CN214452044U - Device is decided in automatic winding of packaging film - Google Patents
Device is decided in automatic winding of packaging film Download PDFInfo
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- CN214452044U CN214452044U CN202022438778.4U CN202022438778U CN214452044U CN 214452044 U CN214452044 U CN 214452044U CN 202022438778 U CN202022438778 U CN 202022438778U CN 214452044 U CN214452044 U CN 214452044U
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Abstract
The utility model discloses a device is decided in automatic winding of packaging film, including chassis, two relative settings perpendicular roof beam on the chassis, set up two and erect the crossbeam between the roof beam, be used for driving the first power module of the vertical removal of crossbeam, set up quick-witted case on the crossbeam slidable, set up coiled material drive arrangement in quick-witted case below, be used for driving quick-witted case lateral shifting's second power module, set up at quick-witted incasement subsides double faced adhesive tape device, go up the membrane device and decide the device. The utility model provides a device is decided in automatic winding of packaging film can realize the automatic winding of sticky tape winding packing and decide the sticky tape automatically to the coiled material, and degree of automation is high. Compared with the existing manual packaging, the packaging quality of each coiled material is consistent, the packaging film is stably and firmly wound, the packaging efficiency is higher, and the use of labor force is greatly reduced.
Description
Technical Field
The utility model relates to the field of packaging technology, in particular to device is decided in automatic winding of packaging film.
Background
The coiled material is a cylindrical plastic film roll or a cylindrical cloth roll (such as a non-woven cloth roll), the coiled material is transported to various places for sale after being manufactured, and the coiled material needs to be packaged and protected in order to protect the integrity of the coiled material in the transportation and carrying processes and reduce abrasion.
But the manual work of present stage adoption packing usually, at first carry the coiled material to the coiled material drive arrangement on, then one section double-sided tape is tailor to the manual work, then paste this section double-sided tape on the outer peripheral face of coiled material, thereby tear the median and leave one section double-sided tape, then fix the free tip of packaging film on the coiled material through the double-sided tape, and rotate through coiled material drive arrangement drive coiled material, the coiled material is held tightly after the packaging film twines several rings to the coiled material, then the packaging film realizes the winding packing along coiled material axial reciprocating motion, decide the packing of packaging film completion coiled material at last. Due to the large production volumes, more worker configurations are required to maintain packaging efficiency, and labor costs are high.
In order to improve the degree of automation of enterprise, improve packing efficiency, save the labour, so need for an automatic winding of packaging film promptly and decide the device, replace the manual work to carry out the packaging film to the coiled material fixed, twine, decide to reach better packing effect and faster packing efficiency.
SUMMERY OF THE UTILITY MODEL
In view of the foregoing prior art's weak point, an object of the utility model is to provide a device is decided in automatic winding of packaging film aims at replacing the manual work to carry out the packaging film to the coiled material fixed, twine, decide to reach better packing effect and faster packing efficiency.
In order to achieve the purpose, the utility model adopts the following technical proposal:
an automatic winding and cutting device for packaging films comprises a bottom frame, two vertical beams oppositely arranged on the bottom frame, a cross beam arranged between the two vertical beams, a first power module used for driving the cross beam to vertically move, a case arranged on the cross beam in a sliding manner, a coiled material driving device arranged below the case, a second power module used for driving the case to transversely move, a double-faced adhesive tape pasting device arranged in the case, a film feeding device and a cutting device; the double-sided adhesive tape pasting device is positioned at the upstream of the film feeding device; the double-sided adhesive tape sticking device is used for sticking a section of double-sided adhesive tape on the peripheral surface of the coiled material, so that the packaging film unreeled by the film feeding device is fixed on the coiled material through the double-sided adhesive tape; the cutting device is used for cutting the packaging film; the coiled material driving device is used for driving the coiled material to rotate.
The double-sided adhesive tape sticking device comprises a support arranged in the case, an adhesive tape unwinding mechanism, a winding mechanism, a braking mechanism, a pressing wheel and a lifting driving device, wherein the adhesive tape unwinding mechanism, the winding mechanism and the braking mechanism are arranged on the support; the adhesive tape unwinding mechanism is used for unwinding the double-sided adhesive tape, the winding mechanism is used for recovering the isolation belt, the pressing wheel is used for pressing and pasting the double-sided adhesive tape on the coiled material, and the braking mechanism is used for limiting the rotation of the double-sided adhesive tape to enable the double-sided adhesive tape to stop unwinding.
The brake mechanism comprises a stop block, a support arm fixedly arranged on the support and a brake cylinder arranged at the top of the support arm; the output end of the brake cylinder is connected with the stop block through a sliding block, the support arm is provided with a guide rail extending along the length direction of the support arm, and the sliding block is connected with the guide rail in a sliding mode.
