Noodle drying and cutting integrated machine
By designing an integrated noodle drying and cutting machine that combines a conveyor belt, a cutting component, and an air-drying component, the problem of low production efficiency caused by fixed cutting parameters in existing technologies has been solved, enabling flexible adjustment of noodle specifications and efficient production.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XIUSHUI COUNTRY LUOFAHEFEN CO LTD
- Filing Date
- 2025-06-02
- Publication Date
- 2026-06-16
AI Technical Summary
The existing noodle drying and cutting integrated machine cannot flexibly adjust the cutting parameters, making it difficult to meet the diverse needs of different customers for noodle specifications. Frequent mold changes or production line adjustments lead to low production efficiency.
A noodle drying and cutting integrated machine was designed, which includes a conveyor belt, a cutting component, an adjustment component, and a drying component. The machine uses a drive motor to drive the drive wheel to move the limit rod and the cutting blade for cutting. The cutting parameters are adjusted by the adjustment component, and the noodles are dried evenly by the drying component.
It enables flexible adjustment of noodle cutting length and drying degree, improves production efficiency, reduces manual intervention and production costs, and ensures the stability and continuity of cutting.
Smart Images

Figure CN224356923U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of food processing equipment technology, and in particular to a noodle drying and cutting integrated machine. Background Technology
[0002] The noodle drying and cutting integrated machine is a piece of equipment that integrates drying and cutting functions. It is mainly used in the final process of noodle production. In traditional noodle production, drying and cutting are usually two separate steps, which is inefficient. This equipment integrates the drying and cutting processes through innovative design, which improves production efficiency, reduces manual intervention, lowers production costs, and meets the needs of modern large-scale noodle production.
[0003] However, in actual use, the following shortcomings still exist. For example, the existing noodle drying and cutting integrated machine cannot change the relevant cutting parameters as needed, nor can it flexibly adjust the length, width and other size parameters of the noodles. It is difficult to meet the diverse needs of different customers for noodle specifications. When producing different types or specifications of noodles, due to the fixed cutting parameters, it may be necessary to frequently change the mold or adjust the entire production line. This will consume a lot of time and manpower, resulting in low production efficiency. Moreover, in the process of changing the mold or adjusting the production line, problems such as inaccurate debugging may occur, which will further affect the smooth progress of production.
[0004] Therefore, this utility model proposes a noodle drying and cutting integrated machine to solve the above problems. Utility Model Content
[0005] The purpose of this invention is to address the shortcomings of existing technologies and propose an integrated noodle drying and cutting machine.
[0006] To achieve the above objectives, this utility model adopts the following technical solution: a noodle drying and cutting integrated machine, comprising:
[0007] A support frame, on which a conveyor belt is mounted, and a fan is mounted on the top of the support frame;
[0008] A cutting assembly is placed on a support frame. The cutting assembly includes a second transmission wheel rotatably connected to the support frame near the bottom. A limit post is provided on the second transmission wheel. A connecting rod is rotatably connected to the limit post. A limit rod is rotatably connected to the connecting rod. A first fixing block is fixed on the support frame near the limit rod. The limit rod is slidably connected in the first fixing block. A mounting base is fixed on the top of the limit rod. A cutting blade is fixed on the bottom of the mounting base.
[0009] An adjustment assembly is placed on a second transmission wheel. The adjustment assembly includes a limiting hole formed on the second transmission wheel. A bolt is threaded onto the limiting post. The bolt is disposed in the limiting hole. A limiting block is threaded onto the bolt.
[0010] Furthermore, a drive motor is installed on the support frame near the bottom, and a first drive wheel is fixed to the output end of the drive motor.
[0011] The beneficial effect of adopting the above-mentioned further solution is that the transmission motor, as a power source, rotates at high speed at its output end after starting, driving the first transmission wheel fixed thereto to rotate.
[0012] Furthermore, a belt is provided on the first drive wheel, and a second drive wheel is provided on the side of the belt away from the first drive wheel.
[0013] The beneficial effect of adopting the above-mentioned further solution is that the first drive wheel is connected to the second drive wheel through a belt, and the belt transmits power between the two, causing the second drive wheel to rotate as well, thereby providing power support for the operation of the subsequent cutting components.
[0014] Furthermore, a telescopic spring is provided on the limiting rod, one end of which is fixed to the first fixing block, and the other end of which is fixed to the mounting base.
