CN220701409U - Multistation ration vacuum packaging production line - Google Patents

Multistation ration vacuum packaging production line Download PDF

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Publication number
CN220701409U
CN220701409U CN202322359893.6U CN202322359893U CN220701409U CN 220701409 U CN220701409 U CN 220701409U CN 202322359893 U CN202322359893 U CN 202322359893U CN 220701409 U CN220701409 U CN 220701409U
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China
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automatic
conveyor
bag
quantitative
vacuum packaging
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CN202322359893.6U
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Chinese (zh)
Inventor
江建荣
康建新
康佳伟
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Zhangzhou Kanglong Electronic Weighing Apparatus Co ltd
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Zhangzhou Kanglong Electronic Weighing Apparatus Co ltd
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Priority to CN202322359893.6U priority Critical patent/CN220701409U/en
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Abstract

The utility model discloses a multi-station quantitative vacuum packaging production line, which belongs to the technical field of vacuum packaging and comprises a working support frame, wherein an automatic lifting bag supporting conveyor, a plurality of groups of belt conveyors, a conveying roller assembly, a large-turning chain plate conveyor, a roller conveyor belt and a small-turning roller conveyor are arranged on the working support frame, a quantitative packaging scale is arranged on one side of the working support frame, a discharging bin is arranged on the quantitative packaging scale, a weighing sensor is arranged on the quantitative packaging scale, an automatic weight detecting machine is arranged on the belt conveyor, an automatic vacuum machine is arranged on one side of the conveying roller assembly, an automatic bag sewing machine and a bag removing device are arranged on the belt conveyor close to one side of the large-turning chain plate conveyor, and a controller is arranged on the working support frame.

