An automatic noodle packaging machine

By introducing a chip removal component into the automatic noodle packaging machine, and utilizing the coordinated work of the vibrating component and the chip collection component, the problems of unevenness, breakage, and fragmentation after noodle bundling are solved, achieving efficient and clean noodle packaging.

CN224428065UActive Publication Date: 2026-06-30FUZHOU BAILU FOOD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FUZHOU BAILU FOOD CO LTD
Filing Date
2025-09-01
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Traditional automatic noodle packaging machines are prone to producing uneven, broken, and fragmented noodles during the packaging process after bundling, resulting in dirty feeding channels and affecting packaging quality.

Method used

An automatic noodle packaging machine was designed, which includes a debris removal component. It uses a vibrating component and a debris collection component to screen and clean the noodles. The side plate is driven to move by a rotating rod. The screening plate and the debris collection component work together to screen out broken or bent noodles and debris, preventing them from entering the next process.

Benefits of technology

It effectively removes debris and broken pieces from the surface of noodles, ensuring that the noodles remain neat and clean during the packaging process, thus improving packaging quality and efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of food packaging machinery technology and discloses an automatic noodle packaging machine, comprising: a base plate, on which mounting boxes are symmetrically fixed at the top, one of which has a notch; a rotating shaft is rotatably mounted inside the mounting box; a conveyor belt is rotatably mounted outside the rotating shaft; a placement block is rotatably mounted on the inner wall of the side of the mounting box with the notch; a rotating block is rotatably mounted inside the placement block; a control unit and a packaging bag shaft are mounted inside the mounting box; a scroll is mounted at one end of the control unit; and a collection box is positioned between the two mounting boxes. This utility model utilizes a rotating rod rotating counterclockwise to drive a diagonal support plate, which in turn moves in conjunction with a connecting rod and a swing block. When the swing block is swung to one side, it vibrates the noodles bound above the curved plate, causing noodle fragments to fall onto the curved plate, thus collecting the fragments.
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Description

Technical Field

[0001] This utility model relates to the field of food packaging machinery technology, specifically to an automatic noodle packaging machine. Background Technology

[0002] Noodle packaging machines typically need to package noodles quickly and efficiently to maintain their freshness and taste, prevent moisture and dust, extend shelf life, and ensure the quality and safety of dried noodles. Automatic noodle packaging machines usually involve four steps: cutting, bundling, feeding, and packaging. Although existing automatic noodle packaging machines can solve the problems of dried noodle packaging, traditional automatic noodle packaging machines still have problems in actual operation.

[0003] For example, in actual packaging operations, during the packaging process after bundling, the narrow feeding channel may become dirty due to the noodles being unevenly arranged, broken, or crumbling. If the broken or crumbling noodles are not dealt with in time, it can easily affect the quality of the noodles after packaging. Utility Model Content

[0004] This utility model provides an automatic noodle packaging machine that utilizes the force of releasing the bundled noodles and moving them to the next packaging process to complete the processing of noodle fragments and breaks, ensuring the quality of the packaged noodles.

[0005] To solve the above-mentioned technical problems, the technical solution of this utility model is as follows:

[0006] In a first aspect, an automatic noodle packaging machine includes: a base plate, on the top of which mounting boxes are symmetrically fixed, one of which has a notch, a rotating shaft rotatably mounted inside the mounting box, a conveyor belt rotatably mounted outside the rotating shaft, a placement block rotatably mounted on the inner wall of the side of the mounting box with the notch, a rotating block rotatably mounted inside the placement block, a control unit and a packaging bag shaft mounted inside the mounting box, a scroll mounted at one end of the control unit, and a collection box between the two mounting boxes; characterized in that it further includes:

[0007] The cleaning section is located on the inside of the side plate to sift and clean the noodles;

[0008] The chip removal unit includes a vibrating element and a chip collecting element. The vibrating element is disposed on the inner side of the side plate and is connected to the chip collecting element, which is disposed on the other side of the side plate.