[0015] The beneficial effects of adopting the above-mentioned further solution are: the telescopic spring on the limit rod is fixed at one end to the first fixed block and at the other end to the mounting base. When the limit rod moves up and down with the movement of the second transmission wheel, the telescopic spring will be compressed or stretched accordingly. It plays a buffering and resetting role, so that the cutting blade is subjected to more even force during cutting and can quickly reset after cutting.
[0016] Furthermore, a drying component is provided on the side of the support frame away from the cutting component, and the drying component includes a second fixing block fixed to the top of the support frame.
[0017] The beneficial effect of adopting the above-mentioned further solution is that the fan is installed on the top of the second fixed block, and after starting, it draws in outside air and pressurizes it to blow it out.
[0018] Furthermore, an air guide groove is provided inside the second fixing block.
[0019] The beneficial effect of adopting the above-mentioned further solution is that the air is evenly guided to the noodles on the conveyor belt through the air guide groove in the second fixed block.
[0020] Furthermore, the fan is mounted on top of the second fixed block.
[0021] The beneficial effect of adopting the above-mentioned further solution is that the noodles are air-dried to achieve a suitable degree of dryness, which meets the needs of production and processing.
[0022] Compared with the prior art, the advantages and positive effects of this utility model are as follows:
[0023] In this invention, the equipment is first started, the conveyor belt begins to operate, transporting the noodles to the designated position. The fan operates, blowing hot air to dry the noodles. When the noodles reach the cutting position, the drive motor drives the first drive wheel, belt, and second drive wheel to rotate. The rotation of the second drive wheel drives the limiting post to move synchronously. Since the limiting post is rotatably connected to the connecting rod, and the connecting rod is rotatably connected to the limiting rod, and the limiting rod slides within the first fixed block, the rotation of the second drive wheel is converted into the up-and-down movement of the limiting rod through the connecting rod. The mounting base moves up and down with the limiting rod, thereby driving the cutting blade at the bottom to perform the cutting work. The adjustment component is used to adjust the cutting parameters. When it is necessary to change the relevant cutting parameters, the position of the adjusting bolt in the limiting hole is adjusted and fixed by the limiting block, thereby changing the position of the limiting post and adjusting the working state of the cutting blade. Attached Figure Description
[0024] Figure 1 This is a schematic diagram of the structure of a noodle drying and cutting integrated machine according to the present invention;
[0025] Figure 2 This is a schematic diagram of the cutting component structure of a noodle air-drying and cutting integrated machine according to the present invention;
[0026] Figure 3 This is a schematic diagram of the adjustment component structure of a noodle air-drying and cutting integrated machine according to the present invention;
[0027] Figure 4 This is a schematic diagram of the drying component structure of a noodle drying and cutting integrated machine according to the present invention.
[0028] Figure label:
[0029] 1. Support frame; 2. Conveyor belt;
[0030] 3. Cutting assembly; 31. Drive motor; 32. First drive wheel; 33. Belt; 34. Second drive wheel; 35. Limiting post; 36. Connecting rod; 37. Limiting rod; 38. First fixing block; 39. Mounting base; 310. Telescopic spring; 311. Cutting blade;
[0031] 4. Adjustment component; 41. Limiting hole; 42. Bolt; 43. Limiting block;
[0032] 5. Air drying assembly; 51. Second fixing block; 52. Air guide duct; 53. Fan. Detailed Implementation
[0033] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0034] like Figures 1-3 As shown, this embodiment provides a technical solution: a noodle drying and cutting integrated machine, comprising:
[0035] Support frame 1, conveyor belt 2 is installed on support frame 1, and fan 53 is installed on top of support frame 1;
[0036] The cutting assembly 3 is placed on the support frame 1. The cutting assembly 3 includes a second transmission wheel 34 rotatably connected to the support frame 1 near the bottom side. A limit post 35 is provided on the second transmission wheel 34. A connecting rod 36 is rotatably connected to the limit post 35. A limit rod 37 is rotatably connected to the connecting rod 36. A first fixing block 38 is fixed on the support frame 1 near the limit rod 37. The limit rod 37 is slidably connected in the first fixing block 38. A mounting seat 39 is fixed on the top of the limit rod 37. A cutting blade 311 is fixed on the bottom of the mounting seat 39.
