A pill machine
By designing a rotary cutting meatball machine, the problems of low efficiency and inconsistent meatball quality in existing meatball machines have been solved, achieving efficient and precise meatball production.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BINZHOU BINMIAO TRADING CO LTD
- Filing Date
- 2025-04-22
- Publication Date
- 2026-07-14
AI Technical Summary
Existing meatball machines are inefficient when cutting meat paste, causing adjacent meatballs to stick together and making it impossible to cut meat filling containing tendons, which affects the quality of the meatballs.
A meatball machine was designed, which uses a rotating connecting pipe and a cutting blade structure. The meat filling is cut while rotating, and the cutting blade is constantly cutting, avoiding frequent start-stop of the equipment and realizing high-speed assembly line forming.
It improves the efficiency of meatball preparation, ensures that each meatball has the same weight, shape and density, reduces size differences, and avoids meatball sticking and pipe blockage.
Smart Images

Figure CN224482819U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of meatball machines, and specifically relates to a meatball machine. Background Technology
[0002] A meatball machine is a device that shapes solid-liquid mixtures into spherical food products and is widely used in food processing and manufacturing.
[0003] In the modern meatball production process, meat of appropriate quality is first minced using a meat grinder, then shaped into appropriately sized balls, and then heated to ensure that the shape does not fall apart. However, the current meatball production process is inefficient and cannot meet the needs of mass production.
[0004] To address the aforementioned issues, existing meatball machines use a meat grinder to mince fresh meat into small pieces, a pulping machine to further process the minced meat into a meat paste, and finally a forming machine to roll the meat paste into meatballs.
[0005] However, existing meatball machines are inefficient at cutting meat paste, and adjacent meatballs tend to stick together. Because existing machines use a push-pull extrusion method to make meatballs, the pipes are easily clogged when cutting meat filling containing tendons, which in turn affects the quality of meatball production.
[0006] In summary, a new technology is urgently needed to address the problems of low efficiency in cutting meat paste using existing equipment, the tendency for adjacent meatballs to stick together, the inability to cut meat filling containing tendons, and the impact on meatball quality. Utility Model Content
[0007] This utility model provides a meatball machine, which aims to solve the problems of low efficiency in cutting meat paste, easy sticking between adjacent meatballs, inability to cut meat filling containing tendons, and affecting the quality of meatballs in existing devices.
[0008] The present invention is implemented as follows:
[0009] A meatball machine, comprising:
[0010] The frame has a first drive motor and a second drive motor fixed at one end. The first drive motor is connected to a drive gear through an output shaft. The drive gear is connected to the rotating pipe through a rotating gear. The second drive motor is connected to a cutter through an output shaft.
[0011] A stirring motor is fixed at the upper end of the frame. The stirring motor is connected to a stirring paddle through an output shaft. The stirring paddle is placed inside the stirring container. A rotating pipe is connected to the lower end of the stirring container through a connecting pipe. The end of the rotating pipe does not coincide with the cutting surface of the cutter.
[0012] Furthermore, the cutting surface of the cutter is located outside the rotating pipe and maintains a certain distance from the outside of the rotating pipe.
[0013] Furthermore, the connecting pipe and the rotating pipe are fixedly connected by a rotating shaft.
[0014] Furthermore, a rotating gear is provided on the outside of the rotating pipe at a position corresponding to the drive gear, and the drive gear and the rotating gear mesh with each other.
[0015] Furthermore, a switch is installed between the connecting pipe and the mixing container.
[0016] The beneficial effects achieved by this utility model are:
[0017] In this embodiment, the minced meat is rotated by a rotating connecting pipe, and the minced meat is cut while rotating, resulting in standard spherical shapes. During the rotation of the minced meat, it is continuously pushed to the cutting point, eliminating the need for frequent start-stop of the equipment and achieving high-speed assembly line forming. Moreover, because the cutter is constantly cutting, the pelleting efficiency is extremely high. At the same time, the high precision of the rotary cutting mechanism ensures that the weight, shape, and density of each pellet are highly consistent, reducing specification differences caused by manual operation. Attached Figure Description
[0018] Figure 1 This is a schematic diagram of the structure of the meatball machine provided by this utility model.
[0019] Icon labels:
[0020] 100. Meatball machine; 101. Drive gear; 102. Rotating pipe; 103. Rotating gear; 104. Cutter; 105. Connecting pipe; 106. Mixing container; 107. Third drive motor. Detailed Implementation
[0021] To make the objectives, technical solutions, and advantages of this invention clearer, the invention will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative and not intended to limit the invention.
[0022] In this embodiment, the minced meat is rotated by a rotating connecting pipe, and the minced meat is cut while rotating, resulting in standard spherical shapes. During the rotation of the minced meat, it is continuously pushed to the cutting point, eliminating the need for frequent start-stop of the equipment and achieving high-speed assembly line forming. Moreover, because the cutter is constantly cutting, the pelleting efficiency is extremely high. At the same time, the high precision of the rotary cutting mechanism ensures that the weight, shape, and density of each pellet are highly consistent, reducing specification differences caused by manual operation.
