Motor-driven pressurized roller transmission gear stirring device

By using a motor-driven dough roller and gear-driven stirring device, the problems of dough blockage and adhesion in the dough press machine are solved, achieving continuous noodle production and ease of operation.

CN224440224UActive Publication Date: 2026-07-03JILIN XINWEIXIAN NETWORK TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JILIN XINWEIXIAN NETWORK TECHNOLOGY CO LTD
Filing Date
2025-06-19
Publication Date
2026-07-03

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Abstract

The utility model relates to food processing technical field especially is a kind of motor drive noodle roller drive gear stirring device, including mounting bracket, the outer wall of one end of mounting bracket is equipped with first motor, in the utility model, by designing a kind of motor drive noodle roller drive gear stirring device, dough is stored using dough storage box, continue kneading by dough kneader, prevent dough from sticking to dough storage box inner wall for too long stationary time, cause dough waste, dough can be divided by separating knife, prevent once input from plugging feed inlet, by stirring rod and stirring vane, dough is conveniently stirred, it is convenient to assist first noodle roller and second noodle roller to carry out second noodle roller and first noodle roller and carry out noodle belt operation;Conveniently prevent noodle belt folding by scraper, by first toothed disc and second toothed disc meshing, second toothed disc and third toothed disc meshing, it is convenient to drive second noodle roller and first noodle roller and work, to facilitate noodle operation.
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Description

Technical Field

[0001] This utility model relates to the field of food processing technology, and in particular to a motor-driven pressing roller and gear stirring device. Background Technology

[0002] Noodles are one of the most important staple foods in my country. With the improvement of living standards and the acceleration of the pace of life, noodle making has gradually shifted from manual to mechanized production, and then to small-scale automatic production. As a result, automatic noodle making machines (referred to as noodle machines) have emerged. The small noodle making machine generally consists of a flour supply device, a water supply device, a dough mixing device, a dough pressing device, a noodle cutting device, a noodle output device, and auxiliary devices. In the dough pressing device, nowadays, a pair or more pressing rollers are generally used to press the dough into noodle strips.

[0003] A patent with publication number CN105557865A discloses a spiral groove noodle press using three pressing rollers. This patent includes a right vertical plate, a left vertical plate, a top plate, a flour cylinder, a drive motor, a large pulley, a transmission belt, a small pulley, a noodle board, a first pressing roller, a main pressing roller, a second pressing roller, and a dough feeding plate. The main pressing roller is installed at the center between the left and right vertical plates, and the first and second pressing rollers are installed on either side of the main pressing roller. A top plate is provided on the top of the left and right vertical plates. The top plate has a flour cylinder mounted on it. A large pulley is installed at one end of the main pressing roller, which is connected to a small pulley via a transmission belt. The small pulley is mounted on a drive motor, which is fixed to the top of the right vertical plate. A noodle board is installed at the bottom of the main pressing roller, and a dough feed plate is installed on one side of the second pressing roller. The dough feed plate is installed at a 45° angle to the horizontal plane. The noodle board is placed horizontally. The left and right vertical plates are fixed to the ground. The structure is simple and easy to operate, but the following problems still exist in this patent:

[0004] During the pressing process, the above-mentioned noodle press may experience problems such as the dough being fed into the pressing rollers at once, causing blockages; dough may stick to the inner wall of the machine; or the dough may stick to the pressing rollers. These issues can lead to noodle pressing failures, requiring the machine to be stopped for repairs, affecting noodle production, and increasing the complexity of operation.

[0005] To address the above problems, it is necessary to design a motor-driven pressing roller and gear stirring device to overcome these issues. Utility Model Content

[0006] The main objective of this invention is to provide a motor-driven pressing roller and gear stirring device, which can effectively solve the problems in the background art.