[0009] Furthermore, the vibrating element includes:

[0010] A rotating rod is installed through the outer side of the side plate;

[0011] Vertical panels are symmetrically fixed to the inner side of the side panels;

[0012] The bonding panel is located on one side of the upright panel;

[0013] Furthermore, the vibrating element also includes:

[0014] The support columns are in two sets, with two columns in each set, and are symmetrically arranged on one side of the bonding plate.

[0015] There are multiple spring components, all of which are fixedly installed below the bonding plate;

[0016] Screening plates are symmetrically arranged above the two support columns.

[0017] Furthermore, the vibrating element also includes:

[0018] The filter holes are located on the inside of the sieve plate;

[0019] The long noodle groove is located on the inside of the sieve plate and on the side of the filter holes.

[0020] Furthermore, the chip collector includes:

[0021] The swing block is rotatably mounted inside the feeding box;

[0022] A stabilizing rod with a swing block installed throughout;

[0023] The sliding groove is located on the outside of the swing block and below the swing block.

[0024] Furthermore, the chip collector also includes:

[0025] The curved plate is slidably set inside the sliding groove;

[0026] Long strips, in multiple forms, are fixedly installed above the curved plate;

[0027] The connecting plate is fixedly installed on one side of the curved plate and connected to the side plate on one side.

[0028] Furthermore, the chip collector also includes:

[0029] The diagonal brace is fixedly installed on the side plate on the other side;

[0030] The connecting rod has one end set on the outside of the diagonal brace plate and the other end connected to the swing block.

[0031] Furthermore, the chip collector also includes:

[0032] The height of the sliding groove is higher than the height of the curved plate;

[0033] The curved plate and long strip are shaped to be inclined downwards.

[0034] The above-described solution of this utility model has at least the following beneficial effects:

[0035] The rotating rod rotates counterclockwise, which in turn drives the side plate to move the inclined support plate. The inclined support plate, together with the connecting rod and the swing block, moves together, causing the swing block to swing to one side under force, which shakes the noodles tied above the curved plate. The shaking force causes noodle fragments to fall above the curved plate, thus forming a function of collecting fragments. Attached Figure Description

[0036] The present invention will be further described below with reference to the accompanying drawings.

[0037] Figure 1 This is a schematic diagram of the overall three-dimensional structure provided for an embodiment of the present utility model;

[0038] Figure 2 A three-dimensional structural diagram of the mounting box, rotating shaft, and conveyor belt assembly provided in an embodiment of this utility model;

[0039] Figure 3 An exploded perspective view of the rotating block, feeding box and side plate assembly provided in an embodiment of this utility model;

[0040] Figure 4 This is a schematic diagram of the internal structure of the stabilizing rod provided in this embodiment of the utility model;

[0041] Figure 5 This is a schematic diagram of the combined structure of the support column, spring component, and screening plate provided in this embodiment of the utility model;

[0042] Figure 6 This is provided by the embodiment of the present utility model. Figure 5 Enlarged schematic diagram of the local structure at point C;

[0043] Figure 7 This is a schematic diagram of the combined structure of the swing block and the feeding box provided in this embodiment of the utility model;

[0044] Figure 8 This is a schematic diagram showing a partial structure of the side plate and the swing block provided in an embodiment of this utility model;

[0045] Figure 9 This is provided by the embodiment of the present utility model. Figure 8 Enlarged schematic diagram of a local structure at point A;

[0046] Figure 10 This is an exploded view of a combination of long strips and curved plates provided in this embodiment of the utility model;

[0047] Figure 11 This is a schematic diagram of the combined structure of the side plate and the connecting plate provided in an embodiment of the present utility model.

