CN214296571U - Sampling is packagine machine for swab - Google Patents

Abstract

The utility model discloses a packaging machine for sampling swabs, which comprises a main body, a feeding mechanism, a film placing mechanism, a traction mechanism, a heat sealing mechanism and a discharging mechanism; heat-seal mechanism includes slip table subassembly, bottom plate subassembly and two heat-seal units that set up side by side, the slip table subassembly drives the bottom plate subassembly and carries out the linear motion of fore-and-aft direction, the heat-seal unit is including driving actuating cylinder, cylinder fixed plate, guide post subassembly, deflector, hot plate and heat-seal mould, it sets up on the cylinder fixed plate to drive actuating cylinder, two the guide post subassembly sets up in cylinder fixed plate below both sides, the output that drives actuating cylinder is connected with the deflector, the deflector cover is established on the guide post subassembly and is located cylinder fixed plate below, the hot plate sets up in the deflector below, the heat-seal mould sets up in the hot plate below. The utility model discloses a production process that does not shut down has improved production efficiency.

Description

Sampling is packagine machine for swab

Technical Field

The utility model belongs to the technical field of packaging machinery, concretely relates to sampling is packagine machine for swab.

Background

The disposable sampling swab is suitable for collecting microorganisms, can assist hospitals or laboratories to detect viruses or research virus sampling, and is used for the examination of biological samples dipped in natural cavities of human bodies or animals, such as throats, nasal cavities, oral cavities, vaginas and the like. The kit can also be used for disease detection of human oral or nasal cavities, and is characterized in that a sampling swab is needed to collect oral epidermal cells or nasal cavity virus samples, the cells or the samples are stored in a collecting tube, and then the cells or the samples are transferred to a laboratory for detection.

Generally, a sampling swab is packaged by a four-edge sealing packaging device, such as a four-edge sealing packaging machine disclosed in patent No. CN105151360B, which includes a material conveying platform, a front conveyor belt group, a rear conveyor belt group, a four-edge sealing mechanism, a longitudinal cutting mechanism and a transverse cutting mechanism, which are sequentially arranged from front to back, wherein a discharge end of the material conveying platform is provided with an upper guide roller for introducing an upper packaging film, and a lower guide roller for introducing a lower packaging film, the front conveyor belt group includes a plurality of front conveyor belt units arranged side by side, the front conveyor belt units are separated from each other by a certain distance for allowing a material to pass through the middle, an upper heat-sealing copper bar and a lower heat-sealing copper bar are arranged at a side edge of each front conveyor belt unit for pre-heat-sealing the upper and lower passing packaging films, the rear conveyor belt group includes a plurality of rear conveyor belt units arranged side by side, the rear conveyor belt units are composed of upper and lower conveyor belts with mutually attached conveying surfaces, and the rear upper and lower conveyor belts are made of sponge materials, the rear conveyor units are adjacent to each other.

However, in the process of heat-sealing the four-edge sealing packaging equipment, the conveying belt needs to suspend the conveying process, wait for the completion of heat-sealing and then continue conveying, so that the production efficiency is low, and due to the special structure of the swab, the conventional four-edge sealing packaging equipment is difficult to perform a high-speed and effective packaging process on the swab.

SUMMERY OF THE UTILITY MODEL

The utility model provides a sampling swab packaging machine with high production efficiency and good packaging effect, which avoids the defects of the prior art.

The utility model provides a technical problem adopt following technical scheme: the packaging machine for the sampling swab is characterized by comprising a main machine body, a feeding mechanism, a film placing mechanism, a traction mechanism, a heat sealing mechanism and a discharging mechanism, wherein the heat sealing mechanism is arranged on the main machine body; heat-seal mechanism includes slip table subassembly, bottom plate subassembly and two heat-seal units that set up side by side, two heat-seal unit simultaneous movement, the bottom plate subassembly sets up on the slip table subassembly, the slip table subassembly drives the bottom plate subassembly and carries out the linear motion of fore-and-aft direction, the heat-seal unit sets up on the bottom plate subassembly, the heat-seal unit is including driving actuating cylinder, cylinder fixed plate, guide post subassembly, deflector, hot plate and heat-seal mould, it sets up on cylinder fixed plate to drive actuating cylinder, two the guide post subassembly sets up in cylinder fixed plate below both sides, the output that drives actuating cylinder is connected with the deflector, the deflector cover is established on the guide post subassembly and is located cylinder fixed plate below, the hot plate sets up in the deflector below, the heat-seal mould sets up in the hot plate below.

