CN209905206U - Membrane buckling structure - Google Patents

Abstract

The utility model relates to the technical field of packaging films, a membrane buckling structure for a membrane is disclosed, which is used for processing a membrane with an insertion part and a jack part bent upwards relative to a side membrane part, and comprises a fixed table, a bending structure and a clamping structure which are horizontally arranged and used for placing the bottom membrane part of the membrane, a membrane buckling rod which moves up and down and presses 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 insertion part and the jack part are vertically arranged on the membrane buckling 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 film sheet forms an annular packaging film, the whole process is automatically completed, and the processing efficiency is high.

Description

Membrane buckling structure

Technical Field

The patent of the utility model relates to a technical field of packaging film particularly, relates to membrane buckling structure of diaphragm.

Background

At present, in the use of digital products, auxiliary members such as wires are often used, for example, data lines or various power lines used in 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 for connecting the mobile device to charge. Generally speaking, the communication tool is used for connecting a computer and a mobile device to transmit files such as videos, ringtones and pictures, or used for connecting the mobile device to charge, etc.

When the data line is packed after manufacturing production, often need earlier the wire winding form the wire winding group, carry out the diolame with the wire winding group again, the packaging film is lantern ring form, directly with wire winding group device at the packaging film to under the restriction of packaging film, the shape after the wire winding can be kept to the wire winding group, thereby the packing of the data line of being convenient for etc..

Most of wires including data wires need to be wound into a winding group after production and then the winding group is sleeved with a packaging film, so that the wires are packaged.

In the prior art, a packaging film is formed by a film folding operation of a film sheet, namely, a series of operations such as film folding, film buckling and the like are carried out on the film sheet, and then an annular packaging film is formed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a membrane structure is detained to the diaphragm aims at solving prior art, and the knot membrane operation of diaphragm has the problem that machining efficiency is low.

The utility model discloses a realize like this, diaphragm knot membrane structure, the diaphragm includes bottom film portion, the both sides of bottom film portion are respectively to the butt joint has side membrane portion, two the outside of side membrane portion is respectively corresponding to the butt joint has insertion portion and jack portion, insertion portion has the insertion and colludes the strip, jack portion has the jack that supplies the insertion colludes the strip and inserts the block;

the membrane buckling structure is used for processing the membrane of which the inserting part and the jack part are bent upwards relative to the side membrane parts, the membrane buckling structure comprises a fixing table, a bending structure and a clamping structure which are horizontally arranged and used for placing the bottom membrane part of the membrane, a membrane buckling rod which moves up and down and is pressed against the bottom membrane part of the membrane on the fixing table is arranged above the fixing table, and the bending structure buckles the membrane on the fixing 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 membrane buckling 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 film sheet forms an annular packaging film.

Furthermore, the bending structure comprises buckling modules which are respectively arranged outside two sides of the fixed table; basement membrane portion of diaphragm is placed on the fixed station, detain membrane pole and remove down, support and press the basement membrane portion of diaphragm, two detain the module and remove up, correspond two side membrane portions of squeezing the diaphragm and buckle up, and work as it removes extremely to detain the module behind the top of fixed station, two detain module relative movement, will two side membrane portions of diaphragm orientation detain the membrane pole extrusion, until insertion portion is arranging from top to bottom with jack portion detains on the membrane pole.

Furthermore, the buckling modules are provided with abutting surfaces which abut against the side membrane parts of the membranes, and the abutting surfaces of the two buckling modules are arranged oppositely; along the direction from bottom to top of the buckling module, the pressing surface is arranged in an inwards inclined mode.

Furthermore, the clamping structure comprises a film inserting needle arranged above the fixed table; when the diaphragm is bent to the insertion part and the insertion hole part through the bending structure and is vertically arranged on the diaphragm buckling rod, the insertion hook strip of the insertion part is inserted into the film inserting needle in the insertion hole of the insertion hole part through the film inserting needle.

Furthermore, the film buckling rod is provided with a film buckling end face which is arranged upwards, the film buckling end face is arranged in an inclined mode, and a concave area which is concave downwards is arranged on the film buckling end face; after the two buckling modules move relatively, the inserting hole part of the membrane abuts against the end face of the buckling membrane, and the inserting hole of the inserting hole part is aligned with the concave area.

Furthermore, insert the membrane needle and be arranged in the slope form buckle the top of membrane terminal surface of membrane pole, just insert the membrane needle with buckle the membrane terminal surface syntropy slope.