[0007] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0008] A motor-driven dough roller and gear stirring device includes a mounting frame. A first motor is mounted on the outer wall of one end of the mounting frame. The output end of the first motor is connected to a first gear disc via a coupling. A second gear disc meshes with the outer wall of the first gear disc, and a third gear disc meshes with the outer wall of the second gear disc. A drive shaft in the middle of the second gear disc passes through a second dough roller connected to the mounting frame. A drive shaft in the middle of the third gear disc passes through the mounting frame and connects to the first dough roller. A feed box is mounted on the top of the mounting frame. A stirring rod is mounted in the middle of the feed box. The outer wall of the stirring rod is provided with stirring blades. An auxiliary rod is mounted on the lower side of the mounting frame. A rotating rod is provided on the outer wall of the auxiliary rod. A connecting cylinder with a through groove is provided in the middle of the rotating rod. A scraper passes through the middle of the connecting cylinder with the through groove.

[0009] As a preferred embodiment of this utility model, a dough storage box is installed on the upper side of the feeding box, an inclined plate is installed on the upper end of one side of the dough storage box, an L-shaped mounting plate is installed on the outer wall of the other side of the dough storage box, a second motor is installed on the upper side of the L-shaped mounting plate, a first pulley is installed on the output end of the second motor through a coupling, a transmission belt is driven to the first pulley, a second pulley is driven to the transmission belt, a rotating rod is provided in the middle of the second pulley, a dough mixer is provided at the lower end of the rotating rod, a groove is provided at the bottom of the dough storage box, a separating blade is installed on both sides near the groove, a telescopic cylinder is installed on one side of the separating blade, and a support frame is installed on the rear side of the mounting frame.

[0010] As a preferred embodiment of this utility model, the first motor is fixedly installed with the mounting bracket, the output end of the first motor is fixedly connected to the first gear plate through a coupling, and the first gear plate is meshed with the second gear plate.

[0011] As a preferred embodiment of this utility model, the second toothed disc and the third toothed disc are meshed together, the second toothed disc and the second pressing roller are fixedly connected by a drive shaft, the third toothed disc and the first pressing roller are fixedly connected by a drive shaft, and the feed box and the mounting frame are fixedly installed.

[0012] As a preferred embodiment of this utility model, the stirring rod is rotatably connected to the feed box, the stirring rod is fixedly connected to the stirring blade, the auxiliary rod is fixedly installed to the mounting frame, the rotating rod is rotatably connected to the mounting frame, the connecting cylinder with the through groove is fixedly connected to the rotating rod, and the scraper is snapped into the connecting cylinder with the through groove.

[0013] As a preferred embodiment of this utility model, the feeding box and the dough storage box are fixedly installed, the telescopic cylinder is fixedly connected to the dough storage box, the telescopic cylinder is fixedly connected to the separating blade, and the separating blade is slidably connected to the dough storage box.

[0014] As a preferred embodiment of this utility model, the inclined plate is fixedly installed between the dough storage box and the dough storage box, the L-shaped mounting plate is fixedly installed between the dough storage box and the second motor is fixedly installed between the second motor and the L-shaped mounting plate, and the output end of the second motor is fixedly connected to the first pulley through a coupling.

[0015] As a preferred embodiment of this utility model, the first pulley and the second pulley are connected by a transmission belt, the rotating rod and the dough storage box are rotatably connected by a bearing, the second pulley and the rotating rod are fixedly connected, and the dough mixer and the rotating rod are fixedly connected. Beneficial effects

[0016] Compared with the prior art, the present invention has the following beneficial effects:

[0017] 1. In this utility model, a motor-driven dough roller and gear stirring device is designed. The dough is stored in a dough storage box and kneaded by a dough mixer. This prevents the dough from sticking to the inner wall of the dough storage box due to prolonged static time, thus avoiding waste. The dough can be divided by a separator blade to prevent clogging of the feed inlet by a single input. The stirring rod and stirring blade facilitate the stirring of the dough and facilitate the operation of the first and second dough rollers in pressing the dough.