In one embodiment, the sliding table assembly comprises a fixed seat, a screw rod, a sliding seat and a servo motor, wherein the fixed seat is arranged above the main body, the screw rod is arranged in the fixed seat, the sliding seat is sleeved on the screw rod and can move linearly in the front-back direction along the screw rod, and the servo motor is arranged on the main body and matched with the screw rod.

In one embodiment, the guide post assembly comprises a guide post and two guide post bases sleeved on the guide post, one guide post base is arranged on the guide plate, and the other guide post base is arranged on the bottom plate assembly.

In one embodiment, a heat insulating block is disposed between the guide plate and the heating plate.

In one embodiment, the feeding mechanism comprises a feeding frame, a conveying rail and a feeding motor, the conveying rail is arranged on the feeding frame, the feeding motor drives the conveying rail to move, the conveying rail extends to the traction mechanism, and the conveying rail is used for conveying swabs.

In one embodiment, the traction mechanism comprises a front traction unit and a rear traction unit, the front traction unit is arranged between the feeding mechanism and the heat sealing mechanism, the front traction unit comprises an upper guide assembly, a lower guide assembly and a traction assembly, the upper guide assembly and the lower guide assembly are respectively arranged at the upper side and the lower side of the main machine body, and the upper guide assembly and the lower guide assembly both comprise a plurality of guide rollers; the traction assembly comprises a traction roller, an adjusting assembly and a traction fixing plate, the traction fixing plate is arranged at two ends of the traction roller, the adjusting assembly comprises a pressure adjusting bolt, an adjusting handle and a spring, the pressure adjusting bolt is arranged in the traction fixing plate and matched with the traction roller, the spring is arranged on the pressure adjusting bolt in a sleeved mode, and the adjusting handle is connected with the pressure adjusting bolt.

In one embodiment, the number of the film releasing mechanisms is two, one film releasing mechanism is arranged above the main machine body and matched with the upper guide assembly, the other film releasing mechanism is arranged below the main machine body and matched with the lower guide assembly, the film releasing mechanism comprises a film releasing fixing plate, a film releasing bearing seat, a film releasing inflatable shaft and a deviation correcting plate, the film releasing fixing plate is connected with the feeding frame, the film releasing bearing seat is arranged on the film releasing fixing plate, the film releasing inflatable shaft is arranged on the film releasing bearing seat, and the deviation correcting plate is sleeved on the film releasing inflatable shaft.

In one embodiment, the rear traction unit comprises a rear traction roller, a rear traction plate, a longitudinal cutting knife element, a transverse cutting knife element, a longitudinal cutting compression roller and two adjusting mechanisms, wherein two ends of the rear traction roller are arranged on the rear traction plate, the longitudinal cutting knife element is arranged on the front side of the rear traction roller, the longitudinal cutting compression roller is arranged above the longitudinal cutting knife element, one adjusting mechanism is matched with the longitudinal cutting compression roller, the transverse cutting knife element is arranged on the rear side of the traction roller, and the other adjusting mechanism is matched with the rear traction roller.

In one embodiment, the discharging mechanism comprises a discharging conveyer belt, a transmission motor and a discharging transmission shaft, the discharging transmission shaft is arranged between the two rear traction plates, the transmission motor is connected with the discharging transmission shaft, the discharging transmission shaft drives the discharging conveyer belt to rotate, and the discharging conveyer belt is arranged behind the transverse cutting knife.

And the front side and the rear side of the heat sealing mechanism are respectively provided with a proximity switch which is used for controlling the rotation direction of the servo motor.

The utility model discloses a feed mechanism carries the swab, puts membrane mechanism and drive mechanism through two and carries two plastic films, and two plastic films are located the upper and lower both sides of swab respectively, wraps the constitution wrapping bag structure with the swab, then carries out the heat-seal through heat-seal mechanism, draws forth after later cutting off through back traction unit and carries out the ejection of compact to discharge mechanism, and whole degree of automation is high, and the operation is stable, and packaging quality is good.

The heat-seal mechanism comprises two heat-seal units and a sliding table, the heat-seal units move together at the same speed along the conveying direction of the materials in the heat-seal process through the sliding table, the materials return to the original position after heat-seal is completed, the clamping movement heat-seal process is continued again, non-stop heat-seal work is achieved, and production efficiency is greatly improved.

