A stirring device for feed fungicide

By designing a stirring device with multiple rotating seats and mixing tanks, multiple mixing tanks can work simultaneously, solving the problems of low efficiency and uneven mixing in traditional equipment, and improving the efficiency and mixing effect of large-scale production.

CN224332013UActive Publication Date: 2026-06-09WUXI JINJIE ZHONGSHENG BIOTECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WUXI JINJIE ZHONGSHENG BIOTECHNOLOGY CO LTD
Filing Date
2025-07-10
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Traditional feed mold inhibitor mixing equipment is inefficient, making it difficult to meet the needs of large-scale production. Furthermore, uneven mixing leads to mold inhibitor sedimentation and feed floating, affecting consistency and stability.

Method used

Design a mixing device that includes multiple rotating seats and mixing tanks. The rotating seats drive the mixing tanks to rotate, and combined with the design of adjustable rotating frames and hangers, multiple mixing tanks can work simultaneously, and the mixing components can be used for double mixing to ensure uniform mixing.

Benefits of technology

It improves mixing efficiency and uniformity, meets the needs of large-scale production, ensures that feed and mold inhibitors are fully mixed, and reduces labor costs and environmental pollution.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the technical field of mixing devices, and particularly to a mixing device for feed mold inhibitors. It includes a base, comprising a base box and a base plate. The base plate is fixedly installed on the upper surface of the base box. A plurality of rotating seats are evenly installed along the circumferential direction on the upper surface of the base plate. The rotating seats are rotatably connected to the base plate, and a drive mechanism for rotating the rotating seats is installed on the lower surface of the base plate. A mixing drum is fixedly installed in each rotating seat, and an adjustable rotating frame is vertically installed at the center of the upper surface of the base plate. This application, by setting multiple rotating seats and a mixing drum, enables multiple mixing drums to perform mixing operations simultaneously, greatly improving the mixing efficiency of the feed mold inhibitor and meeting the needs of large-scale production. The rotating seats drive the mixing drum to rotate, while the mixing components simultaneously stir the feed and mold inhibitor within the mixing drum. This dual mixing method ensures thorough mixing of the feed and mold inhibitor, guaranteeing the mixing effect.
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Description

Technical Field

[0001] This utility model relates to the field of mixing device technology, and in particular to a mixing device for feed anti-mold agents. Background Technology

[0002] In the feed production process, an appropriate amount of mold inhibitor needs to be added to prevent the feed from becoming moldy and spoiled. When adding the mold inhibitor, it is necessary to thoroughly mix it with the feed to ensure the quality and safety of the feed.

[0003] Traditional feed mold inhibitor mixing equipment mostly adopts a single-bucket mixing mode, mainly using a single mixing tank with a simple paddle mixer. When facing large-scale production needs, the efficiency of single-bucket mixing is extremely low, requiring multiple repeated mixing operations. This not only consumes a lot of time and labor costs, but also easily leads to significant differences in mixing effects between different batches, affecting the consistency and stability of feed mold prevention.

[0004] Furthermore, traditional mixing equipment uses a single mixing method and lacks synergistic effects. Most equipment relies solely on the rotation of the mixing paddle for mixing. When processing mixtures containing granular antifungal agents and powdered feed, simple rotational mixing easily causes the antifungal agents to settle at the bottom of the mixing tank, while the feed floats on the top, failing to achieve thorough mixing. Utility Model Content

[0005] This invention solves the problems in related technologies and proposes a stirring device for feed anti-mold agents.

[0006] To solve the above-mentioned technical problems, this utility model is achieved through the following technical solution:

[0007] A mixing device for feed mold inhibitors includes a base, which comprises a base box and a base plate. The base plate is fixedly installed on the upper surface of the base box. A plurality of rotating seats are evenly installed on the upper surface of the base plate along the circumferential direction. The rotating seats are rotatably connected to the base plate, and a drive mechanism for driving the rotating seats to rotate is installed on the lower surface of the base plate. A mixing tank is fixedly installed in the rotating seats. An adjustable rotating frame is vertically installed at the center of the upper surface of the base plate. The adjustable rotating frame is rotatably connected to the base plate, and an angle motor for driving the adjustable rotating frame to rotate is provided at the center of the lower surface of the base plate. A hanger is slidably installed on the adjustable rotating frame, and an electric cylinder for controlling the lifting and lowering of the hanger is fixedly installed in the adjustable rotating frame. A mixing component that cooperates with the mixing tank is installed at the head of the hanger.