[0037] Adjustment component 4 is placed on the second transmission wheel 34. Adjustment component 4 includes a limiting hole 41 on the second transmission wheel 34. A bolt 42 is threaded onto a limiting post 35, and the bolt 42 is located within the limiting hole 41. A limiting block 43 is threaded onto the bolt 42. When the noodle drying and cutting integrated machine starts working, the operator presses the start button, the equipment is powered on, and the conveyor belt 2 immediately begins to operate stably. It smoothly transports the noodles from the initial position to various processing areas of the integrated machine at a set speed. At the same time, the fan 53 starts operating. The impeller inside the fan 53 rotates at high speed, continuously drawing in outside air. After heating and pressurizing the air through a specially designed air duct, the air is evenly blown onto the noodles on the conveyor belt 2 for efficient drying, ensuring that the noodles reach the appropriate dryness before subsequent processing. When the noodles reach the cutting position precisely with the movement of the conveyor belt 2, the drive motor 31 begins to function. The output shaft of the drive motor 31 rotates at high speed, driving the first transmission wheel 32, which is tightly fixed to it, to rotate synchronously. The first transmission wheel 32 is connected to the belt 33. Power is reliably transmitted to the second transmission wheel 34, causing it to rotate rapidly. The rotation of the second transmission wheel 34 drives the limiting post 35 to rotate. Since the limiting post 35 is rotatably connected to the connecting rod 36, and the connecting rod 36 is rotatably connected to the limiting rod 37, and the limiting rod 37 can slide up and down within the first fixed block 38, the rotational motion of the second transmission wheel 34 is cleverly converted into the reciprocating motion of the limiting rod 37 via the connecting rod 36. The mounting base 39 is fixed to the limiting rod 37, and with the limiting... As the rod 37 moves up and down, the cutting blade 311 at the bottom of the mounting base 39 begins to perform precise cutting, cutting the noodles to the set length. When production needs change and the relevant cutting parameters need to be changed, the operator can adjust the position of the bolt 42 in the limiting hole 41. During adjustment, first loosen the limiting block 43, then rotate the bolt 42 to change its depth in the limiting hole 41, thereby changing the position of the limiting post 35, and finally adjusting the working state of the cutting blade 311 to meet the cutting requirements of noodles of different specifications.
[0038] The above solutions still have the problem of failing to prevent damage to the cutting blade due to excessive instantaneous impact when the cutting blade 311 is cutting noodles downwards. Figures 1-2As shown: A drive motor 31 is installed on the support frame 1 near the bottom. A first drive wheel 32 is fixed to the output end of the drive motor 31. As the core power source, after the drive motor 31 is powered on, its internal electromagnetic induction device drives the output end to rotate at high speed. The first drive wheel 32, which is tightly fixed to the output end, rotates synchronously with the motor output end. A belt 33 is provided on the first drive wheel 32. A second drive wheel 34 is provided on the side of the belt 33 away from the first drive wheel 32. The edge of the first drive wheel 32 is in close contact with the belt 33. Under the action of friction, the belt 33 is driven to rotate in a cycle. The second drive wheel 34 connected to the other side of the belt 33 also begins to rotate under the drive of the belt 33, providing stable power for the subsequent mechanical movement of the cutting assembly 3. Limit rod A telescopic spring 310 is provided on the limit rod 37. One end of the telescopic spring 310 is fixed to the first fixed block 38, and the other end of the telescopic spring 310 is fixed to the mounting base 39. The telescopic spring 310 installed on the limit rod 37 has one end firmly fixed to the first fixed block 38, and the other end is tightly connected to the mounting base 39. When the second transmission wheel 34 rotates and drives the limit rod 37 to move up and down, the telescopic spring 310 will be compressed or stretched accordingly according to the displacement direction of the limit rod 37. When the cutting blade 311 cuts the noodles downward, the buffering effect of the spring makes the cutting blade 311 more evenly stressed, avoiding damage to the blade due to excessive instantaneous impact force. After the cutting is completed, the elasticity of the spring can quickly reset the limit rod 37 and the cutting blade 311, ensuring the continuity and stability of the cutting work.
