CN114715713A

CN114715713A - Automatic splicing device for coiled films

Info

Publication number: CN114715713A
Application number: CN202210426863.XA
Authority: CN
Inventors: 朱飞; 付江
Original assignee: Jiangsu Joyea Corp
Current assignee: Jiangsu Joyea Corp
Priority date: 2022-04-22
Filing date: 2022-04-22
Publication date: 2022-07-08

Abstract

The invention discloses an automatic roll film splicing device which comprises a roll film processing device, a roll film driving device and a roll film sensing device, wherein the roll film processing device, the roll film driving device and the roll film sensing device are matched to improve the splicing speed, manual splicing intervention is less, the flatness and quality of splicing are greatly improved, and a cutting device, a limiting device and a pulse type splicing device prevent manual connection of roll films from bonding the head and the tail of two roll films to be spliced together during use, so that the whole body is not aligned and flat; the splicing and film rolling can be carried out without stopping the equipment which normally runs for a long time during splicing, so that time and labor are saved; the hidden danger that the splicing position cannot be guaranteed and the stable operation of equipment is easily influenced due to the fact that the film is manually spliced and rolled up is avoided and eliminated.

Description

Automatic splicing device for coiled films

Technical Field

The invention relates to the field of automatic splicing devices, in particular to an automatic splicing device for rolled films.

Background

The manual connection is used for splicing the roll films of the conventional bubble-cap machine, the head and the tail of the two roll films to be spliced in the use process are adhered together through a heat-resistant adhesive tape, and during splicing, equipment which normally runs needs to be stopped for a long time to manually splice the roll films. The mode not only wastes time and labor, increases the cost of enterprises, reduces the productivity of the enterprises, but also manually splices the rolled films, which can not ensure the neatness of splicing positions and easily influences the stable operation of equipment.

For example, chinese patent publication No. CN210619661U discloses a device for adjusting and positioning spliced paper sheets without stopping the machine for positioning printed paper sheets carrying cursors. The splicing problem of the positioning splicing paper is solved. The splicing paper adjusting and positioning device comprises a support, a traction roller, two unwinding rollers, a splicing unit and a servo motor, wherein the two unwinding rollers are horizontally arranged and divided into a left unwinding roller and a right unwinding roller; the traction roller is positioned on the left side of the limiting roller, and a clamping wheel is arranged below the traction roller; the splicing unit is sequentially and mainly composed of an air cylinder, a splicing wheel and a fixed wheel from left to right, and the cutting edge of the cutter faces the fixed wheel. The splicing paper or the traction roller part is effectively subjected to paper compensation through the up-and-down floating of the floating roller, so that the old paper roll can be spliced with the new paper roll more tightly, and seamless splicing is realized.

Therefore, the technical problems to be solved by the invention are as follows:

1. how to avoid the whole misalignment and flatness caused by the fact that the two ends of the head and the tail of two rolls of films to be spliced are adhered together in use by manually connecting the rolls of films;

2. during splicing, normally-operated equipment needs to be stopped for a long time to splice and roll the film;

3. the hidden danger that the stable operation of equipment is easily influenced because the neatness of splicing positions cannot be guaranteed when the film is manually spliced is avoided;

4. however, the full-automatic non-statistical film rolling device still has the defects in splicing, for example, no corresponding pressing device is used for fixing in the splicing process, and larger accumulated deviation is easily caused only by manual dragging or driving of a film rolling roller.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an automatic roll film splicing device to solve the problems.

In order to achieve the above object, the present invention is achieved by the following technical solutions.

The utility model provides a roll up automatic splicing apparatus of membrane, includes roll up membrane processingequipment, rolls up membrane drive arrangement, rolls up membrane induction system, roll up membrane processingequipment including processing casing, advance membrane partition platform, inside processingequipment sets up in the processing casing, arranges in proper order including cutting device, stop device, pulsed splicing apparatus three, roll up membrane drive arrangement and be located in the upper and lower both sides of rolling up membrane drive arrangement, roll up membrane induction system and roll up corresponding the setting in membrane processingequipment one side, cutting device, stop device, pulsed splicing apparatus three have avoided the manual connection to roll up the membrane will use and wait that the two rolls of membrane head and tail both ends of concatenation glue together and the whole that leads to unaligned and level, avoid and eliminated the unable neat of guaranteeing concatenation department of rolling up of manual concatenation of rolling up the membrane, influence the hidden danger of the steady operation of equipment easily.

