CN109896086B - Film buckling structure - Google Patents

Abstract

The invention relates to the technical field of packaging films and discloses a film buckling structure, which is used for processing films with an insertion part and an insertion hole part which are bent upwards relative to a side film part, wherein the film buckling structure comprises a fixed table, a bending structure and a clamping structure, wherein the fixed table is horizontally arranged and used for placing a bottom film part of the films; the clamping structure inserts the inserting hook strip of the inserting part into the inserting hole of the inserting hole part, so that the membrane forms an annular packaging film, the whole process is automatically completed, and the processing efficiency is high.

Description

Film buckling structure

Technical Field

The invention relates to the technical field of packaging films, in particular to a film buckling structure.

Background

At present, in the use of digital products, auxiliary parts such as wires are often used, for example, data wires or various power wires on mobile devices.

The data cable is used for connecting the mobile device and the computer to achieve the purpose of data transmission or communication or is used for connecting the mobile device for charging. In popular terms, the access tool is used to connect a computer and a mobile device for transmitting video, bell sound, pictures and other files, or for connecting the mobile device for charging and the like.

When the data wire is packaged after production, the winding group is often required to be formed by winding firstly, then the winding group is coated, the packaging film is in a collar shape, and the winding group is directly arranged on the packaging film, so that the winding group can keep the shape after winding under the limitation of the packaging film, and the data wire is convenient to package and the like.

Most wires including the data wire need to be wound into a winding group when being packaged after production, and then the winding group is sleeved by the packaging film to realize the packaging of the wires.

In the prior art, the packaging film is formed by film folding operation, namely film folding operation, film buckling operation and other operations are carried out on the film in a sheet shape, then an annular packaging film is formed, and the film buckling operation of the film at present has the defects of low processing efficiency and automation degree.

Disclosure of Invention

The invention aims to provide a membrane buckling structure, and aims to solve the problem that in the prior art, the processing efficiency is low in membrane buckling operation.

The invention is realized in such a way that the membrane buckling structure comprises a bottom membrane part, wherein two sides of the bottom membrane part are respectively abutted with side membrane parts, the outer sides of the two side membrane parts are respectively abutted with an inserting part and an inserting hole part correspondingly, the inserting part is provided with an inserting hook strip, and the inserting hole part is provided with an inserting hole for the inserting hook strip to be inserted and clamped;

the membrane buckling structure is used for processing the membrane which is bent upwards relative to the side membrane parts, and comprises a fixed table which is horizontally arranged and is used for placing the bottom membrane part of the membrane, a bending structure and a clamping structure, wherein a buckling membrane rod which moves up and down and is propped against the bottom membrane part of the membrane on the fixed table is arranged above the fixed table, and the bending structure bends the membrane on the fixed table, so that the two side membrane parts of the membrane are respectively bent upwards relative to the bottom membrane part until the inserting part and the jack part are vertically arranged on the buckling membrane rod; the clamping structure inserts the inserting hook strip of the inserting part into the inserting hole of the inserting hole part, so that the membrane forms an annular packaging membrane.

Further, the bending structure comprises buckling modules respectively arranged outside two sides of the fixed table; the bottom film part of the diaphragm is arranged on the fixed table, the film buckling rod moves downwards to prop against the bottom film part of the diaphragm, the two buckling modules move upwards to correspondingly extrude the two side film parts of the diaphragm to bend upwards, and after the buckling modules move to the upper part of the fixed table, the two buckling modules move relatively to extrude the two side film parts of the diaphragm towards the film buckling rod until the inserting part and the jack part are vertically arranged on the film buckling rod.

Further, the buckling modules are provided with abutting surfaces for abutting against the side film parts of the films, and the abutting surfaces of the two buckling modules are oppositely arranged; and the pressing surface is obliquely arranged inwards along the direction from bottom to top of the buckling module.

Further, the clamping structure comprises a film inserting needle arranged above the fixed table; after the membrane is bent to the position that the inserting part and the inserting hole part are arranged on the membrane buckling rod up and down through the bending structure, the membrane inserting needle inserts the inserting hook strip of the inserting part into the membrane inserting needle in the inserting hole of the inserting hole part.

