A flatbread bagging line

By introducing a main conveyor belt, a bagging mechanism, a transfer mechanism, and a sealing mechanism into the bag sealing device, a multi-line continuous bag sealing system is achieved, which improves the bag sealing efficiency and solves the problem of low production efficiency.

CN224393157UActive Publication Date: 2026-06-23SICHUAN YOU YOU SIDE FOOD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SICHUAN YOU YOU SIDE FOOD CO LTD
Filing Date
2025-07-08
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing bag sealing devices can only achieve single-line production line operation, resulting in low production efficiency and making it impossible to achieve multi-line continuous bag sealing.

Method used

By setting up a main conveyor belt, a bagging mechanism, a transfer mechanism, and a sealing mechanism, a multi-line continuous bag sealing system is achieved. The transfer mechanism includes a translation component and a transfer conveyor belt, and the sealing mechanism includes a ring belt and heat sealing wheels for clamping and heat sealing the packaging bags.

Benefits of technology

It improved sealing efficiency, realized multi-line continuous sealing, and solved the problem of low production efficiency.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224393157U_ABST
Patent Text Reader

Abstract

The utility model relates to food processing technical field discloses a kind of flour cake bagging processing line, including main conveying belt, setting on ground;Several bagging mechanisms, setting in the side of main conveying belt, bagging mechanism includes for placing packing bag storage groove, and the vice conveying belt being set in the both sides of storage groove;Transfer mechanism, install on bagging mechanism and are used to send the flour cake on vice conveying belt to main conveying belt;Bag sealing mechanism, install on transfer mechanism.The utility model, several staffs take packing bag from storage groove and package flour cake, after packaging is completed, packing bag is placed on vice conveying belt, then by transfer mechanism, the flour cake on two vice conveying belts is transferred to bag sealing mechanism, and packing bag is sealed to packing bag by bag sealing mechanism, can the product of multiple vice conveying belt is gathered to main conveying belt, multiple-line assembly line type bag sealing is realized, bag sealing efficiency is improved, and the problem of low production efficiency is solved.
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Description

Technical Field

[0001] This utility model relates to the field of food processing technology, specifically to a noodle cake packaging processing line. Background Technology

[0002] In some noodle processing techniques, a specified number of noodles are packed into packaging bags, which are then sealed using a sealing mechanism for subsequent boxing. Existing sealing devices include a sealing machine, a work box, a control panel, an alarm, and a conveyor box. The work box is fixedly connected to the upper part of the sealing machine. A pressure adjustment handle for the printing wheel is embedded in one side of the top of the work box. The alarm is tightly welded to the top of the work box, located on one side of the pressure adjustment handle. The control panel is tightly welded to one side of the alarm. A control key is fixedly connected to the upper side of the control panel, and a power switch is fixedly connected to the upper part of the control panel, located on one side of the control key. A thermometer is tightly welded to one side of the power switch. Handrails are embedded on the left and right sides of the work box. A metal baffle is tightly welded to the front of the sealing machine, located on the upper part of the work box. An embossing wheel is movably connected to the lower side of the metal baffle. The control panel allows for quick and easy control of the device, facilitating user operation and achieving simple control. The alarm provides rapid alerts when the device malfunctions.

[0003] Existing bag sealing devices have the following problems: the products are transported by the conveyor belt installed in the device, and the device is controlled quickly by the control panel. It can only realize single-line assembly line operation, which is not convenient for multi-line assembly line sealing of packaging bags, resulting in low production efficiency.

[0004] Based on the above situation, there is an urgent need for a noodle cake bagging processing line to solve the problem of low production efficiency. Utility Model Content

[0005] The purpose of this utility model is to address the problem of low production efficiency in existing bag sealing devices, which use a conveyor belt to transport products and control the device quickly via a control panel. This makes it difficult to perform multi-line continuous bag sealing and results in low production efficiency.

[0006] The technical solution of this utility model is as follows:

[0007] A noodle cake bagging processing line includes:

[0008] The main conveyor belt is located on the ground.

[0009] Several bagging mechanisms are disposed on the side of the main conveyor belt. Each bagging mechanism includes a storage slot for placing packaging bags and auxiliary conveyor belts disposed on both sides of the storage slot.

[0010] A transfer mechanism is installed on the bagging mechanism and is used to transport the dough from the secondary conveyor belt to the main conveyor belt;

[0011] A sealing mechanism is installed on the transfer mechanism.