Furthermore, 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 film buckling end face are obliquely arranged in the same direction; after the plug hole portion of the diaphragm abuts against the film buckling end face, the lower pressing block drives the inclined strip to move downwards, and the inclined strip abuts against the plug-in portion and abuts against the plug hole portion.

Furthermore, the membrane inserting needle is provided with a needle head for extruding membrane sheets, and the needle head is arranged in an arc surface shape.

Furthermore, the needles are arranged in a transverse strip shape.

Compared with the prior art, the utility model provides a membrane buckling structure, fix on the fixed station through the basement membrane portion with the diaphragm, the structure of buckling extrudees the side membrane portion and buckles for the basement membrane portion, and insertion portion and jack portion arrange in the top of detaining the membrane pole, arrange about being, realize buckling of diaphragm, rethread block structure colludes inserting of insertion portion and inserts in the jack of jack portion, realize the block of diaphragm, form annular packaging film, whole process automation accomplishes, and machining efficiency is higher.

Drawings

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

fig. 2 is a schematic perspective view of a wire arranging table provided by the present invention;

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

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

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

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

fig. 9 is a partial perspective view of the membrane buckling structure provided by the present invention;

fig. 10 is a partial perspective view of the membrane buckling structure provided by the present invention;

fig. 11 is a schematic flow chart of the film sheet forming process into the packaging film provided by the present invention;

fig. 12 is a partial perspective view of the film covering structure provided by the present invention;

fig. 13 is a partial perspective view of the film covering structure provided by the present invention;

fig. 14 is a schematic view of the process of matching the winding set with the packaging film provided by the present invention;

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

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail 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 are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art can understand the specific meanings of the terms according to specific situations.

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

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

The automatic film folding, winding and buckling device comprises a film folding structure 105, a film buckling structure 103, a winding structure 101 and a film sleeving structure 102. The film 200 is sheet-shaped, before the film 200 enters the film folding structure 105, the film 200 is straight-strip sheet-shaped, and includes a bottom film portion 2006, two side film portions 2005 and two fastening portions, the two side film portions 2005 are respectively and correspondingly butted on two sides of the bottom film portion 2006, the two fastening portions are respectively and correspondingly butted on two sides of the side film portions 2005, after the film 200 is fastened through the first bending of the film folding structure 105 and the second bending of the film fastening structure 103, the two fastening portions are fastened with each other to form a fastening structure, and are located above the bottom film portion 2006, the two side film portions 2005 are longitudinally arranged on two sides of the bottom film portion 2006, and thus, the bottom film portion 2006, the two side film portions 2005 and the fastening structure enclose to form the annular packaging film 300.

The two engaging portions of the diaphragm 200 respectively have an insertion portion 2002 and an insertion hole portion 2001, wherein the insertion portion 2002 has an insertion hook 2003, the insertion hole portion 2001 has an insertion hole 2004 formed therein, when the insertion hook 2003 of the insertion portion 2002 is inserted into the insertion hole 2004 of the insertion hole portion 2001, the insertion portion 2002 and the insertion hole portion 2001 are engaged and connected, and the insertion portion 2002 and the insertion hole portion 2001 are overlapped to form an overlapped engaging structure.

In this embodiment, the insertion hook strips 2003 are formed on both sides of the insertion portion 2002 and extend downward, and the insertion holes are inclined such that, when the insertion portion 2002 and the insertion hole portion 2001 are overlapped, the insertion hook strips 2003 are inserted into the insertion holes in a barbed shape, thereby allowing the insertion portion 2002 and the insertion hole portion 2001 to be engaged together.

In this embodiment, the film folding structure 105 folds the sheet-shaped film sheet 200 for the first time, and folds the insertion portion 2002 and the insertion hole portion 2001 upward with respect to the side film portion 2005 to form the first folded film sheet 200.

The membrane fastening structure 103 is used for processing the membrane 200 of which the insertion portion 2002 and the insertion hole portion 2001 are bent upward relative to the side membrane portion 2005, and comprises a fixing table 1035, a bending structure and a clamping structure, wherein a fastening membrane rod 1031 which moves up and down is arranged on the fixing table 1035, the fastening membrane rod 1031 is positioned above the fixing table 1035, and the fastening membrane rod 1031 presses against the bottom membrane portion 2005 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 are bent upwards relative to the bottom membrane portion 2006 respectively until the insertion portion 2002 and the insertion hole portion 2001 are arranged on the membrane buckling rod 1031 up and down; the engagement 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 sheet 200 forms the packaging film 300.