[0039] like Figure 4 As shown, a drying component 5 is provided on the side of the support frame 1 away from the cutting component 3. The drying component 5 includes a second fixing block 51 fixed to the top of the support frame 1. A fan 53 is installed on the top of the second fixing block 51. After starting, the fan blades inside the fan 53 rotate at high speed under the drive of the motor. This rotation generates a strong suction force, which continuously draws outside air into the fan 53. An air guide trough 52 is provided in the second fixing block 51. After the air is pressurized inside the fan 53, it is pushed into the air guide trough 52 in the second fixing block 51. The fan 53 is installed on the top of the second fixing block 51. The air guide trough 52 is carefully designed to guide the pressurized air evenly to the noodles on the conveyor belt 2, so that the noodles are evenly dried during the conveying process to achieve a suitable degree of dryness and meet the needs of subsequent production and processing.
[0040] Working principle:
[0041] like Figures 1-4As shown, after the equipment is started, the conveyor belt 2 begins to operate, smoothly transporting the noodles to each processing area. Simultaneously, the fan 53 starts, its internal impeller rotates at high speed, drawing in outside air. After being heated and pressurized, the air is evenly blown onto the noodles on the conveyor belt 2 through the air guide trough 52 within the second fixed block 51, allowing the noodles to be efficiently dried during transport to achieve the appropriate degree of dryness. When the noodles reach the cutting position, the drive motor 31 starts working. As the core power source, after the drive motor 31 is powered on, it drives the first drive wheel 32, which is fixed to it, to rotate synchronously. The first drive wheel 32 drives the second drive wheel 34 to rotate via the belt 33. The rotation of the second drive wheel 34 then drives the limit post. The circular motion of the limiting post 35 is converted into the reciprocating motion of the limiting rod 37 within the first fixed block 38 via the connecting rod 36. This motion drives the cutting blade 311 at the bottom of the mounting base 39 to precisely cut the noodles to the set length. If the cutting parameters need to be changed, the operator can loosen the limiting block 43 and rotate the bolt 42 to change its depth in the limiting hole 41, thereby adjusting the position of the limiting post 35 and controlling the working state of the cutting blade 311 to meet the cutting requirements of different specifications of noodles. In addition, the telescopic spring 310 on the limiting rod 37 can buffer the cutting process, ensuring that the cutting blade 311 is subjected to uniform force and quickly returns to its original position after cutting, thus ensuring the continuity and stability of the work.
[0042] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present utility model without departing from the technical solution of the present utility model shall still fall within the protection scope of the technical solution of the present utility model.
Claims
1. A noodle drying and cutting integrated machine, characterized in that, include: A support frame (1) is provided with a conveyor belt (2) and a fan (53) is provided on the top of the support frame (1); A cutting assembly (3) is placed on a support frame (1). The cutting assembly (3) includes a second transmission wheel (34) rotatably connected to the support frame (1) near the bottom. A limit post (35) is provided on the second transmission wheel (34). A connecting rod (36) is rotatably connected to the limit post (35). A limit rod (37) is rotatably connected to the connecting rod (36). A first fixing block (38) is fixed on the support frame (1) near the limit rod (37). The limit rod (37) is slidably connected in the first fixing block (38). A mounting seat (39) is fixed on the top of the limit rod (37). A cutting blade (311) is fixed on the bottom of the mounting seat (39). Adjustment component (4) is placed on the second transmission wheel (34). The adjustment component (4) includes a limiting hole (41) opened on the second transmission wheel (34). A bolt (42) is threaded on the limiting post (35). The bolt (42) is set in the limiting hole (41). A limiting block (43) is threaded on the bolt (42).
2. The noodle drying and cutting integrated machine according to claim 1, characterized in that: A drive motor (31) is installed on the support frame (1) near the bottom, and a first drive wheel (32) is fixed to the output end of the drive motor (31).
3. The noodle drying and cutting integrated machine according to claim 2, characterized in that: A belt (33) is provided on the first drive wheel (32), and a second drive wheel (34) is provided on the side of the belt (33) away from the first drive wheel (32).
4. The noodle drying and cutting integrated machine according to claim 1, characterized in that: The limiting rod (37) is provided with a telescopic spring (310), one end of which is fixed to the first fixing block (38), and the other end of which is fixed to the mounting base (39).
5. The noodle drying and cutting integrated machine according to claim 1, characterized in that: A drying assembly (5) is provided on the side of the support frame (1) away from the cutting assembly (3), and the drying assembly (5) includes a second fixing block (51) fixed to the top of the support frame (1).
6. The noodle drying and cutting integrated machine according to claim 5, characterized in that: The second fixing block (51) has an air guide groove (52) inside.
7. A noodle drying and cutting integrated machine according to claim 5, characterized in that: The fan (53) is mounted on top of the second fixed block (51).