Preferably, cutting device includes advancing device, extends baffle, cutting tool, cutting middle part division board, binary channels, advancing device fixes the upper and lower both sides at cutting device, extend baffle slope distribution and fix in cutting middle part division board both sides, cutting tool one end is connected with advancing device, and the cutting tool sword oral area of the other end is towards binary channels department, the binary channels are fixed at the cutting device middle part, and are respectively towards extending the passageway space between baffle and the cutting middle part division board.

Preferably, stop device includes last fixed cylinder, spacing middle part division board, lower fixed cylinder, guide block, has eliminated full-automatic not counting and has still had the drawback when the concatenation to roll up the membrane, fixes rolling up the membrane through stop device at the concatenation in-process, has avoided manual the drive of dragging or rolling up the membrane roller bearing and has caused great accumulative deviation, and the mode efficiency that manual alignment and automation combine simultaneously is higher, and the accumulative deviation is littleer.

Preferably, the spacing middle partition plate is a boundary, the upper fixing cylinder and the lower fixing cylinder are respectively arranged on two sides of the spacing middle partition plate, and the guide block is arranged on the spacing device.

Preferably, the guide block comprises a guide channel and a guide supporting plate, the position of the guide channel is opposite to that of the spacing middle partition plate, and the guide tray is positioned on one side of the guide channel.

Preferably, pulsed splicing apparatus includes heating portion, concatenation cylinder, concatenation supporting part, exit channel, ensures that normal operating's equipment need not suspend for a long time can splice the roll membrane when the concatenation, has accomplished labour saving and time saving.

Preferably, the heating part is arranged at the telescopic end of the splicing cylinder, the splicing supporting part is fixed at the relative position of the heating part, and the outlet channel is arranged on one side of the pulse type splicing device.

Preferably, the processing shell is fixed to a rear side plate in a surrounding manner outside the internal processing device, the film winding driving device is also fixed to the side plate and comprises an upper film winding driving device, a lower film winding driving device, an upper air expansion shaft and a lower air expansion shaft, the upper film winding driving device is correspondingly connected with the upper air expansion shaft, and the lower film winding driving device is correspondingly connected with the lower air expansion shaft.

Preferably, the film rolling sensing device comprises an upper photoelectric sensing rod, a lower photoelectric sensing rod, an upper guide rod and a lower guide rod, the upper photoelectric sensing rod is located on one side of the upper guide rod, the lower photoelectric sensing rod is located on one side of the lower guide rod, and the upper photoelectric sensing rod and the lower photoelectric sensing rod are arranged oppositely.

Preferably, the upper photoelectric sensing rod is provided with an upper photoelectric sensing device, and the lower photoelectric sensing rod is provided with a lower photoelectric sensing device.

Compared with the prior art, the device has the advantages that: an automatic splicing device for rolled films comprises a rolled film processing device, a rolled film driving device and a rolled film sensing device, wherein the rolled film processing device, the rolled film driving device and the rolled film sensing device are matched to improve the splicing speed, the splicing flatness and the splicing quality are greatly improved with less manual splicing intervention,

1. the cutting device, the limiting device and the pulse type splicing device avoid the phenomenon that the whole body is not aligned and flat due to the fact that the two ends of the two rolls of films to be spliced are bonded together in use when the rolls of films are connected manually;

2. the film can be spliced and rolled without pausing for a long time when the equipment which normally runs is spliced, so that time and labor are saved;

3. the hidden danger that the splicing position cannot be guaranteed to be neat when the film is manually spliced and the stable operation of the equipment is easily influenced is avoided and eliminated;

4. the drawback that the membrane still exists when the concatenation is rolled up in the full-automatic statistics of having eliminated, fixes rolling up the membrane through stop device at the concatenation in-process, has avoided manual the drive that pulls or roll up the membrane roller bearing and cause great accumulative deviation, and the mode efficiency that manual alignment and automation combined is higher simultaneously, and the accumulative deviation is littleer.