[0018] 2. In this utility model, a motor-driven pressing roller and gear stirring device is designed. The scraper helps to prevent the dough from folding. The first toothed disc meshes with the second toothed disc, and the second toothed disc meshes with the third toothed disc, which facilitates the operation of the second pressing roller and the first pressing roller, thereby facilitating the pressing operation. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of the structure of the mounting frame and dough storage box of this utility model;

[0020] Figure 2 This is a schematic diagram of the structure of the stirring rod and stirring blade of this utility model;

[0021] Figure 3 This is a schematic diagram of the structure of the second and third toothed discs of this utility model;

[0022] Figure 4 This is a schematic diagram of the structure of the dough mixer and separator blade of this utility model;

[0023] Figure 5This is a schematic diagram of the scraper and auxiliary rod of this utility model.

[0024] In the diagram: 1. Mounting frame; 2. Support frame; 3. First motor; 4. First gear plate; 5. Second gear plate; 6. Third gear plate; 7. First pressing roller; 8. Dough storage box; 9. Second pressing roller; 10. Auxiliary rod; 11. Rotating rod; 12. Connecting cylinder with through groove; 13. Scraper; 14. Feed box; 15. Stirring rod; 16. Stirring blade; 17. Inclined plate; 18. L-shaped mounting plate; 19. Second motor; 20. First pulley; 21. Transmission belt; 22. Second pulley; 23. Rotating rod; 24. Dough mixer; 25. Groove; 26. Telescopic cylinder; 27. Separator. Detailed Implementation

[0025] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0026] like Figure 1-4 As shown, a motor-driven pressing roller and gear stirring device includes a mounting frame 1. A first motor 3 is mounted on the outer wall of one end of the mounting frame 1. The output end of the first motor 3 is connected to a first gear disc 4 via a coupling. A second gear disc 5 meshes with the outer wall of the first gear disc 4. A third gear disc 6 meshes with the outer wall of the second gear disc 5. A drive shaft in the middle of the second gear disc 5 passes through a second pressing roller 9 connected to the mounting frame 1. A drive shaft in the middle of the third gear disc 6 passes through the mounting frame 1 and connects to a first pressing roller 7. A feed box 14 is mounted on the top of the mounting frame 1. A stirring rod 15 is mounted in the middle of the feed box 14. A stirring blade 16 is provided on the outer wall of the stirring rod 15. An auxiliary rod 10 is mounted on the lower side of the mounting frame 1. A rotating rod 11 is provided on the outer wall of the auxiliary rod 10. A connecting cylinder 12 with a through groove is provided in the middle of the rotating rod 11. A scraper 13 passes through the middle of the connecting cylinder 12 with the through groove.

[0027] Please see the appendix Figure 1 Appendix Figure 2 and attached Figure 3As shown, a dough storage box 8 is installed on the upper side of the feeding box 14. An inclined plate 17 is installed on the upper end of one side of the dough storage box 8. An L-shaped mounting plate 18 is installed on the outer wall of the other side of the dough storage box 8. A second motor 19 is installed on the upper side of the L-shaped mounting plate 18. A first pulley 20 is installed at the output end of the second motor 19 through a coupling. A drive belt 21 is driven to the first pulley 20. A second pulley 22 is driven to the drive belt 21. A rotating rod 23 is set in the middle of the second pulley 22. A dough mixer 24 is set at the lower end of the rotating rod 23. The bottom of the dough storage box 8 has an opening. A groove 25 has a separator blade 27 installed on each side near the groove 25. A telescopic cylinder 26 is installed on one side of the separator blade 27. A support frame 2 is installed on the rear side of the mounting frame 1. A first motor 3 is fixedly installed between the mounting frame 1 and the first gear plate 4. The output end of the first motor 3 is fixedly connected to the first gear plate 4 via a coupling. The first gear plate 4 is meshed with the second gear plate 5. The second gear plate 5 is meshed with the third gear plate 6. The second gear plate 5 is fixedly connected to the second pressing roller 9 via a drive shaft. The third gear plate 6 is fixedly connected to the first pressing roller 7 via a drive shaft. The material box 14 is fixedly installed between the material box 1 and the mounting frame 1. The stirring rod 15 is rotatably connected to the material box 14. The stirring rod 15 is fixedly connected to the stirring blade 16. The auxiliary rod 10 is fixedly installed between the material box 1 and the mounting frame 1. The rotating rod 11 is rotatably connected to the mounting frame 1. The connecting cylinder 12 with a through groove is fixedly connected to the rotating rod 11. The scraper 13 is snapped into the connecting cylinder 12 with the through groove. The material box 14 is fixedly installed between the material box 14 and the dough storage box 8. The telescopic cylinder 26 is fixedly connected to the dough storage box 8. The telescopic cylinder 26 is fixedly connected to the separating blade 27. The separating blade 27 is fixedly connected to the storage box 8. The dough boxes 8 are slidably connected, the inclined plate 17 is fixedly installed between the dough storage box 8 and the dough storage box 8, the L-shaped mounting plate 18 is fixedly installed between the dough storage box 8 and the second motor 19 is fixedly installed between the L-shaped mounting plate 18 and the second motor 19 is fixedly connected to the first pulley 20 through a coupling, the first pulley 20 and the second pulley 22 are connected by a transmission belt 21, the rotating rod 23 is rotatably connected to the dough storage box 8 through a bearing, the second pulley 22 is fixedly connected to the rotating rod 23, and the dough mixer 24 is fixedly connected to the rotating rod 23.