The lifting driving device comprises a sliding table cylinder arranged on the support, a bearing seat is arranged at the output end of the sliding table cylinder, and the pressing wheel is rotatably arranged on the bearing seat.
The adhesive tape unwinding mechanism comprises a rotating shaft which is rotatably arranged on the support, a rotating damper fixedly arranged on the support and an unwinding wheel sleeved on the rotating shaft, wherein one end of the rotating shaft is connected with the rotating damper; the double-sided adhesive tape is wound on the unwinding wheel.
Winding mechanism is including rotationally setting up the wind-up roll on the support and fixing the rolling drive arrangement on the support, rolling drive arrangement is used for driving the wind-up roll and rotates.
The film feeding device comprises a roll changing mechanism and a tension controller which are arranged on the case, a packaging film roll arranged between the roll changing mechanism and the tension controller, a first compression roller arranged below the packaging film roll, a film feeding driving device for driving the first compression roller to rotate, a second compression roller arranged below the adhesive tape unwinding mechanism, and a blowing-up rod arranged on one side of the first compression roller; the blow-up rod is used for blowing up the free end of the packaging film and increasing the wrap angle formed by the packaging film and the press roller.
Decide the device including can be around the axis swing of compression roller and be used for deciding the electric heat of packaging film and cut the strip, be used for driving the electric heat and cut the disconnected membrane actuating mechanism of strip wobbling.
The roll changing mechanism comprises a roll changing cylinder and a bearing seat which are arranged on the case, and a top shaft arranged in the bearing seat; the jacking shaft can transversely move relative to the bearing block, one end of the jacking shaft is used for being connected with the packaging film roll, the other end of the jacking shaft is connected with a rotary joint, and the end part of a piston rod of the roll changing cylinder is connected with the rotary joint through a connecting plate.
The first power module comprises a torque motor arranged at the top of the vertical beam, a screw rod vertically arranged on the vertical beam and a screw rod nut arranged on the screw rod, and the screw rod nut is fixedly connected with the cross beam; the torque motor is in transmission connection with the screw rod.
Has the advantages that:
the utility model provides an automatic winding and cutting device for packaging films, which drives a coiled material to rotate through a coiled material driving device, so that a double-sided adhesive tape pasting device pastes a section of double-sided adhesive tape on the coiled material, a film loading device unreels the packaging films, and the double-sided adhesive tape forms bonding with the packaging films along with the rotation of the coiled material, thereby fixing the packaging films on the coiled material; the coiled material is held tightly to several circles of packaging film winding afterwards, and the membrane device lifts from the coiled material and removes the winding about the coiled material realization under the drive of second power module in the drive of first power module, decides the automatic packaging film that decides of device at last and accomplishes the coiled material packing. It can be seen that, the utility model provides a device is decided in automatic winding of packaging film can realize the automatic winding of sticky tape winding packing and decide the sticky tape automatically to the coiled material, and degree of automation is high. Compared with the existing manual packaging, the packaging quality of each coiled material is consistent, the packaging film is stably and firmly wound, the packaging efficiency is higher, and the use of labor force is greatly reduced.
Drawings
Fig. 1 is a front view of the device is decided in the automatic winding of packaging film that the utility model provides.
Fig. 2 is a right side view of the device is decided in the automatic winding of packaging film that the utility model provides.
Fig. 3 is the working principle diagram of pasting double-sided adhesive and coating film in the device is decided to the automatic winding of packaging film provided by the utility model.
Fig. 4 is the first perspective view of the device for sticking double-sided adhesive in the automatic winding and cutting device for packaging film provided by the utility model.
Fig. 5 is a perspective view two of the device for sticking double-sided adhesive tape in the device for automatically winding and cutting the packaging film provided by the utility model.
Fig. 6 is the internal structure diagram of the case in the automatic wrapping and cutting device for wrapping film provided by the present invention.
Fig. 7 is an external schematic view of the case of the automatic wrapping film winding and cutting device provided by the present invention.
Fig. 8 is a right side view of the case in the automatic wrapping film winding and cutting device provided by the present invention.
Fig. 9 is a schematic view of the film cutting principle in the automatic winding and cutting device for packaging film provided by the present invention.
