CN210734599U - Full-automatic vacuum sealing assembly line device - Google Patents

Abstract

The utility model aims to solve the technical problem that a realize vacuum sealing equipment's full-automatic vacuum seal assembly line device that streamlined, equipment are automatic, effectively improve production efficiency, promote vacuum sealing equipment productivity is provided. The device includes vacuum chamber, inner bag, evacuation pump package, still includes the cylinder transfer chain, is provided with first door opening and second door opening on vacuum chamber's the lateral wall, and first door opening, second door opening are passed in proper order to the one end of cylinder transfer chain, are provided with in the vacuum chamber to be used for the first door body structure sealed with first door opening and to be used for the second door body structure sealed with the second door opening. When the device uses, only need to place the product respectively on a plurality of inner bags, then place a plurality of inner bags in proper order at the front end of cylinder transfer chain, carry out vacuum encapsulation in sending into the vacuum cavity in proper order with a plurality of inner bags through the cylinder transfer chain. The operation is simple, and the method is suitable for popularization in the field of monomer vacuum sealing equipment.

Description

Full-automatic vacuum sealing assembly line device

Technical Field

The utility model relates to a monomer vacuum sealing equipment field, concretely relates to full-automatic vacuum seals assembly line device.

Background

Most of vacuum sealing machines in the current market adopt single-door opening, the inner container of the vacuum machine can only be fed in and out through one door, and the inner container of the vacuum machine is manually pushed in and out of the vacuum machine, the inner container of the vacuum machine is large and heavy in size, time and labor are consumed in manual operation, and the production efficiency of the vacuum machine is greatly reduced.

Disclosure of Invention

The utility model aims to solve the technical problem that a realize vacuum sealing equipment's full-automatic vacuum seal assembly line device that streamlined, equipment are automatic, effectively improve production efficiency, promote vacuum sealing equipment productivity is provided.

The utility model provides a technical scheme that its technical problem adopted does: the full-automatic vacuum sealing assembly line device comprises a vacuum cavity, a liner and a vacuumizing pump set, wherein a first door hole used for the liner to enter and exit is formed in the side wall of the vacuum cavity, a first door body structure used for sealing the first door hole is arranged in the vacuum cavity, a second door hole used for the liner to enter and exit is formed in the side wall of the vacuum cavity, the second door hole is opposite to the first door hole, a second door body structure used for sealing the second door hole is arranged in the vacuum cavity, the full-automatic vacuum sealing assembly line device further comprises a roller conveying line, one end of the roller conveying line sequentially penetrates through the first door hole and the second door hole, the roller conveying line comprises a first rail, a second rail, a support, a control switch and a plurality of electric rollers, the first rail, the second rail and the vacuum cavity are all fixed on the support, and a gap exists between every two adjacent electric rollers, the plurality of electric rollers are respectively connected with the control switch, the control switch is connected with an external power supply, two ends of each electric roller are respectively fixed on the first track and the second track, a gap exists between each electric roller in the vacuum cavity and the inner surface of the bottom plate of the vacuum cavity, the first door body structure comprises a first left side plate, a first right side plate and a first door plate, the first left side plate, the first right side plate and the first door plate are respectively positioned in the gap between two adjacent electric rollers, the height of the first door plate is larger than that of the vacuum cavity, the upper ends of the first left side plate and the first right side plate are respectively extended to the inner surface of the top plate of the vacuum cavity, the lower ends of the first left side plate and the first right side plate are respectively extended to the inner surface of the bottom plate of the vacuum cavity, and the left end surface of the first left side plate is extended to the inner side wall of the vacuum cavity, the right end face of the first right side plate extends to the inner side wall of the vacuum cavity, the right end face of the first left side plate, the left end face of the first right side plate, the inner surface of a top plate of the vacuum cavity and the inner surface of a bottom plate of the vacuum cavity enclose a rectangular frame, and the first door plate is fixed between the first left side plate and the first right side plate through a first sliding structure; the second door body structure comprises a second left side plate, a second right side plate and a second door plate, the second left side plate, the second right side plate and the second door plate are all positioned in a gap between two adjacent electric rollers, the height of the second door plate is equal to that of the first door plate, the upper ends of the second left side plate and the second right side plate extend to the inner surface of the top plate of the vacuum cavity body, the lower ends of the second left side plate and the second right side plate extend to the inner surface of the bottom plate of the vacuum cavity body, the left end surface of the second left side plate extends to the inner side wall of the vacuum cavity body, the right end surface of the second right side plate extends to the inner side wall of the vacuum cavity body, the right end surface of the second left side plate, the left end surface of the second right side plate, the inner surface of the top plate of the vacuum cavity body and the inner surface of the bottom plate of the vacuum cavity body enclose a rectangular frame together, and the second door plate is fixed between the second left side plate and the second right side plate, the vacuum pumping unit is characterized in that the first rail sequentially penetrates through the first left side plate and the second left side plate, the second rail sequentially penetrates through the first right side plate and the second right side plate, the vacuum pumping unit is located below the support, a through hole is formed in the surface of a bottom plate of the vacuum cavity, a pipeline joint is arranged in the through hole, a vacuum pumping pipe is arranged between the vacuum pumping unit and the vacuum cavity, one end of the vacuum pumping pipe is fixed to the pipeline joint, and the other end of the vacuum pumping pipe is fixed to an air inlet of the vacuum pumping unit.