Six swabs that are listed as can be placed through the delivery track to feed mechanism, carry simultaneously, the single heat-seal packing shaping that can carry out six swabs, it is efficient.

The front traction unit adopts an upper guide assembly, a lower guide assembly and a traction assembly, the upper guide assembly guides and conveys the plastic coiled material positioned above the film placing mechanism, the lower guide assembly guides and conveys the plastic coiled material positioned below the film placing mechanism, and the tension is ensured through a plurality of guide rollers, so that the packaging quality is ensured. The film placing mechanism adopts a structure of placing a film fixing plate, a film placing bearing seat, a film placing air expansion shaft and a deviation rectifying plate, so that the plastic coiled material is placed and the film is placed stably. And the rear traction unit cuts off the finished product while traction is performed, and the product is formed and smoothly enters the discharging mechanism to convey the finished product.

Drawings

The drawings described herein are for illustrative purposes only of selected embodiments and not all possible implementations, and are not to be considered limiting of the scope of the present disclosure.

Fig. 1 schematically shows an overall side view structure of a packaging machine for sampling swabs according to an embodiment of the present invention;

fig. 2 schematically illustrates an overall top view structure of a packaging machine for sampling swabs according to an embodiment of the present invention;

fig. 3 schematically illustrates an overall side view of a heat sealing mechanism of a packaging machine for sampling swabs according to an embodiment of the present invention;

fig. 4 schematically illustrates an overall top view of a heat sealing mechanism of a packaging machine for sampling swabs according to an embodiment of the present invention;

fig. 5 schematically illustrates a bottom view of a heat sealing mold of a packaging machine for sampling swabs according to an embodiment of the present invention;

fig. 6 schematically shows a structure of a film laying mechanism of a packaging machine for sampling swabs, which is combined with a front traction unit according to an embodiment of the present invention;

fig. 7 schematically shows a structure of a rear drawing unit of a packaging machine for sampling swabs, which is combined with a discharging mechanism, according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be described in detail below with reference to the accompanying drawings, and 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.

Therefore, the following detailed description of the embodiments of the present invention, which is provided in connection with the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention, and all other embodiments obtained by those of ordinary skill in the art without any inventive effort based on the embodiments of the present invention are within the scope of the invention.

The terminology used herein is for the purpose of explaining the embodiments and is not intended to limit and/or define the invention. It is to be understood that the terms "front", "back", "left", "right", "up", "down", and the like, refer to an orientation or positional relationship based on the drawings, or an orientation or positional relationship that is conventionally found when the utility model is used, or an orientation or positional relationship that is conventionally understood by those skilled in the art, and are used merely for convenience of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be considered as limiting the present invention.

Hereinafter, a preferred embodiment according to the present invention will be described in detail with reference to fig. 1 to 7.

Fig. 1 is a schematic view of a plane structure of an embodiment of the present invention in a side view direction as a whole.

Fig. 2 is a schematic plan view of the whole of the embodiment of the present invention in the top view direction.

Fig. 3 is a schematic plan view of the entire heat sealing mechanism according to the embodiment of the present invention in a side view direction.

Fig. 4 is a schematic plan view of the entire heat sealing mechanism according to the embodiment of the present invention.

Fig. 5 is a schematic view of a plane structure of a heat sealing mold according to an embodiment of the present invention in a bottom view direction.

Fig. 6 is a schematic plan view of the film releasing mechanism combined with the front pulling unit according to the embodiment of the present invention.

Fig. 7 is a schematic plan view of a rear traction unit combined with a discharging mechanism according to an embodiment of the present invention.

According to the utility model discloses a packagine machine for sampling swab of an embodiment, include main fuselage 100, feed mechanism 200, put membrane mechanism 300, drive mechanism, heat-seal mechanism 600 and discharge mechanism 700, heat-seal mechanism 600 sets up on main fuselage 100, drive mechanism sets up both sides around heat-seal mechanism 600, feed mechanism 200 and put membrane mechanism 300 and all set up in main fuselage 100 front side, drive mechanism with put membrane mechanism 300 and cooperate, it is used for placing plastic coiled material 1000 to put membrane mechanism 300, drive mechanism drives plastic coiled material 1000 and carries out the linear motion of fore-and-aft direction, discharge mechanism 700 sets up at main fuselage 100 rear side. Transport the swab by feed mechanism, unreel and transport plastic coiled material 100 (plastic film area) by putting membrane mechanism and drive mechanism to with the swab centre gripping between two plastic films, carry out the heat-seal that does not shut down through heat-seal mechanism, cut off and off-the-shelf transportation by drive mechanism discharge mechanism.