[0048] In the diagram: 1. Base plate; 2. Mounting box; 3. Rotating shaft; 4. Conveyor belt; 5. Placement block; 6. Rotating block; 7. Feeding box; 8. Side plate; 9. Control unit; 10. Reel; 11. Packaging bag shaft; 12. Collection box; 13. Rotating rod; 14. Vertical plate; 15. Adhesive plate; 16. Support column; 17. Spring component; 18. Screening plate; 19. Filter hole; 20. Noodle-shaped groove; 21. Swinging block; 22. Stabilizing rod; 23. Sliding groove; 24. Curved plate; 25. Long strip; 26. Connecting plate; 27. Diagonal brace plate; 28. Connecting rod. Detailed Implementation

[0049] Exemplary embodiments of the present invention will now be described in more detail with reference to the accompanying drawings. While exemplary embodiments of the present invention are shown in the drawings, it should be understood that the present invention may be implemented in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this invention will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

[0050] like Figures 1 to 11 As shown, an automatic noodle packaging machine includes: a base plate 1, mounting boxes 2 symmetrically fixed on the top of the base plate 1, one of the mounting boxes 2 having a notch, a rotating shaft 3 rotatably mounted inside the mounting box 2, a conveyor belt 4 rotatably mounted outside the rotating shaft 3, a placement block 5 rotatably mounted on the inner wall of the side of the mounting box 2 with the notch, a rotating block 6 rotatably mounted inside the placement block 5, a control unit 9 and a packaging bag shaft 11 mounted inside the mounting box 2, a scroll 10 mounted at one end of the control unit 9, a collection box 12 mounted between the two mounting boxes 2, and further includes;

[0051] The cleaning section is located inside the side plate 8 to sift and clean the noodles;

[0052] The chip removal unit includes a vibrating element and a chip collecting element. The vibrating element is located inside the side plate 8 and is connected to the chip collecting element. The chip collecting element is located on the other side of the side plate 8.

[0053] Specifically, the equipment is equipped with a control panel. The rotating block 6, rotating shaft 3, control unit 9, roller 10, and packaging bag shaft 11 are all electrically connected and each is equipped with a drive unit. The commands are executed by the drive unit in coordination with the program specified on the control panel. This is the processing technology of the existing bundled automatic noodle packaging machine.

[0054] In this embodiment, the noodles that have been bundled and processed in the previous step are first placed on the conveyor belt 4. With the rotation of the rotating shaft 3, the noodles are transported downwards to the two open side plates 8. At this time, the rotating block 6 rotates to deflect the side plates 8 to one side for neat processing. After the noodles are neatly processed, the rotating rod 13 rotates counterclockwise to open the two side plates 8 again, and the noodles fall down in preparation for packaging. In the next step, the bottom roller 10 moves to remove the packaging bag from the packaging bag shaft 11 and lays it flat on top of the collection box 12 to package the bundled noodles that have fallen down. The automatic packaging process is completed with the movement and rewinding.

[0055] like Figure 2 , Figure 4 As shown, the vibrating element includes:

[0056] Rotating rod 13 is installed through the outer side of side plate 8;

[0057] The upright plate 14 is symmetrically fixed to the inner side of the side plate 8;

[0058] The bonding plate 15 is disposed on one side of the upright plate 14;

[0059] The support columns 16 are in two sets, two in each set, and are symmetrically arranged on one side of the bonding plate 15.

[0060] Multiple spring elements 17 are fixedly installed below the bonding plate 15;

[0061] Screening plates 18 are symmetrically arranged above the two support columns 16.

[0062] Filter holes 19 are formed on the inner side of the sieve plate 18;

[0063] The noodle-shaped groove 20 is opened on the inner side of the sieve plate 18 and located on one side of the filter hole 19.

[0064] Specifically, the bonding plate 15 is elastic, the screening plate 18 screens the noodles that are leaking down, the length of the noodle elongated groove 20 is less than the whole noodle but greater than the broken or bent noodle; the upright plate 14 is used to support the bonding plate 15; the spring 17 is used to buffer the bonding plate 15, and the bonding plate 15 can be linked to the screening plate 18 through the support column 16 to facilitate the chip collection process.