Further, the first sliding structure comprises a first sliding groove arranged on the right end face of the first left side plate, a second sliding groove is arranged on the left end face of the first right side plate, the first sliding groove and the second sliding groove are corresponding and arranged along the height direction of the vacuum cavity, the height of the first sliding groove is equal to that of the second sliding groove and equal to that of the first left side plate, a first rectangular groove is arranged on the inner surface of the bottom plate of the vacuum cavity, the left end of the first rectangular groove extends to the lower end of the first sliding groove and is communicated with the lower end of the first sliding groove, the right end of the first rectangular groove extends to the lower end of the second sliding groove and is communicated with the lower end of the second sliding groove, the first sliding structure further comprises a first rectangular through hole arranged on the surface of the top plate of the vacuum cavity, the left side wall of the first rectangular through hole extends to the upper end of the first sliding groove and is communicated with the upper end of the second sliding groove, the width of the first sliding chute, the width of the second sliding chute, the width of the first rectangular groove and the width of the first rectangular through hole are matched with the thickness of the first door plate; the second sliding structure comprises a third sliding groove arranged on the right end surface of a second left side plate, a fourth sliding groove is arranged on the left end surface of the second right side plate, the third sliding groove and the fourth sliding groove are corresponding and are arranged along the height direction of the vacuum cavity, the third sliding groove and the fourth sliding groove are equal in height and equal to the height of the second left side plate, a second rectangular groove is arranged on the inner surface of the bottom plate of the vacuum cavity, the left end of the second rectangular groove extends to the lower end of the third sliding groove and is communicated with the third sliding groove, the right end of the second rectangular groove extends to the lower end of the fourth sliding groove and is communicated with the fourth sliding groove, the second sliding structure also comprises a second rectangular through hole arranged on the surface of the top plate of the vacuum cavity, the left side wall of the second rectangular through hole extends to the upper end of the third sliding groove and is communicated with the upper end of the fourth sliding groove, the right side wall of the second rectangular through, the width of the third sliding groove, the width of the fourth sliding groove, the width of the second rectangular groove and the width of the second rectangular through hole are matched with the thickness of the second door plate.

Further, a distance sensor is arranged in the vacuum cavity, a controller and a power supply are arranged on the upper surface of a top plate of the vacuum cavity, the controller and the distance sensor are both connected with the power supply, the distance sensor is connected with the controller, and the controller is connected with the control switch.

Further, vacuum cavity top surface is provided with electric putter, the vertical direction setting of electric putter, the electric putter upper end is provided with the frame of falling the U-shaped, the frame of falling the U-shaped includes first horizontal pole, the left end of first horizontal pole is provided with first montant, the left end at first horizontal pole and the two perpendicular of each other are fixed to the upper end of first montant, the up end at first door plant is fixed to the lower extreme of first montant, the right-hand member of first horizontal pole is provided with the second montant, the right-hand member at first horizontal pole and the two perpendicular of each other are fixed to the upper end of second montant, the up end at the second door plant is fixed to the lower extreme of second montant, electric putter links to each other with the controller, electric putter is connected with power supply.