Description of the main element symbols: 11-a first power module, 12-a second power module, 13-a bottom frame, 14-a vertical beam, 15-a cross beam, 16-a chassis, 2-a coil driving device, 3-a double-sided adhesive tape sticking device, 4-a film feeding device, 5-a cutting device, 6-a coil, 31-a bracket, 32-a tape unwinding mechanism, 33-a winding mechanism, 34-a braking mechanism, 35-a pinch roller, 36-a sliding table cylinder, 37-a bearing seat, 321-a double-sided adhesive tape, 331-an isolating belt, 341-a stop block, 342-a support arm, 343-a braking cylinder, 344-a sliding block, 345-a guide rail, 322-a rotary damper, 323-an unwinding wheel, 332-a winding roller, 333-a winding driving device, 8-a reel changing mechanism, 41-tension controller, 42-packaging film roll, 43-first press roll, 44-second press roll, 45-blowing rod, 7-film feeding driving device, 81-roll changing cylinder, 82-bearing seat, 83-top shaft, 84-rotary joint, 85-connecting plate, 86-sliding sleeve, 87-guide shaft, 71-mounting frame, 72-first driving motor, 73-first synchronous pulley, 74-second synchronous pulley, 75-synchronous belt, 51-electric heating cutting strip, 52-film cutting driving mechanism, 511-swing frame, 512-electric heating strip, 521-film cutting cylinder and 522-connecting rod.
Detailed Description
The utility model provides a device is decided in automatic winding of packaging film, for making the utility model discloses a purpose, technical scheme and effect are clearer, more clear and definite, and it is right that the following refers to the drawing and the embodiment is lifted the utility model discloses further detailed description. It should be understood that the specific embodiments described herein are merely illustrative of the present invention and are not intended to limit the scope of the invention.
Referring to fig. 1-9, the present invention provides an automatic wrapping film winding and cutting device, wherein the arrows in fig. 2 and 3 are the rotation direction of the coiled material; references herein to "first", "second", etc., are for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicit indication of the number of technical features indicated. In order to facilitate the observation of the components inside the cabinet, the side panels are hidden in the cabinet in the drawings.
The automatic wrapping and cutting device for the packaging film comprises an underframe 13, two vertical beams 14 oppositely arranged on the underframe 13, a cross beam 15 arranged between the two vertical beams 14, a first power module 11 for driving the cross beam 15 to vertically move, a case 16 slidably arranged on the cross beam 15, a coiled material driving device 2 arranged below the case 16, a second power module 12 for driving the case 16 to transversely move, a double-faced adhesive tape pasting device 3 arranged in the case 16, a film feeding device 4 and a cutting device 5; the double-sided adhesive tape sticking device 3 is positioned at the upstream of the film feeding device 4; the double-sided adhesive tape sticking device 3 is used for sticking a section of double-sided adhesive tape on the peripheral surface of the coiled material 6, so that the packaging film unreeled by the film feeding device 4 is fixed on the coiled material 6 through the double-sided adhesive tape; the cutting device 5 is used for cutting the packaging film; the web drive 2 is used to drive the web 6 in rotation.
In operation, as shown in fig. 2, a worker carries the web 6 to be packaged onto the web driving device 2, the first power module 11 and the second power module 12 drive the chassis 16 to move above the web 6, the web material driving device 2 then drives the web material 6 to rotate, so that the double-sided adhesive tape sticking device 3 sticks a piece of double-sided adhesive tape 333 on the web material 6, and the film feeding device 4 unreels the packaging film 421, the double-sided adhesive tape forms adhesion with the packaging film 421 along with the rotation of the coiled material 6, thereby the packaging film is fixed on the coiled material, twines several circles afterwards and ensures that packaging film 421 holds coiled material 6 tightly, and membrane device 4 lifts from the coiled material and removes the winding to the realization of coiled material 6 under the drive of second power module 12 in the drive of first power module, and the completion twines and forms one section packing film that stretches tight between last membrane device 4 and the coiled material 6 after the packing, then decides device 5 and decide packaging film 421 automatically. It can be seen that the utility model provides a device 5 is decided in automatic winding of packaging film can realize the automatic winding of packaging film winding packing to coiled material 6 to decide the packaging film automatically. Compared with the existing manual packaging, the packaging quality of each coiled material 6 is consistent, the packaging film is wound stably and firmly, the packaging efficiency is higher, and the use of labor force is greatly reduced.