[0028] Among them, the dough mixer 24 performs multi-directional kneading while rotating, and its spiral curved surface structure effectively peels off the dough attached to the box wall;

[0029] The inclined plate 17 guides the dough to gather in the groove 25, and the telescopic cylinder 26 drives the dividing knife 27 to perform a reciprocating cutting motion to divide the dough into standard blanks of 150-200g / piece.

[0030] The stirring rod 15 rotates at a low speed of 15 r / min, and its 45° inclined stirring blade 16 forms a vortex feeding. The torque sensor, integrated into the first motor 3, detects the load on the transmission gear and automatically stops the machine if the load exceeds the threshold.

[0031] The working process of this utility model is as follows: Using the motor-driven dough roller and gear mixing device designed in this scheme, during operation, the kneaded dough is fed into the dough storage box 8 via the inclined plate 17 after the device is connected to an external power source. The second motor 19 is started, driving the first pulley 20 to rotate, which in turn drives the second pulley 22 via the transmission belt 21. The second pulley 22 then drives the rotating rod 23 to rotate, thereby driving the dough mixer 24 to continue kneading the dough, preventing the dough from remaining for too long and causing surface coagulation or adhesion to the inner wall of the device. The first motor 3 is started, driving the first gear disc 4 to rotate, which meshes with the second gear disc 5. The second toothed disc 5 meshes with the third toothed disc 6, thereby driving the first pressing roller 7 and the second pressing roller 9 to rotate. The telescopic cylinders 26 on both sides of the dough storage box 8 are controlled by an external controller to drive the separating blades 27 to move in opposite directions, exposing the groove 25 and allowing the dough inside the dough storage box 8 to enter the feeding box 14. After reaching the required amount, the telescopic cylinders 26 are extended to drive the two sets of separating blades 27 to move towards each other to cut the dough, which is convenient for operation. After being stirred by the stirring blades 16 on the outer wall of the stirring rod 15, the dough enters between the second pressing roller 9 and the first pressing roller 7 for pressing. The two sets of scrapers 13 work together to prevent the dough from folding, making the operation simple.