Further, sealing strips are arranged on the inner side walls of the first sliding groove, the second sliding groove, the first rectangular through hole, the third sliding groove, the fourth sliding groove, the second rectangular groove and the second rectangular through hole.

Further, the vacuum pumping pump group comprises a slide valve pump, a roots pump, a rotary vane pump and a diffusion pump, wherein the slide valve pump, the roots pump, the rotary vane pump and the diffusion pump are communicated in sequence through metal pipelines.

Further, the first rail and the second rail are made of groove-shaped steel rails.

The utility model has the advantages that: the full-automatic vacuum sealing assembly line device only needs to place products needing vacuum packaging on a plurality of inner containers respectively, then the inner containers are placed at the front end of a roller conveying line in sequence, the inner containers are sequentially conveyed into a vacuum cavity through the roller conveying line to be subjected to vacuum packaging, furthermore, a first door opening and a second door opening are arranged on the side wall of the vacuum cavity, the second door opening is opposite to the first door opening, one end of the roller conveying line sequentially penetrates through the first door opening and the second door opening, so that the inner containers can enter and exit the vacuum cavity through the roller conveying line, in addition, a first door body structure for sealing the first door opening and a second door body structure for sealing the second door opening are arranged in the vacuum cavity, so that the vacuum cavity can be sealed through the first door body structure and the second door body structure, and subsequent vacuum packaging of the products is facilitated, further, the first door body structure comprises a first left side plate, a first right side plate and a first door plate, wherein the first left side plate, the first right side plate and the first door plate are positioned in a gap between two adjacent electric rollers, the height of the first door plate is larger than that of the vacuum cavity, the upper ends of the first left side plate and the first right side plate extend to the inner surface of a top plate of the vacuum cavity, the lower ends of the first left side plate and the first right side plate extend to the inner surface of a bottom plate of the vacuum cavity, the left end surface of the first left side plate extends to the inner wall of the vacuum cavity, the right end surface of the first right side plate extends to the inner wall of the vacuum cavity, the right end surface of the first left side plate, the left end surface of the first right side plate, the inner surface of the top plate of the vacuum cavity and the inner surface of the bottom plate of the vacuum cavity form a rectangular frame together, and the first door plate is fixed between the first left side plate and the first right side plate through a first sliding structure, the second door body structure comprises a second left side plate, a second right side plate and a second door plate, the second left side plate, the second right side plate and the second door plate are all positioned in a gap between two adjacent electric rollers, the height of the second door plate is equal to that of the first door plate, the upper ends of the second left side plate and the second right side plate extend to the inner surface of the top plate of the vacuum cavity body, the lower ends of the second left side plate and the second right side plate extend to the inner surface of the bottom plate of the vacuum cavity body, the left end surface of the second left side plate extends to the inner side wall of the vacuum cavity body, the right end surface of the second right side plate extends to the inner side wall of the vacuum cavity body, the right end surface of the second left side plate, the left end surface of the second right side plate, the inner surface of the top plate of the vacuum cavity body and the inner surface of the bottom plate of the vacuum cavity body enclose a rectangular frame together, and the second door plate is fixed between the second left side plate and the second right side plate, therefore, the first door plate and the second door plate slide up and down to open and close without influencing the operation of the roller conveying line.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural view of a full-automatic vacuum sealing production line apparatus according to the present invention;

fig. 2 is a schematic view of a partial structure of a full-automatic vacuum sealing assembly line device according to the present invention;

fig. 3 is a schematic view of a partial structure at another view angle of the fully automatic vacuum sealing assembly line device according to the present invention;

fig. 4 is a schematic structural diagram of the evacuation pump unit according to the present invention;

the notation in the figure is: vacuum chamber 1, inner bag 2, evacuation pump package 3, first door opening 4, first left side board 5, first right side board 6, first door plant 7, second door opening 8, second left side board 9, second right side board 10, second door plant 11, cylinder transfer chain 12, first track 1201, second track 1202, motorized pulley 1203, support 13, evacuation pipe 14, first rectangle through-hole 15, second rectangle through-hole 16, controller 17, power supply 18, electric putter 19, first horizontal pole 20, first montant 21, second montant 22.

