CN220075566U - Automatic sterile tube sealing machine for welding heat-shrinkable tubes - Google Patents

Abstract

The utility model provides an automatic sterile tube sealing machine for welding thermal shrinkage tubes, and belongs to the technical field of pipeline packaging. The problem of current manual work compress tightly thermoplastic tubular product waste time and energy, compress tightly the degree of difficulty big, the success rate is low and prior art liquid is arranged uncleanly when sealing the pipe to taking liquid seal pipeline and is led to sealed effect not good, sealed face edge has deckle edge and deckle edge department easily to produce leakage is solved. The automatic heating device comprises a frame, a shell body, a fixed end support, a movable end support, a pressing mechanism and a heating module, wherein the frame comprises a base, the shell body is arranged above the base, the pressing mechanism, the movable end support and the fixed end support are all arranged in the shell body and are sequentially arranged on the base along the length direction of the base, the shell body comprises a fixed shell and an automatic cabin door, and the movable end support and the fixed end support are both provided with the heating module on opposite surfaces of the movable end support and the fixed end support. It is mainly used for sealing heat-shrinkable tubes.

Description

Automatic sterile tube sealing machine for welding heat-shrinkable tubes

Technical Field

The utility model belongs to the technical field of pipeline packaging, and particularly relates to an automatic sterile tube sealing machine for welding thermal shrinkage tubes.

Background

At present, thermoplastic pipes, such as TPE hoses, are mainly used in biopharmaceutical, vaccine production, genetic engineering development and clinical fluid delivery, and in order to realize aseptic sealing, the pipes are sealed by hot melting in a heat sealing manner, and then the pipes are cut into two parts.

The traditional technology extrudes the thermoplastic pipe through the upper ceramic heating plate and the lower ceramic heating plate, and then the thermoplastic pipe is welded together through heating, but the ceramic heating plate is easy to break, and the welding sealing surface is easy to generate defects such as malformation, broken edges or welding position breakage phenomenon, so that the sealing property and the reliability of the welded hose are poor. There are some problems in the pipe sealing machine existing in the market at present when the pipeline is compressed, for example, the pipe sealing machine is disclosed in the prior art, and the heating device is used for heating the heat-shrinkable pipe, so that the pipe is melted, and then the pipe is effectively sealed by cooling and solidifying after deformation. However, in the prior art, when the pipeline is compressed, the pipeline needs to be manually compressed and sealed, the pipeline with a small diameter and a thin inner wall can be manually compressed, but in the pipeline with a large diameter and a thick inner wall, the manual compression is time-consuming and labor-consuming, and in addition, the manual compression operation cannot realize self-adaptive compression due to different compression forces when different pipe diameters are compressed, the compression difficulty is large and the success rate is low, and when the pipeline with a liquid seal is sealed in the prior art, problems still exist, such as poor sealing effect caused by incomplete liquid discharge, and the problem that burrs and raw edges are easy to leak at the edge of a sealing surface.

Disclosure of Invention

In view of the above, the utility model aims to provide an automatic sterile tube sealing machine for welding thermal shrinkage tubes, which solves the problems of time and labor waste, high compression difficulty, low success rate, poor sealing effect caused by incomplete liquid discharge when sealing a tube with a liquid seal pipeline in the prior art, and easy leakage at the edges of sealing surfaces and burrs.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides an automatic aseptic tube sealing machine for pyrocondensation tubular product welded, it includes frame, shell casing, stiff end support, loose end support, hold-down mechanism and heating module, the frame includes the base, the shell casing sets up in the base top, hold-down mechanism, loose end support and stiff end support all set up in the shell casing and set gradually on the base along the length direction of base, the shell casing includes fixed shell and automatic hatch door, automatic hatch door slides and sets up in fixed shell one side, the loose end support slides along the length direction of base and sets up on the base, hold-down mechanism includes push rod step motor, push rod step motor's output and loose end support are connected and drive the slip of loose end support, loose end support and stiff end support all are provided with heating module on both relative faces, two heating module sets up relatively, heating module's surface is covered with polytetrafluoroethylene sticky tape, heating module includes the metal heating plate, the metal heating plate is connected with loose end support or stiff end support, the mid portion on the surface of metal is provided with vertical arch, the surface of vertical arch both sides the metal heating plate is the slope setting.

Furthermore, reinforcing plates are symmetrically arranged on two sides of the top end face of the base, a hook is arranged at one end of the bottom of the base, and a foot cup is arranged at the other end of the bottom of the base.