[0065] In this embodiment, during the process of the bundled noodles being drained, the two side plates 8 open outward with the rotating rod 13 as the center. The bottom of the two side plates 8 moves outward to change from a closed state to an open state. When the side plates 8 open outward, they will drive the upright plate 14 to move. The upright plate 14 will drive the bonding plate 15, the support column 16, and the screening plate 18 to swing outward. At this time, the two screening plates 18 rotate forty-five degrees to form a flat state. Before the two side plates 8 are fully unfolded, the screening plate 18 will briefly catch the bundled noodles falling from above. At this time, the broken noodles will fall into the long noodle groove 20, while the whole and longer noodles will not fall in. The debris will fall into the filter hole 19. The collection function of the screening plate 18 prevents more noodle debris from falling below, ensuring the cleanliness of the next process and ensuring the cleanliness of the process.

[0066] At the same time, when the bonding plate 15 moves outward, the bonding plate 15 will vibrate when it is driven by the outward movement force. The vibration is transmitted to the sieve plate 18 through the support column 16. The slight vibration of the sieve plate 18 makes it easy to clean the debris on the outside of the noodles, promoting the cleanliness of the outside of the noodles during subsequent packaging and making it less prone to debris.

[0067] like Figures 5 to 11 As shown, the chip collector includes:

[0068] The swing block 21 is rotatably mounted inside the feeding box 7;

[0069] A stabilizing rod 22 is provided with a swing block 21 through it;

[0070] The sliding groove 23 is formed on the outside of the swing block 21 and located below the swing block 21;

[0071] The curved plate 24 is slidably disposed inside the sliding groove 23;

[0072] Long strips 25, having multiple lengths, are fixedly installed above the curved plate 24;

[0073] The connecting plate 26 is fixedly installed on one side of the curved plate 24 and connected to the side plate 8 on one side.

[0074] The diagonal bracing plate 27 is fixedly installed on the side plate 8 on the other side;

[0075] The connecting rod 28 has one end set on the outside of the diagonal brace 27 and the other end connected to the swing block 21;

[0076] The height of the sliding groove 23 is higher than the height of the curved plate 24; the curved plate 24 and the long strip 25 are shaped to be inclined downwards.

[0077] Specifically, the stabilizing rod 22 is used to fix the swing block 21, the inclined support plate 27 is shaped like a flared mouth opening outwards; the long strip 25 is used to buffer the tied noodles and prevent slippage; the curved plate 24 and the long strip 25 are shaped to tilt forward and gradually decrease in height to prevent debris from falling into the sliding groove 23 and causing blockage.

[0078] In practical application, when the noodles fall down, they first fall above the curved plate 24 and come into contact with the long strip 25. When the rotating rod 13 rotates counterclockwise to drive the bundled noodles down for packaging, it drives the inclined support plate 27 to move through the side plate 8. The inclined support plate 27 moves outward and drives the connecting rod 28 to move. The connecting rod 28 pulls the swing block 21 to move together. When the swing block 21 is swung to one side under force, the noodles bundled above the curved plate 24 shake. The shaking force causes noodle fragments to fall above the curved plate 24, thus forming the function of collecting fragments.

[0079] At the same time, when the side plate 8 on the other side moves outward, it will pull the connecting plate 26 to move together. The connecting plate 26 drags the curved plate 24 and the long strip 25 to the other side, opposite to the direction of the swing block 21. The tied noodles rotate slightly, and during the movement, the position of the long strip 25 and the tied noodles changes. The long strip 25 slides over the outermost curved noodle with the pulling force. Through the light brushing effect when sliding over, the debris attached to the outer surface of the noodles is removed more quickly.

[0080] Working Principle: In the chip removal process, the vibrating component and the chip collecting component work together. When the bundled noodles are conveyed from the conveyor belt 4 into the side plate 8, after being neatly arranged by the rotating block 6, the side plate 8 opens outward with the rotating rod 13 as the center, driving the upright plate 14, the bonding plate 15, the support column 16, and the screening plate 18 to move synchronously. The screening plate 18 briefly catches the falling noodles and uses the noodle elongated groove 20 and the filter holes 19 to achieve screening: broken or bent noodles fall into the elongated groove, while debris is separated through the filter holes 19. At the same time, the bonding plate 15 is driven by external force to generate vibration, which is transmitted to the screening plate 18 through the support column 16, further cleaning the debris attached to the surface of the noodles and ensuring that the noodles entering the next process are clean.