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 clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1-4, the full-automatic vacuum sealing assembly line device comprises a vacuum cavity 1, a liner 2 and a vacuum pumping unit 3, wherein a first door opening 4 for the liner 2 to enter and exit is formed in the side wall of the vacuum cavity 1, a first door structure for sealing the first door opening 4 is arranged in the vacuum cavity 1, a second door opening 8 for the liner 2 to enter and exit is formed in the side wall of the vacuum cavity 1, the second door opening 8 is opposite to the first door opening 4, a second door structure for sealing the second door opening 8 is arranged in the vacuum cavity 1, the device further comprises a roller conveying line 12, one end of the roller conveying line 12 sequentially penetrates through the first door opening 4 and the second door opening 8, the roller conveying line 12 comprises a first rail 1201, a second rail 1202, a support 13, a control switch, a plurality of electric rollers 1203, and the first rail 1201, The second track 1202 and the vacuum cavity 1 are both fixed on the support 13, a gap is formed between two adjacent electric rollers 1203, the plurality of electric rollers 1203 are respectively connected with a control switch, the control switch is connected with an external power supply, two ends of each electric roller 1203 are respectively fixed on the first track 1201 and the second track 1202, each electric roller 1203 positioned in the vacuum cavity 1 is respectively provided with a gap with the inner surface of the bottom plate of the vacuum cavity 1, the first door body structure comprises a first left side plate 5, a first right side plate 6 and a first door plate 7, the first left side plate 5, the first right side plate 6 and the first door plate 7 are all positioned in the gap between the two adjacent electric rollers 1203, the height of the first door plate 7 is greater than that of the vacuum cavity 1, the upper ends of the first left side plate 5 and the first right side plate 6 extend to the inner surface of the top plate of the vacuum cavity 1, the lower ends of the first left side plate 5 and the first right side plate 6 extend to the inner surface of the bottom plate of the vacuum cavity 1, the left end surface of the first left side plate 5 extends to the inner side wall of the vacuum cavity 1, the right end surface of the first right side plate 6 extends to the inner side wall of the vacuum cavity 1, the right end surface of the first left side plate 5, the left end surface of the first right side plate 6, the inner surface of the top plate of the vacuum cavity 1 and the inner surface of the bottom plate of the vacuum cavity 1 enclose a rectangular frame together, and the first door plate 7 is fixed between the first left side plate 5 and the first right side plate 6 through a first sliding structure; the second door body structure comprises a second left side plate 9, a second right side plate 10 and a second door plate 11, wherein the second left side plate 9, the second right side plate 10 and the second door plate 11 are all positioned in a gap between two adjacent electric rollers 1203, the height of the second door plate 11 is equal to the height of the first door plate 7, the upper ends of the second left side plate 9 and the second right side plate 10 extend to the inner surface of the top plate of the vacuum cavity 1, the lower ends of the second left side plate 9 and the second right side plate 10 extend to the inner surface of the bottom plate of the vacuum cavity 1, the left end surface of the second left side plate 9 extends to the inner side wall of the vacuum cavity 1, the right end surface of the second right side plate 10 extends to the inner side wall of the vacuum cavity 1, the right end surface of the second left side plate 9, the left end surface of the second right side plate 10, the inner surface of the top plate of the vacuum cavity 1 and the inner surface of the bottom plate of the vacuum cavity 1 enclose a rectangular frame together, the second door plate 11 is fixed between a second left side plate 9 and a second right side plate 10 through a second sliding structure, the first rail 1201 sequentially penetrates through the first left side plate 5 and the second left side plate 9, the second rail 1202 sequentially penetrates through the first right side plate 6 and the second right side plate 10, the vacuumizing pump set 3 is located below the support 13, a through hole is formed in the bottom plate surface of the vacuum cavity 1, a pipeline connector is arranged in the through hole, a vacuumizing pipe 14 is arranged between the vacuumizing pump set 3 and the vacuum cavity 1, one end of the vacuumizing pipe 14 is fixed on the pipeline connector, and the other end of the vacuumizing pipe 14 is fixed on an air inlet of the vacuumizing pump set 3. The full-automatic vacuum sealing assembly line device only needs to place products needing vacuum packaging on the inner containers 2 respectively, then the inner containers 2 are placed at the front end of the roller conveying line 12 in sequence, the inner containers 2 are sent into the vacuum cavity 1 through the roller conveying line 12 in sequence for vacuum packaging, furthermore, a first door opening 4 and a second door opening 8 are arranged on the side wall of the vacuum cavity 1, the second door opening 8 is opposite to the first door opening 4, one end of the roller conveying line 12 penetrates through the first door opening 4 and the second door opening 8 in sequence, so that the inner containers 2 can enter and exit the vacuum cavity 1 through the roller conveying line 12, in addition, a first door body structure used for sealing the first door opening 4 and a second door body structure used for sealing the second door opening 8 are arranged in the vacuum cavity 1, so that the vacuum cavity 1 can be sealed through the first door body structure and the second door body structure, be convenient for subsequent vacuum packaging to the product, it is further that, first door body structure includes first left side board 5, first right side board 6, first door plant 7, first left side board 5, first right side board 6, first door plant 7 all are located the clearance between same two adjacent motorized pulley 1203, the height that highly is greater than vacuum chamber 1 of first door plant 7, the upper end of first left side board 5 and first right side board 6 all extends to vacuum chamber 1's roof internal surface, the lower extreme of first left side board 5 and first right side board 6 all extends to vacuum chamber 1's bottom plate internal surface, the left end face of first left side board 5 extends to vacuum chamber 1's inside wall, the right end face of first right side board 6 extends to vacuum chamber 1's inside wall, the right end face of first left side board 5, the left end face of first right side board 6, left end face, the right end face of first right side board 6, The inner surface of the top plate of the vacuum cavity 1 and the inner surface of the bottom plate of the vacuum cavity 1 enclose a rectangular frame together, the first door plate 7 is fixed between the first left side plate 5 and the first right side plate 6 through a first sliding structure, the second door structure comprises a second left side plate 9, a second right side plate 10 and a second door plate 11, the second left side plate 9, the second right side plate 10 and the second door plate 11 are all positioned in a gap between two adjacent electric rollers 1203, the height of the second door plate 11 is equal to that of the first door plate 7, the upper ends of the second left side plate 9 and the second right side plate 10 both extend to the inner surface of the top plate of the vacuum cavity 1, the lower ends of the second left side plate 9 and the second right side plate 10 both extend to the inner surface of the bottom plate of the vacuum cavity 1, the left end surface of the second left side plate 9 extends to the inner side wall of the vacuum cavity 1, and the right end surface of the second right side plate 10 extends to the inner side wall of the vacuum cavity 1, the right end face of the second left side plate 9, the left end face of the second right side plate 10, the inner surface of the top plate of the vacuum cavity 1 and the inner surface of the bottom plate of the vacuum cavity 1 enclose a rectangular frame together, the second door plate 11 is fixed between the second left side plate 9 and the second right side plate 10 through a second sliding structure, and therefore the roller conveying line 12 is opened and closed without being influenced by the up-and-down sliding mode of the first door plate 7 and the second door plate 11.