[0012] Existing sealing devices transport products via conveyor belts and are controlled rapidly by a control panel. This only enables single-line assembly line operation and is not suitable for multi-line continuous sealing of packaging bags, resulting in low production efficiency. In this solution, several workers retrieve packaging bags from the storage trough and package the dough. After packaging, the bags are placed on the secondary conveyor belts. The transfer mechanism then transfers the dough from the two secondary conveyor belts to the sealing mechanism, where the bags are sealed. This allows products from multiple secondary conveyor belts to be collected onto the main conveyor belt, achieving multi-line continuous sealing, improving sealing efficiency, and solving the problem of low production efficiency.

[0013] Furthermore, this solution does not exclusively limit the specific structure of the transfer mechanism. One feasible solution is that the transfer mechanism includes a translation component and a transfer conveyor belt installed on the translation component. When this solution is adopted, the translation component drives the transfer conveyor belt to move back and forth between two secondary conveyor belts, and the transfer conveyor belt alternately transfers the dough on the two secondary conveyor belts to the sealing mechanism.

[0014] Furthermore, this solution is not limited to the specific structure of the translation component. One feasible solution is that the translation component includes a movable seat with a lead screw passing through it, and the transfer conveyor belt is installed on the movable seat. When this solution is adopted, the movable seat and the transfer conveyor belt are driven to reciprocate along the axial direction of the lead screw by the lead screw.

[0015] Furthermore, this solution does not exclusively limit the specific structure of the sealing mechanism. One feasible solution is that the sealing mechanism includes two annular belts for clamping the packaging bag and two heat-sealing wheels. The annular belts are connected to pulleys for driving the annular belts. When this solution is adopted, the two annular belts assist in clamping the packaging bag, and the two heat-sealing wheels heat-seal the packaging bag.

[0016] Furthermore, to facilitate the clamping of the packaging bag by the two annular belts, one feasible solution is that a guide plate is formed on the sealing mechanism. When this solution is adopted, the opening of the packaging bag is guided between the two annular belts by the guide plate, so that the two annular belts can clamp the packaging bag.

[0017] Furthermore, to facilitate the centralized stacking of dough sheets awaiting packaging, one feasible solution is to install a dough sheet rack at the feeding end of the bagging mechanism. When this solution is adopted, the dough sheets awaiting packaging are centrally stacked through the dough sheet rack, making it easier for staff to retrieve the dough sheets.

[0018] Compared with existing technologies, the beneficial effects of this utility model are:

[0019] 1. Several workers take packaging bags from the storage trough and package the dough. After packaging, the packaging bags are placed on the secondary conveyor belt. Then, the transfer mechanism transfers the dough from the two secondary conveyor belts to the sealing mechanism, and the sealing mechanism seals the packaging bags. This can gather products from multiple secondary conveyor belts to the main conveyor belt, realize multi-line flow sealing, improve sealing efficiency, and solve the problem of low production efficiency.

[0020] 2. Since the transfer mechanism includes a translation component and a transfer conveyor belt installed on the translation component, the translation component drives the transfer conveyor belt to move back and forth between two secondary conveyor belts, and the transfer conveyor belt alternately transfers the dough on the two secondary conveyor belts to the sealing mechanism.

[0021] Third, the sealing mechanism includes two annular belts for clamping the packaging bag and two heat-sealing wheels. The annular belts are connected to pulleys for driving the annular belts. The packaging bag is clamped by the two annular belts and heat-sealed by the two heat-sealing wheels. Attached Figure Description

[0022] Figure 1 This is a schematic diagram of the overall structure of an embodiment of the present utility model;

[0023] Figure 2 This is a first-view structural schematic diagram of the bagging mechanism according to an embodiment of the present invention;

[0024] Figure 3 This is a second-view structural schematic diagram of the bagging mechanism according to an embodiment of the present invention;

[0025] Figure 4 for Figure 1 Enlarged view of point A in the image;

[0026] Figure 5 for Figure 1 Enlarged view of point B in the image;

[0027] Figure 6 for Figure 3 Enlarged view of point C in the image;

[0028] Figure 7 for Figure 3 Enlarged view of point D in the image.