Further, the buckling film rod is provided with an upward buckling film end face which is obliquely arranged, and a downward concave area is arranged on the buckling film end face; after the two buckling modules relatively move, the jack parts of the diaphragms are abutted on the buckling film end faces, and the jacks of the jack parts are aligned with the concave areas.

Furthermore, the film inserting needle is obliquely arranged above the film buckling end face of the film buckling rod, and the film inserting needle and the film buckling end face are obliquely in the same direction.

Further, a lower pressing block which moves up and down is arranged above the fixed table, the lower pressing block is provided with an inclined strip, and the inclined strip and the buckling film end face are obliquely arranged in the same direction; when the jack part of the membrane is abutted on the end face of the buckling membrane, the lower pressing block drives the inclined strip to move downwards, and the inclined strip abuts against the insertion part to be abutted on the jack part.

Further, the film inserting needle is provided with a needle head for extruding the film, and the needle heads are arranged in a cambered surface shape.

Further, the needles are arranged in a horizontal bar shape.

Compared with the prior art, the membrane buckling structure has the advantages that the bottom membrane part of the membrane is fixed on the fixed table, the bending structure extrudes the side membrane part to bend relative to the bottom membrane part, the inserting part and the inserting hole part are arranged above the buckling membrane rod and are arranged up and down, bending of the membrane is achieved, the inserting hook strip of the inserting part is inserted into the inserting hole of the inserting hole part through the clamping structure, clamping of the membrane is achieved, the annular packaging membrane is formed, the whole process is automatically completed, and the processing efficiency is high.

Drawings

FIG. 1 is a schematic perspective view of an automatic film folding, winding and buckling device provided by the invention;

FIG. 2 is a schematic perspective view of a flat cable station according to the present invention;

fig. 3 is a schematic perspective view of a winding structure provided by the present invention;

fig. 4 is a schematic perspective view of a loading table provided by the invention;

fig. 5 is a schematic perspective view of a folded film structure provided by the invention;

FIG. 6 is an enlarged schematic view at A in FIG. 5;

FIG. 7 is a schematic perspective view of a membrane buckling structure according to the present invention;

FIG. 8 is an enlarged schematic view at B in FIG. 7;

FIG. 9 is a schematic partial perspective view of a membrane buckling structure according to the present invention;

FIG. 10 is a schematic partial perspective view of a membrane buckling structure according to the present invention;

FIG. 11 is a schematic flow chart of the film sheet formed into a packaging film according to the present invention;

FIG. 12 is a partial perspective view of a sleeve structure provided by the present invention;

FIG. 13 is a partial perspective view of a sleeve structure provided by the present invention;

fig. 14 is a schematic flow chart of the combination of the winding unit and the packaging film provided by the invention;

fig. 15 is a schematic perspective view of a mantle fiber moving head provided by the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The implementation of the present invention will be described in detail below with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limitations of the present patent, and specific meanings of the terms described above may be understood by those skilled in the art according to specific circumstances.

Referring to fig. 1-15, a preferred embodiment of the present invention is provided.

The automatic film folding, winding and buckling equipment provided by the embodiment can be used for winding and coating operations on data wires and also can be used for winding and coating operations on other various wires, and is not limited to the data wires.

The automatic film folding, winding and buckling equipment comprises a film folding structure 105, a film buckling structure 103, a winding structure 101 and a film covering structure 102. The membrane 200 is in a sheet shape, before the membrane 200 does not enter the membrane folding structure 105, the membrane 200 is in a straight strip shape, and comprises a bottom membrane portion 2006, two side membrane portions 2005 and two buckling portions, the two side membrane portions 2005 are respectively correspondingly abutted to two sides of the bottom membrane portion 2006, the two buckling portions are respectively correspondingly abutted to two sides of the side membrane portion 2005, when the membrane 200 is buckled through the first bending of the membrane folding structure 105 and the second bending of the membrane buckling structure 103, the two buckling portions are buckled with each other to form a buckling structure and are located above the bottom membrane portion 2006, the two side membrane portions 2005 are longitudinally arranged on two sides of the bottom membrane portion 2006, and in this way, the bottom membrane portion 2006, the two side membrane portions 2005 and the buckling structure are encircled to form a ring-shaped packaging membrane 300.