Still further, be provided with the motor mounting panel on the terminal surface of base, push rod step motor's one end is connected with the base through the motor mounting panel, the both ends of motor mounting panel one side are all connected with the reinforcing plate through the motor gusset.

Still further, the loose-end support includes fixed plate on push rod fixed plate, loose-end floor and the movable end, push rod stepper motor's output is connected with the push rod fixed plate, the bottom of push rod fixed plate is connected with the slider through the slider mounting panel, be provided with the slide rail on the top end face of base, the push rod fixed plate passes through slider and slide rail sliding connection, the both ends that push rod stepper motor one side was kept away from to the push rod fixed plate all are provided with the loose-end floor, the one end and the push rod fixed plate of loose-end floor link to each other, and the other end is connected with the loose-end mounting panel, two be provided with the loose-end on the top of loose-end floor fixed plate, the one end and the push rod fixed plate of loose-end on the fixed plate bottom face are connected, and the other end is connected with heating module through the loose-end mounting panel, the push rod fixed plate is close to push rod stepper motor one side and is provided with the slider floor, the push rod fixed plate passes through the slider floor and is connected with the slider mounting panel.

Furthermore, the reinforcing plate is provided with a photoelectric switch, and the sliding block rib plate is provided with a photoelectric switch baffle matched with the photoelectric switch.

Still further, the fixed end support includes fixed end gusset and fixed end upper fixed plate, fixed plate sets up the top at the base on the fixed end, the both sides of fixed plate bottom end face all are connected with the base through the fixed end gusset on the fixed end, the one end of fixed end gusset is provided with the fixed end mounting panel, the one end that the fixed end bottom end face is close to the loose end support on the fixed end is connected with heating module through the fixed end mounting panel.

Furthermore, both ends of the polytetrafluoroethylene tape are provided with pressing plates, and both ends of the polytetrafluoroethylene tape are connected with the movable end rib plates or the fixed end rib plates through the pressing plates.

Still further, the heating module still includes hot plate mounting panel and adjustable clamp plate, the upper and lower both ends of metal hot plate all are provided with the hot plate mounting panel, the metal hot plate passes through the hot plate mounting panel and is connected with movable end support or stiff end support, the equal interval in both sides of metal hot plate is provided with adjustable clamp plate, the bottom of metal hot plate is connected with temperature sensor.

Further, an automatic cabin door module is slidably arranged on the top of the fixing plate on the fixing end, and the automatic cabin door is connected with the fixing plate on the fixing end through the automatic cabin door module.

Furthermore, a plurality of fans are arranged on one side of the heating module and the base below the heating module, and the fans on one side of the heating module are connected with the fixed end mounting plate or the movable end mounting plate.

Compared with the prior art, the utility model has the beneficial effects that:

1. the metal heating plate is adopted, so that the condition that a ceramic heating plate is easy to break is avoided, and the service life of the heating plate is prolonged;

2. compared with manual compaction, the utility model has the advantages of time and labor saving and high success rate by using the push rod stepping motor as a power source;

3. according to the utility model, the vertical protrusions are arranged at the middle part of the compression surface of the metal heating plate, and the surfaces of the metal heating plates at the two sides of the vertical protrusions are obliquely arranged, so that liquid discharge is facilitated, the problem of poor sealing effect caused by incomplete liquid discharge when a liquid seal pipe is carried out is solved, the success rate of a pipeline with the liquid seal is improved, the stability and the reliability of the pipe seal are ensured, the unique design of the compression surface shape of the metal heating plate can generate cutting lines on the sealing surface, and meanwhile, the liquid in the pipeline is also more facilitated to be discharged;

4. according to the utility model, due to the combined structural design of the polytetrafluoroethylene adhesive tape and the adjustable pressing plate, the problem that burrs exist at the edge of the sealing surface is solved, the leakage at the burrs is avoided, the quality of a sealed pipeline is improved, the polytetrafluoroethylene adhesive tape completely covers the metal heating plate and the adjustable pressing plate, and therefore, a hot-melt hose cannot be extruded into a gap, and the defects such as burrs are avoided.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

FIG. 1 is a schematic view of the overall structure of an automatic aseptic tube sealing machine for welding heat-shrinkable tubes according to the present utility model;

FIG. 2 is a schematic illustration of an automatic aseptic tube sealer for heat shrink tubing welding according to the present utility model;

FIG. 3 is a schematic view of a part of an automatic aseptic tube sealing machine for welding heat-shrinkable tubes according to the present utility model;