Drawings

FIG. 1 is a schematic structural diagram of an automatic roll film splicing apparatus according to the present invention;

FIG. 2 is a schematic structural diagram of a roll film processing apparatus according to the present invention;

FIG. 3 is a schematic view of the internal processing apparatus of the present invention;

FIG. 4 is a schematic structural diagram of a cutting device according to the present invention;

FIG. 5 is a schematic half-sectional view of a cutting apparatus of the present invention;

FIG. 6 is a schematic structural view of the spacing device of the present invention;

FIG. 7 is a schematic view in half section of a stop device according to the present invention;

FIG. 8 is a schematic structural diagram of a pulse splicing apparatus according to the present invention;

FIG. 9 is a schematic half-sectional view of a pulsed splicing device according to the present invention;

FIG. 10 is a schematic structural diagram of a film winding driving device according to the present invention;

FIG. 11 is an enlarged view of the film winding driving device at A point;

FIG. 12 is a schematic view of the back side of the film winding driving device of the present invention;

FIG. 13 is a schematic diagram of the working route of each group of film rolls of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

The utility model provides a roll up automatic splicing apparatus of membrane, includes roll up membrane processingequipment 1, roll up membrane drive arrangement 2, roll up membrane induction system 3, roll up membrane processingequipment 1 including processing casing 11, advance membrane partition platform 12, inside processingequipment 13 sets up in processing casing 11, arrange in proper order including cutting device 131, stop device 132, pulsed splicing apparatus 133 three, it is located in the upper and lower both sides of rolling up membrane drive arrangement 2 to roll up membrane drive arrangement 2, roll up membrane induction system 3 and roll up the corresponding setting in membrane processingequipment 1 one side. The cutting device 131 comprises a pushing device 1311, an extending baffle 1312, a cutting knife 1313, a middle cutting partition 1314 and a double channel 1315, the pushing device 1311 is fixed on the upper side and the lower side of the cutting device 131, the pushing device 1311 is optimally selected to be an air cylinder in the scheme, but other pushing mechanisms are also available, the extending baffle 1312 is obliquely distributed and fixed on two sides of the middle cutting partition 1314, one end of the cutting knife 1313 is connected with the pushing device 1311, the cutting edge part of the cutting knife 1313 on the other end faces the double channel 1315, and the double channel 1315 is fixed in the middle of the cutting device 131 and faces a channel space between the extending baffle 1312 and the middle cutting partition 1314. The limiting device 132 comprises an upper fixing air cylinder 1321, a limiting middle separation plate 1322, a lower fixing air cylinder 1323 and a guide block 1324. The limit middle partition plate 1322 is a boundary, the upper fixing cylinder 1321 and the lower fixing cylinder 1323 are respectively disposed on both sides of the limit middle partition plate 1322, and the guide block 1324 is disposed on the limiting device 132. The guide block 1324 includes a guide passage 13241 and a guide support plate 13242, the guide passage 13241 is positioned relative to the position of the position limiting middle partition plate 1322, and the guide tray is positioned on the side of the guide passage 13241. The pulse splicing device 133 includes a heating portion 1331, a splicing cylinder 1332, a splicing support portion 1333, and an outlet passage 1334. The heating part 1331 is disposed at the telescopic end of the splicing cylinder 1332, the splicing support part 1333 is fixed at the opposite position of the heating part 1331, and the outlet passage 1334 is disposed at one side of the pulse type splicing device 133. The processing shell 11 is fixed outside the internal processing device 13 in a surrounding manner, and is fixed with a rear side plate, the film winding driving device 2 is also fixed on the side plate, and comprises an upper film winding driving device 21, a lower film winding driving device 22, an upper air expansion shaft 211 and a lower air expansion shaft 221, the upper film winding driving device 21 is correspondingly connected with the upper air expansion shaft 211, the lower film winding driving device 22 is correspondingly connected with the lower air expansion shaft 221, the upper air expansion shaft 211 and the lower air expansion shaft 221 can respectively drive the upper film winding driving device 21 and the lower film winding driving device 22 to inflate and deflate, fix the film during inflation, and provide a certain tensioning force for the film winding during operation. The film rolling sensing device 3 comprises an upper photoelectric sensing rod 31, a lower photoelectric sensing rod 32, an upper guide rod 33 and a lower guide rod 34, wherein the upper photoelectric sensing rod 31 is positioned on one side of the upper guide rod 33, the lower photoelectric sensing rod 32 is positioned on one side of the lower guide rod 34, and the upper photoelectric sensing rod 31 and the lower photoelectric sensing rod 32 are arranged oppositely. The upper photoelectric sensing rod 31 is provided with an upper photoelectric sensing device 311, and the lower photoelectric sensing rod 32 is provided with a lower photoelectric sensing device 321.

