CN108749137B

CN108749137B - Processing mechanism for side organ and carrying handle of packaging bag

Info

Publication number: CN108749137B
Application number: CN201810725116.XA
Authority: CN
Inventors: 宋巨鹏; 曹光雷; 徐明亮
Original assignee: Juding Machinery Shanghai Co ltd
Current assignee: Juding Machinery Shanghai Co ltd
Priority date: 2018-07-04
Filing date: 2018-07-04
Publication date: 2020-08-07
Anticipated expiration: 2038-07-04
Also published as: CN108749137A

Abstract

The invention discloses a processing mechanism for a side organ and a carrying handle of a packaging bag, and belongs to the technical field of packaging and bag making. The utility model discloses a packaging bag side organ adds handle processing mechanism, can add on the wrapping bag and establish side organ and handle for it is more convenient when the wrapping bag uses that the heat-seal unreels structural installation has tension swing arm structure, pulls structure and pay-off tension structure in succession, and the complex film is through tension swing arm structure, pull structure and pay-off tension structure in succession in proper order, the heat-seal unreel the structure rear side install first servo pull structure, and the complex film runs through first punching device structure, photoelectricity fixed length structure, first heat-seal structure and second heat-seal structure through first servo pull structure in proper order, first servo pull structure and first punching device structure below install heat-seal membrane corner structure, the servo pull structure of second and second punching device structure, through this packaging bag side organ adds handle processing mechanism, can add on the wrapping bag and establish side organ and add handle.

Description

Processing mechanism for side organ and carrying handle of packaging bag

Technical Field

The invention relates to a processing mechanism for a side organ and a carrying handle of a packaging bag, and belongs to the technical field of packaging and bag making.

Background

At present, no side organ and handle design exists in the production and processing process of the eight-side packaging bag in the domestic market, so that the eight-side packaging bag is not very convenient to use.

Disclosure of Invention

Aiming at the problems, the invention aims to provide a processing mechanism for a side organ and a carrying handle of a packaging bag.

The invention relates to a processing mechanism for a lateral organ and a handle of a packaging bag, which comprises a first servo traction structure, a first punching device structure, a photoelectric fixed-length structure, a heat-sealing film corner structure, a second servo traction structure, a second punching device structure, a first heat-sealing structure, a first waste film traction structure, a second heat-sealing structure, a second waste film rolling structure, a heat-sealing unreeling structure, a tension swing arm structure, a continuous traction structure and a feeding tension structure, wherein the heat-sealing unreeling structure is provided with the tension swing arm structure, the continuous traction structure and the feeding tension structure, a composite film sequentially passes through the tension swing arm structure, the continuous traction structure and the feeding tension structure, the rear side of the heat-sealing unreeling structure is provided with the first servo traction structure, and the composite film sequentially passes through the first fixed-length punching device structure, the photoelectric fixed-length structure, the first heat-sealing structure and the second heat-sealing structure through the first servo, a heat-sealing film corner structure, a second servo traction structure and a second punching device structure are arranged below the first servo traction structure and the first punching device structure, and a first waste film traction structure and a second waste film winding structure are arranged below the second heat-sealing structure;

the first servo traction structure and the second servo traction structure are identical in structure, the first servo traction structure comprises a positioning shaft, a traction plate, a main traction rubber roller, a passive traction roller shaft, a bearing, a first air cylinder, a passive traction roller, a synchronous wheel, a synchronous belt, a servo synchronous wheel and a first servo motor, the positioning shaft adopts a hard shaft, the traction plate and the main traction rubber roller are arranged above the positioning shaft, the bearings are arranged at two ends of the main traction rubber roller and are positioned in the traction plate, the passive traction roller shaft is in transmission connection with the main traction rubber roller, the first air cylinder is arranged above the passive traction roller shaft, the passive traction roller is arranged on the upper portion of the passive traction roller shaft, the synchronous wheel is arranged at one end of the main traction rubber roller, and the synchronous wheel is in transmission connection with the servo synchronous wheel on the first servo motor through the synchronous belt;