FIG. 4 is a schematic view of the internal structure of an automatic aseptic tube sealing machine for welding heat-shrinkable tubes according to the present utility model;

FIG. 5 is a schematic view showing another view of the internal structure of an automatic aseptic tube sealer for heat-shrinkable tubing welding according to the present utility model;

FIG. 6 is a schematic structural view of a hold-down mechanism of an automatic aseptic tube sealer for heat shrink tubing welding according to the present utility model;

FIG. 7 is a schematic view of the heating module and polytetrafluoroethylene tape of the automatic sterile tube sealing machine for welding heat-shrinkable tubes according to the utility model;

FIG. 8 is a schematic view of the heating module of the automatic aseptic tube sealing machine for welding heat-shrinkable tubes according to the present utility model;

FIG. 9 is a schematic view of the structure of a metal heating plate of an automatic aseptic tube sealing machine for welding heat-shrinkable tubes according to the utility model;

FIG. 10 is a schematic diagram of a pusher stepper motor of an automatic aseptic tube sealer for heat shrink tubing welding according to the present utility model;

fig. 11 is a cross-sectional view of an automatic aseptic tube sealer for heat-shrinkable tubing welding according to the present utility model with two metal heating plates mated.

1-frame, 2-fixed end support, 3-movable end support, 4-hold-down mechanism, 5-heating module, 6-automatic cabin door module, 7-fan, 8-clamp plate, 9-fixed shell, 10-automatic cabin door, 101-base, 102-reinforcing plate, 103-motor mounting plate, 104-motor gusset, 105-foot cup, 106-couple, 201-fixed end fixing plate, 202-fixed end gusset, 203-fixed end mounting plate, 301-movable end upper fixing plate, 302-movable end gusset, 303-movable end mounting plate, 401-photoelectric switch baffle, 402-slide mounting plate, 403-push rod fixing plate, 404-slide ribbed plate, 405-slide, 406-push rod stepper motor, 407-photoelectric switch, 501-metal heating plate, 502-heating plate mounting plate, 503-adjustable clamp plate, 504-temperature sensor, 505-polytetrafluoroethylene tape, 506-compression surface of metal heating plate.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. It should be noted that, in the case of no conflict, embodiments of the present utility model and features of the embodiments may be combined with each other, and the described embodiments are only some embodiments of the present utility model, not all embodiments.

Referring to fig. 1-11 for describing this embodiment, an automatic aseptic tube sealer for thermal shrinkage tube welding, it includes frame 1, shell body, stiff end support 2, loose end support 3, hold-down mechanism 4 and heating module 5, frame 1 includes base 101, shell body sets up in the base 101 top, hold-down mechanism 4, loose end support 3 and stiff end support 2 all set up in the shell body and set gradually on base 101 along the length direction of base 101, shell body includes fixed shell 9 and automatic hatch door 10, automatic hatch door 10 slidable setting is in fixed shell 9 one side, loose end support 3 is along the length direction slidable setting of base 101 on base 101, hold-down mechanism 4 includes push rod step motor 406, the output of push rod step motor 406 is connected with loose end support 3 and drives the slip of end support 3, loose end support 3 and stiff end support 2 all are provided with heating module 5 on both relative faces, two heating module 5 set up relatively, heating module 5's surface is covered with polytetrafluoroethylene tape 505, metal back end 501 includes, metal back end 501 carries out the hot plate 501 and carries out the hot plate portion and carries out the hot metal seal and carries out the top of the hot plate portion of vertical expansion joint in the base 101, the hot plate portion is provided with the hot plate support 3, the hot plate 501 is provided with the hot plate 501, and the hot plate 501 is connected with the expansion joint has the hot plate is provided with the expansion joint.

The metal heating plate 501 is adopted as the heating plate of the heating module 5 in the embodiment, so that the condition that the ceramic heating plate is easy to break is avoided, and the service life of the heating plate is prolonged.

In the embodiment, the push rod stepping motor 406 is used as a power source, so that time and labor are saved compared with manual compaction, and the tube sealing success rate is high.

In this embodiment, the middle part of the pressing surface of the metal heating plate 501 is provided with a vertical protrusion, and the surface of the metal heating plate 501 on two sides of the vertical protrusion is provided with a structure designed to be inclined, so that the problem that the sealing effect is poor due to unclean liquid discharge when a liquid seal pipe is taken is solved, the success rate of the liquid seal pipe is improved, the stability and the reliability of the pipe seal are ensured, and as shown in fig. 11, the unique design of the shape of the pressing surface 506 of the metal heating plate can generate a cutting line on the sealing surface of the liquid seal pipe, and is more beneficial to the discharge of liquid in the pipe.