[0008] As a preferred embodiment, the rotating seat includes a turntable frame, a connecting shaft, and a tank shell for mounting the mixing tank. The turntable frame is rotatably mounted on the seat plate, the connecting shaft is located on the lower end face of the turntable frame, and the tank shell is mounted on the upper end face of the turntable frame. The turntable frame, the connecting shaft, and the tank shell are integrally formed, and adjacent connecting shafts are connected by a synchronous belt.

[0009] As a preferred embodiment, the drive mechanism includes a mechanism base, a drive motor, and a drive belt. The mechanism base is fixedly installed on the lower end face of the base plate, the drive motor is fixedly installed on the mechanism base, and the drive motor is connected to the connecting shaft through the drive belt.

[0010] As a preferred embodiment, the adjustable rotating frame includes a frame box and a guide rod. The frame box is rotatably mounted at the center of the upper end face of the base plate, and the guide rod is vertically fixed in the frame box.

[0011] As a preferred embodiment, the hanger includes a support rod seat and a top plate for fixing the mixing assembly. The support rod seat is sleeved on the guide rod, and the top plate is fixedly installed on the head of the support rod seat.

[0012] As a preferred embodiment, the stirring assembly includes a stirring motor and a stirring rod, with the stirring motor fixedly mounted on the lower end face of the top plate and the stirring rod connected to the output end of the stirring motor.

[0013] As a preferred embodiment, a sealing cover is fitted onto the stirring rod, and the sealing cover is connected to the stirring rod via a bearing.

[0014] Compared with existing technologies, the beneficial effects of this utility model are as follows: By setting multiple rotating seats and mixing tanks, this application enables multiple mixing tanks to perform mixing operations simultaneously, greatly improving the mixing efficiency of feed anti-mold agents and meeting the needs of large-scale production. The rotating seats drive the mixing tanks to rotate, while the mixing components stir the feed and anti-mold agents inside the mixing tanks. This dual mixing method ensures thorough mixing of the feed and anti-mold agents, guaranteeing the mixing effect. The adjustable rotating frame can rotate under the drive of an angle motor, and the hanging frame can be raised and lowered under the control of an electric cylinder, allowing the mixing components to be flexibly switched between different mixing tanks, improving the flexibility of the device. Furthermore, the sealing cover on the mixing rod prevents feed and anti-mold agents from splashing out of the mixing tanks, ensuring cleanliness and safety during mixing operations, while also reducing pollution to the working environment. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0016] Figure 2 yes Figure 1 The device shown is a lower perspective view of the device without the mounting box installed.

[0017] Figure 3 yes Figure 1 The diagram shows the upper perspective view of the device without the mounting box installed.

[0018] Figure 4 yes Figure 2 A front view of the device shown;

[0019] Figure 5 This is a perspective view of the stirring assembly in an embodiment of this utility model.

[0020] In the diagram: 1. Equipment base; 11. Seat box; 12. Seat plate; 2. Rotating seat; 21. Turntable frame; 22. Connecting shaft; 221. Synchronous belt; 23. Tank shell; 3. Drive mechanism; 31. Mechanism seat; 32. Drive motor; 33. Drive belt; 4. Mixing tank; 5. Adjustable rotating frame; 50. Electric cylinder; 51. Frame box; 52. Guide rod; 6. Angle motor; 7. Hanger; 71. Frame rod seat; 72. Top plate; 8. Mixing assembly; 81. Mixing motor; 82. Mixing rod; 83. Sealing cover. Detailed Implementation

[0021] 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. The following description of at least one exemplary embodiment is merely illustrative and is in no way intended to limit the present utility model or its application or use. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the scope of protection of the present utility model.