[0029] Figure label:

[0030] 1. Main conveyor belt; 2. Bagging mechanism; 3. Transfer mechanism; 4. Sealing mechanism; 5. Dough rack; 6. Metal detector; 7. Partition;

[0031] 21. Storage trough; 22. Secondary conveyor belt; 23. Pre-made bag;

[0032] 31. Translation component; 32. Transfer conveyor belt;

[0033] 311. Movable seat; 312. Lead screw; 313. Bidirectional motor;

[0034] 41. Circular belt; 42. Heat-sealing wheel; 43. Pulley; 44. Guide plate;

[0035] 61. Diverter plate; 62. Cylinder; 63. Tank body;

[0036] 71. Upright pole; 72. Movable block; 73. Horizontal bar; 74. Locking bolt. Detailed Implementation

[0037] It should be noted that relational terms such as "first" and "second" are used merely to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the term "comprising" or any other variations thereof is intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes the element.

[0038] The features and performance of this utility model will be further described in detail below with reference to the embodiments.

[0039] Example:

[0040] Please refer to Figure 1 and Figure 2 A noodle cake packaging processing line, comprising:

[0041] Main conveyor belt 1 is set on the ground;

[0042] Several bagging mechanisms 2 are disposed on the side of the main conveyor belt 1. Each bagging mechanism 2 includes a storage slot 21 for placing packaging bags and a secondary conveyor belt 22 disposed on both sides of the storage slot 21.

[0043] The transfer mechanism 3 is installed on the bagging mechanism 2 and is used to transport the dough on the secondary conveyor belt 22 to the main conveyor belt 1;

[0044] The sealing mechanism 4 is installed on the transfer mechanism 3.

[0045] Existing bag sealing devices transport products via conveyor belts and operate rapidly via control panel. This is not convenient for multi-line, continuous bag sealing, resulting in low production efficiency. In this solution, several workers take packaging bags from the storage trough 21 and package them into pre-made bags 23. After packaging, the pre-made bags 23 are placed on the secondary conveyor belt 22, and then the transfer mechanism 3 transfers the dough from the two secondary conveyor belts 22 to the sealing mechanism 4. The sealing mechanism 4 then seals the pre-made bags 23. This allows products from multiple secondary conveyor belts 22 to be gathered onto the main conveyor belt 1, achieving multi-line, continuous bag sealing, improving sealing efficiency, and solving the problem of low production efficiency.

[0046] Reference Figure 1 and Figure 4 Preferably, in this embodiment, a metal detector 6 and a diverter plate 61 rotatably connected to the discharge end of the main conveyor belt 1 are installed. The diverter plate 61 is connected to a cylinder 62 and the metal detector 6 is used to drive the cylinder. Two troughs 63 are provided below the diverter plate 61. When this scheme is adopted, the metal detector 6 detects whether there is metal in the packaged product, so as to control the cylinder 62 to extend or retract, thereby conveying the unqualified product with metal and the qualified product without metal to the two troughs 63 respectively.

[0047] Reference Figure 1 and Figure 5 Preferably, in this embodiment, a partition 7 is installed on the main conveyor belt 1. The partition 7 is used to isolate the packaged products on both sides of the main conveyor belt 1. In order to facilitate the adjustment of the partition 7, one feasible solution is: a vertical rod 71 is installed on the main conveyor belt 1 and a movable block 72 is installed on the vertical rod 71. The movable block 72 is provided with a crossbar 73 and the crossbar 73 is connected to the partition 7. Two locking bolts 74 are installed on the movable block 72. The two locking bolts 74 are respectively engaged with the vertical rod 71 and the crossbar 73. When this solution is adopted, by loosening the locking bolts, the movable block 72 moves relative to the vertical rod 71 or the crossbar 73, thereby causing the partition 7 to rise and fall along the axial direction of the vertical rod 71 or move horizontally along the axial direction of the crossbar 73.

[0048] Reference Figure 2This solution does not limit the specific structure of the transfer mechanism 3. One feasible solution is that the transfer mechanism 3 includes a translation component 31 and a transfer conveyor belt 32 installed on the translation component 31. When this solution is adopted, the translation component 31 drives the transfer conveyor belt 32 to move back and forth between the two auxiliary conveyor belts 22, and the transfer conveyor belt 32 alternately transfers the dough on the two auxiliary conveyor belts 22 to the sealing mechanism 4.

[0049] Reference Figure 3 and Figure 7 This solution does not limit the specific structure of the translation component 31. One feasible solution is that the translation component 31 includes a movable seat 311 and a lead screw 312 passes through the movable seat 311. The transfer conveyor belt 32 is installed on the movable seat 311. Specifically, in this embodiment, the lead screw 312 is connected to a bidirectional motor 313. When this solution is adopted, the bidirectional motor 313 drives the lead screw 312 to rotate forward or reverse, thereby driving the movable seat 311 and the transfer conveyor belt 32 to move back and forth along the axial direction of the lead screw 312.