In this embodiment, the combined structure design of the polytetrafluoroethylene tape 505 and the heating module 5 solves the problem that the edge of the sealing surface has burrs, avoids the leakage at the burrs, improves the quality of the sealing pipeline, and completely covers the heating module 5 by the polytetrafluoroethylene tape 505, so that the hot-melt hose cannot be extruded into the gap, and further avoids the generation of the burrs and other defects.

In this embodiment, reinforcing plates 102 are symmetrically arranged on two sides of the top end surface of the base 101, one end of the bottom of the base 101 is provided with a hook 106, the other end of the bottom of the base 101 is provided with a foot cup 105, the setting of the reinforcing plates 102 plays a role in bending resistance on the frame 1, the foot cup 105 is used for cushioning the frame 1, ventilation is facilitated, and the hook 106 is used for supporting the whole machine structure and can enable the whole machine to be hung for use.

In this embodiment, a motor mounting plate 103 is disposed on the top end surface of the base 101, one end of a push rod stepper motor 406 is connected with the base 101 through the motor mounting plate 103, two ends on one side of the motor mounting plate 103 are connected with the reinforcing plate 102 through motor rib plates 104, the motor mounting plate 103 plays a role in mounting and fixing the push rod stepper motor 406, and the motor rib plates 104 play a role in reinforcing the motor mounting plate 103.

In this embodiment, the movable end support 3 includes a push rod fixing plate 403, a movable end rib plate 302 and a movable end upper fixing plate 301, the output end of a push rod stepping motor 406 is connected with the push rod fixing plate 403, the bottom of the push rod fixing plate 403 is connected with a slide block 405 through a slide block mounting plate 402, a slide rail is arranged on the top end face of the base 101, the push rod fixing plate 403 is slidably connected with the slide rail through the slide block 405, two ends of the push rod fixing plate 403 far away from the push rod stepping motor 406 are respectively provided with the movable end rib plate 302, one end of the movable end rib plate 302 is connected with the push rod fixing plate 403, the other end is connected with the movable end mounting plate 303, two ends of the movable end rib plate 302 are provided with the movable end upper fixing plate 301, one end of the bottom end surface of the movable end upper fixing plate 301 is connected with the push rod fixing plate 403, the other end is connected with the heating module 5 through the movable end mounting plate 303, one side of the push rod fixing plate 403 close to the push rod stepping motor 406 is provided with a slide block rib plate 404, the push rod fixing plate 403 is connected with the mounting plate 402 through the slide block rib plate 404, one end of the push rod fixing plate 403 is used for connecting the push rod stepping motor 406 with the movable end rib plate 302, one end of the movable end rib plate 302 is connected with the push rod fixing plate 302, the other end is connected with the movable end fixing plate 301, two ends of the movable end rib plate 302 are used for reinforcing the movable end rib plate 302, and the movable end is used for reinforcing the movable end fixing plate 302, and the movable end fixing plate 301 is used for fixing the fan fixing plate 7.

In this embodiment, the reinforcing plate 102 is provided with a photoelectric switch 407, the slider rib plate 404 is provided with a photoelectric switch baffle 401 that is matched with the photoelectric switch 407, when the tube sealing is completed, the push rod stepping motor 406 starts to retract, and when the photoelectric switch 407 detects the photoelectric switch baffle 401, the push rod stepping motor 406 stops moving to complete the reset.

In this embodiment the stiff end support 2 includes stiff end gusset 202 and fixed end upper fixed plate 201, fixed end upper fixed plate 201 sets up in the top of base 101, the both sides of fixed end upper fixed plate 201 bottom end face all are connected with base 101 through the stiff end gusset, the one end of stiff end gusset 202 is provided with stiff end mounting panel 203, the one end that fixed end support 3 is close to fixed end 201 bottom face is passed through stiff end mounting panel 203 and is connected with heating module 5, and stiff end gusset 202 is used for playing the enhancement effect to stiff end support 2 structure, and fixed end fixed plate 201 is used for installing automatic hatch door module 6, and stiff end mounting panel 203 is used for installing heating module 5 and fan 7.

In this embodiment, the two ends of the polytetrafluoroethylene tape 505 are respectively provided with a pressing plate 8, the two ends of the polytetrafluoroethylene tape 505 are respectively connected with the movable end rib plate 302 or the fixed end rib plate 202 through the pressing plates 8, and the pressing plates 8 are used for pressing the polytetrafluoroethylene tape 505.