Specifically, in one embodiment, the heat sealing mechanism 600 includes a sliding table assembly 610, a bottom plate assembly 620 and two heat sealing units 630 arranged in parallel, two of the heat sealing units 630 move synchronously, the bottom plate assembly 620 is arranged on the sliding table assembly 610, the sliding table assembly 610 drives the bottom plate assembly 620 to perform front-rear linear motion, the heat sealing units 630 are arranged on the bottom plate assembly 620, the heat sealing units 630 include a driving cylinder 631, a cylinder fixing plate 632, a guide column assembly, a guide plate 634, a heating plate 635 and a heat sealing mold 636, the driving cylinder 631 is arranged on the cylinder fixing plate 632, the two guide column assemblies are arranged on two sides below the cylinder fixing plate 632, an output end of the driving cylinder 631 is connected with the guide plate 634, the guide plate 634 is sleeved on the guide column assembly and located below the cylinder fixing plate 632, the heating plate 635 is arranged below the guide plate 634, heat-seal mould 636 sets up in hot plate 635 below, and slip table subassembly 610 includes fixing base 611, lead screw 612, slide 613 and servo motor 614, fixing base 611 sets up in main fuselage 100 top, lead screw 612 sets up in fixing base 611, slide 613 covers and establishes on lead screw 612 and can follow lead screw 612 and carry out the linear motion of fore-and-aft direction, servo motor 614 sets up on main fuselage 100 and cooperatees with lead screw 612.

The bottom plate assembly comprises a bottom plate and a silica gel plate which is attached to the bottom plate, and the silica gel plate is matched with the heat-sealing die to be pressed for use.

Simultaneously, both sides respectively are provided with a proximity switch 10 around heat-seal mechanism 600, proximity switch 10 is used for controlling servo motor 614's rotation direction, and proximity switch 10 cooperatees with the bottom plate subassembly, and after the proximity switch of this side received the signal, the motor of slip table subassembly began the reversal when the slip table subassembly drove the bottom plate subassembly and moves toward another direction, so relapse. For example, when the slide 613 is in the position of the front side, the control cylinder outputs downwards, the heat-sealing die is driven to press fit on the silica gel plate to heat seal the packaging film belt, while the press fit is performed, the servo motor rotates to drive the slide to move backwards, namely, the heat-sealing unit is driven to move rightwards, the movement speed is consistent with the speed of the packaging film belt, the heat-sealing unit moves backwards together with the packaging film belt while clamping the packaging film belt, the heat-sealing process is completed in the process, and when the heat-sealing unit reaches the rear side (a proximity switch of the rear side), the cylinder returns to the original position, the heat-sealing die moves upwards to separate from the packaging film belt, meanwhile, the servo motor rotates backwards, the heat-sealing unit moves forwards integrally until the front side (the proximity switch of the front side) is reached, the cylinder drives the heat-sealing die to press down, meanwhile, the servo motor rotates backwards, and the next heat-sealing operation is started.

Wherein, heat-seal mould 636 bottom surface is seted up corresponding 6 heat-seals, is the rectangle form, and a heat-seal just corresponds the wrapping bag of a swab, and six heat-seals of swabs side by side can be accomplished to single heat-seal unit single, and two heat-seal units move simultaneously, and the single heat-seal that can accomplish 12 swabs.

The guide post assembly comprises a guide post 601 and two guide post bases 602 sleeved on the guide post 601, wherein one guide post base 602 is arranged on the guide plate 634, and the other guide post base 602 is arranged on the bottom plate assembly 620. The guide plate moves on the two guide posts under the driving of the cylinder to drive the heat-sealing die below and corresponding parts to move, so that the pressing and lifting are realized.

Accordingly, a heat insulating block 603 is disposed between the guide plate 634 and the heating plate 635 to prevent heat from being conducted to the guide plate.

Specifically, the feeding mechanism 200 includes a feeding frame 210, a conveying rail 220 and a feeding motor, the conveying rail 220 is disposed on the feeding frame 210, the feeding motor drives the conveying rail 220 to move, the conveying rail 220 extends to the drawing mechanism, and the conveying rail 220 is used for conveying a swab.