The two fastening parts of the membrane 200 are respectively provided with an insertion part 2002 and an insertion hole part 2001, wherein the insertion part 2002 is provided with an insertion hook 2003, the insertion hole part 2001 is provided with an insertion hole 2004, when the insertion hook 2003 of the insertion part 2002 is inserted into the insertion hole 2004 of the insertion hole part 2001, the insertion part 2002 is in clamping connection with the insertion hole part 2001, and the insertion part 2002 and the insertion hole part 2001 are in a superposed shape to form a superposed clamping structure.

In this embodiment, the insertion hook strips 2003 are formed on two sides of the insertion portion 2002 and extend downward, and the insertion holes are inclined, so that when the insertion portion 2002 is overlapped with the insertion hole 2001, the insertion hook strips 2003 are inserted into the insertion holes in a reverse hook shape, so that the insertion portion 2002 is engaged with the insertion hole 2001.

In this embodiment, the membrane folding structure 105 bends the sheet-shaped membrane 200 for the first time, and bends the insertion portion 2002 and the insertion hole portion 2001 upward with respect to the side membrane portion 2005, thereby forming the membrane 200 for the first time.

The membrane buckling structure 103 is used for processing the membrane 200 which is bent upwards relative to the side membrane portion 2005 by the insertion portion 2002 and the insertion hole portion 2001, and comprises a fixing table 1035, a bending structure and a clamping structure, wherein the fixing table 1035 is provided with a buckling membrane rod 1031 which moves up and down, the buckling membrane rod 1031 is located above the fixing table 1035, and the buckling membrane rod 1031 abuts against a bottom membrane portion 2006 of the membrane 200 placed on the fixing table 1035.

The bending structure bends the membrane 200 after the first bending for the second time, so that the two side membrane portions 2005 bend upwards relative to the bottom membrane portion 2006 respectively until the insertion portion 2002 and the insertion hole portion 2001 are arranged on the buckling membrane bar 1031 up and down; the engaging structure inserts the insertion hook 2003 of the insertion portion 2002 into the insertion hole 2004 of the insertion hole portion 2001, so that the insertion portion 2002 and the insertion hole portion 2001 are engaged with each other, and the film 200 forms the packaging film 300.

The winding structure 101 includes a rotating table 1012, and a winding head is disposed on the rotating table 1012, and the winding head rotates along with the rotating table 1012, and a strip-shaped wire can be wound around the periphery of the winding head to form the winding group 400.

The film covering structure 102 comprises a film covering channel and a film covering moving head 108, a winding group 400 wound by the winding structure 101 and a packaging film 300 formed in the film covering structure 103 are placed in the film covering channel, the winding group 400 and the packaging film 300 are linearly arranged, the film covering moving head 108 is abutted against the winding group 400 to move towards the packaging film 300, and the winding group 400 is directly pushed into the packaging film 300, so that film covering operation is realized.

In the automatic film folding, winding and buckling device provided by the above, the film 200 is bent for the first time through the film folding structure 105, the film 200 after the first time is bent for the second time through the film buckling structure 103, and after the second time is bent, the insertion portion 2002 of the film 200 is connected with the jack portion 2001 in a clamping manner, so that the sheet-shaped film 200 forms an annular packaging film 300; the wire rod-shaped wires are formed into the winding group 400 through the winding structure 101, finally, the packaging film 300 and the winding group 400 are transferred into a film sleeving channel of the film sleeving structure 102, the winding group 400 is arranged in the packaging film 300 by utilizing the film sleeving moving head 108, the whole operation is automated, the full-automatic operation of winding, film folding and film coating is completed, and the processing efficiency is high.

The membrane buckling structure provided by the above not only limits the application in the automatic membrane buckling equipment of the embodiment, but also can be applied as a single integral structure as long as the membrane buckling structure is used for buckling and clamping the membrane.