The winding structure 101 includes a rotating platform 1012, a winding head is disposed on the rotating platform 1012, the winding head rotates along with the rotating platform 1012, and the strip-shaped wire can be wound on the outer 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, the winding structure 101 is wound in the film covering channel, the packaging films 300 formed in the winding group 400 and the film buckling structure 103 are arranged linearly, the winding group 400 and the packaging films 300 are abutted to the winding group 400 by the film covering moving head 108 and move towards the packaging films 300, the winding group 400 is directly pushed into the packaging films 300, and the film covering operation is achieved.

According to the automatic film folding, winding and buckling equipment, the film sheet 200 is bent for the first time through the film folding structure 105, the film sheet 200 bent for the first time is bent for the second time through the film sheet buckling structure 103, and after the film sheet is bent for the second time, the insertion part 2002 of the film sheet 200 is clamped and connected with the insertion hole part 2001, so that the sheet-shaped film sheet 200 forms the annular packaging film 300; the winding structure 101 is used for forming the winding group 400 by the linear wire, finally, the packaging film 300 and the winding group 400 are transferred to the film covering channel of the film covering structure 102, the film covering moving head 108 is used for installing the winding group 400 in the packaging film 300, the whole operation is automatic, the full-automatic operation of winding, film folding and film enveloping is completed, and the processing efficiency is high.

The membrane buckling structure provided by the above is not limited to be applied to the automatic membrane folding and buckling device of the embodiment, but can also be applied as a single integral structure as long as being used for bending and clamping the membrane.

The bottom membrane portion 2006 of the membrane sheet 200 is fixed on the fixing table 1035, the bending structure presses the side membrane portion 2005 to bend relative to the bottom membrane portion 2006, the insertion portion 2002 and the insertion hole portion 2001 are arranged above the membrane buckling rod 1031 and are arranged up and down, bending of the membrane sheet 200 is achieved, the insertion hook strip 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 membrane sheet 200 is achieved, the annular packaging membrane 300 is formed, the whole process is finished 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 on the side edge of the film folding structure 105, and a flaky diaphragm 200 to be folded is directly overlapped and placed on the feeding table 1041. The feeding table 1041 is arranged horizontally, and is connected with a power element 1043 below, 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 arranged longitudinally, the feeding positioning plate 1042 is fixedly arranged, the feeding positioning plate 1042 and the feeding table 1041 enclose 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 taken out, and the feeding positioning plate 1042 is fixedly positioned.

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

The film folding structure 105 comprises a film sucking table 1054, a fixing structure and two film folding blocks 1052 moving up and down, wherein after the material moving suction head sucks the membrane 200 of the feeding table 1041, the membrane 200 is placed on the film sucking table 1054, at this time, the film sucking table 1054 is butted with the bottom film part 2006 of the membrane 200, and the bottom film part 2006 of the membrane 200 is fixed; the two film folding blocks 1052 are respectively arranged at two sides of the film sucking table 1054, a film folding interval is formed between the two film folding blocks and the side edge of the film sucking table 1054, the film 200 is placed on the film sucking table 1054, the bottom film part 2006 of the film 200 is fixed by the film sucking table 1054, the side film parts 2005 of the film 200 are respectively arranged in alignment with the film folding intervals, and the fixing structure fixes the side film parts 2005 of the film 200; the insertion portion 2002 and the insertion hole portion 2001 of the diaphragm 200 are respectively and correspondingly disposed on the two diaphragm folding blocks 1052, and the diaphragm folding blocks 1052 move upwards along with the insertion portion 2002 and the insertion hole portion 2001 are respectively and upwards bent and arranged relative to the side diaphragm portion 2005.

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

The fixing structure comprises a lower film clamping plate 1055 and an upper film clamping plate 1051, the lower film clamping plate 1055 and the upper film clamping plate 1051 can move up and down, a film clamping interval is arranged between the lower film clamping plate 1055 and the upper film clamping plate 1051, the lower film clamping plate 1055 is arranged in the film clamping interval and is positioned below the side film part 2005 of the film 200, and the upper film clamping plate 1051 is positioned above the side film part 2005 of the film 200, so that the side film part 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 the operation process, the lower film clamping plate 1055 is inserted into the film folding interval, the film suction table 1054 drives the film sheet 200 to move downwards until the side film portion 2005 of the film sheet 200 is butted on the lower film clamping plate 1055, and the upper film clamping plate 1051 moves downwards until the film sheet is clamped on the side film portion 2005 of the film sheet 200, so that the two side film portions 2005 of the film sheet 200 can be fixed by utilizing the clamping effect between the upper film clamping plate 1051 and the lower film clamping plate 1055.