the first punching device structure is the same as the second punching device structure, the first punching device structure comprises a first hook plate, a punching wallboard, a flat iron, a first adjusting rod, a punching hole, a sliding block, a first adjusting handle and a first gear, the first hook plate is installed on the punching wallboard, the flat iron and the first adjusting rod are installed above the first hook plate, the punching hole and the sliding block are installed on the flat iron, the sliding block is in sliding connection with the punching hole, the first gear is arranged below the punching hole, and one end of the first gear is connected with the first adjusting handle;

the photoelectric fixed-length structure comprises a second hook plate, a photoelectric wallboard, an aluminum roller, a photoelectric part, a sliding rod, a second adjusting handle, a second gear and a second adjusting rod, wherein the second adjusting rod is arranged below the second hook plate, one end of the second adjusting rod is connected with the second adjusting handle through the second gear, the aluminum roller is arranged above the second hook plate, the sliding rod is arranged above the aluminum roller, the photoelectric part is arranged on the sliding rod, and the photoelectric part is connected with the sliding rod in a sliding manner;

the first heat-sealing structure and the second heat-sealing structure are identical in structure, the first heat-sealing structure comprises a third hook plate, a heat-sealing wallboard, a sliding seat, a sliding rail, a second air cylinder, an electric heating plate 7, a hot knife, a hot pad, a third gear, a first handle and a second handle, the third hook plate is installed on the heat-sealing wallboard, the third gear and the first handle are arranged below the heat-sealing wallboard, the sliding seat is arranged above the heat-sealing wallboard, the sliding rail is installed on the sliding seat, the second air cylinder, the electric heating plate and the hot knife are installed on the sliding rail, and the hot pad is arranged below the hot knife;

the first waste film traction structure is the same as the second waste film winding structure, the first waste film traction structure comprises a fourth hook plate, a supporting wallboard, an alternating current motor, a second servo motor, a driving traction rubber roller, an air expansion shaft, a third adjusting handle, a hand wheel, a third gear, an axis bearing, a hard optical axis, a driven rubber roller and a third air cylinder, the fourth hook plate is arranged on the supporting wallboard, a third adjusting handle, an axis bearing and a hard optical axis are arranged above the fourth hook plate, a hand wheel and a third gear are arranged below the axis bearing, the hand wheel is connected with the third gear, an alternating current motor and a second servo motor are arranged above the supporting wall plate, and the second servo motor is connected with the active traction rubber roller, the alternating current motor is connected with the air inflation shaft, the active traction rubber roller is in transmission connection with the driven rubber roller, and a third cylinder is arranged at one end of the driven rubber roller.

The invention has the beneficial effects that: its simple structure, reasonable in design through this wrapping bag side organ adds the carrying handle processing agency, can add on the wrapping bag and establish side organ and add the carrying handle for it is more convenient when the wrapping bag uses.

Drawings

For ease of illustration, the invention is described in detail by the following detailed description and the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of a first servo traction structure;

FIG. 3 is a schematic structural view of a first punching device;

fig. 4 is a schematic structural view of an electro-optical fixed length structure;

FIG. 5 is a schematic view of a first heat seal configuration;

FIG. 6 is a schematic structural view of a first waste film drawing structure;

fig. 7 is a side view of fig. 6.