[0022] It should be noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the exemplary embodiments according to this application. As used herein, the singular form is intended to include the plural form as well, unless the context clearly indicates otherwise. Furthermore, it should be understood that when the terms "comprising" and / or "including" are used in this specification, they indicate the presence of features, steps, operations, devices, components, and / or combinations thereof.

[0023] Unless otherwise specifically stated, the relative arrangement, numerical expressions, and values ​​of the components and steps described in these embodiments do not limit the scope of this invention. It should also be understood that, for ease of description, the dimensions of the various parts shown in the drawings are not drawn to actual scale. Techniques, methods, and devices known to those skilled in the art may not be discussed in detail, but where appropriate, such techniques, methods, and devices should be considered part of the specification. In all examples shown and discussed herein, any specific values ​​should be interpreted as merely exemplary and not as limitations. Therefore, other examples of exemplary embodiments may have different values. It should be noted that similar reference numerals and letters in the following figures denote similar items; therefore, once an item is defined in one figure, it need not be further discussed in subsequent figures.

[0024] In the description of this utility model, it should be understood that the directional terms such as "front, back, up, down, left, right", "horizontal, vertical, horizontal" and "top, bottom" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description. Unless otherwise stated, these directional terms do not indicate or imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation on the scope of protection of this utility model. The directional terms "inner" and "outer" refer to the inner and outer contours relative to the outline of each component itself.

[0025] For ease of description, spatial relative terms such as "above," "over," "on the upper surface of," "above," etc., are used herein to describe the spatial positional relationship of a device or feature as shown in the figures to other devices or features. It should be understood that spatial relative terms are intended to encompass different orientations in use or operation beyond the orientation of the device as described in the figures. For example, if the device in the figures were inverted, a device described as "above" or "above" other devices or structures would subsequently be positioned as "below" or "under" other devices or structures. Thus, the exemplary term "above" can include both "above" and "below." The device may also be positioned in other different ways (rotated 90 degrees or in other orientations), and the spatial relative descriptions used herein will be interpreted accordingly.

[0026] Furthermore, it should be noted that the use of terms such as "first" and "second" to define components is merely for the purpose of distinguishing the corresponding components. Unless otherwise stated, the above terms have no special meaning and therefore cannot be construed as limiting the scope of protection of this utility model.

[0027] Reference Figure 1 , Figure 2 and Figure 3As shown, a mixing device for feed mold inhibitors includes a base 1, which includes a base box 11 and a base plate 12. The base plate 12 is fixedly installed on the upper surface of the base box 11. A plurality of rotating seats 2 are evenly installed along the circumferential direction on the upper surface of the base plate 12. The rotating seats 2 are rotatably connected to the base plate 12. A drive mechanism 3 for driving the rotating seats 2 to rotate is installed on the lower surface of the base plate 12. A mixing tank 4 is fixedly installed in the rotating seats 2. An adjustable rotating frame 5 is vertically installed at the center of the upper surface of the base plate 12 and is rotatably connected to the base plate 12. An angle motor 6 for driving the adjustable rotating frame 5 to rotate is provided at the center of the lower surface of the base plate 12. A hanger 7 is slidably installed on the adjustable rotating frame 5, and an electric cylinder 50 for controlling the lifting and lowering of the hanger 7 is fixedly installed in the adjustable rotating frame 5. A mixing component 8 that cooperates with the mixing tank 4 is installed at the head of the hanger 7. By setting multiple rotating seats 2 and mixing tanks 4, multiple mixing tanks 4 can be mixed simultaneously, greatly improving production efficiency. The adjustable rotating frame 5 allows the mixing assembly 8 to be switched between different mixing tanks 4, increasing the flexibility and practicality of the device. The angle motor 6 can drive the adjustable rotating frame 5 to rotate, and the electric cylinder 50 can control the lifting of the hanger 7, making it easy for the mixing assembly 8 to accurately enter and leave the mixing tank 4, ensuring smooth mixing. In use, the rotation of the mixing tank 4 and the coordinated rotation of the mixing assembly 8 achieve more uniform mixing.