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

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

The membrane buckling structure 103 is arranged opposite to the membrane folding structure 105, so that the membrane 200 which is 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 fixing table 1035 which is horizontally arranged, a buckling membrane rod 1031 which moves up and down is arranged on the fixing table 1035, and the buckling membrane rod 1031 is positioned above the fixing table 1035; the bending structure includes film-fastening blocks 1034 disposed outside both sides of the fixing table 1035, and the engaging structure includes film-inserting needles 1032 disposed above the fixing table 1035 and inserting the insertion hook 2003 of the insertion portion 2002 into the insertion holes 2004 in the insertion hole portion 2001.

The fixing table 1035 is aligned with the film suction table 1054 at the end, so that the film sheet 200 after the first film folding can be directly transferred from the film suction table 1054 to the fixing table 1035.

After the membrane 200 is transferred to the mounting block 1035, the bottom membrane portion 2006 of the membrane 200 rests on the mounting block 1035, and at this point the buckle bar 1031 moves downward against the bottom membrane portion 2006 of the membrane 200, thereby securing the membrane 200 to the mounting block 1035.

The two film fastening blocks 1034 are respectively located at two sides of the fixing table 1035, are located below the fixing table 1035, and are aligned with the side film portions 2005 of the film sheet 200, so that after the bottom film portion 2006 of the film sheet 200 is fixed, the two film fastening blocks 1034 move upwards and press the two side film portions 2005 to bend upwards, that is, the film sheet 200 is bent for the second time, and after the two film fastening blocks 1034 move upwards to above the fixing table 1035, the two film fastening blocks 1034 move relatively to press the two side film portions 2005 of the film sheet 200 towards the film fastening rods 1031, respectively, at this time, the insertion portion 2002 and the insertion hole portion 2001 are arranged up and down, and the insertion hook 2003 of the insertion portion 2002 is inserted into the insertion hole 2004 of the insertion hole portion 2001 by using the film insertion needle 1032.

In this embodiment, the film fastening blocks 1034 have pressing surfaces that press against the bent side film portions 2005 of the film 200, so that the pressing surfaces of the two film fastening blocks 1034 are arranged oppositely, in order to facilitate the subsequent clamping connection operation between the insertion portion 2002 and the insertion hole portion 2001, the side film portions 2005 of the film 200 need to be bent upward to be inclined inward, and the pressing surfaces are arranged inclined inward along the direction from bottom to top, so that the side film portions 2005 of the film 200 can be pressed conveniently.

The membrane fastening rod 1031 has an upward membrane fastening end surface 1036, the membrane fastening end surface 1036 is obliquely arranged, and when the two membrane fastening blocks 1034 move relatively to bend and press the side membrane portions 2005 of the membrane 200 relatively, the insertion hole portion 2001 of the membrane 200 is butted on the membrane fastening end surface 1036. The buckle film end surface 1036 is provided with a recessed region 1037 recessed downward, and the recessed region 1037 is aligned vertically with the insertion hole 2004 of the insertion hole portion 2001 provided on the buckle film end surface 1036, so that when the insertion hole portion 2001 is butted against the buckle film end surface 1036, the insertion pin 1032 presses the insertion hook strip 2003 downward into the insertion hole 2004 of the insertion hole portion 2001 without interfering with the buckle film end surface 1036.

In this embodiment, after the insertion hole portion 2001 is abutted on the film fastening end surface 1036, the insertion portion 2002 is disposed above the insertion hole portion 2001, and at this time, in order to prevent the insertion portion 2002 from tilting upward when the subsequent operation is performed by the film inserting needle 1032, a lower pressing block which moves upward and downward is disposed above the fixing table 1035, and an inclined strip 1033 is disposed on the lower pressing block, and after the insertion portion 2002 is disposed above the insertion hole portion 2001, the inclined strip 1033 is used for abutting against the insertion portion 2002 to prevent the insertion portion 2002 from tilting upward; in addition, the inclined strips 1033 are vertically aligned with the film fastening end surface 1036 and are inclined in the same direction as the film fastening end surface 1036, so that the insertion portion 2002 and the insertion hole portion 2001 can be arranged in an overlapped manner as much as possible, and the subsequent insertion operation of the film insertion needle 1032 is facilitated.