Specifically, referring to fig. 3-5, the double-sided adhesive tape sticking device 3 includes a support 31 disposed in the chassis 16, an adhesive tape unwinding mechanism 32 disposed on the support 31, a winding mechanism 33, a braking mechanism 34, a pressing wheel 35 disposed below the adhesive tape unwinding mechanism 32 and the winding mechanism 33 and capable of rotating, and a lifting driving device for driving the pressing wheel 35 to lift; the adhesive tape unwinding mechanism 32 is used for unwinding the double-sided adhesive tape 321, the winding mechanism 33 is used for recovering the isolation belt 331, the pressing wheel 35 is used for pressing and pasting the double-sided adhesive tape 333 on the double-sided adhesive tape 321 on the coiled material 6, and the braking mechanism 34 is used for limiting the rotation of the double-sided adhesive tape 321 to enable the double-sided adhesive tape 321 to stop unwinding. It should be understood that the double-sided tape 321 sequentially passes through the pressing wheel 35 and the winding mechanism, the pressing wheel 35 presses against the outer circumferential surface of the roll material 6 to form the glue fixing line 38, it can also be understood that the glue fixing line 38 is a separation line, the double-sided tape 333 is provided on the separation band 331 between the glue fixing line 38 and the double-sided tape 321, and the double-sided tape 333 is not provided on the separation band 331 between the glue fixing line 38 and the winding mechanism 33.
When the adhesive is pasted, the lifting driving device drives the pressing wheel 35 to descend, so that the pressing wheel 35 is pressed against the outer peripheral surface of the coiled material 6, and meanwhile, the double-sided adhesive tape 321 is pulled by the pressing wheel 35 to realize unreeling; at this time, the double-sided adhesive tape 333 positioned at the position of the glue fixing line is adhered to the coiled material 6, then the coiled material driving device 2 and the rolling mechanism 33 simultaneously act to pull the double-sided adhesive tape 321 to unreel the tape unreeling mechanism 32, the direction of the pressing wheel 35 is opposite to the direction of the coiled material 6, the double-sided adhesive tape 321 on the coiled material 6 is unfolded and adhered along the peripheral surface of the coiled material 6 along with the rotation of the coiled material 6, when the adhering length of the double-sided adhesive tape reaches a preset length (5-10 cm), the braking mechanism 34 brakes the double-sided adhesive tape 321 to limit the rotation of the double-sided adhesive tape 321 to stop unreeling the double-sided adhesive tape 321, meanwhile, the rolling mechanism 33 stops rolling the isolation tape 331, the double-sided adhesive tape 333 is cut off at the position of the glue fixing line 38 under the pulling action of the coiled material 6, and finally the lifting driving device drives the pressing wheel 35 to rise away from the coiled material 6, so that the double-sided adhesive tape adhering device 3 finishes the adhering action, and has high automation degree, improve the packaging efficiency and reduce the labor force of the rubberizing process. After each gluing action is finished, the free ends of the double-sided adhesive tape 333 are sequentially positioned at the glue positioning line 38, so that the working continuity and reliability of the double-sided adhesive tape gluing device 3 are ensured.
Further, referring to fig. 4, the braking mechanism 34 includes a stop block 341, a support arm 342 fixedly disposed on the bracket 31, and a braking cylinder 343 disposed on the top of the support arm 342; the output end of the brake cylinder 343 is connected with the stop block 341 through a sliding block 344, the support arm 342 is provided with a guide rail 345 extending along the length direction of the support arm, the sliding block 344 is connected with the guide rail 345 in a sliding manner, and the guide rail 345 can guide the movement of the sliding block 344 to ensure that the axis of the brake cylinder 343 is intersected with the axis of the double-sided adhesive tape 321, and can also limit the sliding block 344 to prevent the piston rod of the brake cylinder 343 from deforming under the tangential force. Namely, the braking cylinder 343 drives the stop block 341 to press the double-sided tape 321, so that the double-sided tape 321 is immediately braked and stopped and is kept in a static state. It should be understood that the friction between the stopper 341 and the double-sided adhesive tape 321 is greater than the breaking force of the double-sided adhesive tape 333, so as to ensure that the double-sided adhesive tape can be broken smoothly.
In order to better stop the double-sided adhesive tape 321, the contact area of the stop block 341 with the double-sided adhesive tape 321 is increased, and the end surface of the stop block 341 facing the double-sided adhesive tape 321 is adapted to the outer peripheral shape of the double-sided adhesive tape 321.
Further, referring to fig. 4 and 5, the lifting driving device includes a sliding table cylinder 36 disposed on the bracket 31, a bearing seat 37 is disposed on an output end of the sliding table cylinder 36, and the pressing wheel 35 is rotatably disposed on the bearing seat 37. The sliding table cylinder 36 has the advantages of high guiding precision, torque resistance, strong load capacity and stable work, and ensures that the pressing wheel 35 cannot receive external force to move automatically in the process of pressing against the coiled material 6, and ensures that the double faced adhesive tape is broken at the position of the adhesive fixing line.
