Referring to fig. 2 to 10, a first embodiment of the present invention provides a sterilized composite roll film for candy wrapping, which can rapidly produce the composite roll film, improving work efficiency and product quality.

Specifically, the production unit 200 includes a workbench 201, a lower layer winding drum 202 arranged at one end of the workbench 201, an upper layer winding drum 203 arranged at the middle part of the workbench 201, a blanking assembly 204 arranged at one side of the upper layer winding drum 203, a packaging assembly 205 and a cutting assembly 206 arranged at the other side of the upper layer winding drum 203, a containing roller 207 arranged at the bottom of the workbench 201, a plurality of groups of limiting rollers 208 arranged in the workbench 201, and a rolling column 209 arranged on the workbench 201; the lower layer bobbin 202 is composed of a roll of the lower layer film 103, and the upper layer bobbin 203 is composed of a roll of the upper layer film 101.

Unit 300 is transported to ration, including with the ration that workstation 201 is connected is got material subassembly 301, set up in the transportation subassembly 302 of workstation 201 one side, and with unloading selection by winnowing subassembly 303 that workstation 201 is connected.

Further, the blanking assembly 204 includes a collecting funnel 204a, a blanking tray 204b disposed at the bottom of the collecting funnel 204a, a blanking port 204c disposed on the blanking tray 204b, and a periodic rotation motor 204d disposed at the bottom of the blanking port 204 c; the packaging assembly 205 comprises a first support frame 205a, a first telescopic cylinder 205b arranged below the first support frame 205a, and a heating edge sealing block 205c connected with the bottom of the first telescopic cylinder 205 b; the cutting assembly 206 comprises a second supporting frame 206a, a second telescopic cylinder 206b connected with the bottom of the second supporting frame 206a, a cutting knife 206c connected with the bottom of the second telescopic cylinder 206b, and an allowance anti-cutting block 206d arranged on the workbench 201; the storage roll 207 includes a storage roll 207a and a storage motor 207b connected to the storage roll 207 a. The allowance block 206d is provided to allow the cutter 206c to have an allowance during cutting, so that the accommodating roller 207a can conveniently accommodate the finished product in a roll. Add hot sealing limit piece 205c ohmic heating, heat the banding to the product of certain length, roll the filler through rolling post 209 and smooth, set up the spacing roller 208 of multiunit and improve the transport speed, be convenient for processing and accomodate.

Preferably, the air cylinders, the motors and the blowers in all the assemblies can control the starting and stopping time and the lifting speed according to preset values through a PLC or a single chip microcomputer. The periodic rotation motor 204d periodically and circularly rotates along a certain angle to make the blanking tray 204b swing at the top, so that the blanking port 204c can uniformly scatter the filler.

It should be noted that the production process is as follows: the fillers in the quantitative material taking assembly 301 are quantitatively taken out through the transfer assembly 302 in the quantitative transfer unit 300 and conveyed to the blanking air separation assembly 303 for air separation and dust removal and blanking into the blanking assembly 204, the fillers fall on the upper portion of the lower layer film 103 on the workbench 201 under the action of the blanking assembly 204 and move through the storage roller 207 and the fiber roller 308, and are rolled and flattened through the rolling column 209, heated and sealed by the packaging assembly 205, and the cutting assembly 206 is divided and cut, and finally the fillers are stored through the storage roller 207 a.

Further, the quantitative material taking assembly 301 comprises a first arc-shaped guide rail 301a, a first arc-shaped switch block 301b arranged in and attached to the first arc-shaped guide rail 301a, a first arc-shaped spring 301c with one end connected with the inner wall of the first arc-shaped guide rail 301a and the other end connected with the first arc-shaped switch block 301b, a material storage barrel 301d arranged above the first arc-shaped guide rail 301a, and a material outlet nozzle 301e arranged below the material storage barrel 301 d; the arc-shaped wall of the first arc-shaped guide rail 301a is higher than the top of the first arc-shaped switch block 301b, and the bottom of the discharging nozzle 301e is in contact with the top of the first arc-shaped switch block 301 b.