The bottom film portion 2006 of the film 200 is fixed on the fixing table 1035, the bending structure presses the side film portion 2005 to bend relative to the bottom film portion 2006, the insertion portion 2002 and the insertion hole portion 2001 are arranged above the film buckling bar 1031 and are arranged up and down, bending of the film 200 is achieved, the insertion hook 2003 of the insertion portion 2002 is inserted into the insertion hole 2004 of the insertion hole portion 2001 through the clamping structure, clamping of the film 200 is achieved, the annular packaging film 300 is formed, the whole process is completed automatically, and machining efficiency is high.

The automatic film folding, winding and buckling equipment comprises a feeding table 1041, wherein the feeding table 1041 is arranged at the side edge of the film folding structure 105, and the film 200 to be folded in a sheet shape is directly overlapped and placed on the feeding table 1041. The feeding table 1041 is horizontally arranged, and the lower part of the feeding table is connected with the power element 1043, so that the feeding table 1041 can move up and down under the driving of the power element 1043.

The two sides of the feeding table 1041 are respectively provided with a feeding positioning plate 1042 which is longitudinally arranged, the feeding positioning plates 1042 are fixedly arranged, the feeding positioning plates 1042 and the feeding table 1041 are enclosed to form a feeding area for placing the membrane 200, after the membrane 200 is placed on the feeding table 1041, the feeding table 1041 is lifted along with the membrane 200 being taken out, and the feeding positioning plates 1042 are fixedly positioned.

A material transferring suction head is arranged between the feeding table 1041 and the membrane folding structure 105, and the material transferring suction head sucks up the membrane 200 on the feeding table 1041 and transfers the membrane 200 to the membrane folding structure 105; after the membrane 200 on the feeding table 1041 is sucked up by the material transferring suction head, at this time, the power element 1043 drives the feeding table 1041 to move upwards, so as to ensure that the membrane 200 on the top of the feeding table 1041 is always at the set position.

The membrane folding structure 105 comprises a membrane sucking table 1054, a fixing structure and two membrane folding blocks 1052 which move up and down, wherein after the membrane 200 of the feeding table 1041 is sucked by a material moving suction head, the membrane 200 is placed on the membrane sucking table 1054, and at the moment, the membrane sucking table 1054 is in butt joint with the bottom membrane portion 2006 of the membrane 200, and the bottom membrane portion 2006 of the membrane 200 is fixed; the two membrane folding blocks 1052 are respectively arranged at two sides of the membrane sucking platform 1054, a membrane folding interval is arranged between the two membrane folding blocks and the side edge of the membrane sucking platform 1054, the membrane 200 is placed on the membrane sucking platform 1054, the bottom membrane portion 2006 of the membrane 200 is fixed by the membrane sucking platform 1054, the side membrane portions 2005 of the membrane 200 are respectively arranged in alignment with the membrane folding interval, and the fixing structure fixes the side membrane portions 2005 of the membrane 200; the insertion portion 2002 and the insertion hole portion 2001 of the diaphragm 200 are respectively disposed on the two membrane folding blocks 1052, and when the membrane folding blocks 1052 move upward, the insertion portion 2002 and the insertion hole portion 2001 are respectively bent upward with respect to the side membrane portion 2005.

The suction table 1054 is formed with a vacuum suction hole, so that the bottom film portion 2006 of the diaphragm 200 can be sucked by the vacuum suction hole, thereby fixing the bottom film portion 2006 of the diaphragm 200 to the suction table 1054.

The fixing structure comprises a lower film-clamping plate 1055 and an upper film-clamping plate 1051, wherein the lower film-clamping plate 1055 and the upper film-clamping plate 1051 can move up and down with a film-clamping interval therebetween, the lower film-clamping plate 1055 is arranged in the film-clamping interval and is positioned below the side film portion 2005 of the film 200, and the upper film-clamping plate 1051 is positioned above the side film portion 2005 of the film 200, thus, that is, the side film portion 2005 of the film 200 is positioned in the film-clamping interval between the upper film-clamping plate 1051 and the lower film-clamping plate 1055.