In the above embodiment, according to actual requirements, the first sliding structure and the second sliding structure are preferably configured as follows, the first sliding structure includes a first sliding groove disposed on the right end surface of the first left side plate 5, the left end surface of the first right side plate 6 is provided with a second sliding groove, the first sliding groove and the second sliding groove are disposed correspondingly and along the height direction of the vacuum chamber 1, the height of the first sliding groove and the height of the second sliding groove are equal and equal to the height of the first left side plate 5, the inner surface of the bottom plate of the vacuum chamber 1 is provided with a first rectangular groove, the left end of the first rectangular groove extends to the lower end of the first sliding groove and is communicated with each other, the right end of the first rectangular groove extends to the lower end of the second sliding groove and is communicated with each other, the first rectangular through hole 15 is disposed on the surface of the top plate of the vacuum chamber 1, the left side wall of the first rectangular through hole 15 extends to the upper end of the first sliding groove and is communicated with each other, the right side wall of the first rectangular through hole 15 extends to the upper end of the second sliding chute and the second sliding chute are communicated with each other, and the width of the first sliding chute, the width of the second sliding chute, the width of the first rectangular groove and the width of the first rectangular through hole 15 are all matched with the thickness of the first door panel 7; the second sliding structure comprises a third sliding groove arranged on the right end face of a second left side plate 9, a fourth sliding groove is arranged on the left end face of a second right side plate 10, the third sliding groove and the fourth sliding groove are corresponding and are arranged along the height direction of the vacuum cavity 1, the third sliding groove and the fourth sliding groove are equal in height and equal to the height of the second left side plate 9, a second rectangular groove is arranged on the inner surface of the bottom plate of the vacuum cavity 1, the left end of the second rectangular groove extends to the lower end of the third sliding groove and is communicated with the lower end of the third sliding groove, the right end of the second rectangular groove extends to the lower end of the fourth sliding groove and is communicated with the lower end of the fourth sliding groove, the second sliding structure further comprises a second rectangular through hole 16 arranged on the surface of the top plate of the vacuum cavity 1, the left side wall of the second rectangular through hole 16 extends to the upper end of the third sliding groove and is communicated with the upper end of the fourth sliding groove, the width of the third sliding chute, the width of the fourth sliding chute, the width of the second rectangular groove and the width of the second rectangular through hole 16 are all matched with the thickness of the second door panel 11.