Further, the transfer assembly 302 includes a lifting column 302a, a guiding spiral groove 302b disposed on the lifting column 302a, a guiding head 302c contacting with the guiding spiral groove 302b, a moving sleeve 302d connected with the guiding head 302c, a quantitative conveying member 302e connected with one side of the moving sleeve 302d, a collar 302f disposed at the bottom of the moving sleeve 302d, a lifting sleeve 302g movably connected with the moving sleeve 302d through the collar 302f, and a set of control cylinders 302h connected with one side of the lifting sleeve 302 g. The lifting sleeve 302g is provided with a collar groove that is movably connected with the collar 302 f.

It should be noted that the guiding spiral groove 302b can be replaced with the lifting column 302a with different pitches according to production requirements, so as to meet the requirements of field rotation angle and lifting height. The lifting sleeve 302g movably connected with the movable sleeve 302d through the sleeve ring 302f drives the movable sleeve 302d to move upwards by driving the lifting sleeve 302g to move up and down through the control cylinder 302h, and the guide head 302c on the inner wall of the movable sleeve 302d moves along the direction of the guide spiral groove 302b while the movable sleeve 302d moves upwards, so that when the lifting sleeve 302g moves upwards, the movable sleeve 302d drives the quantitative conveying piece 302e on the side surface of the movable sleeve 302d to rotate a certain angle from the quantitative material taking assembly 301 and lift into the blanking air separation assembly 303.

Preferably, the first arcuate switch block 301b is positioned at the end of the first arcuate guide 301a and closes the bottom of the tap 301e when not in contact with the dosing carriage 302 e. When the quantitative transport piece 302e descends spirally, the side propelling head 302e-4 thereof contacts with the first arc-shaped switch block 301b and enables the arc-shaped guide block 302e-3 to enter the track of the first arc-shaped guide rail 301a, and a certain sealing property is always kept in the continuous entering process of the arc-shaped guide block 302e-3 due to the existence of the outer wall of the second arc-shaped guide rail 303a, so that the filler is prevented from spilling and causing waste. The pushing head 302e-4 extrudes the first arc-shaped switch block 301b to enable the first arc-shaped switch block to enter the deep position of the track of the first arc-shaped guide rail 301a until the discharging nozzle 301e completely leaks out and stops, at the moment, the discharging nozzle 301e starts to discharge the filler into the material conveying barrel 302e-2, most of the filler falls into the inclined guide slope 302e-5 and enters the material conveying barrel 302e-2 during discharging, and one part of the filler falls off due to vibration of the equipment and falls into the inclined guide slope 302e-5 through the storage slopes 302e-6 on the two sides. After the materials are fed to the fixed amount, the fixed amount conveying piece 302e spirally rises and begins to be separated from the first arc-shaped guide rail 301a, the first arc-shaped switch block 301b gradually closes the discharging nozzle 301e in the process, and after the discharging nozzle 301e is completely closed, the fixed amount conveying piece 302e is separated from the first arc-shaped guide rail 301a, so that the materials are prevented from being scattered and wasted. The occupied space is reduced and material taking and transferring are realized in a spiral ascending and descending mode.

Further, the blanking air separation component 303 includes a second arc-shaped guide rail 303a, a trigger block 303b disposed on an outer wall of the second arc-shaped guide rail 303a, an oblique buffer slot 303c disposed on the trigger block 303b, a vertical switch slot 303d communicated with the oblique buffer slot 303c, an oblique wind selector 303e disposed in the second arc-shaped guide rail 303a, a cover slot 303f disposed on a top of the oblique wind selector 303e, a dust removal port 303g disposed on a slope of the oblique wind selector 303e, an air blower 303h disposed at one end of the second arc-shaped guide rail 303a, an access closure port 303i disposed at the other end of the second arc-shaped guide rail 303a, and a dust outlet 303j disposed below the access closure port 303 i; the blower 303h is disposed obliquely and perpendicular to the covering groove 303 f.