Preferably, referring to fig. 4 and 5, the tape unwinding mechanism 32 includes a rotating shaft rotatably disposed on the support 31, a rotating damper 322 fixedly disposed on the support 31, and an unwinding wheel 323 sleeved on the rotating shaft, wherein one end of the rotating shaft is connected to the rotating damper 322; the double-sided tape 321 is wound around the unwinding wheel 323. Through the arrangement, the material separating belts among the adhesive tape unwinding mechanism 32, the pressing wheel 35 and the winding mechanism have tension, and the rotating shaft and the unwinding wheel 323 can rotate to realize unwinding due to the fact that the traction force of the coiled material 6 on the double-sided adhesive tape is greater than the resistance of the rotary damper 322.
Preferably, referring to fig. 4 and 5, the winding mechanism 33 includes a winding roller 332 rotatably disposed on the bracket 31 and a winding driving device 333 fixed on the bracket 31, and in operation, the winding driving device 333 drives the winding roller 332 to rotate, so that the isolation band 331 is wound on the winding roller 332. The winding drive 333 is preferably a pneumatic motor with a high starting torque, which can be started on-load and is easy to control.
Preferably, referring to fig. 5, a baffle 334 is disposed on the wind-up roll 332. Can carry out axial spacing to median 331 through the baffle, prevent that median 331 from breaking away from wind-up roll 332 and causing loosely.
Specifically, referring to fig. 6 to 9, the film feeding device 4 includes a roll changing mechanism 8 and a tension controller 41 arranged on the chassis 16, a packaging film roll 42 arranged between the roll changing mechanism 8 and the tension controller 41, a first pressing roller 43 arranged below the packaging film roll 42, a film feeding driving device 7 for driving the first pressing roller 43 to rotate, a second pressing roller 44 arranged below the adhesive tape unwinding mechanism 32, and a blowing-up rod 45 arranged on one side of the first pressing roller 43; the blow-up bar 45 is used to blow up the free end of the wrapping film. Here, the first pressing roller 43 and the second pressing roller 44 are parallel to each other and equal in height; the tension controller 41 is preferably a magnetic powder tension controller 41, and the magnetic powder tension controller 41 has a tension sensing function and a magnetic powder braking tension control function.
Before packaging, as shown in fig. 8, the blowing rod 45 continuously blows an air flow towards the bottom of the first pressing roller 43, the air flow blows the packaging film 421 to be attached to the first pressing roller 43 on the one hand, and the air flow blows the free end of the packaging film 421 on the other hand, so that the free end of the packaging film is inclined in a direction away from the blowing rod 45, thereby increasing the wrap angle formed by the packaging film and the first pressing roller 43, further ensuring that the packaging film 421 is located between the first pressing roller 43 and the web 6 during packaging, and ensuring that the film on the web 6 is successful.
When film feeding is started, the first power module 11 drives the case 16 to descend, so that the first press roll 43 and the second press roll 44 are pressed on the outer circumferential surface of the coiled material 6 together, the coiled material 6 exerts a reaction force on the first press roll 43 and the second press roll 44, and the reaction force is transmitted to the first power module 11 through the case 16 and the cross beam 15, so that the output torque of the first power module 11 is changed, and the case 16 is judged to move in place vertically. The first press roll 43 and the second press roll 44 work together to ensure accurate pressure feedback from the chassis 16 and prevent slippage when a single roll is pressed against the web 6. The first pressing roller 43 presses the packaging film 421 onto the web 6, and then the web 6 is driven by the web driving device 2 to rotate, and meanwhile, the upper film driving device 7 pulls the packaging film roll 42 to unwind the packaging film 421; the double-sided adhesive tape sticking device 3 positioned at the upstream of the packaging film cutting device 5 sticks a section of double-sided adhesive tape on the coiled material 6, and the double-sided adhesive tape forms adhesion with the packaging film along with the rotation of the coiled material 6, so that the packaging film is fixed on the coiled material; then the packaging film is wound for several circles to hold the coiled material tightly, the first power module 11 drives the case 16 to ascend, so that the first compression roller 43 and the second compression roller 44 are separated from the coiled material 6, the distance (about 10cm) between the first compression roller 43 and the coiled material 6 is obtained, and then the second power module 12 drives the case 16 to transversely reciprocate, namely the packaging film axially reciprocates along the coiled material 6 to realize winding and packaging; the magnetic powder tension controller 41 dynamically adjusts the tension of the packaging film in the packaging film winding process, so that the packaging film is stably and firmly wound, and the packaging effect of the coiled material 6 is better.