In order to realize the automatic control of the roller conveying line 12, a distance sensor is arranged in the vacuum cavity 1, a controller 17 and a power supply 18 are arranged on the upper surface of a top plate of the vacuum cavity 1, the controller 17 and the distance sensor are both connected with the power supply 18, the distance sensor is connected with the controller 17, and the controller 17 is connected with a control switch. The position of the inner container 2 in the vacuum cavity 1 is detected by a distance sensor, and the start and stop of the roller conveying line 12 can be controlled by a controller 17 when the proper position is reached.

In order to realize the automatic opening or closing of the first door panel 7 and the second door panel 11, the outer surface of the top of the vacuum cavity 1 is provided with an electric push rod 19, the electric push rod 19 is arranged in the vertical direction, an inverted U-shaped frame is arranged at the upper end of the electric push rod 19, the inverted U-shaped frame comprises a first cross bar 20, a first vertical bar 21 is arranged at the left end of the first cross bar 20, the upper end of the first vertical rod 21 is fixed at the left end of the first cross rod 20 and the two are perpendicular to each other, the lower end of the first vertical rod 21 is fixed on the upper end surface of the first door panel 7, the right end of the first cross rod 20 is provided with a second vertical rod 22, the upper end of the second vertical rod 22 is fixed at the right end of the first cross rod 20 and the two are perpendicular to each other, the lower end of the second vertical rod 22 is fixed on the upper end face of the second door panel 11, the electric push rod 19 is connected with the controller 17, and the electric push rod 19 is connected with the power supply 18. This allows the controller 17 to automatically control the opening or closing of the first and second door panels 7, 11.

In order to further ensure the sealing performance of the vacuum chamber 1, sealing strips are arranged on the inner side walls of the first sliding groove, the second sliding groove, the first rectangular through hole 15, the third sliding groove, the fourth sliding groove, the second rectangular groove and the second rectangular through hole 16.

The vacuum pumping unit 3 is in the prior art, the vacuum pumping unit 3 comprises a slide valve pump, a roots pump, a rotary vane pump and a diffusion pump, and the slide valve pump, the roots pump, the rotary vane pump and the diffusion pump are communicated in sequence through metal pipelines.

The first rail 1201 and the second rail 1202 are made of various materials, and preferably, the first rail 1201 and the second rail 1202 are made of channel-shaped steel rails.