[0023] Example 1
[0024] Reference Figure 1 In this embodiment of the utility model, a meatball machine 100 is provided, comprising:
[0025] The frame has a first drive motor and a second drive motor fixed at one end. The first drive motor is connected to a drive gear 101 through an output shaft. The drive gear 101 is connected to the rotating pipe 102 through a rotating gear 103. The second drive motor is connected to a cutter 104 through an output shaft.
[0026] A stirring motor is fixed at the upper end of the frame. The stirring motor is connected to a stirring paddle through an output shaft. The stirring paddle is placed inside the stirring container 106. The lower end of the stirring container 106 is connected to a rotating pipe 102 through a connecting pipe 105. The end of the rotating pipe 102 does not coincide with the cutting surface of the cutter 104.
[0027] In this embodiment of the utility model, the cutting surface of the cutter 104 is located outside the rotating pipe 102 and maintains a certain distance from the outside of the rotating pipe 102. The connecting pipe 105 is fixedly connected to the rotating pipe 102 by a rotating shaft. A rotating gear 103 is provided on the outside of the rotating pipe 102 at a position corresponding to the drive gear 101. The drive gear 101 and the rotating gear 103 mesh with each other.
[0028] In this embodiment, a first drive motor is fixed at one end of the frame, and the first drive motor is connected to an output shaft through a coupling. A drive gear 101 is fixed at the front end of the output shaft. The drive gear 101 and the output shaft can be fixedly connected by an inlay method. The output shaft is fixedly connected to the frame through a bearing.
[0029] The second drive motor is used to drive the cutter 104 to rotate. The second drive motor is connected to a drive shaft through a coupling. The cutter 104 is fixed at the end of the drive shaft. The cutter 104 can be connected to the drive shaft by a threaded connection.
[0030] The third drive motor 107 is located at the upper end of the frame. The lower end of the third drive motor 107 is fixed with an output shaft. The output shaft is connected to a stirring paddle through a coupling. The stirring paddle is located inside the stirring container 106. The stirring paddle is used to stir the minced meat. The stirring container 106 is used to hold the minced meat. The minced meat is stirred evenly in the stirring container 106 by the stirring paddle. A connecting pipe 105 is provided at the bottom of the stirring container 106. The connecting pipe 105 is fixedly connected to the stirring container 106 by embedding. The other end of the connecting pipe 105 is connected to a rotating pipe 102 through a bearing. The rotating pipe 102 can rotate around the connecting pipe 105. A rotating gear 103 is provided on the outside of the end of the rotating pipe 102 away from the stirring container 106. The drive gear 101 and the rotating gear 103 are fixedly connected by meshing. The drive gear 101 drives the rotating gear 103 to rotate. The rotating gear 103 drives the rotating pipe 102 to rotate.
[0031] Based on the above structure, when preparing meatballs, the minced meat is placed in the mixing container 106, and the mixing paddle is driven by the third drive motor 107 to stir. After the minced meat is stirred evenly, the switch set between the mixing container 106 and the connecting pipe 105 is opened. The minced meat enters the connecting pipe 105 under the drive of the mixing paddle. The minced meat enters the rotating pipe 102 through the connecting pipe 105. The minced meat rotates under the drive of the rotating pipe 102. While rotating, the minced meat is cut by the cutter 104. The minced meat changes from a long strip to a ball shape. When cutting, the tendons can be cut apart to avoid the tendons clogging the pipe.
[0032] In this embodiment, the meat filling is rotated by a rotating connecting pipe 105, and the meat filling is cut while rotating, resulting in standard spherical shapes. During the rotation of the meat filling, it is continuously pushed to the cutting point, eliminating the need for frequent start-stop of the equipment and achieving high-speed assembly line forming. Moreover, because the cutter 104 is constantly cutting, the pelleting efficiency is extremely high. At the same time, due to the high precision of the rotary cutting mechanical action, the weight, shape, and density of each pellet are highly consistent, reducing specification differences caused by manual operation.
[0033] In the description of this specification, references to terms such as "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., indicate that a specific feature, structure, material, or characteristic described in connection with an embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.
[0034] Furthermore, the above are merely preferred embodiments of the present utility model and are not intended to limit the present utility model. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A pill machine characterized in that, The utility model relates to a kind of rotary cutting device, including: Frame body, first drive motor and second drive motor are fixed in one end of frame body, first drive motor is connected with drive gear by output shaft, drive gear is connected with rotating pipeline by rotating gear, second drive motor is connected with cutter by output shaft; Stirring motor is fixed in the upper end of frame body, stirring motor is connected with stirring paddle by output shaft, stirring paddle is arranged in stirring container, the lower end of stirring container is connected with rotating pipeline by communicating pipeline, the end of rotating pipeline does not coincide with cutter cutting surface.
2. The pellet mill of claim 1, wherein, The cutter cutting surface is located outside rotating pipeline and keeps a certain distance with the outside of rotating pipeline.
3. The pellet mill of claim 1, wherein, The communicating pipeline and rotating pipeline are fixedly connected by rotating shaft.
4. The pellet mill of claim 1, wherein, Rotating gear is arranged in the corresponding position of drive gear outside rotating pipeline, and drive gear and rotating gear are engaged with each other.
5. The pellet mill of claim 1, wherein, Switch is arranged between communicating pipeline and stirring container.