In operation, the lower membrane-clamping plate 1055 is inserted into the membrane-folding space, the membrane-absorbing table 1054 drives the membrane 200 to move downwards until the side membrane portions 2005 of the membrane 200 are butted against the lower membrane-clamping plate 1055, and the upper membrane-clamping plate 1051 moves downwards until the side membrane portions 2005 of the membrane 200 are clamped, so that the fixation of the two side membrane portions 2005 of the membrane 200 can be achieved by the clamping action between the upper membrane-clamping plate 1051 and the lower membrane-clamping plate 1055.

In this embodiment, the membrane folding block 1052 is provided with a step surface 1053 recessed downward, one side of the step surface 1053 penetrates through one side of the membrane folding block 1052 facing the membrane folding space, and the other side of the step surface 1053 is provided with a positioning surface arranged longitudinally, when the membrane 200 is placed on the membrane suction table 1054, the insertion portion 2002 and the insertion hole portion 2001 are respectively arranged on the step surfaces 1053 of the two membrane folding blocks 1052 correspondingly, and two side end ends of the membrane 200 are abutted and positioned by the positioning surface.

After the bottom film portion 2006 of the film 200 is fixed by the suction table 1054 and the side film portion 2005 of the film 200 is fixed by the fixing structure, the two film folding blocks 1052 move upward, press the insertion portion 2002 and the insertion hole portion 2001 to bend upward, thereby realizing the first bending of the film 200.

The membrane buckling structure 103 and the membrane folding structure 105 are arranged oppositely, so that the membrane 200 after being bent for the first time in the membrane folding structure 105 is clamped by the upper membrane clamping plate 1051 and the lower membrane clamping plate 1055 and is transferred to the membrane buckling structure 103 for buckling.

The membrane buckling structure 103 comprises a fixed table 1035 which is horizontally arranged, wherein a buckling membrane bar 1031 which moves up and down is arranged on the fixed table 1035, and the buckling membrane bar 1031 is positioned above the fixed table 1035; the bending structure includes buckling film blocks 1034 disposed outside both sides of the fixing base 1035, and the engaging structure includes film inserting pins 1032 disposed above the fixing base 1035 and inserting the insertion hooks 2003 of the insertion portion 2002 into the insertion holes 2004 in the insertion hole portion 2001.

The fixed stage 1035 is disposed in end-to-end alignment with the suction stage 1054 so that the film 200 after the first film folding can be transferred directly from the suction stage 1054 to the fixed stage 1035.

When the membrane 200 is transferred onto the fixing table 1035, the bottom membrane portion 2006 of the membrane 200 is placed on the fixing table 1035, and at this time, the membrane buckling bar 1031 moves downward to press against the bottom membrane portion 2006 of the membrane 200, so that the membrane 200 is fixed on the fixing table 1035.

The two buckling film blocks 1034 are respectively located at two sides of the fixed table 1035 and below the fixed table 1035 and are aligned with the side film portions 2005 of the film 200, so that when the bottom film portion 2006 of the film 200 is fixed, the two buckling film blocks 1034 move upwards, and simultaneously press the two side film portions 2005 to bend upwards, that is, perform the second bending of the film 200, and when the two buckling film blocks 1034 move upwards to above the fixed table 1035, the two buckling film blocks 1034 move relatively, and press the two side film portions 2005 of the film 200 towards the buckling film bars 1031, at this time, the insertion portion 2002 and the insertion hole portion 2001 are arranged up and down, and the insertion hook strip 2003 of the insertion portion 2002 is inserted into the insertion hole 2004 of the insertion hole portion 2001 by using the insertion film needle.

In this embodiment, the buckling film blocks 1034 have pressing surfaces for pressing the side film portions 2005 of the film 200 to bend, so that the pressing surfaces of the two buckling film blocks 1034 are disposed opposite to each other, and in order to facilitate the engagement connection operation between the subsequent insertion portion 2002 and the insertion hole portion 2001, the side film portions 2005 of the film 200 need to be bent upward to incline inward, and the pressing surfaces are disposed obliquely inward in the bottom-up direction, so that the pressing of the side film portions 2005 of the film 200 is facilitated.