Claims (7)

1. The utility model provides a full-automatic vacuum sealing assembly line device, includes vacuum cavity (1), inner bag (2), evacuation pump package (3), be provided with first door opening (4) that are used for inner bag (2) business turn over on the lateral wall of vacuum cavity (1), be provided with in vacuum cavity (1) and be used for the first door body structure sealed with first door opening (4), its characterized in that: the vacuum chamber is characterized in that a second door opening (8) used for the inner container (2) to enter and exit is formed in the side wall of the vacuum chamber (1), the second door opening (8) is arranged opposite to the first door opening (4), a second door body structure used for sealing the second door opening (8) is arranged in the vacuum chamber (1), the vacuum chamber further comprises a roller conveying line (12), one end of the roller conveying line (12) sequentially penetrates through the first door opening (4) and the second door opening (8), the roller conveying line (12) comprises a first rail (1201), a second rail (1202), a support (13), a control switch and a plurality of electric rollers (1203), the first rail (1201), the second rail (1202) and the vacuum chamber (1) are fixed on the support (13), a gap exists between every two adjacent electric rollers (1203), and the plurality of electric rollers (1203) are respectively connected with the control switch, the control switch is connected with an external power supply, two ends of each electric roller (1203) are respectively fixed on the first rail (1201) and the second rail (1202), a gap exists between each electric roller (1203) positioned in the vacuum cavity (1) and the inner surface of the bottom plate of the vacuum cavity (1), the first door body structure comprises a first left side plate (5), a first right side plate (6) and a first door plate (7), the first left side plate (5), the first right side plate (6) and the first door plate (7) are all positioned in the gap between two adjacent electric rollers (1203), the height of the first door plate (7) is larger than that of the vacuum cavity (1), the upper ends of the first left side plate (5) and the first right side plate (6) extend to the inner surface of the top plate of the vacuum cavity (1), and the lower ends of the first left side plate (5) and the first right side plate (6) extend to the inner surface of the bottom plate of the vacuum cavity (1), the left end face of the first left side plate (5) extends to the inner side wall of the vacuum cavity body (1), the right end face of the first right side plate (6) extends to the inner side wall of the vacuum cavity body (1), the right end face of the first left side plate (5), the left end face of the first right side plate (6), the inner surface of a top plate of the vacuum cavity body (1) and the inner surface of a bottom plate of the vacuum cavity body (1) enclose a rectangular frame together, and the first door plate (7) is fixed between the first left side plate (5) and the first right side plate (6) through a first sliding structure; the second door body structure comprises a second left side plate (9), a second right side plate (10) and a second door plate (11), wherein the second left side plate (9), the second right side plate (10) and the second door plate (11) are located in a gap between two adjacent electric rollers (1203), the height of the second door plate (11) is equal to that of the first door plate (7), the upper ends of the second left side plate (9) and the second right side plate (10) extend to the inner surface of the top plate of the vacuum cavity body (1), the lower ends of the second left side plate (9) and the second right side plate (10) extend to the inner surface of the bottom plate of the vacuum cavity body (1), the left end surface of the second left side plate (9) extends to the inner side wall of the vacuum cavity body (1), the right end surface of the second right side plate (10) extends to the inner side wall of the vacuum cavity body (1), the right end surface of the second left side plate (9) and the right end surface of the second right side plate (9), A rectangular frame is enclosed by the left end face of a second right side plate (10), the inner surface of a top plate of a vacuum cavity (1) and the inner surface of a bottom plate of the vacuum cavity (1), a second door plate (11) is fixed between the second left side plate (9) and the second right side plate (10) through a second sliding structure, a first rail (1201) sequentially penetrates through a first left side plate (5) and the second left side plate (9), a second rail (1202) sequentially penetrates through a first right side plate (6) and the second right side plate (10), a vacuum pumping unit (3) is located below a support (13), a through hole is formed in the surface of the bottom plate of the vacuum cavity (1), a pipeline joint is arranged in the through hole, a vacuum pumping pipe (14) is arranged between the vacuum pumping unit (3) and the vacuum cavity (1), and one end of the vacuum pumping pipe (14) is fixed on the pipeline joint, the other end of the vacuumizing pipe (14) is fixed on an air inlet of the vacuumizing pump set (3).