Preferably, when the quantitative transport member 302e ascends and enters the second arc-shaped track 303a, the material carrying barrel 302e-2 stays above the slope winnowing block 303e through the access closing port 303i, during the spiral ascending, the triggering column 302e-10 at the side of the arc-shaped supporting groove 302e-7 will enter the inclined buffer groove 303c at the side of the triggering block 303b and move along the direction of the notch, when entering the vertical switch groove 303d, the triggering column 302e-10 will move upwards along the vertical switch groove 303d and make the arc-shaped supporting block 302e-8 fixedly connected with the triggering column move to the depth of the supporting groove along the arc-shaped supporting groove 302e-7, which is embodied as the triggering column 302e-10 moves inwards along the horizontal moving groove 302e-12 until moving to the end, the arc-shaped supporting block 302e-8 is received in the arc-shaped supporting groove 302e-7, because the bottom of the switch plate 302e-11 has no supporting force, the self weight of the filler pushes the switch plate 302e-11 to fall on the covering groove 303f, so as to play a role in guiding and blocking, and the opening direction of the switch plate 302e-11 is the rebound direction of the arc-shaped supporting block 302e-8, so that the switch plate 302e-11 can be supported and closed again when returning. The filler falls into a dust removal port 303g on the slope surface of the slope air separation block 303e along the inclined angle of the switch plate 302e-11, air separation is carried out for dust removal under the action of an air blower 303h, and the processed filler falls into the blanking assembly 204. Foreign materials and dust are screened out through the dust outlet 303 j. The quantitative transport member 302e plays a certain role of blocking after entering the access closing port 303i through the second arc-shaped guide rail 303a, and prevents the filler from being spilled under the action of the blower 303 h.

Further, the quantitative transport unit 302e comprises an operation frame 302e-1 connected to the movable sleeve 302d, a material transportation barrel 302e-2 connected to the end of the operation frame 302e-1, an arc guide block 302e-3 connected to one side of the material transportation barrel 302e-2, a pushing head 302e-4 arranged at one side of the arc guide block 302e-3, an inclined guide slope 302e-5 arranged in the arc guide block 302e-3, storage slopes 302e-6 symmetrically arranged at two sides of the inclined guide slope 302e-5, an arc support groove 302e-7 arranged at the bottom of the arc guide block 302e-3, an arc support block 302e-8 partially arranged in the arc support groove 302e-7 and having one end extending out, and a second arc spring 302e-9 connected to one end of the arc support block 302e-8, The trigger column 302e-10 is arranged on the outer side of the arc-shaped supporting block 302e-8, the switch plate 302e-11 is arranged on the top of the arc-shaped supporting block 302e-8 and hinged with the bottom of the arc-shaped guide block 302e-3, and the horizontal moving groove 302e-12 is arranged on the outer side of the arc-shaped supporting groove 302e-7 and matched with the trigger column 302 e-10; one end of the arc-shaped supporting block 302e-8 is provided with a falling opening M matched with the switch plate 302 e-11. The drop opening M is provided to facilitate the blanking of the switch plate 302 e-11. The switch plate 302e-11 is hinged to the arc guide 302e-3 by a hinge rod N.

Further, the switch plate 302e-11 is disposed above and in contact with the arc-shaped support block 302 e-8. The groove diameters of the slant buffer groove 303c and the vertical switch groove 303d are the same as the diameter of the trigger column 302 e-10.

When the pneumatic material storage barrel is used, only a storage barrel 301d needs to store a proper amount of fillers, and the quantitative conveying piece 302e is controlled by the control cylinder 302h to quantitatively and quickly convey materials and perform air separation and dust removal to improve the quality of the fillers. When the storage vat 301d is empty of filler, the worker can pour the filler directly into the quantitative transport member 302e from below. The lower layer reel 202, the upper layer reel 203 and the filler can be packaged and rapidly stored by the production unit 200.