[0028] Reference Figure 2 , Figure 3 and Figure 4 As shown, the rotating base 2 includes a turntable frame 21, a connecting shaft 22, and a tank shell 23 for mounting the mixing tank 4. The turntable frame 21 is rotatably mounted on the base plate 12. The connecting shaft 22 is located on the lower end face of the turntable frame 21, and the tank shell 23 is mounted on the upper end face of the turntable frame 21. The turntable frame 21, connecting shaft 22, and tank shell 23 are integrally formed. Adjacent connecting shafts 22 are connected by a synchronous belt 221. The structural design of the rotating base 2 allows the mixing tank 4 to be stably mounted on the rotating base 2. Furthermore, the synchronous belt 221 connects adjacent connecting shafts 22, ensuring that multiple rotating bases 2 rotate synchronously, thereby enabling multiple mixing tanks 4 to rotate synchronously, further improving the uniformity and efficiency of mixing. The integrally formed design enhances the structural strength and stability of the rotating base 2.

[0029] Reference Figure 2As shown, the drive mechanism 3 includes a mechanism base 31, a drive motor 32, and a drive belt 33. The mechanism base 31 is fixedly mounted on the lower end face of the base plate 12, and the drive motor 32 is fixedly mounted on the mechanism base 31. The drive motor 32 is connected to the connecting shaft 22 via the drive belt 33. The drive mechanism 3 drives the connecting shaft 22 to rotate through the drive motor 32 and the drive belt 33, thereby driving the rotating seat 2 and the mixing tank 4 to rotate. This transmission method has a simple structure, high transmission efficiency, and can stably provide rotational power to the mixing tank 4, ensuring the normal operation of the mixing work.

[0030] Reference Figure 3 As shown, the adjustable rotating frame 5 includes a frame housing 51 and a guide rod 52. The frame housing 51 is rotatably mounted at the center of the upper end face of the base plate 12, and the guide rod 52 is vertically fixed in the frame housing 51. The design of the frame housing 51 and the guide rod 52 of the adjustable rotating frame 5 provides a stable guiding effect for the sliding of the hanger 7, enabling the hanger 7 to rise and fall smoothly along the guide rod 52, ensuring that the stirring assembly 8 can accurately enter and leave the stirring tank 4, thus improving the reliability and stability of the device.

[0031] Reference Figure 4 As shown, the hanger 7 includes a support rod 71 and a top plate 72 for fixing the mixing assembly 8. The support rod 71 is sleeved on the guide rod 52, and the top plate 72 is fixedly installed on the head of the support rod 71. The design of the support rod 71 and the top plate 72 of the hanger 7 allows the mixing assembly 8 to be firmly installed on the hanger 7. Furthermore, by having the support rod 71 sleeved on the guide rod 52, the hanger 7 can be raised and lowered smoothly, ensuring that the mixing assembly 8 will not shake during the raising and lowering process, thus guaranteeing the accuracy and stability of the mixing operation.

[0032] Reference Figure 5 As shown, the mixing assembly 8 includes a mixing motor 81 and a mixing rod 82. The mixing motor 81 is fixedly installed on the lower end face of the top plate 72, and the mixing rod 82 is connected to the output end of the mixing motor 81. The design of the mixing motor 81 and the mixing rod 82 in the mixing assembly 8 provides power for the mixing operation. The mixing motor 81 drives the mixing rod 82 to rotate, thereby mixing the feed and antifungal agent in the mixing tank 4. This structure is simple, has a good mixing effect, and can ensure that the feed and antifungal agent are fully mixed. A sealing cover 83 is fitted on the mixing rod 82, and the sealing cover 83 is connected to the mixing rod 82 through a bearing. The sealing cover 83 fitted on the mixing rod 82 is connected to the mixing rod 82 through a bearing. During the mixing process, the sealing cover 83 can prevent the feed and antifungal agent from splashing out of the mixing tank 4, while not affecting the normal rotation of the mixing rod 82, ensuring the cleanliness and safety of the mixing operation.