Reference numerals: the hot-press machine comprises a first servo traction structure 1, a positioning shaft 1.1, a traction plate 1.2, a main traction rubber roller 1.3, a driven traction roller shaft 1.4, a bearing 1.5, a first air cylinder 1.6, a driven traction roller 1.7, a synchronizing wheel 1.8, a synchronous belt 1.9, a servo synchronizing wheel 1.10, a first servo motor 1.11, a first punching device structure 2, a first hook plate 2.1, a punching wallboard 2.2, a flat iron 2.3, a first adjusting rod 2.4, a punching hole 2.5, a sliding block 2.6, a first adjusting handle 2.7, a first gear 2.8, a photoelectric fixed-length structure 3, a second hook plate 3.1, a photoelectric wallboard 3.2, an aluminum roller 3.3, a photoelectric 3.4, a sliding rod 3.5, a second adjusting handle 3.6, a second gear 3.7, a second adjusting rod 3.8, a hot-seal film corner structure 4, a second servo traction structure 5, a second servo traction device structure 6, a first punching device structure, a sliding seat 3.7, a sliding seat 7.7, a hot-press knife 7.7, a hot-press heating plate 7.7, a hot-press machine, The hot stamping device comprises a hot stamping pad 7.8, a third gear 7.9, a first handle 7.10, a second handle 7.11, a first waste film traction structure 8, a fourth hook plate 8.1, a supporting wall plate 8.2, an alternating current motor 8.3, a second servo motor 8.4, an active traction rubber roller 8.5, an air expansion shaft 8.6, a third adjusting handle 8.7, a hand wheel 8.8, a third gear 8.9, an axis bearing 8.10, a hard optical axis 8.11, a passive rubber roller 8.12, a third cylinder 8.13, a second heat sealing structure 9, a second waste film rolling structure 10, a heat sealing unreeling structure 11, a tension swing arm structure 12, a continuous traction structure 13 and a feeding tension structure 14.

Detailed Description

As shown in fig. 1 to 7, the following technical solutions are adopted in the present embodiment: the automatic material feeding device comprises a first servo traction structure 1, a first punching device structure 2, a photoelectric fixed-length structure 3, a heat-sealing film corner structure 4, a second servo traction structure 5, a second punching device structure 6, a first heat-sealing structure 7, a first waste film traction structure 8, a second heat-sealing structure 9, a second waste film winding structure 10, a heat-sealing unreeling structure 11, a tension swing arm structure 12, a continuous traction structure 13 and a feeding tension structure 14, wherein the heat-sealing unreeling structure 11 is provided with the tension swing arm structure 12, the continuous traction structure 13 and the feeding tension structure 14, a composite film sequentially passes through the tension swing arm structure 12, the continuous traction structure 13 and the feeding tension structure 14, the first servo traction structure 1 is arranged on the rear side of the heat-sealing unreeling structure 11, and the composite film sequentially penetrates through the first punching device structure 2, the photoelectric fixed-length structure 3, the heat-sealing film corner structure 4 and the, A heat-sealing film corner structure 4, a second servo traction structure 5 and a second punching device structure 6 are arranged below the first servo traction structure 1 and the first punching device structure 2, and a first waste film traction structure 8 and a second waste film winding structure 10 are arranged below the second heat-sealing structure 9;

the first servo traction structure 1 and the second servo traction structure 5 are identical in structure, the first servo traction structure 1 comprises a positioning shaft 1.1, a traction plate 1.2, a main traction rubber roller 1.3, a passive traction roller shaft 1.4, a bearing 1.5, a first air cylinder 1.6, a passive traction roller 1.7, a synchronizing wheel 1.8, a synchronous belt 1.9, a servo synchronous wheel 1.10 and a first servo motor 1.11, the positioning shaft 1.1 adopts a hard shaft to ensure the levelness of the traction plate 1.2, the traction plate 1.2 and the main traction rubber roller 1.3 are arranged above the positioning shaft 1.1, the bearings 1.5 are arranged at the two ends of the main traction rubber roller 1.3, the bearing 1.5 is positioned in the traction plate 1.2, the passive traction roller shaft 1.4 is in transmission connection with the main traction rubber roller 1.3, the first air cylinder 1.6 is arranged above the passive traction roller shaft 1.4, the passive traction roller shaft 1.4 is arranged at the upper part of the driven roller shaft, the traction roller shaft 1.7, and the synchronous roller 1.3 is arranged at one end of the main traction roller 1.3, and synchronizing wheel 1.8 is connected with servo synchronizing wheel 1.10 transmission on the first servo motor 1.11 through synchronous belt 1.9, cylinder 1.6 is through adjusting atmospheric pressure, can adjust the pressure that driven carry over pinch rolls 1.7 are pressed on main traction rubber roller 1.3, both sides cylinder can be adjusted alone, driven carry over pinch rolls 1.7 can move on driven traction roller axle 1.4, come to adjust the position of press mold, synchronizing wheel 1.8 is installed at main traction rubber roller 1.3 section through the tight cover that rises, synchronous belt 1.9 is used for the transmission between synchronizing wheel 1.8, first servo motor 1.11 exports as the power source of pulling, through synchronizing wheel 1.8 and synchronous belt 1.9 transmission, drive main carry over pinch rolls 1.3 and rotate, play the traction.