Specifically, the traction mechanism includes a front traction unit 400 and a rear traction unit 500, the front traction unit 400 is disposed between the feeding mechanism 200 and the heat sealing mechanism 600, the front traction unit 400 includes an upper guide assembly 410, a lower guide assembly 420 and a traction assembly 430, the upper guide assembly 410 and the lower guide assembly 420 are respectively disposed at the upper side and the lower side of the main body 100, the upper guide assembly 410 and the lower guide assembly 420 both include a plurality of guide rollers 401, and the guide rollers may be aluminum guide rollers, and are distributed in a staggered manner in the front and rear direction to provide tension; the traction assembly 430 comprises a traction roller 431, an adjusting assembly 433 and a traction fixing plate 432, the traction fixing plate 432 is arranged at two ends of the traction roller 431, the adjusting assembly 433 comprises a pressure adjusting bolt 402, an adjusting handle 403 and a spring 404, the pressure adjusting bolt 402 is arranged in the traction fixing plate 432 and matched with the traction roller 431, the spring 404 is sleeved on the pressure adjusting bolt 402, the adjusting handle 403 is connected with the pressure adjusting bolt 402, the pressure adjusting bolt is adjusted through the adjusting handle, and then the pressure is adjusted.

Specifically, it is provided with two to put membrane mechanism 300, one put membrane mechanism 300 setting in main fuselage 100 top and cooperate with last guide assembly 410, another put membrane mechanism 300 setting in main fuselage 100 below and cooperate with lower guide assembly 420, put membrane mechanism 300 including putting membrane fixed plate 310, put membrane bearing frame 320, put membrane inflatable shaft 330 and rectifying plate 340, guarantee by rectifying plate to unreel the direction, put membrane fixed plate 310 and be connected with last work or material rest 210, put membrane bearing frame 320 and set up on putting membrane fixed plate 310, put membrane inflatable shaft 330 and set up on putting membrane bearing frame 320, rectifying plate 340 cover is established on putting membrane inflatable shaft 330. The inflatable shaft is a specially-made unwinding shaft, the surface part can be expanded after high-pressure inflation, the surface part can be quickly retracted after deflation, the film unwinding fixing plate is fixedly connected with the feeding rack,

specifically, the rear traction unit 500 includes a rear traction roller 510, a rear traction plate 520, a slitting knife 530, a cross cutting knife 540, a slitting compression roller 550, and two adjusting mechanisms 560, the adjusting mechanisms 560 may be configured in accordance with the adjusting components 433 to adjust the applied pressure, two ends of the rear traction roller 510 are disposed on the rear traction plate 520, the slitting knife 530 is disposed on a front side of the rear traction roller 510, the slitting compression roller 550 is disposed above the slitting knife 530, one of the adjusting mechanisms 560 is engaged with the slitting compression roller 550, the cross cutting knife 540 is disposed on a rear side of the traction roller 431, and the other of the adjusting mechanisms 560 is engaged with the rear traction roller 510. Firstly, the whole packaging bag is longitudinally cut by a longitudinal cutting knife piece to form six packaging strips, and the packaging bag enters a transverse cutting mechanism to be transversely cut through the space between the traction rollers to form six finished packaging bag structures.

Specifically, the discharging mechanism 700 includes a discharging conveyor belt 710, a transmission motor and a discharging transmission shaft 720, the discharging transmission shaft 720 is disposed between the two rear traction plates 520, the transmission motor is connected with the discharging transmission shaft 720, the discharging transmission shaft 720 drives the discharging conveyor belt 710 to rotate, and the discharging conveyor belt 710 is disposed behind the transverse cutter 540. After the packaging bag with the swab is produced, the packaging bag is conveyed by the discharging mechanism, and the production is finished.

It should be noted that, in the present invention, the unexplained connection mode between the components can be the connection mode commonly used in the field.

The scope of the present invention is defined not by the above-described embodiments but by the appended claims and equivalents thereof.

Claims (10)

1. The packaging machine for the sampling swab is characterized by comprising a main machine body, a feeding mechanism, a film placing mechanism, a traction mechanism, a heat sealing mechanism and a discharging mechanism, wherein the heat sealing mechanism is arranged on the main machine body;

heat-seal mechanism includes slip table subassembly, bottom plate subassembly and two heat-seal units that set up side by side, two heat-seal unit simultaneous movement, the bottom plate subassembly sets up on the slip table subassembly, the slip table subassembly drives the bottom plate subassembly and carries out the linear motion of fore-and-aft direction, the heat-seal unit sets up on the bottom plate subassembly, the heat-seal unit is including driving actuating cylinder, cylinder fixed plate, guide post subassembly, deflector, hot plate and heat-seal mould, it sets up on cylinder fixed plate to drive actuating cylinder, two the guide post subassembly sets up in cylinder fixed plate below both sides, the output that drives actuating cylinder is connected with the deflector, the deflector cover is established on the guide post subassembly and is located cylinder fixed plate below, the hot plate sets up in the deflector below, the heat-seal mould sets up in the hot plate below.