The buckling bar 1031 has an upwardly arranged buckling film end face 1036, the buckling film end face 1036 is obliquely arranged, and when the two buckling film blocks 1034 relatively move to relatively bend and press the side film portion 2005 of the film 200, the jack portion 2001 of the film 200 is abutted against the buckling film end face 1036. The buckling film end face 1036 is provided with a concave area 1037 which is concave downward, and the concave area 1037 is arranged in vertical alignment with the jack 2004 of the jack portion 2001 arranged on the buckling film end face 1036, so that when the jack portion 2001 is butted on the buckling film end face 1036, the inserting film needle 1032 presses the inserting hook 2003 downward into the jack 2004 of the jack portion 2001, and interference with the buckling film end face 1036 does not occur.

In this embodiment, when the insertion hole portion 2001 is abutted on the buckling film end face 1036, the insertion portion 2002 is placed above the insertion hole portion 2001, at this time, in order to avoid the subsequent operation by using the insertion film needle 1032, the insertion portion 2002 is tilted upward, a lower pressing block that moves up and down is provided above the fixing table 1035, and an inclined bar 1033 is provided on the lower pressing block, and when the insertion portion 2002 is placed above the insertion hole portion 2001, the inclined bar 1033 is used to press against the insertion portion 2002, so as to avoid the insertion portion 2002 from being tilted upward; in addition, the inclined strip 1033 is vertically aligned with the buckling film end face 1036 and is inclined in the same direction as the buckling film end face 1036, so that the insertion portion 2002 and the insertion hole portion 2001 can be arranged in a superposed manner as much as possible, and the subsequent insertion operation of the film insertion needle 1032 is facilitated.

In this embodiment, the film inserting needle 1032 is obliquely arranged above the film buckling end face 1036 and is obliquely arranged in the same direction as the film buckling end face 1036, and when the film buckling is required, the film inserting needle 1032 moves from top to bottom along the film buckling end face 1036 and abuts against the inserting hook 2003 of the inserting portion 2002, so that the inserting hook 2003 is directly extruded into the inserting hole 2004 of the inserting hole portion 2001.

Specifically, in order that the film inserting needle 1032 can better insert the insertion hook 2003 into the insertion hole 2004 of the insertion hole 2001, in this embodiment, a positioning strip is disposed on the buckling film end face 1036 and spans the recessed area 1037 of the buckling film end face 1036, so that the film inserting needle 1032 will also abut against the positioning strip during the insertion process of the insertion hook 2003 into the insertion hole 2004, and the placement slip causes a problem of difficult insertion.

The upper surface of the positioning strip is arranged in an arc shape.

In order to avoid damaging the membrane 200 during the process of pressing the membrane 200, in this embodiment, the membrane insertion needle 1032 has a needle head for pressing the membrane 200, which is arranged in a cambered surface shape, and in order to be able to press the membrane 200 with a larger area, the insertion hook 2003 is conveniently inserted into the insertion hole 2004, and the needle head is arranged in a horizontal bar shape and is cambered surface shape.

When the insertion hook 2003 is inserted into the insertion hole 2004, the insertion portion 2002 and the insertion hole 2001 are engaged with each other, and the film 200 forms the packaging film 300.

When the film 200 passes through the film buckling structure 103, the packaging film 300 is formed, at this time, the buckling bar 1031 is retracted and transferred into the film sleeving channel of the film sleeving structure 102 by the film transferring manipulator.

The winding head of the winding structure 101 includes two winding rods 1011 arranged longitudinally, the two winding rods 1011 are arranged on the rotating table 1012 in parallel, and rotate along with the rotation of the rotating table 1012, and the two winding rods 1011 can relatively move to reduce the distance between the two winding rods, or the two winding rods 1011 are moved away from each other to increase the distance between the two winding rods.

When the wire is required to be wound, one end of the wire is placed between the two winding rods 1011, and the rotating table 1012 rotates, so that the wire is wound around the outer circumferences of the two winding rods 1011 to form the winding group 400.