In this embodiment heating module 5 still includes hot plate mounting panel 502 and adjustable clamp plate 503, the upper and lower both ends of metal hot plate 501 all are provided with hot plate mounting panel 502, metal hot plate 501 passes through hot plate mounting panel 502 and is connected with movable end support 3 or stiff end support 2, the both sides of metal hot plate 501 all are provided with adjustable clamp plate 503 at the interval, the bottom of metal hot plate 501 is connected with temperature sensor 504, and hot plate mounting panel 502 is used for fixed metal hot plate 501, and adjustable clamp plate 503 is used for compressing tightly thermoplastic pipe, and temperature sensor 504 is used for measuring the real-time temperature of metal hot plate 501, has the gap between adjustable clamp plate 503 and the metal hot plate 501 in this embodiment, prevents that metal hot plate 501 from heating adjustable clamp plate 503 when the intensification.

In this embodiment, the top of the fixing plate 201 on the fixing end is slidably provided with an automatic door module 6, the automatic door 10 is connected with the fixing plate 201 on the fixing end through the automatic door module 6, and the automatic door module 6 is used for driving the automatic door 10 to open and close.

In this embodiment, a plurality of fans 7 are disposed on one side of the heating module 5 and the base 101 below the heating module 5, the fan 7 on one side of the heating module 5 is connected with the fixed end mounting plate 203 or the movable end mounting plate 303, the fan 7 on one side of the heating module 5 is used for cooling the device, and the fan 7 on the base 101 is used for providing air intake power for the whole machine.

The working principle of this embodiment is as follows:

firstly, the automatic cabin door 10 is opened, a thermoplastic pipe is placed between two heating modules 5, the pressing mechanism 4 is opened, the push rod stepping motor 406 in the pressing mechanism 4 drives the heating modules 5 on the movable end support 3 to move towards the heating modules 5 on the fixed end support 2, so that the thermoplastic pipe is pre-pressed, the automatic cabin door 10 is closed after the pre-pressing is finished, the heating modules 5 start to work, heat is provided for heating the thermoplastic pipe, when the pipe reaches the preheating temperature, the push rod stepping motor 406 moves to further press the pipe and continuously heat the pipe, after the pipe reaches the welding temperature for a period of time, the fan 7 is started to cool, the push rod stepping motor 406 moves to further press the pipe in the cooling process to flatten the pipe, the pipe is flattened in the cooling process, the sealing surface of the pipe is prevented from generating pits due to the fact that the pipe is flattened, after the temperature reaches the cooling temperature, the push rod stepping motor 406 is reset, pipe sealing is finished, the pipe body is fused into a uniform sealing section under the double effects of heat and extrusion, at the moment, the automatic cabin door 10 is opened, the pipe body is taken out, and work such as cutting is performed in the next step.

In this embodiment, the automatic cabin door module 6, the push rod stepper motor 406, the temperature sensor 504, the heating module 5 and the photoelectric switch 407 are controlled by a control unit, and the connection and control modes of the control unit and the automatic cabin door module 6, the push rod stepper motor 406, the temperature sensor 504, the heating module 5 and the photoelectric switch 407 are all in the prior art, which is not described herein.

The embodiments of the utility model disclosed above are intended only to help illustrate the utility model. The examples are not intended to be exhaustive or to limit the utility model to the precise forms disclosed. Many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best understand and utilize the utility model.

Claims (10)

1. An automatic aseptic tube sealing machine for welding thermal shrinkage tubes, which is characterized in that: it includes frame (1), shell body, stiff end support (2), loose end support (3), hold-down mechanism (4) and heating module (5), frame (1) is including base (101), shell body sets up in base (101) top, hold-down mechanism (4), loose end support (3) and stiff end support (2) all set up in the shell body and set gradually on base (101) along the length direction of base (101), shell body includes fixed shell (9) and automatic hatch door (10), automatic hatch door (10) sliding arrangement is in fixed shell (9) one side, loose end support (3) are along the length direction sliding arrangement of base (101) on base (101), hold-down mechanism (4) are including push rod step motor (406), the output of push rod step motor (406) is connected and is driven the slip of end support (3), loose end support (3) and stiff end support (2) all are provided with heating module (5) on both opposite faces, two heating module (5) are provided with heating module (5) relative to each other on the opposite face of base (101), heating module (5) are covered with heating tape (5), the metal heating plate (501) is connected with the movable end support (3) or the fixed end support (2), vertical protrusions are arranged at the middle parts of the surfaces of the metal heating plate (501), and the surfaces of the metal heating plates (501) on two sides of the vertical protrusions are all obliquely arranged.