2. The packaging machine for the sampling swab as claimed in claim 1, wherein the sliding table assembly comprises a fixing seat, a screw rod, a sliding seat and a servo motor, the fixing seat is disposed above the main body, the screw rod is disposed in the fixing seat, the sliding seat is sleeved on the screw rod and can move linearly in a front-back direction along the screw rod, and the servo motor is disposed on the main body and matched with the screw rod.

3. The packaging machine for sampling swabs as claimed in claim 2, wherein the guide post assembly comprises a guide post and two guide post bases sleeved on the guide post, one of the guide post bases is disposed on the guide plate, and the other guide post base is disposed on the bottom plate assembly.

4. The packaging machine for sampling swabs according to claim 3, wherein a heat insulating block is provided between the guide plate and the heating plate.

5. The packaging machine for sampling swabs as claimed in claim 3, wherein the feeding mechanism comprises a feeding frame, a conveying rail and a feeding motor, the conveying rail is arranged on the feeding frame, the feeding motor drives the conveying rail to move, the conveying rail extends to the traction mechanism, and the conveying rail is used for conveying swabs.

6. The packaging machine for sampling swabs of claim 5, wherein the pulling mechanism comprises a front pulling unit and a rear pulling unit,

the front traction unit is arranged between the feeding mechanism and the heat sealing mechanism, the front traction unit comprises an upper guide assembly, a lower guide assembly and a traction assembly, the upper guide assembly and the lower guide assembly are respectively arranged on the upper side and the lower side of the main body, and the upper guide assembly and the lower guide assembly respectively comprise a plurality of guide rollers;

the traction assembly comprises a traction roller, an adjusting assembly and a traction fixing plate, the traction fixing plate is arranged at two ends of the traction roller, the adjusting assembly comprises a pressure adjusting bolt, an adjusting handle and a spring, the pressure adjusting bolt is arranged in the traction fixing plate and matched with the traction roller, the spring is arranged on the pressure adjusting bolt in a sleeved mode, and the adjusting handle is connected with the pressure adjusting bolt.

7. The packaging machine for sampling swabs as claimed in claim 6, wherein there are two film releasing mechanisms, one of the two film releasing mechanisms is disposed above the main body and is matched with the upper guiding component, the other film releasing mechanism is disposed below the main body and is matched with the lower guiding component, the film releasing mechanism comprises a film releasing fixing plate, a film releasing bearing seat, a film releasing inflatable shaft and a deviation correcting plate, the film releasing fixing plate is connected with the loading frame, the film releasing bearing seat is disposed on the film releasing fixing plate, the film releasing inflatable shaft is disposed on the film releasing bearing seat, and the deviation correcting plate is sleeved on the film releasing inflatable shaft.

8. The packaging machine for sampling swabs as claimed in claim 7, wherein the rear traction unit comprises a rear traction roller, a rear traction plate, a slitting knife, a transverse cutting knife, a longitudinal cutting press roller and two adjusting mechanisms, the rear traction roller is arranged on the rear traction plate at two ends, the longitudinal cutting knife is arranged on the front side of the rear traction roller, the longitudinal cutting press roller is arranged above the longitudinal cutting knife, one of the adjusting mechanisms is matched with the longitudinal cutting press roller, the transverse cutting knife is arranged on the rear side of the traction roller, and the other adjusting mechanism is matched with the rear traction roller.

9. The packaging machine for sampling swabs as claimed in claim 8, wherein the discharging mechanism comprises a discharging conveyor belt, a driving motor and a discharging transmission shaft, the discharging transmission shaft is arranged between the two rear traction plates, the driving motor is connected with the discharging transmission shaft, the discharging transmission shaft drives the discharging conveyor belt to rotate, and the discharging conveyor belt is arranged behind the transverse cutter.

10. The packaging machine for sampling swabs according to claim 1, wherein the heat sealing mechanism is provided with a proximity switch at each of the front and rear sides thereof, the proximity switch being used to control the rotation direction of the servo motor.

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