In this embodiment, the film inserting needles 1032 are obliquely arranged above the film fastening end surface 1036 and obliquely arranged in the same direction as the film fastening end surface 1036, and when film fastening is required, the film inserting needles 1032 move from top to bottom along the film fastening end surface 1036 and press against the inserting hook strips 2003 of the inserting portion 2002, so as to directly press the inserting hook strips 2003 into the inserting holes 2004 of the inserting hole portion 2001.

Specifically, in order to better insert the insertion hook strip 2003 into the insertion hole 2004 of the insertion hole portion 2001, in the present embodiment, a positioning strip is provided on the film attaching end surface 1036, and the positioning strip is arranged across the recessed region 1037 of the film attaching end surface 1036, so that the insertion needle 1032 also presses against the positioning strip during the process of pressing the insertion hook strip 2003 to insert into the insertion hole 2004, and the problem of difficult insertion due to slippage during placement occurs.

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

In order to prevent the membrane sheet 200 from being damaged during the process of extruding the membrane sheet 200, in the present embodiment, the membrane inserting needle 1032 has a needle head of the membrane sheet 200, the needle head is arranged in an arc shape, and in order to be able to extrude a larger area of the membrane sheet 200, the inserting hook 2003 is conveniently inserted into the inserting hole 2004, and the needle head is arranged in a horizontal bar shape and is in an arc shape.

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

After the membrane sheet 200 passes through the membrane retaining structure 103, the packaging membrane 300 is formed, and at this time, the membrane retaining bar 1031 is retracted and transferred into the membrane covering channel of the membrane covering structure 102 by the membrane transferring robot.

The wire winding head of the wire winding structure 101 comprises two wire winding rods 1011 which are longitudinally arranged, the two wire 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 wire winding rods 1011 can move relatively to reduce the distance between the two wire winding rods, or the two wire winding rods 1011 move away to increase the distance between the two wire winding rods.

When the wire needs 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 on the peripheries of the two winding rods 1011 to form the winding group 400.

Of course, in order to arrange the winding groups 400 more neatly, a rotary power member 1013 for driving the rotary table 1012 to move up and down is connected below the rotary table 1012, and while the rotary table 1012 rotates the winding, the rotary power member 1013 drives the rotary table to move gradually downward or gradually upward, so that the winding groups 400 are arranged in sequence in the height direction.

In order to facilitate winding, the two winding rods 1011 of the winding set 400 are separated from each other, and the two winding rods 1011 are arranged in an opposite inclined manner along the direction from bottom to top, so that the distance between the two winding rods 1011 is gradually reduced.

The winding groups 400 wound around the two winding rods 1011 are separated from the winding rods 1011 by a thread transferring robot and transferred into a film covering channel.

On the outside of the winding group 400, a traverse table 100 is disposed, and the traverse table 100 is used to place a wire to be wound. The wire arranging table 100 is arranged in a straight strip plate shape, so that the wires can be conveniently placed and operated through the wire winding structure 101. The safety button is arranged on the wire arranging platform 100, and when an emergency or other various needs occur, the operation of the whole automatic film folding, winding and buckling equipment can be stopped in time through the safety button.

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

The film covering moving head 108 is aligned with the film covering channel and arranged linearly, and the winding group 400 is pushed into the packaging film 300 by pushing the film covering moving head 108 into the film covering channel.

The film covering structure 102 comprises a film covering table and a film covering table, wherein the film covering table is provided with a line accommodating channel 1024 and is provided with a film accommodating channel 1023, the film covering table and the film covering table are arranged adjacently, the film covering table is movably arranged relative to the film covering table and can move towards the film covering table, the film covering table and the film covering table are in butt joint, and therefore the line accommodating channel 1024 is in butt joint with the film accommodating channel 1023; when the thread covering table moves away from the film covering table, a gap exists between the thread covering table and the film covering table, so that the thread containing channel 1024 and the film containing channel 1023 are not directly butted.

The thread containing channel 1024 of the thread covering table is communicated with the film containing channel 1023 of the film covering table in an aligned mode and is arranged linearly, the thread containing channel 1024 and the film covering channel form the film covering channel, and the length of the film covering channel changes along with the change of the interval between the thread covering table and the film covering table.

In an initial state, a gap is formed between the wire covering table and the film covering table, so that after the wire moving manipulator clamps the wire winding group 400 to come, the wire moving manipulator can be directly positioned in the gap, the wire winding group 400 is placed in the wire accommodating channel 1024, and then the wire moving manipulator leaves; when the winding group 400 needs to be filmed, the film covering table moves relative to the film covering table and is butted together, and at this time, the film covering moving head 108 pushes the winding group 400 to move towards the film accommodating channel 1023, so that the winding group 400 is placed in the packaging film 300.