Of course, in order to make the winding groups 400 in a more orderly arrangement, a rotating power element 1013 driving the rotating table 1012 to move up and down is connected under the rotating table 1012, and the rotating power element 1013 drives the rotating table 1012 to move gradually downwards or gradually upwards while the rotating table 1012 rotates the winding, so that the winding groups 400 are sequentially arranged in the height direction.

In order to facilitate winding, and to facilitate the winding unit 400 to be separated from the two winding rods 1011, the two winding rods 1011 are disposed in a direction from bottom to top in a state of being inclined toward each other, so that the distance between the two winding rods 1011 is gradually reduced.

The winding groups 400 wound around the two winding bars 1011 are separated from the winding bars 1011 by the traverse robot and transferred to the film coating passage.

Outside the winding group 400, a wire arranging table 100 is arranged, and the wire arranging table 100 is used for placing wires to be wound. The flat cable station 100 is arranged in a straight strip shape, which is convenient for placing wires and is convenient for operating the wires through the winding structure 101. A safety button is provided on the winding displacement table 100, and when emergency or other various needs are met, the operation of the whole automatic film folding, winding and buckling device can be stopped in time through the safety button.

Between the winding displacement table 100 and the winding structure 101, two rolling wheels 1001 are arranged in parallel, and a threading gap for a wire rod to pass through is arranged between the two rolling wheels 1001, so that the wire rod entering the winding structure 101 can be straightened and tensioned under the rolling extrusion of the two rolling wheels 1001.

The film-coating moving head 108 is aligned with the film-coating channel in a linear arrangement, by pushing the film-coating moving head 108 into the film-coating channel and pushing the winding group 400 into the packaging film 300.

The film sleeving structure 102 comprises a film sleeving table and a film sleeving table, wherein a line containing channel 1024 is arranged on the film sleeving table, a film containing channel 1023 is arranged on the film sleeving table, the film sleeving table is arranged adjacent to the film sleeving table, and the film sleeving table is movably arranged relative to the film sleeving table and can move towards the film sleeving table, so that the line sleeving table is in butt joint with the film sleeving table, and accordingly the line containing channel 1024 is in butt joint and communicated with the film containing channel 1023; when the threading station moves away from the laminating station, there is a gap between the threading station and the laminating station, so that the wire receiving channel 1024 and the film receiving channel 1023 do not directly interface.

The wire accommodating channel 1024 of the wire sleeving table is aligned and communicated with the film accommodating channel 1023 of the film sleeving table, and is arranged in a straight line, the wire accommodating channel 1024 and the film sleeving channel form the film sleeving channel, and the length of the film sleeving channel is changed along with the change of the interval between the wire sleeving table and the film sleeving table.

In the initial state, a space is reserved between the threading table and the film sleeving table, so that after the line transferring manipulator clamps the winding group 400, the line transferring manipulator can directly enter the space, thereby placing the winding group 400 in the line accommodating channel 1024, and then leaving the line transferring manipulator; when the winding set 400 needs to be sleeved, the wire sleeve table moves relative to the film sleeve table and is abutted together, and at the moment, the film sleeve moving head 108 pushes the winding set 400 to move towards the film accommodating channel 1023, so that the winding set 400 is placed in the packaging film 300.

In this embodiment, two wire sleeving plates 1022 are disposed in parallel on the wire sleeving table, the two wire sleeving plates 1022 can move towards each other or away from each other, the wire accommodating channel 1024 is formed between the two wire sleeving plates 1022, and the width of the wire accommodating channel 1024 can be determined by the distance between the two wire sleeving plates 1022.

The two parallel arranged film cover plates 1021 on the film cover table can move towards each other or away from each other, the film accommodating channel 1023 is formed between the two film cover plates 1021, and the width of the film accommodating channel 1023 can be determined by the interval between the two film cover plates 1021.