The first punching device structure 2 and the second punching device structure 6 are identical in structure, the first punching device structure 2 comprises a first hook plate 2.1, a punching wall plate 2.2, a flat iron 2.3, a first adjusting rod 2.4, a punching hole 2.5, a sliding block 2.6, a first adjusting handle 2.7 and a first gear 2.8, the first hook plate 2.1 is arranged on the punching wall plate 2.2, a flat iron 2.3 and a first adjusting rod 2.4 are arranged above the first hook plate 2.1, a punching hole 2.5 and a sliding block 2.6 are arranged on the flat iron 2.3, the slide block 2.6 is connected with the punched hole 2.5 in a sliding way, a first gear 2.8 is arranged below the punched hole 2.5, one end of the first gear 2.8 is connected with the first adjusting handle 2.7, the first adjusting rod 2.4 is used for adjusting as a whole, the position of the punched hole 2.5 is adjusted, the waist groove hole punched by the punched hole 2.5 is used as a handle, the sliding block 2.6 slides on the sliding strip, and the first adjusting handle 2.7 and the first gear 2.8 are used for adjusting sliding.

The photoelectric fixed length structure 3 comprises a second hook plate 3.1, a photoelectric wallboard 3.2, an aluminum roller 3.3, a photoelectric rod 3.4, a sliding rod 3.5, a second adjusting handle 3.6, a second gear 3.7 and a second adjusting rod 3.8, wherein the second adjusting rod 3.8 is arranged below the second hook plate 3.1, one end of the second adjusting rod 3.8 is connected with the second adjusting handle 3.6 through the second gear 3.7, the aluminum roller 3.3 is arranged above the second hook plate 3.1, the sliding rod 3.5 is arranged above the aluminum roller 3.3, the photoelectric rod 3.5 is provided with the photoelectric rod 3.4, the photoelectric rod 3.4 is connected with the sliding rod 3.5 in a sliding manner, the second hook plate 3.1 hooks a rack on the wallboard, the aluminum roller 3.3 compresses a film tightly, a shaking prevention film is generated in the traction process, the photoelectric rod 3.4 generates deviation, the photoelectric 3.4 controls servo, the servo length is kept consistent, the position of the photoelectric rod 3.5 can be adjusted by the servo, the second adjustment handle 3.6 and the second gear wheel 3.7 move the integral photovoltaic mount.