Description

Multistation ration vacuum packaging production line
Technical Field
The utility model relates to the technical field of vacuum packaging, in particular to a multi-station quantitative vacuum packaging production line.
Background
The vacuum packaging is to pump out and seal all the air in the packaging container, maintain the packaging bag in a highly depressurized state, and the air is rare to be equivalent to the hypoxia effect, so that the microorganism has no living condition, and the purposes of fresh products and no occurrence of disease and corrosion are achieved. The vacuum package can protect the product from environmental pollution and prolong the package of shelf life of food and the like, and improve the value and quality of the product.
The current vacuum packaging, with the material joining wrapping bag in-process, operating personnel comes manual control material packaging's weight through the weigh scale, and manual material's the joining of stopping after material weight accords with the weight requirement leads to whole material unloading to need operating personnel all the time by side, and automatic ration unloading can't be realized to equipment, has reduced the efficiency of packing and the human operation error is great.
Disclosure of Invention
In order to overcome the defects of the prior art, the technical problem to be solved by the utility model is to provide the vacuum packaging production line capable of realizing automatic quantitative material discharging, reducing the error of the material weight in the packaging process and improving the vacuum packaging efficiency.
To achieve the purpose, the utility model adopts the following technical scheme:
the utility model provides a multi-station quantitative vacuum packaging production line which comprises a working support frame, wherein an automatic lifting bag supporting conveyor, a plurality of groups of belt conveyors, a conveying roller assembly, a large-turning chain plate conveyor, a roller conveyor belt and a small-turning roller conveyor are arranged on the working support frame;
the automatic check weighing machine is arranged on the belt conveyor, an automatic vacuum machine is arranged on one side of the conveying roller assembly, an automatic bag sewing machine and a bag removing device are arranged on the belt conveyor which is close to one side of the large-turning chain plate conveyor, and a controller is arranged on the working support frame.
The quantitative packaging scale comprises a frame fixed on a support, feeding cylinders are symmetrically arranged on two sides of the inside of the frame, a guide cylinder is arranged at the bottom of each feeding cylinder and is communicated with two groups of feeding cylinders, an automatic blanking assembly is arranged at the bottom of each feeding cylinder, and a weighing sensor is arranged on the automatic blanking assembly.
The preferable technical scheme of the utility model is that a discharge hole is arranged at the bottom of the guide cylinder, and bag clamping mechanisms are arranged at two sides of the discharge hole.
The utility model has the preferable technical scheme that the two sides of the feeding cylinder are provided with the supporting plates, the two sides of the guide cylinder are provided with the fixing plates, and the automatic blanking component is respectively connected with the supporting plates and the fixing plates in a rotating way.
The automatic blanking assembly comprises an air cylinder, wherein connecting plates are arranged at two ends of the air cylinder, one group of connecting plates are rotationally connected with the supporting plate, the other group of connecting plates are rotationally connected with a driving plate, one end of the driving plate is rotationally connected with a fixed plate, and the driving plate is provided with a baffle through a pressing plate.
The preferable technical scheme of the utility model is that the discharging bin comprises a fixing frame fixed on a bracket, and a discharging barrel communicated with the feeding barrel is arranged on the fixing frame.
The preferable technical scheme of the utility model is that the controller is electrically connected with the weighing sensor, the bag clamping mechanism, the air cylinder and the automatic lifting bag supporting conveyor respectively.
Compared with the prior art, the utility model has the beneficial effects that: according to the automatic feeding device, materials are added into two groups of discharging bins, the materials enter feeding cylinders in two groups of quantitative packaging scales through the discharging bins, meanwhile, the controller controls the automatic lifting bag supporting conveyor to lift a tray carrying a bag loading die to the position below the material guiding cylinder, an empty packaging bag is placed in the bag loading die, an automatic discharging assembly at the bottom is in a closed state, the weight of the materials in the feeding cylinders is detected through weighing sensors, when the materials are continuously fed into the feeding cylinders to a specified quality, the feeding of the discharging bins is stopped, the automatic discharging assembly is started, the materials in the feeding cylinders enter the material guiding cylinder and are discharged into the packaging bag from the bottom, the packaging bag after the bag loading is completed moves downwards under the action of the tray, and the automatic lifting bag supporting conveyor is matched with an automatic weight detecting machine on a belt conveyor to detect again, so that the accuracy of the bagging weight is ensured; the belt conveyor is used for conveying the packaging bag to the lower part of the automatic vacuum machine for vacuumizing treatment, the vacuumized packaging bag is conveyed to the position of the automatic bag sewing machine 8 for automatic bag sewing treatment under the action of the conveying roller assembly, the large-turning chain plate conveyor and the belt conveyor, so that subsequent material leakage is avoided, the belt conveyor is used for moving the bag after bag sewing to the position of the bag removing device, the bag in the bag packaging mold is subjected to bag removing treatment through the bag removing device, and therefore the automatic quantitative packaging, vacuumizing, bag sewing and other packaging operations of materials are completed, the weight of material packaging is manually controlled instead of a weighing scale, automatic quantitative material discharging of the materials is realized, the packaging efficiency is improved, and the error in the packaging process is reduced;
the empty packing mould moves to the lower part of the quantitative packing scale under the cooperation of the belt conveyor, the roller conveyor and the small-turning roller conveyor to carry out a new round of packing operation, thereby realizing the operation process of circulating packing, having high automation degree, effectively solving the problem of high labor intensity and improving the working efficiency.
The vacuum packaging production line provided by the utility model can realize automatic quantitative material discharging, reduce the error of the material weight in the packaging process and improve the vacuum packaging efficiency.
Drawings
FIG. 1 is a schematic diagram of a production line provided in an embodiment of the present utility model;
FIG. 2 is a top view of a production line structure provided in an embodiment of the present utility model;
FIG. 3 is a schematic view of a quantitative packing scale according to an embodiment of the present utility model;
FIG. 4 is a schematic view of an automatic blanking assembly according to an embodiment of the present utility model;
FIG. 5 is a side view of the structure of an automatic blanking assembly provided in an embodiment of the present utility model;
FIG. 6 is a schematic diagram of the operation of a controller provided in an embodiment of the present utility model;
in the drawings, the list of components represented by the various numbers is as follows:
1. automatic lifting bag supporting conveyor; 2. discharging the material bin; 3. quantitative packing scale; 4. a belt conveyor; 5. a transport roller assembly; 6. a large turning chain plate conveyor; 7. crossing a ladder; 8. automatic bag sewing machine; 10. a bag removing device; 11. a roller conveyor belt; 12. a small turn roller conveyor; 13. a work support frame; 14. an automatic vacuum machine; 16. an automatic weight checking machine; 21. a fixing frame; 22. a blanking cylinder; 23. a controller; 31. a bracket; 32. a frame; 33. a guide cylinder; 34. a feed cylinder; 341. a support plate; 342. a fixing plate; 343. a weighing sensor; 35. an automatic blanking assembly; 351. a cylinder; 352. a connecting plate; 353. a driving plate; 354. a pressing plate; 355. a baffle; 36. a discharge port; 37. and a bag clamping mechanism.
Detailed Description
The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.
The multi-station quantitative vacuum packaging production line comprises a working support frame 13, wherein an automatic lifting bag supporting conveyor 1, a plurality of groups of belt conveyors 4, a conveying roller assembly 5, a large-turning chain plate conveyor 6, a roller conveyor belt 11 and a small-turning roller conveyor 12 are arranged on the working support frame 13, a quantitative packaging scale 3 is arranged on one side, close to the belt conveyor 4, of the working support frame 13, a discharging bin 2 is arranged on the quantitative packaging scale 3, and a weighing sensor 343 is arranged on the quantitative packaging scale 3;
the automatic check weighing machine 16 is arranged on the belt conveyor 4, the automatic vacuum machine 14 is arranged on one side of the conveying roller assembly 5, the automatic bag sewing machine 8 and the bag removing device 10 are arranged on the belt conveyor 4 close to one side of the large-turning chain plate conveyor 6, the controller 23 is arranged on the working support frame 13, the controller 23 is respectively electrically connected with the weighing sensor 343, the bag clamping mechanism 37, the quantitative packing scale 3 and the automatic lifting bag supporting conveyor 1, the step ladder 7 is arranged on the working support frame 13, the walking of operators is facilitated, and the packing process of the packing bag is prevented from being influenced.
The quantitative packing scale 3 comprises a frame 32 fixed on a bracket 31, feeding barrels 34 are symmetrically arranged on two sides inside the frame 32, a guide barrel 33 is arranged at the bottom of each feeding barrel 34, the guide barrels 33 are communicated with two groups of feeding barrels 34, an automatic blanking assembly 35 is arranged at the bottom of each feeding barrel 34, and a weighing sensor 343 is arranged on the automatic blanking assembly 35.
The material is added into two groups of blanking bins 2, the material enters a feeding barrel 34 in two groups of quantitative packing scales 3 through the blanking bins 2, meanwhile, the controller 23 controls the automatic lifting bag supporting conveyor 1 to lift a tray bearing a packing mould to the position below the material guiding barrel 33, an empty packing bag is placed in the packing mould, at the moment, an automatic blanking component 35 at the bottom is in a closed state, the weight of the material in the feeding barrel 34 is detected through a weighing sensor 343, when the material is continuously fed into the feeding barrel 34 to a specified quality, the blanking bin 2 stops feeding, the automatic blanking component 35 is opened, the material in the feeding barrel 34 enters the material guiding barrel 33 and is discharged into the packing bag from the bottom, the packing bag after the packing bag is completed moves downwards under the action of the tray, and the automatic lifting bag supporting conveyor 1 is matched with an automatic weight detecting machine 16 on the belt conveyor 4 to detect again, so that the accuracy of the bagging weight is ensured; the belt conveyor 4 conveys the packaging bag to the lower part of the automatic vacuum machine 14 for vacuumizing treatment, the vacuumized packaging bag is conveyed to the automatic bag sewing machine 8 for automatic bag sewing treatment under the action of the conveying roller assembly 5, the large-turning chain plate conveyor 6 and the belt conveyor 4, the subsequent material leakage is avoided, the belt conveyor 4 is utilized to move the bag after bag sewing to the bag removing device 10, the bag removing device 10 is utilized to remove the packaging bag in the packaging mould, so that the automatic quantitative packaging, vacuumization, bag sewing and other packaging operations of the material are completed, the weight of the material package is manually controlled instead of a weighing scale, the automatic quantitative material discharging of the material is realized, the packaging efficiency is improved, and the error in the packaging process is reduced; the empty packing mould moves to the lower part of the quantitative packing scale 3 under the cooperation of the belt conveyor 4, the roller conveyor 11 and the small-turning roller conveyor 12 to carry out a new round of packing operation, thereby realizing the operation process of circulating packing, having high automation degree, effectively solving the problem of high labor intensity and improving the working efficiency.
As a possible implementation manner of the solution, preferably, the bottom of the guide cylinder 33 is provided with a discharge hole 36, two sides of the discharge hole 36 are provided with bag clamping mechanisms 37, an empty packaging bag is sleeved on the discharge hole 36 of the guide cylinder 33, and the empty packaging bag is fixed by the bag clamping mechanisms 37, so that the leakage of materials in the bagging process is avoided, and the waste of the materials is avoided.
As a possible implementation manner of the present solution, preferably, the two sides of the feeding cylinder 34 are provided with the supporting plates 341, the two sides of the guiding cylinder 33 are provided with the fixing plates 342, the automatic blanking assembly 35 is respectively connected with the supporting plates 341 and the guiding cylinder 33 in a rotating way, the automatic blanking assembly 35 comprises an air cylinder 351, two ends of the air cylinder 351 are provided with connecting plates 352, one group of connecting plates 352 are connected with the supporting plates 341 in a rotating way, the other group of connecting plates are connected with a driving plate 353 in a rotating way, one end of the driving plate 353 is connected with the fixing plates 342 in a rotating way, the driving plate 353 is provided with a baffle 355 through a pressing plate 354, when the baffle 355 is positioned at the bottom of the feeding cylinder 34, and the bottom of the feeding cylinder 34 is in a sealing state, the driving end of the air cylinder 351 is controlled to move upwards, and the driving plate 353 is driven by the connecting plates 352 to rotate downwards around one end of the fixing plates 342, so that the baffle 355 turns downwards, and materials fall into the guiding cylinder 33 from the feeding cylinder 34 and are added into a packaging bag from a discharging hole 36, so that bagging of the materials is achieved; similarly, when the driving end of the air cylinder 351 moves downwards, the baffle 355 turns upwards, so that the bottom of the feeding cylinder 34 is in a sealing state, and the feeding cylinder is convenient for feeding materials, so that automatic quantitative feeding of the materials is realized, the packaging efficiency is improved, and the labor intensity is reduced.
As a possible implementation manner of the present solution, it is preferable that the discharging bin 2 includes a fixing frame 21 fixed on the support 31, a discharging barrel 22 that is communicated with the feeding barrel 34 is disposed on the fixing frame 21, and the discharging barrel 22 is fixed by using the fixing frame 21, so as to ensure stability of the discharging process.
While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the utility model. The utility model is not to be limited by the specific embodiments disclosed herein, and other embodiments are within the scope of the utility model as defined by the claims of the present application.