The working mode is as follows: when the upper film winding driver 21 and the lower film winding driver 22 are both provided with two groups of film to be used, one group of film is used as a used film, the other group of film is used as a spliced film, and when the used film is in normal supply operation, the other side of the outlet channel 1334 is provided with a rod body or a device stretching driver to generate a power source to guide the film to move to one side, but the invention point of the scheme is not omitted.

When the rolled film on the rolled film drive 21 is used as a used rolled film, the used rolled film passes through a passage between the upper photoelectric sensing rod 31 and the upper photoelectric sensing device 311, an upper guide rod 33, the inside of the upper double passage 1315, a passage between the upper extension baffle 1312 and the cut middle partition 1314, a passage between the upper fixing cylinder 1321 and the limit middle partition 1322, a guide passage 13241, a passage between the heating part 1331 and the splice supporting part 1333, and an outlet passage 1334 in sequence, when the consumption of the used roll film is over (the end of the used roll film is provided with an adhesive tape, so that the end is cut off before splicing), the end is detected by the photoelectric sensing device 311, the upper fixing air cylinder 1321 extends to the part of the partition 1322 in the limit position to fix the used roll film, then, the upper pusher 1311 pushes the cutter 1313 to advance in the direction of the upper double path 1315, cuts the tape portion at the end of the roll film, and retracts after cutting. Before cutting the tape end part of the roll film, the head of the spliced roll film is manually guided to pass through the space between the lower photoelectric sensing rod 32 and the lower photoelectric sensing device 321, the lower guide rod 34, the interior of the lower double channel 1315, the channel between the lower extension baffle 1312 and the cutting middle partition 1314, the channel between the lower fixed cylinder 1323 and the limiting middle partition 1322, the guide channel 13241, and the channel between the heating part 1331 and the splicing support part 1333, and is stopped at a position exceeding the channel between the heating part 1331 and the splicing support part 1333, the lower fixed cylinder 1323 extends out of the fixed spliced roll film towards the limiting middle partition 1322, the heating part 1331 moves towards the splicing support part 1333 through the splicing cylinder 2 to perform pulse heating splicing, the roll film stops moving for a while in the splicing process, and the machine can continue to work only for a short time, and (3) loosening the upper fixing air cylinder 1321, the lower fixing air cylinder 1323 and the splicing air cylinder 1332, continuing working the spliced roll film as a used roll film, and supplementing a new roll film on the upper roll film drive 21 as a spliced roll film.

On the contrary, when the roll film on the lower roll film driver 22 is used as a used roll film, the used roll film passes through the lower photoelectric sensing rod 32 and the lower photoelectric sensing device 321, the lower guide rod 34, the interior of the lower double channel 1315, the channel between the lower extension baffle 1312 and the cutting middle partition 1314, the channel between the lower fixing cylinder 1323 and the limiting middle partition 1322, the guide channel 13241, the channel between the heating part 1331 and the splicing support part 1333, and the outlet channel 1334 in sequence, when the consumption of the used roll film is over (the end of the used roll film is provided with an adhesive tape, so the end is cut off before splicing), the end is detected by the lower photoelectric sensing device 321, the lower fixing air cylinder 1323 extends to the position of the partition plate 1322 in the limit part to fix the used roll film, the lower pusher 1311 then pushes the cutter 1313 forward in a downward double path 1315 direction, cutting the end tape portion of the roll film, and retracting after cutting. Before cutting the tape end part of the used roll film, the head of the spliced roll film is manually guided to pass through a space between the upper photoelectric sensing rod 31 and the upper photoelectric sensing device 311, the upper guide rod 33, the inside of the upper double channel 1315, a channel between the upper extension baffle 1312 and the cutting middle partition 1314, a channel between the upper fixed cylinder 1321 and the limiting middle partition 1322, a guide channel 13241, and a channel between the heating part 1331 and the splicing support part 1333, and is stopped at a position exceeding the channel between the heating part 1331 and the splicing support part 1333, the upper fixed cylinder 1321 extends out the fixed spliced roll film to the limiting middle partition 1322, the heating part 1331 moves to the splicing support part 1333 through the splicing cylinder 1332 to perform pulse heating splicing, the roll film stops moving for a period of time during splicing, and the machine can continue to work only for a short time, and (3) loosening the upper fixing air cylinder 1321, the lower fixing air cylinder 1323 and the splicing air cylinder 1332, continuing working the spliced roll film as a used roll film, supplementing a new roll film on the lower roll film driver 22 as a spliced roll film, and circulating in sequence.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides an automatic splicing apparatus of roll membrane which characterized in that: including rolling up membrane processingequipment (1), rolling up membrane drive arrangement (2), roll up membrane induction system (3), roll up membrane processingequipment (1) including processing casing (11), advance the membrane and divide platform (12), inside processingequipment (13) set up in processing casing (11), arrange in proper order including cutting device (131), stop device (132), pulsed splicing apparatus (133) three, it is located in the upper and lower both sides of rolling up membrane drive arrangement (2) to roll up membrane drive arrangement (2), roll up membrane induction system (3) and roll up membrane processingequipment (1) one side and correspond the setting.