The first heat-sealing structure 7 and the second heat-sealing structure 9 have the same structure, the first heat-sealing structure 7 comprises a third hook plate 7.1, a heat-sealing wall plate 7.2, a sliding seat 7.3, a sliding rail 7.4, a second cylinder 7.5, an electric heating plate 7.6, a hot knife 7.7, a hot pad 7.8, a third gear 7.9, a first handle 7.10 and a second handle 7.11, the third hook plate 7.1 is installed on the heat-sealing wall plate 7.2, the third gear 7.9 and the first handle 7.10 are arranged below the heat-sealing wall plate 7.2, the sliding seat 7.3 is arranged above the heat-sealing wall plate 7.2, the sliding rail 7.4 is installed on the sliding seat 7.3, the second cylinder 7.5, the electric heating plate 7.6 and the hot knife 7.7 are installed on the sliding rail 7.4, the sliding rail 7.8 is arranged below the hot knife 7.7, the sliding rail 7.4 is used for moving the heat-sealing seat, the second cylinder 7.5 is used for pressing, the electric heating plate 7.6 and the hot knife 7.7.7 is used for controlling the hot knife module by controlling the temperature and the electric heating plate 7.7., the heating temperature can be adjusted, the periphery of the ironing shape of the ironing knife 7.7 is sealed, the ironing pad 7.8 is pressed against the ironing knife 7.7, the third gear 7.9 is used for adjusting the whole seat, and the first handle 7.10 and the second handle 7.11 are used for adjusting the single seat.

The first waste film traction structure 8 and the second waste film winding structure 10 have the same structure, the first waste film traction structure 8 comprises a fourth hook plate 8.1, a supporting wall plate 8.2, an alternating current motor 8.3, a second servo motor 8.4, an active traction rubber roller 8.5, an air expansion shaft 8.6, a third adjusting handle 8.7, a hand wheel 8.8, a third gear 8.9, an axis bearing 8.10, a hard optical axis 8.11, a passive rubber roller 8.12 and a third air cylinder 8.13, the fourth hook plate 8.1 is arranged on the supporting wall plate 8.2, the third adjusting handle 8.7, the axis bearing 8.10 and the hard optical axis 8.11 are arranged above the fourth hook plate 8.1, the hand wheel 8.8 and the third gear 8.9 are arranged below the axis bearing 8.10, the hand wheel 8.8 is connected with the third gear 8.9, the alternating current motor 8.3 and the second servo motor 8.4.4 are arranged above the supporting wall plate, the air expansion shaft 8.8.8 is connected with the servo motor 8.6, the active traction rubber roller 8.5 is in transmission connection with the passive rubber roller 8.12, a third cylinder 8.13 is arranged at one end of the passive rubber roller 8.12, an alternating current motor 8.3 is used as a winding power source, a second servo motor 8.4 is used for waste traction stripping, the active traction rubber roller 8.5 is directly connected with the second servo motor 8.4, an air expansion shaft 8.6 is directly connected with the alternating current motor 8.3 to be used as a winding waste, a third adjusting handle 8.7 is used for adjusting transverse movement, a hand wheel 8.8 is used for adjusting longitudinal integral movement, a third gear 8.9 and a hard optical axis 8.11 enable an axis bearing 8.10 to slide upwards, the passive rubber roller 8.12 presses the active traction rubber roller 8.5 to play a film traction role, the third cylinder 8.13 adjusts air pressure to press the passive rubber roller 8.12 on the active traction rubber roller 8.5, and the air pressure can be adjusted.

The working principle is as follows:

the side organ composite film is pressed by two rubber rollers of a first servo traction structure 1 to pull forward, the traction length is controlled by a photoelectric fixed length structure 3, printing lines are printed on the side organ according to the required length, the photoelectric fixed length structure 3 is adjusted to the position of the printing lines, the traction length at each time is kept consistent, the servo traction is not continuous traction, under the condition that the traction length at each time is consistent, two waist groove holes can be punched by a first punching device structure 2, a film in the middle of the waist groove holes can be used as a carrying handle, as the side organ composite film is used as the side edge of a packaging bag, the two waist groove holes are punched to have a non-sealing condition, the periphery of the carrying handle is supplemented by another film to ensure that the carrying handle can keep a sealing effect arbitrarily, the carrying handle is required to carry out heat sealing and unreeling the film, magnetic powder is installed on the carrying handle heat sealing and unreeling film to ensure that the carrying handle has certain tension, and the carrying handle heat sealing and unreeling film is continuously pulled by a variable frequency motor, the lateral organ composite film is folded to 90 degrees through a material-turning inclined plate of a heat-sealing film corner structure 4, the film is parallel to the lateral organ composite film and keeps consistent up and down, the lateral organ composite film is pulled forwards through servo traction of a second servo traction structure 5 and a first waste film traction structure 8, the basic length of the material pulled by each servo traction is guaranteed to be the same by means of servo position control, then the heat-sealing unwinding film of the handle is punched into uninterrupted films with required sizes through a second punching device structure 6 according to the size of the handle, then the two films are attached together, the punched waist slot hole and the non-punched heat-sealing unwinding film are overlapped, the heat-sealing unwinding film of the handle is pressed on the lateral organ composite film through a first heat-sealing structure 7, the first heat-sealing structure 7 presses the periphery of punched holes, the inside can not scald and press, and rethread second heat-seal structure 9 heat-seal once more makes it firm, and the waste film pulls through servo first waste film and pulls and not break the membrane that will punch a hole and pull open, with the waste film volume that can significantly reduce of servo, reduces the cost, gets up the waste film rolling through 10 inverter motor of second waste film winding structure at last, and this is just accomplished the handheld handle manufacturing process of crosswind instrument.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a processing agency of packaging bag side organ with handle which characterized in that: the processing mechanism comprises a first servo traction structure (1), a first punching device structure (2), a photoelectric fixed-length structure (3), a heat-sealing film corner structure (4), a second servo traction structure (5), a second punching device structure (6), a first heat-sealing structure (7), a first waste film traction structure (8), a second heat-sealing structure (9), a second waste film winding structure (10), a heat-sealing unreeling structure (11), a tension swing arm structure (12), a continuous traction structure (13) and a feeding tension structure (14), wherein the heat-sealing unreeling structure (11) is provided with the tension swing arm structure (12), the continuous traction structure (13) and the feeding tension structure (14), a composite film sequentially passes through the tension swing arm structure (12), the continuous traction structure (13) and the feeding tension structure (14), the rear side of the heat-sealing unreeling structure (11) is provided with the first servo traction structure (1), and the complex film runs through first punching device structure (2), photoelectricity fixed length structure (3), first heat-seal structure (7) and second heat-seal structure (9) through first servo structure (1) of pulling in proper order, first servo structure (1) and first punching device structure (2) below install heat-seal membrane corner structure (4), second servo structure (5) and the second punching device structure (6) of pulling, second heat-seal structure (9) below install first useless membrane and pull structure (8) and useless membrane rolling structure (10) of second.

2. The processing mechanism of the side organ and the carrying handle of the packaging bag as claimed in claim 1, wherein: the first servo traction structure (1) and the second servo traction structure (5) are identical in structure, the first servo traction structure (1) comprises a positioning shaft (1.1), a traction plate (1.2), a main traction rubber roller (1.3), a driven traction roller shaft (1.4), a bearing (1.5), a first air cylinder (1.6), a driven traction roller (1.7), a synchronizing wheel (1.8), a synchronous belt (1.9), a servo synchronous wheel (1.10) and a first servo motor (1.11), the positioning shaft (1.1) adopts a hard shaft, the traction plate (1.2) and the main traction rubber roller (1.3) are installed above the positioning shaft (1.1), the bearings (1.5) are installed at two ends of the main traction rubber roller (1.3), the bearings (1.5) are located in the traction plate (1.2), the driven traction roller shaft (1.4) is in transmission connection with the main traction rubber roller (1.3), and the first air cylinder (1.6) is arranged above the driven traction roller shaft (1.4), and passive traction roller (1.7) is installed on passive traction roller axle (1.4) upper portion, main traction rubber roller (1.3) one end install synchronizing wheel (1.8), and synchronizing wheel (1.8) are connected with servo synchronizing wheel (1.10) transmission on first servo motor (1.11) through hold-in range (1.9).