Claims (7)

1. A multistation ration vacuum packaging production line, its characterized in that: the automatic lifting bag-supporting conveyor comprises a working support frame (13), wherein an automatic lifting bag-supporting conveyor (1), a plurality of groups of belt conveyors (4), a conveying roller assembly (5), a large-turning chain plate conveyor (6), a roller conveyor belt (11) and a small-turning roller conveyor (12) are arranged on the working support frame (13), a quantitative packing scale (3) is arranged on one side, close to the belt conveyors (4), of the working support frame (13), a discharging bin (2) is arranged on the quantitative packing scale (3), and a weighing sensor (343) is arranged on the quantitative packing scale (3);
the automatic check weighing machine (16) is arranged on the belt conveyor (4), the automatic vacuum machine (14) is arranged on one side of the conveying roller assembly (5), the automatic bag sewing machine (8) and the bag removing device (10) are arranged on the belt conveyor (4) which is close to one side of the large-turning chain plate conveyor (6), and the controller (23) is arranged on the working support frame (13).
2. The multi-station quantitative vacuum packaging production line according to claim 1, wherein:
the quantitative packing scale (3) comprises a frame (32) fixed on a support (31), feeding barrels (34) are symmetrically arranged on two sides of the inside of the frame (32), guide barrels (33) are arranged at the bottoms of the feeding barrels (34), the guide barrels (33) are communicated with two groups of feeding barrels (34), an automatic blanking assembly (35) is arranged at the bottoms of the feeding barrels (34), and a weighing sensor (343) is arranged on the automatic blanking assembly (35).
3. A multi-station quantitative vacuum packaging line as claimed in claim 2, wherein:
the bottom of the guide cylinder (33) is provided with a discharge hole (36), and two sides of the discharge hole (36) are provided with bag clamping mechanisms (37).
4. A multi-station quantitative vacuum packaging line as claimed in claim 2, wherein:
the automatic feeding device is characterized in that supporting plates (341) are arranged on two sides of the feeding barrel (34), fixing plates (342) are arranged on two sides of the guide barrel (33), and the automatic discharging assembly (35) is respectively connected with the supporting plates (341) and the fixing plates (342) in a rotating mode.
5. The multi-station quantitative vacuum packaging line according to claim 4, wherein:
the automatic blanking assembly (35) comprises an air cylinder (351), connecting plates (352) are arranged at two ends of the air cylinder (351), one group of connecting plates (352) are rotationally connected with the supporting plate (341), the other group of connecting plates are rotationally connected with a driving plate (353), one end of the driving plate (353) is rotationally connected with the fixed plate (342), and the driving plate (353) is provided with a baffle (355) through a pressing plate (354).
6. The multi-station quantitative vacuum packaging production line according to claim 1, wherein:
the discharging bin (2) comprises a fixing frame (21) fixed on a bracket (31), and a discharging barrel (22) communicated with a feeding barrel (34) is arranged on the fixing frame (21).
7. The multi-station quantitative vacuum packaging production line according to claim 1, wherein:
the controller (23) is electrically connected with the weighing sensor (343), the bag clamping mechanism (37), the air cylinder (351) and the automatic lifting bag supporting conveyor (1) respectively.
CN202322359893.6U 2023-08-31 2023-08-31 Multistation ration vacuum packaging production line Active CN220701409U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202322359893.6U CN220701409U (en) 2023-08-31 2023-08-31 Multistation ration vacuum packaging production line

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202322359893.6U CN220701409U (en) 2023-08-31 2023-08-31 Multistation ration vacuum packaging production line

Publications (1)

Publication Number Publication Date
CN220701409U true CN220701409U (en) 2024-04-02

Family

ID=90450620

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202322359893.6U Active CN220701409U (en) 2023-08-31 2023-08-31 Multistation ration vacuum packaging production line

Country Status (1)

Country Link
CN (1) CN220701409U (en)

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