[0050] Reference Figure 6 This solution does not limit the specific structure of the sealing mechanism 4. One feasible solution is that the sealing mechanism 4 includes two annular belts 41 for clamping the pre-made bag 23 and two heat sealing wheels 42. The annular belts 41 are connected to pulleys 43 for driving the annular belts 41. When this solution is adopted, the two annular belts 41 assist in clamping the pre-made bag 23, and the two heat sealing wheels 42 heat seal the pre-made bag 23.

[0051] To facilitate the clamping of the pre-made bag 23 by the two annular belts 41, one feasible solution is to form a guide plate 44 on the sealing mechanism 4. When this solution is adopted, the opening of the pre-made bag 23 is guided to the two annular belts 41 by the guide plate 44 so that the two annular belts 41 can clamp the pre-made bag 23.

[0052] Reference Figure 1 To facilitate the centralized stacking of dough cakes awaiting packaging, one feasible solution is to install a dough cake rack 5 at the feeding end of the bagging mechanism 2. When this solution is adopted, the dough cakes awaiting packaging are centrally stacked through the dough cake rack 5 so that the staff can easily take the dough cakes.

[0053] To address the issue of low production efficiency, this solution involves several workers taking packaging bags from the storage trough 21 and packaging the dough. After packaging, the bags are placed on the secondary conveyor belt 22, and then the transfer mechanism 3 transfers the dough from the two secondary conveyor belts 22 to the sealing mechanism 4. The sealing mechanism 4 then seals the pre-made bags 23, which can gather the products from multiple secondary conveyor belts 22 onto the main conveyor belt 1, achieving multi-line continuous sealing, improving sealing efficiency, and solving the problem of low production efficiency.

[0054] In order to facilitate the transfer of pre-made bags 23 on the secondary conveyor belt 22 to the sealing mechanism 4, in this scheme, the transfer mechanism 3 includes a translation component 31 and a transfer conveyor belt 32 installed on the translation component 31. The translation component 31 drives the transfer conveyor belt 32 to move back and forth between the two secondary conveyor belts 22, and the transfer conveyor belt 32 alternately transfers the pre-made bags 23 on the two secondary conveyor belts 22 to the sealing mechanism 4.

[0055] To facilitate heat sealing of the packaging bags, in this solution, the sealing mechanism 4 includes two annular belts 41 for clamping the packaging bags and two heat sealing wheels 42. The annular belts 41 are connected to pulleys 43 for driving the annular belts 41. The worker picks up the pre-made bag 23 and makes the opening of the pre-made bag 23 cooperate with the two annular belts 41. The two annular belts 41 assist in clamping the pre-made bag 23, and the two heat sealing wheels 42 heat seal the pre-made bag 23.

[0056] The above description of the disclosed embodiments enables those skilled in the art to make or use the invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the invention. Therefore, the invention is not to be limited to the embodiments shown herein, but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A noodle cake bagging processing line, characterized in that, include: The main conveyor belt (1) is set on the ground; Several bagging mechanisms (2) are disposed on the side of the main conveyor belt (1). The bagging mechanism (2) includes a storage slot (21) for placing packaging bags and a secondary conveyor belt (22) disposed on both sides of the storage slot (21). The transfer mechanism (3) is installed on the bagging mechanism (2) and is used to transport the dough on the secondary conveyor belt (22) to the main conveyor belt (1). The sealing mechanism (4) is installed on the transfer mechanism (3).

2. The noodle cake bagging processing line according to claim 1, characterized in that, The transfer mechanism (3) includes a translation component (31) and a transfer conveyor belt (32) mounted on the translation component (31).

3. The noodle cake bagging processing line according to claim 2, characterized in that, The translation component (31) includes a movable seat (311) and a lead screw (312) is inserted through the movable seat (311), and the transfer conveyor belt (32) is installed on the movable seat (311).

4. The noodle cake bagging processing line according to claim 1, characterized in that, The sealing mechanism (4) includes two annular belts (41) for clamping the packaging bag and two heat sealing wheels (42), and the annular belts (41) are connected to pulleys (43) for driving the annular belts (41).

5. A noodle cake bagging processing line according to claim 4, characterized in that, A guide plate (44) is formed on the sealing mechanism (4).

6. A noodle cake bagging processing line according to claim 1, characterized in that, The bagging mechanism (2) is equipped with a dough sheet rack (5) at its feed end.