[0032] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A motor-driven pressurized roller drive gear mixing device comprising a mounting frame (1), characterized in that: A first motor (3) is mounted on the outer wall of one end of the mounting frame (1). The output end of the first motor (3) is connected to a first gear disc (4) via a coupling. A second gear disc (5) meshes with the outer wall of the first gear disc (4). A third gear disc (6) meshes with the outer wall of the second gear disc (5). The drive shaft in the middle of the second gear disc (5) passes through a second pressing roller (9) connected to the mounting frame (1). The drive shaft in the middle of the third gear disc (6) passes through the mounting frame (1) and connects to a first pressing roller (7). The top of the mounting frame (1) is equipped with a feed box (14), the middle of the feed box (14) is equipped with a stirring rod (15), the outer wall of the stirring rod (15) is provided with stirring blades (16), the lower side of the mounting frame (1) is equipped with an auxiliary rod (10), the outer wall of the auxiliary rod (10) is provided with a rotating rod (11), the middle of the rotating rod (11) is provided with a connecting cylinder (12) with a through groove, and a scraper (13) passes through the middle of the connecting cylinder (12) with the through groove.

2. A motorized drive pressurized roll drive gear mixing apparatus as described in claim 1, wherein: A dough storage box (8) is installed on the upper side of the feeding box (14). An inclined plate (17) is installed on the upper side of one side of the dough storage box (8). An L-shaped mounting plate (18) is installed on the outer wall of the other side of the dough storage box (8). A second motor (19) is installed on the upper side of the L-shaped mounting plate (18). A first pulley (20) is installed on the output end of the second motor (19) through a coupling. A transmission belt (21) is connected to the first pulley (20). A second pulley (22) is connected to the transmission belt (21). A rotating rod (23) is provided in the middle of the second pulley (22). A dough mixer (24) is provided at the lower end of the rotating rod (23). A groove (25) is opened at the bottom of the dough storage box (8). A separator (27) is installed on both sides near the groove (25). A telescopic cylinder (26) is installed on one side of the separator (27). A support frame (2) is installed on the rear side of the mounting frame (1).

3. A motorized drive pressurized roll drive gear mixing apparatus as described in claim 1 wherein: The first motor (3) is fixedly installed between the first motor (3) and the mounting bracket (1). The output end of the first motor (3) is fixedly connected to the first gear plate (4) through a coupling. The first gear plate (4) is meshed with the second gear plate (5).

4. A motorized drive pressurized roll drive gear mixing apparatus as described in claim 1 wherein: The second toothed disc (5) is meshed with the third toothed disc (6), the second toothed disc (5) is fixedly connected with the second pressing roller (9) through a drive shaft, the third toothed disc (6) is fixedly connected with the first pressing roller (7) through a drive shaft, and the feed box (14) is fixedly installed with the mounting frame (1).

5. A motorized drive pressurized roll drive gear mixing apparatus as described in claim 1 wherein: The stirring rod (15) is rotatably connected to the feed box (14), the stirring rod (15) is fixedly connected to the stirring blade (16), the auxiliary rod (10) is fixedly installed to the mounting frame (1), the rotating rod (11) is rotatably connected to the mounting frame (1), the connecting cylinder (12) with the through groove is fixedly connected to the rotating rod (11), and the scraper (13) is snapped into the connecting cylinder (12) with the through groove.

6. A motorized drive pressurized roll drive gear mixing apparatus as described in claim 2 wherein: The feeding box (14) is fixedly installed between the dough storage box (8), the telescopic cylinder (26) is fixedly connected between the dough storage box (8), the telescopic cylinder (26) is fixedly connected between the separator (27), and the separator (27) is slidably connected between the dough storage box (8).

7. A motorized drive pressurized roll drive gear mixing apparatus as described in claim 2 wherein: The inclined plate (17) is fixedly installed between the dough storage box (8), the L-shaped mounting plate (18) is fixedly installed between the dough storage box (8), the second motor (19) is fixedly installed between the L-shaped mounting plate (18), and the output end of the second motor (19) is fixedly connected to the first pulley (20) through a coupling.

8. A motorized drive pressurized roll drive gear mixing apparatus as described in claim 2 wherein: The first pulley (20) and the second pulley (22) are connected by a transmission belt (21), the rotating rod (23) and the dough storage box (8) are connected by a bearing, the second pulley (22) and the rotating rod (23) are fixedly connected, and the dough mixer (24) and the rotating rod (23) are fixedly connected.