Further, as shown in fig. 7, the reel changing mechanism 8 includes a reel changing cylinder 81 and a bearing seat 82 provided on the chassis 16, and a top shaft 83 provided in the bearing seat 82; the top shaft 83 can move transversely relative to the bearing seat 82, one end of the top shaft 83 is used for being connected with the packaging film roll 42, the other end of the top shaft 83 is connected with a rotary joint 84, and the end part of a piston rod of the roll changing air cylinder 81 is connected with the rotary joint 84 through a connecting plate 85. That is, the roll-changing cylinder 81 drives the top shaft 83 to separate from the packaging film roll 42 through the transmission of the connecting plate 85 and the rotary joint 84, and due to the action of the rotary joint 84, the top shaft 83 rotates on the packaging film roll 42, while the connecting plate 85 cannot rotate along with the top shaft 83.
Preferably, as shown in fig. 6, the casing 16 is provided with a sliding sleeve 86, a guide shaft 87 is inserted into the sliding sleeve 86, and one end of the guide shaft 87 is fixedly connected to the connecting plate 85. The guide shaft 87 is connected with the sliding sleeve 86 in a sliding mode, the guide shaft 87 can guide the movement of the connecting plate 85 and can also limit the connecting plate 85, and the piston rod of the reel changing cylinder 81 is prevented from deforming due to tangential force.
Preferably, as shown in fig. 7, the upper film driving device 7 includes a mounting bracket 71 fixed on the chassis 16, and a first driving motor 72 disposed on the mounting bracket 71; the output end of the first driving motor 72 is sleeved with a first synchronous pulley 73, the end shaft of the first pressing roller 43 is sleeved with a second synchronous pulley 74, and the first synchronous pulley 73 and the second synchronous pulley 74 are in transmission connection through a synchronous belt 75. That is, the first driving motor 72 drives the first pressure roller 43 to rotate through the transmission of the first synchronous pulley 73, the synchronous belt 75 and the second synchronous pulley 74, and the first pressure roller 43 can rotate smoothly because the transmission stability of the synchronous belt 75 is high. The rotational speed of the first pressure roller 43 should be equal to or less than the rotational speed of the web 6.
Further, referring to fig. 8 and 9, the cutting device 5 includes an electric heating cutting strip 51 which can swing around the axis of the press roll and is used for cutting the packaging film, and a film cutting driving mechanism 52 for driving the electric heating cutting strip 51 to swing. The electric heating cutting strip 51 comprises a swing frame 511 which can swing around the second pressing roller 44 and an electric heating strip 512 arranged on the swing frame 511. The film breaking driving mechanism 52 comprises a film breaking cylinder 521 and a connecting rod 522, the end part of the cylinder body of the film breaking cylinder 521 is hinged with the case 16, and the end part of the piston rod of the film breaking cylinder 521 is hinged with one end of the connecting rod 522; the other end of the connecting rod 522 is fixedly connected with the electric heating cutting strip 51. That is, the film cutting cylinder 521 drives the electric heating cutting strip 51 to swing back and forth within a reasonable range through the connecting rod 522, so as to cut the packaging film 421 between the first pressing roller 43 and the coiled material 6, and the electric heating cutting strip 51 does not interfere with the packaging film 421 between the packaging film coil 42 and the first pressing roller 43.
After winding and packaging are finished, the first power module 11 drives the case 16 to ascend, so that a section of tight packaging film 421 is formed between the first pressing roller 43 and the coiled material 6, then the film cutting driving mechanism 52 drives the electric heating cutting strip 51 to swing around the axis of the first pressing roller 43 to cut the packaging film 421, the heated electric heating cutting strip 51 can quickly fuse the packaging film 421, the film cutting is quick, and a fracture is smooth; finally, the film breaking driving mechanism 52 drives the electric heating cutting strip 51 to reset. At this time, the free end portion of the wrapping film is blown up again by the air flow of the blow-up lever 45.
In order to make the movement of the cross beam 15 more stable, each vertical beam 14 is provided with a first power module 11, each first power module 11 comprises a torque motor arranged at the top of the vertical beam 14, a screw rod vertically arranged on the vertical beam 14 and a screw nut arranged on the screw rod, and the screw nut is fixedly connected with the cross beam 15; the torque motor is in transmission connection with the screw rod. Through the arrangement, the torque motor drives the screw rod to rotate through the driving screw rod, and drives the screw rod nut, the cross beam 15 and the components arranged on the cross beam 15 to vertically move. The torque motor can continuously run when the rotor rotates at a low speed even in a locked state (namely, the rotor cannot rotate), and the motor cannot be damaged. When the first press roll 43 and the second press roll 44 press the coiled material 6, the torque motor is subjected to resistance, so that the torque of the torque motor changes, and the electric cabinet dynamically detects the torque of the torque motor, and generates an in-place signal when the torque of the torque motor reaches a preset value, so as to control the torque motor to stop working.
The electric controller comprises a box body, a PLC controller arranged in the box body and a related control circuit.