To sum up, improve current production mode, fill and the lower floor film equipment is compound book membrane and accomodate through the production unit with upper strata membrane, middle level, carry out quantitative transfer and cooperation selection by winnowing when the unloading to the filler fast, improve production quality, utilize quantitative transfer unit to fill filler ration and quick spiral lifting transportation, improve production efficiency.

It is important to note that the construction and arrangement of the present application as shown in the various exemplary embodiments is illustrative only. Although only a few embodiments have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters (e.g., temperatures, pressures, etc.), mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter recited in this application. For example, elements shown as integrally formed may be constructed of multiple parts or elements, the position of elements may be reversed or otherwise varied, and the nature or number of discrete elements or positions may be altered or varied. Accordingly, all such modifications are intended to be included within the scope of this invention. The order or sequence of any process or method steps may be varied or re-sequenced according to alternative embodiments. In the claims, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the exemplary embodiments without departing from the scope of the present inventions. Therefore, the present invention is not limited to a particular embodiment, but extends to various modifications that nevertheless fall within the scope of the appended claims.

Moreover, in an effort to provide a concise description of the exemplary embodiments, all features of an actual implementation may not be described (i.e., those unrelated to the presently contemplated best mode of carrying out the invention, or those unrelated to enabling the invention).

It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions may be made. Such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure, without undue experimentation.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (10)

1. The utility model provides a candy packing is with aseptic compound roll membrane which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the composite roll film (100) comprises an upper film (101), a middle layer filling (102) arranged below the upper film (101), and a lower film (103) arranged below the middle layer filling (102).

2. The sterile composite roll film for candy wrapping according to claim 1 wherein: the upper layer film (101) and the lower layer film (103) are both PE films, and the middle layer filling (102) is a filler.

3. A composite roll film production process using the aseptic composite roll film for candy packaging according to claim 2, characterized by: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the production unit (200) comprises a workbench (201), a lower layer winding drum (202) arranged at one end of the workbench (201), an upper layer winding drum (203) arranged in the middle of the workbench (201), a blanking assembly (204) arranged on one side of the upper layer winding drum (203), a packaging assembly (205) and a cutting assembly (206) arranged on the other side of the upper layer winding drum (203), a containing winding roller (207) arranged at the bottom of the workbench (201), a plurality of groups of limiting rollers (208) arranged in the workbench (201), and rolling columns (209) arranged on the workbench (201);

unit (300) is transported to ration, including with ration that workstation (201) are connected is got material subassembly (301), set up in transportation subassembly (302) of workstation (201) one side, and with unloading selection by winnowing subassembly (303) that workstation (201) are connected.

4. The composite roll film production process of claim 3, wherein: the blanking assembly (204) comprises a collecting funnel (204a), a blanking disc (204b) arranged at the bottom of the collecting funnel (204a), a blanking port (204c) arranged on the blanking disc (204b), and a periodic rotating motor (204d) arranged at the bottom of the blanking port (204 c); the packaging assembly (205) comprises a first support frame (205a), a first telescopic cylinder (205b) arranged below the first support frame (205a), and a heating edge sealing block (205c) connected with the bottom of the first telescopic cylinder (205 b); the cutting assembly (206) comprises a second supporting frame (206a), a second telescopic cylinder (206b) connected with the bottom of the second supporting frame (206a), a cutting knife (206c) connected with the bottom of the second telescopic cylinder (206b), and a margin anti-cutting block (206d) arranged on the workbench (201); the storage roll (207) comprises a storage roll (207a) and a storage motor (207b) connected with the storage roll (207 a).