2. The fully automatic vacuum sealing production line device according to claim 1, characterized in that: the first sliding structure comprises a first sliding groove arranged on the right end face of a first left side plate (5), a second sliding groove arranged on the left end face of a first right side plate (6), the first sliding groove and the second sliding groove are corresponding and are arranged along the height direction of the vacuum cavity (1), the height of the first sliding groove and the height of the second sliding groove are equal and equal to the height of the first left side plate (5), a first rectangular groove is arranged on the inner surface of a bottom plate of the vacuum cavity (1), the left end of the first rectangular groove extends to the lower end of the first sliding groove and is communicated with the first sliding groove, the right end of the first rectangular groove extends to the lower end of the second sliding groove and is communicated with the second sliding groove, the first sliding structure further comprises a first rectangular through hole (15) arranged on the surface of a top plate of the vacuum cavity (1), the left side wall of the first rectangular through hole (15) extends to the upper end of the first sliding groove and is communicated with the second, the right side wall of the first rectangular through hole (15) extends to the upper end of the second sliding chute and the second sliding chute are communicated with each other, and the width of the first sliding chute, the width of the second sliding chute, the width of the first rectangular groove and the width of the first rectangular through hole (15) are matched with the thickness of the first door plate (7); the second sliding structure comprises a third sliding groove arranged on the right end face of a second left side plate (9), a fourth sliding groove is arranged on the left end face of a second right side plate (10), the third sliding groove and the fourth sliding groove are corresponding and are arranged along the height direction of the vacuum cavity (1), the third sliding groove and the fourth sliding groove are equal in height and equal to the height of the second left side plate (9), a second rectangular groove is arranged on the inner surface of a bottom plate of the vacuum cavity (1), the left end of the second rectangular groove extends to the lower end of the third sliding groove and is communicated with the third sliding groove, the right end of the second rectangular groove extends to the lower end of the fourth sliding groove and is communicated with the fourth sliding groove, the second sliding structure further comprises a second rectangular through hole (16) arranged on the surface of a top plate of the vacuum cavity (1), the left side wall of the second rectangular through hole (16) extends to the upper end of the third sliding groove and is communicated with the third sliding, the right side walls of the two rectangular through holes extend to the upper end of the fourth sliding groove and are communicated with each other, and the width of the third sliding groove, the width of the fourth sliding groove, the width of the second rectangular groove and the width of the second rectangular through hole (16) are matched with the thickness of the second door panel (11).

3. The fully automatic vacuum sealing production line device according to claim 2, characterized in that: the vacuum cavity is characterized in that a distance sensor is arranged in the vacuum cavity (1), a controller (17) and a power supply (18) are arranged on the upper surface of a top plate of the vacuum cavity (1), the controller (17) and the distance sensor are both connected with the power supply (18), the distance sensor is connected with the controller (17), and the controller (17) is connected with a control switch.

4. The fully automatic vacuum sealing assembly line of claim 3, wherein: the outer surface of the top of the vacuum cavity (1) is provided with an electric push rod (19), the electric push rod (19) is arranged in the vertical direction, an inverted U-shaped frame is arranged at the upper end of the electric push rod (19), the inverted U-shaped frame comprises a first cross rod (20), a first vertical rod (21) is arranged at the left end of the first cross rod (20), the upper end of the first vertical rod (21) is fixed at the left end of the first cross rod (20) and is vertical to the first cross rod, the lower end of the first vertical rod (21) is fixed at the upper end face of a first door panel (7), a second vertical rod (22) is arranged at the right end of the first cross rod (20), the upper end of the second vertical rod (22) is fixed at the right end of the first cross rod (20) and is vertical to the first cross rod, the lower end of the second vertical rod (22) is fixed at the upper end face of a second door panel (11), and the, the electric push rod (19) is connected with a power supply (18).

5. The fully automatic vacuum sealing assembly line of claim 4, wherein: and sealing strips are arranged on the inner side walls of the first sliding groove, the second sliding groove, the first rectangular through hole (15), the third sliding groove, the fourth sliding groove, the second rectangular groove and the second rectangular through hole (16).

6. The fully automatic vacuum sealing assembly line of claim 5, wherein: the vacuum pumping pump set (3) comprises a slide valve pump, a roots pump, a rotary vane pump and a diffusion pump, wherein the slide valve pump, the roots pump, the rotary vane pump and the diffusion pump are communicated in sequence through metal pipelines.

7. The fully automatic vacuum sealing production line device of claim 6, wherein: the first rail (1201) and the second rail (1202) are made of groove-shaped steel rails.

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