In this embodiment, two wire-guiding plates 1022 arranged in parallel on the wire-guiding table, the two wire-guiding plates 1022 can move towards each other or away from each other, the above-mentioned wire-receiving channel 1024 is formed between the two wire-guiding plates 1022, and the width of the wire-receiving channel 1024 can be determined by the distance between the two wire-guiding plates 1022.

Two film covering plates 1021 are arranged on the film covering table in parallel, the two film covering plates 1021 can move towards each other or move away from each other, the film containing channels 1023 are formed between the two film covering plates 1021, and the width of the film containing channels 1023 can be determined by the distance between the two film covering plates 1021.

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

The film moving head 108 has a wire pushing end 1081 for pushing the winding set 400, and the wire pushing end 1081 is recessed inward to form a curved groove, so as to facilitate the butt-joint matching between the wire pushing end 1081 and the winding set 400.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The membrane buckling structure is characterized in that the membrane comprises a bottom membrane part, two sides of the bottom membrane part are respectively butted with a side membrane part, the outer sides of the two side membrane parts are respectively butted with an insertion part and a jack part correspondingly, the insertion part is provided with an insertion hook strip, and the jack part is provided with a jack for inserting and clamping the insertion hook strip;

the membrane buckling structure is used for processing the membrane of which the inserting part and the jack part are bent upwards relative to the side membrane parts, the membrane buckling structure comprises a fixing table, a bending structure and a clamping structure which are horizontally arranged and used for placing the bottom membrane part of the membrane, a membrane buckling rod which moves up and down and is pressed against the bottom membrane part of the membrane on the fixing table is arranged above the fixing table, and the bending structure buckles the membrane on the fixing 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 membrane buckling 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 film sheet forms an annular packaging film.

2. The membrane buckling structure as claimed in claim 1, wherein the bending structure comprises buckling modules respectively disposed outside both sides of the fixing table; basement membrane portion of diaphragm is placed on the fixed station, detain membrane pole and remove down, support and press the basement membrane portion of diaphragm, two detain the module and remove up, correspond two side membrane portions of squeezing the diaphragm and buckle up, and work as it removes extremely to detain the module behind the top of fixed station, two detain module relative movement, will two side membrane portions of diaphragm orientation detain the membrane pole extrusion, until insertion portion is arranging from top to bottom with jack portion detains on the membrane pole.

3. The membrane buckling structure of claim 2, wherein the buckling modules have abutting surfaces abutting against the side membrane portions of the membrane, and the abutting surfaces of the two buckling modules are arranged oppositely; along the direction from bottom to top of the buckling module, the pressing surface is arranged in an inwards inclined mode.

4. The membrane buckling structure as claimed in claim 2 or 3, wherein the clamping structure comprises a membrane inserting needle disposed above the fixing table; when the diaphragm is bent to the insertion part and the insertion hole part through the bending structure and is vertically arranged on the diaphragm buckling rod, the insertion hook strip of the insertion part is inserted into the film inserting needle in the insertion hole of the insertion hole part through the film inserting needle.

5. The membrane buckling structure of claim 4, wherein the buckling rod is provided with a buckling end face which is arranged upwards, the buckling end face is arranged obliquely, and a concave area which is concave downwards is arranged on the buckling end face; after the two buckling modules move relatively, the inserting hole part of the membrane abuts against the end face of the buckling membrane, and the inserting hole of the inserting hole part is aligned with the concave area.

6. The membrane buckling structure of claim 5, wherein the membrane inserting needle is obliquely arranged above the buckling end face of the membrane buckling rod, and the membrane inserting needle and the buckling end face are obliquely arranged in the same direction.

7. The membrane buckling structure of claim 5, wherein a lower pressing block moving up and down is arranged above the fixed table, the lower pressing block is provided with an inclined strip, and the inclined strip is obliquely arranged in the same direction as the membrane buckling end face; after the plug hole portion of the diaphragm abuts against the film buckling end face, the lower pressing block drives the inclined strip to move downwards, and the inclined strip abuts against the plug-in portion and abuts against the plug hole portion.

8. The membrane buckling structure as claimed in claim 4, wherein the membrane inserting needle has a needle head for extruding the membrane, and the needle head is arranged in an arc shape.

9. The membrane fastener membrane structure of claim 8 wherein said needles are arranged in a cross-bar configuration.

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