2. The automatic roll film splicing device according to claim 1, wherein: the cutting device (131) comprises a pushing device (1311), an extending baffle (1312), a cutting cutter (1313), a cutting middle partition plate (1314) and two channels (1315), wherein the pushing device (1311) is fixed on the upper side and the lower side of the cutting device (131), the extending baffle (1312) is obliquely distributed and fixed on two sides of the cutting middle partition plate (1314), one end of the cutting cutter (1313) is connected with the pushing device (1311), the edge part of the cutting cutter (1313) at the other end faces the two channels (1315), the two channels (1315) are fixed in the middle of the cutting device (131) and face a channel space between the extending baffle (1312) and the cutting middle partition plate (1314) respectively.

3. The automatic roll film splicing device according to claim 1, wherein: the limiting device (132) comprises an upper fixing air cylinder (1321), a limiting middle partition plate (1322), a lower fixing air cylinder (1323) and a guide block (1324).

4. The automatic roll film splicing device according to claim 3, wherein: the limiting middle separation plate (1322) is a boundary, the upper fixing cylinder (1321) and the lower fixing cylinder (1323) are respectively arranged on two sides of the limiting middle separation plate (1322), and the guide block (1324) is arranged on the limiting device (132).

5. The automatic roll film splicing device according to claim 3, wherein: the guide block (1324) comprises a guide channel (13241) and a guide tray (13242), the position of the guide channel (13241) is opposite to the position of the limit middle partition plate (1322), and the guide tray is positioned on one side of the guide channel (13241).

6. The automatic roll film splicing device according to claim 1, wherein: the pulse splicing device (133) comprises a heating part (1331), a splicing air cylinder (1332), a splicing supporting part (1333) and an outlet channel (1334).

7. The automatic roll film splicing device according to claim 6, wherein: the heating part (1331) is arranged at the telescopic end of the splicing cylinder (1332), the splicing supporting part (1333) is fixed at the opposite position of the heating part (1331), and the outlet channel (1334) is arranged at one side of the pulse type splicing device (133).

8. The automatic roll film splicing device according to claim 1, wherein: the processing shell (11) is fixed outside the internal processing device (13) in a surrounding mode and fixed with a rear side plate, the film rolling driving device (2) is also fixed on the side plate and comprises an upper rolling film driving device (21), a lower rolling film driving device (22), an upper air expansion shaft (211) and a lower air expansion shaft (221), the upper rolling film driving device (21) is correspondingly connected with the upper air expansion shaft (211), and the lower rolling film driving device (22) is correspondingly connected with the lower air expansion shaft (221).

9. The automatic roll film splicing device according to claim 1, wherein: roll up membrane induction system (3) and include last photoelectric sensing pole (31), lower photoelectric sensing pole (32), go up guide bar (33), guide bar (34) down, go up photoelectric sensing pole (31) and be located guide bar (33) one side down, lower photoelectric sensing pole (32) are located guide bar (34) one side down, go up photoelectric sensing pole (31) and lower photoelectric sensing pole (32) both relative settings.

10. The automatic roll film splicing device according to claim 9, wherein: an upper photoelectric sensing device (311) is arranged on the upper photoelectric sensing rod (31), and a lower photoelectric sensing device (321) is arranged on the lower photoelectric sensing rod (32).