A wire pressing block 1027 which moves up and down is arranged on the wire containing channel 1024, and the wire pressing block 1027 is arranged above the wire containing channel 1024 and aligned with the wire containing channel 1024; the wire pressing block 1027 can press the winding group 400 arranged in the winding channel from top to bottom; a film pressing block 1026 is disposed on the film accommodating channel 1023 and moves up and down, the film pressing block 1026 is disposed above the film accommodating channel 1023 and aligned with the film accommodating channel 1023, and the film pressing block 1026 can be along the packaging film 300 disposed in the film accommodating channel 1023 from top to bottom.

The film-coating moving head 108 has a push-wire end 1081 pushing the winding 400, the push-wire end 1081 is recessed inward to form a cambered recessed groove, so that the push-wire end 1081 is convenient for butt-joint matching with the winding 400.

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

Claims (6)

1. The membrane buckling structure is characterized by comprising a bottom membrane part, wherein two sides of the bottom membrane part are respectively abutted with side membrane parts, the outer sides of the two side membrane parts are respectively abutted with an inserting part and an inserting hole part correspondingly, the inserting part is provided with an inserting hook strip, and the inserting hole part is provided with an inserting hole for the inserting hook strip to be inserted and clamped;

the membrane buckling structure is used for processing the membrane which is bent upwards relative to the side membrane parts, and comprises a fixed table which is horizontally arranged and is used for placing the bottom membrane part of the membrane, a bending structure and a clamping structure, wherein a buckling membrane rod which moves up and down and is propped against the bottom membrane part of the membrane on the fixed table is arranged above the fixed table, and the bending structure bends the membrane on the fixed table, so that the two side membrane parts of the membrane are respectively bent upwards relative to the bottom membrane part until the inserting part and the jack part are vertically arranged on the buckling membrane rod; the clamping structure inserts the insertion hook strip of the insertion part into the insertion hole of the insertion hole part, so that the membrane forms an annular packaging film;

the bending structure comprises buckling modules which are respectively arranged outside two sides of the fixed table; the bottom film part of the diaphragm is arranged on the fixed table, the film buckling rod moves downwards to press against the bottom film part of the diaphragm, the two buckling modules move upwards to correspondingly press the two side film parts of the diaphragm to bend upwards, and after the buckling modules move to the upper part of the fixed table, the two buckling modules move relatively to press the two side film parts of the diaphragm towards the film buckling rod until the inserting part and the jack part are arranged on the film buckling rod up and down;

the clamping structure comprises a film inserting needle arranged above the fixed table; after the membrane is bent to the shape that the inserting part and the inserting hole part are arranged on the membrane buckling rod up and down through the bending structure, the membrane inserting needle inserts the inserting hook strip of the inserting part into the membrane inserting needle in the inserting hole of the inserting hole part;

the buckling film rod is provided with an upward buckling film end face which is obliquely arranged, and a downward concave area is arranged on the buckling film end face; after the two buckling modules relatively move, the jack parts of the diaphragms are abutted on the buckling film end faces, and the jacks of the jack parts are aligned with the concave areas.

2. The membrane buckling structure according to claim 1, wherein the buckling modules are provided with abutting surfaces for abutting against side membrane parts of the membrane, and the abutting surfaces of the two buckling modules are oppositely arranged; and the pressing surface is obliquely arranged inwards along the direction from bottom to top of the buckling module.

3. The membrane buckling structure according to any one of claims 1 to 2, wherein the membrane inserting needle is obliquely arranged above the buckling membrane end face of the buckling membrane rod, and the membrane inserting needle and the buckling membrane end face are obliquely in the same direction.

4. The membrane buckling structure according to any one of claims 1 to 2, wherein a lower pressing block which moves up and down is arranged above the fixed table, the lower pressing block is provided with an inclined strip, and the inclined strip and the buckling end face are arranged in an inclined way in the same direction; when the jack part of the membrane is abutted on the end face of the buckling membrane, the lower pressing block drives the inclined strip to move downwards, and the inclined strip abuts against the insertion part to be abutted on the jack part.

5. The membrane buckling structure according to any one of claims 1 to 2, wherein the membrane inserting needle is provided with a needle head for extruding the membrane, and the needle heads are arranged in a cambered surface shape.

6. The membrane buckling structure according to claim 5, wherein the needles are arranged in a horizontal bar.