5. The composite roll film production process of claim 4, wherein: the quantitative material taking assembly (301) comprises a first arc-shaped guide rail (301a), a first arc-shaped switch block (301b) arranged in the first arc-shaped guide rail (301a) and attached to the first arc-shaped guide rail, a first arc-shaped spring (301c) with one end connected with the inner wall of the first arc-shaped guide rail (301a) and the other end connected with the first arc-shaped switch block (301b), a material storage barrel (301d) arranged above the first arc-shaped guide rail (301a), and a material outlet nozzle (301e) arranged below the material storage barrel (301 d); the arc-shaped wall of the first arc-shaped guide rail (301a) is higher than the top of the first arc-shaped switch block (301b), and the bottom of the discharging nozzle (301e) is in contact with the top of the first arc-shaped switch block (301 b).

6. The composite roll film production process of claim 5, wherein: transport subassembly (302) including lifting column (302a), set up in direction helicla flute (302b) on lifting column (302a), with guide first (302c) of direction helicla flute (302b) contact, with removal sleeve (302d) that guide first (302c) is connected, with ration transportation piece (302e) that removal sleeve (302d) one side is connected, set up in lantern ring (302f) of removal sleeve (302d) bottom, through lantern ring (302f) with removal sleeve (302d) swing joint's lifting sleeve (302g), and with a set of control cylinder (302h) that lifting sleeve (302g) one side is connected.

7. The composite roll film production process of claim 6, wherein: the blanking winnowing component (303) comprises a second arc-shaped guide rail (303a), a trigger block (303b) arranged on the outer wall of the second arc-shaped guide rail (303a), an inclined buffer groove (303c) arranged on the trigger block (303b), a vertical switch groove (303d) communicated with the inclined buffer groove (303c), a slope wind sorting block (303e) arranged in the second arc-shaped guide rail (303a), a cover groove (303f) arranged at the top of the slope wind sorting block (303e), a dust removal port (303g) arranged on the slope of the slope wind sorting block (303e), an air blower (303h) arranged at one end of the second arc-shaped guide rail (303a) and an access sealing port (303i) arranged at the other end of the second arc-shaped guide rail (303a), and a dust outlet (303j) arranged below the access closing port (303 i); the blower (303h) is disposed obliquely and perpendicular to the covering groove (303 f).

8. The composite roll film production process of claim 7, wherein: the quantitative conveying part (302e) comprises an operation frame (302e-1) connected with the movable sleeve (302d), a material conveying barrel (302e-2) connected with the tail end of the operation frame (302e-1), an arc-shaped guide block (302e-3) connected with one side of the material conveying barrel (302e-2), a propelling head (302e-4) arranged at one side of the arc-shaped guide block (302e-3), an inclined guide slope (302e-5) arranged in the arc-shaped guide block (302e-3), accommodating slopes (302e-6) symmetrically arranged at two sides of the inclined guide slope (302e-5), an arc-shaped support groove (302e-7) arranged at the bottom of the arc-shaped guide block (302e-3), an arc-shaped support block (302e-8) partially arranged in the arc-shaped support groove (302e-7) and extending out of one end, The second arc spring (302e-9) is connected with one end of the arc-shaped supporting block (302e-8), the trigger column (302e-10) is arranged on the outer side of the arc-shaped supporting block (302e-8), the switch board (302e-11) is arranged on the top of the arc-shaped supporting block (302e-8) and hinged with the bottom of the arc-shaped guide block (302e-3), and the horizontal moving groove (302e-12) is arranged on the outer side of the arc-shaped supporting groove (302e-7) and matched with the trigger column (302 e-10); one end of the arc-shaped supporting block (302e-8) is provided with a falling opening (M) matched with the switch plate (302 e-11).

9. The composite roll film production process of claim 8, wherein: the switch plate (302e-11) is disposed above and in contact with the arc-shaped support block (302 e-8).

10. The composite roll film production process of claim 9, wherein: the groove diameters of the inclined buffer groove (303c) and the vertical switch groove (303d) are the same as the diameter of the trigger column (302 e-10).

Images