3. The processing mechanism of the side organ and the carrying handle of the packaging bag as claimed in claim 1, wherein: first punching device structure (2) and second punching device structure (6) structure the same, first punching device structure (2) contain first board (2.1), the wallboard (2.2) that punches a hole, band iron (2.3), first regulation pole (2.4), punch a hole (2.5), slider (2.6), first adjustment handle (2.7) and first gear (2.8), first board (2.1) of colluding install on wallboard (2.2) punches a hole, and first board (2.1) top of colluding installs band iron (2.3) and first regulation pole (2.4), band iron (2.3) on install punch a hole (2.5) and slider (2.6), and slider (2.6) and punch a hole (2.5) sliding connection, punch a hole (2.5) below be provided with first gear (2.8), and first gear (2.8) one end is connected with first adjustment handle (2.7).

4. The processing mechanism of the side organ and the carrying handle of the packaging bag as claimed in claim 1, wherein: photoelectric fixed length structure (3) contain second and collude board (3.1), photoelectricity wallboard (3.2), aluminium roller (3.3), photoelectricity (3.4), slide bar (3.5), second adjustment handle (3.6), second gear (3.7) and second regulation pole (3.8), second collude board (3.1) below be provided with second regulation pole (3.8), and second regulation pole (3.8) one end is passed through second gear (3.7) and is connected with second adjustment handle (3.6), second collude board (3.1) top be provided with aluminium roller (3.3), and aluminium roller (3.3) top be provided with slide bar (3.5), slide bar (3.5) on be provided with photoelectricity (3.4), and photoelectricity (3.4) and slide bar (3.5) sliding connection.

5. The processing mechanism of the side organ and the carrying handle of the packaging bag as claimed in claim 1, wherein: the first heat-sealing structure (7) and the second heat-sealing structure (9) have the same structure, the first heat-sealing structure (7) comprises a third hook plate (7.1), a heat-sealing wall plate (7.2), a sliding seat (7.3), a sliding rail (7.4), a second cylinder (7.5), an electric heating plate (7.6), a hot knife (7.7), a hot pad (7.8), a third gear (7.9), a first handle (7.10) and a second handle (7.11), the third hook plate (7.1) is arranged on the heat-sealing wall plate (7.2), a third gear (7.9) and a first handle (7.10) are arranged below the heat-sealing wallboard (7.2), a sliding seat (7.3) is arranged above the heat-sealing wallboard (7.2), and slide rail (7.4) are installed on slide (7.3), slide rail (7.4) on install second cylinder (7.5), electric heating board (7.6) and scald sword (7.7), and scald sword (7.7) below and be provided with and scald pad (7.8).

6. The processing mechanism of the side organ and the carrying handle of the packaging bag as claimed in claim 1, wherein: the first waste film traction structure (8) and the second waste film winding structure (10) are identical in structure, the first waste film traction structure (8) comprises a fourth hook plate (8.1), a supporting wall plate (8.2), an alternating current motor (8.3), a second servo motor (8.4), an active traction rubber roller (8.5), an air expansion shaft (8.6), a third adjusting handle (8.7), a hand wheel (8.8), a third gear (8.9), an axial bearing (8.10), a hard optical axis (8.11), a passive rubber roller (8.12) and a third air cylinder (8.13), the fourth hook plate (8.1) is installed on the supporting wall plate (8.2), the third adjusting handle (8.7), the axial bearing (8.10) and the hard optical axis (8.11) are installed above the fourth hook plate (8.1), the hand wheel (8.8) and the third gear (8.9) are installed below the axial bearing (8.10), and the hand wheel (8.8.8) is connected with the third gear (8.9), support wallboard top install alternating current motor (8.3) and second servo motor (8.4), and second servo motor (8.4) are connected with initiative traction rubber roller (8.5), alternating current motor (8.3) are connected with inflatable shaft (8.6), initiative traction rubber roller (8.5) be connected with passive rubber roller (8.12) transmission, and passive rubber roller (8.12) one end is provided with third cylinder (8.13).