2. An automatic aseptic tube sealer for heat shrink tubing welding as claimed in claim 1, wherein: reinforcing plates (102) are symmetrically arranged on two sides of the top end face of the base (101), a hook (106) is arranged at one end of the bottom of the base (101), and a foot cup (105) is arranged at the other end of the bottom of the base.

3. An automatic aseptic tube sealer for heat shrink tubing welding as claimed in claim 2, wherein: the motor mounting plate (103) is arranged on the top end face of the base (101), one end of the push rod stepping motor (406) is connected with the base (101) through the motor mounting plate (103), and two ends on one side of the motor mounting plate (103) are connected with the reinforcing plate (102) through motor rib plates (104).

4. An automatic aseptic tube sealer for heat shrink tubing welding as claimed in claim 3, wherein: the movable end support (3) comprises a push rod fixing plate (403), movable end rib plates (302) and movable end upper fixing plates (301), the output ends of push rod step motors (406) are connected with the push rod fixing plates (403), the bottoms of the push rod fixing plates (403) are connected with sliding blocks (405) through sliding block mounting plates (402), sliding rails are arranged on the top end faces of the bases (101), the push rod fixing plates (403) are connected with the sliding rails in a sliding mode through the sliding blocks (405), the movable end rib plates (302) are arranged at two ends, far away from the push rod step motors (406), of one side of each push rod fixing plate (403), one end of each movable end rib plate (302) is connected with the corresponding push rod fixing plate (403), the other end of each movable end rib plate (302) is connected with the corresponding movable end upper fixing plate (301), one end of each bottom end face of each movable end upper fixing plate (301) is connected with the corresponding push rod fixing plate (403), the other is connected with the corresponding heating module (5) through the corresponding sliding block, the push rod fixing plates (403) are close to one side of each push rod fixing plate (403), and the corresponding push rod fixing plates (404) are connected with the corresponding sliding plates (404).

5. An automatic aseptic tube sealer for heat-shrinkable tubing welding of claim 4, wherein: the reinforcing plate (102) is provided with a photoelectric switch (407), and the sliding block rib plate (404) is provided with a photoelectric switch baffle (401) matched with the photoelectric switch (407).

6. An automatic aseptic tube sealer for heat-shrinkable tubing welding of claim 4, wherein: the fixing end support (2) comprises a fixing end rib plate (202) and a fixing end upper fixing plate (201), the fixing end upper fixing plate (201) is arranged above the base (101), two sides of the fixing end upper fixing plate (201) bottom end face are connected with the base (101) through the fixing plate rib plate, one end of the fixing end rib plate (202) is provided with a fixing end mounting plate (203), and one end, close to the movable end support (3), of the fixing end upper fixing plate (201) bottom end face is connected with the heating module (5) through the fixing end mounting plate (203).

7. An automatic aseptic tube sealer for heat-shrinkable tubing welding of claim 6, wherein: both ends of polytetrafluoroethylene sticky tape (505) all are provided with clamp plate (8), the both ends of polytetrafluoroethylene sticky tape (505) all are connected with movable end floor (302) or stiff end gusset (202) through clamp plate (8).

8. An automatic aseptic tube sealer for heat shrink tubing welding as claimed in claim 1, wherein: the heating module (5) further comprises a heating plate mounting plate (502) and an adjustable pressing plate (503), the heating plate mounting plate (502) is arranged at the upper end and the lower end of the metal heating plate (501), the metal heating plate (501) is connected with the movable end support (3) or the fixed end support (2) through the heating plate mounting plate (502), the adjustable pressing plate (503) is arranged at the two sides of the metal heating plate (501) at intervals, and the bottom of the metal heating plate (501) is connected with a temperature sensor (504).

9. An automatic aseptic tube sealer for heat-shrinkable tubing welding of claim 6, wherein: the top of the fixed-end upper fixing plate (201) is slidably provided with an automatic cabin door module (6), and the automatic cabin door (10) is connected with the fixed-end upper fixing plate (201) through the automatic cabin door module (6).

10. An automatic aseptic tube sealer for heat-shrinkable tubing welding of claim 6, wherein: a plurality of fans (7) are arranged on one side of the heating module (5) and the base (101) below the heating module (5), and the fans (7) on one side of the heating module (5) are connected with the fixed end mounting plate (203) or the movable end mounting plate (303).