[0081] The chip collection component operates synchronously during this process. As the noodles fall, they first contact the curved plate 24 and the long strip 25. The movement of the side plate 8 drives the inclined support plate 27 and the connecting plate 26, which in turn pull the connecting rod and the curved plate 24, causing the swing block 21 and the curved plate 24 to move in opposite directions. This action causes the bundled noodles to shake, shaking off any remaining chips onto the curved plate 24. The relative sliding between the long strip 25 and the noodles also accelerates chip removal. The inclined design of the curved plate 24 and the long strip 25 prevents chips from falling and clogging, achieving effective chip collection. After chip removal is complete, the noodles fall above the collection box 12. The roll 10 takes the bag from the packaging bag shaft 11 and lays it flat. The automatic packaging is completed in conjunction with the movement and winding actions. The entire process is coordinated by the control unit 9 to ensure the orderly operation of all components.

[0082] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. An automatic noodle packaging machine, comprising: A base plate (1) is provided with mounting boxes (2) symmetrically fixed on the top of the base plate (1). One of the mounting boxes (2) has a notch. A rotating shaft (3) is rotatably provided inside the mounting box (2). A conveyor belt (4) is rotatably provided outside the rotating shaft (3). A placement block (5) is rotatably provided on the inner wall of the side of the mounting box (2) with the notch. A rotating block (6) is rotatably provided inside the placement block (5). A control unit (9) and a packaging bag shaft (11) are provided inside the mounting box (2). A scroll (10) is provided at one end of the control unit (9). A collection box (12) is provided between the two mounting boxes (2). The feature is that it also includes: The cleaning section is located inside the side plate (8) to sieve and clean the noodles; The chip removal part includes a vibrating element and a chip collecting element. The vibrating element is disposed inside the side plate (8) and connected to the chip collecting element. The chip collecting element is disposed on the other side of the side plate (8).

2. The automatic noodle packaging machine according to claim 1, characterized in that: The vibrating element includes: A rotating rod (13) is installed through the outside of the side plate (8); The upright plate (14) is symmetrically fixed to the inside of the side plate (8); A bonding plate (15) is set on one side of the upright plate (14).

3. The automatic noodle packaging machine according to claim 2, characterized in that: The vibrating element also includes: The support columns (16) are in two sets, two in each set, and are symmetrically arranged on one side of the bonding plate (15); Multiple spring components (17) are fixedly installed below the bonding plate (15); Screening plate (18) is symmetrically arranged above two support columns (16).

4. The automatic noodle packaging machine according to claim 3, characterized in that: The vibrating element also includes: Filter holes (19) are formed on the inner side of the sieve plate (18); The noodle-shaped groove (20) is located on the inner side of the sieve plate (18) and on the side of the filter hole (19).

5. The automatic noodle packaging machine according to claim 4, characterized in that: The chip collector includes: The swing block (21) is rotatably set inside the feeding box (7); A stabilizing rod (22) is provided with a swing block (21) through it; The sliding groove (23) is opened on the outside of the swing block (21) and located below the swing block (21).

6. The automatic noodle packaging machine according to claim 5, characterized in that: The chip collector also includes: The curved plate (24) is slidably disposed inside the sliding groove (23); Long strips (25), having multiple strips, are fixedly installed above the curved plate (24); The connecting plate (26) is fixedly installed on one side of the curved plate (24) and connected to the side plate (8) on one side.

7. An automatic noodle packaging machine according to claim 6, characterized in that: The chip collector also includes: The diagonal bracing plate (27) is fixedly installed on the side plate (8) on the other side; The connecting rod (28) has one end set on the outside of the inclined brace (27) and the other end connected to the swing block (21).

8. An automatic noodle packaging machine according to claim 7, characterized in that: The chip collector also includes: The height of the sliding groove (23) is higher than the height of the curved plate (24); The curved plate (24) and the long strip (25) are shaped to be inclined downwards.