Since the first power module 11 and the second power module 12 have the same structure, the working principle of the second power module 12 will not be described herein.
In one embodiment, referring to fig. 2, the web driving device 2 includes a frame 21, a first driving roller 22 and a second driving roller 23 disposed on the frame, and a second driving motor 24 for driving the first driving roller 22 and the second driving roller 23 to rotate synchronously, wherein the first driving roller 22 and the second driving roller 23 are disposed in parallel and have the same height. The staff directly carries the coiled material 6 to first drive roller 22 and second drive roller 23 on, and first drive roller 22 and second drive roller 23 support jointly and drive coiled material 6 and rotate, and loading and unloading are convenient, need not to carry out the clamping to coiled material 6.
The following brief description is made on the working principle: the workman will treat the coiled material 6 transport to first drive roller 22 and second drive roller 23 on, quick-witted case 16 is in initial position, first power module 11 and second power module 12 drive quick-witted case 16 move to the upper membrane station, first compression roller 43 and second compression roller 44 push down coiled material 6 jointly this moment, torque motor receives the resistance, makes its moment change, because torque of electric cabinet dynamic detection torque motor, produce the signal that targets in place after torque motor's moment and reaching the default, the electric cabinet then control torque motor stop work. The first pressure roller 43 presses the packaging film 421 against the web 6 due to the action of the blow-up bar 45; then the lifting driving device drives the pressing wheel 35 to descend, so that the pressing wheel 35 is pressed against the outer peripheral surface of the coiled material 6, the double-sided adhesive tape 321 is unreeled under the traction of the pressing wheel 35, and the double-sided adhesive tape 333 positioned at the position of the adhesive tape positioning line is pasted on the coiled material 6; the coiled material driving device 2 and the rolling mechanism 33 act simultaneously, the double-sided adhesive tape coiled material 6 on the double-sided adhesive tape 321 is adhered along with the rotation of the coiled material 6, when the adhering length of the double-sided adhesive tape 333 reaches a preset length (5-10 cm), the braking mechanism 34 brakes the double-sided adhesive tape 321 to limit the rotation of the double-sided adhesive tape 321 to stop unwinding the double-sided adhesive tape 321, the rolling mechanism 33 stops rolling the isolation tape 331, the double-sided adhesive tape is cut off at the fixed adhesive line 38 under the traction and pulling action of the coiled material 6, the lifting driving device drives the pressing wheel 35 to ascend and leave the coiled material 6, then the double-sided adhesive tape is about to pass through the first pressing wheel 43, the upper film driving device 7 is started, the packaging film 421 is also unfolded under the traction of the upper film driving device 7 and attached to the surface of the coiled material 6, the packaging film 421 is fixed on the coiled material 6 through the double-sided adhesive tape 333, the coiled material 6 is tightly embraced by the packaging film 421 after being wound for several circles, then the first power module 11 rises to make the first press roller 43 and the second press roller 44 leave the coiled material 6, then the second power module 12 drives the chassis 16 to do transverse reciprocating motion to make the packaging film move and wind on the coiled material 6, after the coiled material 6 winds a sufficient amount of the packaging film 421, the second power module 12 and the coiled material driving device 2 stop working, a section of the tensioned packaging film 421 is formed between the first press roller 43 and the coiled material 6, then the film cutting driving mechanism 52 drives the electric heating cutting strip 51 to swing around the axis of the first press roller 43 to cut the packaging film, and the heated electric heating cutting strip 51 can rapidly fuse the packaging film. Finally, the first power module 11 and the second power module 12 drive the chassis 16 to return to the initial position.
It is understood that equivalent substitutions or changes can be made by those skilled in the art according to the technical solution of the present invention and the inventive concept thereof, and all such changes or substitutions shall fall within the scope of the present invention.
Claims (10)
1. The automatic winding and cutting device for the packaging film is characterized by comprising a bottom frame, two vertical beams oppositely arranged on the bottom frame, a cross beam arranged between the two vertical beams, a first power module used for driving the cross beam to vertically move, a case arranged on the cross beam in a sliding manner, a coiled material driving device arranged below the case, a second power module used for driving the case to transversely move, a double-faced adhesive tape pasting device arranged in the case, a film feeding device and a cutting device; the double-sided adhesive tape pasting device is positioned at the upstream of the film feeding device; the double-sided adhesive tape sticking device is used for sticking a section of double-sided adhesive tape on the peripheral surface of the coiled material, so that the packaging film unreeled by the film feeding device is fixed on the coiled material through the double-sided adhesive tape; the cutting device is used for cutting the packaging film; the coiled material driving device is used for driving the coiled material to rotate.
2. The automatic winding and cutting device for the packaging film according to claim 1, wherein the double-sided adhesive tape sticking device comprises a support arranged in a case, a tape unwinding mechanism, a winding mechanism, a braking mechanism, a pressing wheel and a lifting driving device, wherein the tape unwinding mechanism, the winding mechanism and the braking mechanism are arranged on the support, the pressing wheel is arranged below the tape unwinding mechanism and the winding mechanism and can rotate, and the lifting driving device drives the pressing wheel to lift; the adhesive tape unwinding mechanism is used for unwinding the double-sided adhesive tape, the winding mechanism is used for recovering the isolation belt, the pressing wheel is used for pressing and pasting the double-sided adhesive tape on the coiled material, and the braking mechanism is used for limiting the rotation of the double-sided adhesive tape to enable the double-sided adhesive tape to stop unwinding.
3. The automatic winding and cutting device for the packaging film as claimed in claim 2, wherein the braking mechanism comprises a stop block, a support arm fixedly arranged on the support frame, and a braking cylinder arranged at the top of the support arm; the output end of the brake cylinder is connected with the stop block through a sliding block, the support arm is provided with a guide rail extending along the length direction of the support arm, and the sliding block is connected with the guide rail in a sliding mode.
4. The automatic winding and cutting device for the packaging film as claimed in claim 2, wherein the lifting driving device comprises a sliding table cylinder arranged on the support, a bearing seat is arranged on an output end of the sliding table cylinder, and the pressing wheel is rotatably arranged on the bearing seat.
5. The automatic winding and cutting device for the packaging film as claimed in claim 2, wherein the tape unwinding mechanism comprises a rotating shaft rotatably arranged on the support, a rotating damper fixedly arranged on the support, and an unwinding wheel sleeved on the rotating shaft, wherein one end of the rotating shaft is connected with the rotating damper; the double-sided adhesive tape is wound on the unwinding wheel.
6. The automatic winding and cutting device for the packaging film as claimed in claim 2, wherein the winding mechanism comprises a winding roller rotatably arranged on the support and a winding driving device fixed on the support, and the winding driving device is used for driving the winding roller to rotate.
7. The automatic winding and cutting device for the packaging film as claimed in claim 1, wherein the film feeding device comprises a roll changing mechanism and a tension controller arranged on the case, a packaging film roll arranged between the roll changing mechanism and the tension controller, a first press roller arranged below the packaging film roll, a film feeding driving device driving the first press roller to rotate, a second press roller arranged below the tape unwinding mechanism, and a blowing rod arranged on one side of the first press roller; the blow-up rod is used for blowing up the free end of the packaging film and increasing the wrap angle formed by the packaging film and the press roller.
8. The automatic winding and cutting device for packaging films according to claim 7, wherein the cutting device comprises an electric heating cutting strip which can swing around the axis of a press roller and is used for cutting the packaging films, and a film cutting driving mechanism which is used for driving the electric heating cutting strip to swing.
9. The automatic winding and cutting device for the packaging film as claimed in claim 7, wherein the roll changing mechanism comprises a roll changing cylinder and a bearing seat arranged on the chassis, and a top shaft arranged in the bearing seat; the jacking shaft can transversely move relative to the bearing block, one end of the jacking shaft is used for being connected with the packaging film roll, the other end of the jacking shaft is connected with a rotary joint, and the end part of a piston rod of the roll changing cylinder is connected with the rotary joint through a connecting plate.
10. The automatic winding and cutting device for the packaging film according to claim 1, wherein the first power module comprises a torque motor arranged at the top of the vertical beam, a lead screw vertically arranged on the vertical beam, and a lead screw nut arranged on the lead screw, and the lead screw nut is fixedly connected with the cross beam; the torque motor is in transmission connection with the screw rod.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022438778.4U CN214452044U (en) | 2020-10-28 | 2020-10-28 | Device is decided in automatic winding of packaging film |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022438778.4U CN214452044U (en) | 2020-10-28 | 2020-10-28 | Device is decided in automatic winding of packaging film |
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CN214452044U true CN214452044U (en) | 2021-10-22 |
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CN202022438778.4U Active CN214452044U (en) | 2020-10-28 | 2020-10-28 | Device is decided in automatic winding of packaging film |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114212579A (en) * | 2021-12-03 | 2022-03-22 | 安徽艾雅伦新材料科技有限公司 | Coiled material device for PVC (polyvinyl chloride) floor and PVC rolling method |
-
2020
- 2020-10-28 CN CN202022438778.4U patent/CN214452044U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114212579A (en) * | 2021-12-03 | 2022-03-22 | 安徽艾雅伦新材料科技有限公司 | Coiled material device for PVC (polyvinyl chloride) floor and PVC rolling method |
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