[0033] In this embodiment, during use, the feed and mold inhibitor are first added to each of the mixing tanks 4. Then, the drive motor 32 is started, which drives the connecting shaft 22 to rotate via the drive belt 33, thereby rotating the rotating base 2 and the mixing tank 4. Next, the angle motor 6 is started, driving the adjustable rotating frame 5 to rotate, moving the mixing component 8 above the mixing tank to be mixed. Then, the electric cylinder 50 is started, controlling the hanger 7 to descend, allowing the mixing rod 82 to enter the mixing tank 4. Finally, the mixing motor 81 is started, driving the mixing rod 82 to rotate, mixing the feed and mold inhibitor in the mixing tank. After mixing is completed, the electric cylinder 50 controls the hanger 7 to rise, and the angle motor 6 drives the adjustable rotating frame 5 to rotate, moving the mixing component above the next mixing tank, repeating the above mixing process.

[0034] The above are preferred embodiments of this utility model. Those skilled in the art can make changes and modifications to the above embodiments. Therefore, this utility model is not limited to the specific embodiments described above. Any obvious improvements, substitutions or modifications made by those skilled in the art based on this utility model shall fall within the protection scope of this utility model.

Claims

1. A stirring device for feed mold inhibitor, comprising a device base (1), characterized in that: The equipment base (1) includes a base box (11) and a base plate (12). The base plate (12) is fixedly installed on the upper end face of the base box (11). A plurality of rotating seats (2) are evenly installed on the upper end face of the base plate (12) along the circumferential direction. The rotating seats (2) are rotatably connected to the base plate (12), and a driving mechanism (3) for driving the rotating seats (2) to rotate is installed on the lower end face of the base plate (12). A stirring tank (4) is fixedly installed in the rotating seat (2). The base plate (12) An adjustable rotating frame (5) is vertically installed at the center of the upper end face. The adjustable rotating frame (5) is rotatably connected to the base plate (12). An angle motor (6) for driving the adjustable rotating frame (5) to rotate is provided at the center of the lower end face of the base plate (12). A hanger (7) is slidably installed on the adjustable rotating frame (5). An electric cylinder (50) for controlling the lifting and lowering of the hanger (7) is fixedly installed in the adjustable rotating frame (5). A stirring assembly (8) that cooperates with the stirring tank (4) is installed at the head of the hanger (7).

2. The stirring device for a feed mold inhibitor according to claim 1, characterized in that: The rotating seat (2) includes a turntable frame (21), a connecting shaft (22), and a barrel shell (23) for mounting the mixing tank (4). The turntable frame (21) is rotatably mounted on the seat plate (12). The connecting shaft (22) is located on the lower end face of the turntable frame (21). The barrel shell (23) is mounted on the upper end face of the turntable frame (21). The turntable frame (21), the connecting shaft (22), and the barrel shell (23) are integrally formed. Adjacent connecting shafts (22) are connected by a synchronous belt (221).

3. The stirring device for a feed mold inhibitor according to claim 2, characterized in that: The drive mechanism (3) includes a mechanism seat (31), a drive motor (32) and a drive belt (33). The mechanism seat (31) is fixedly installed on the lower end face of the seat plate (12). The drive motor (32) is fixedly installed on the mechanism seat (31) and the drive motor (32) is connected to the connecting shaft (22) through the drive belt (33).

4. The stirring device for a feed mold inhibitor according to claim 3, characterized in that: The adjustable rotating frame (5) includes a frame box (51) and a guide rod (52). The frame box (51) is rotatably mounted at the center of the upper end face of the seat plate (12), and the guide rod (52) is vertically fixed in the frame box (51).

5. The stirring device for a feed mold inhibitor according to claim 4, characterized in that: The hanger (7) includes a support rod seat (71) and a top plate (72) for the fixed installation of the mixing assembly (8). The support rod seat (71) is sleeved on the guide rod (52), and the top plate (72) is fixedly installed on the head of the support rod seat (71).

6. The stirring device for a feed mold inhibitor according to claim 5, characterized in that: The stirring assembly (8) includes a stirring motor (81) and a stirring rod (82). The stirring motor (81) is fixedly installed on the lower end face of the top plate (72), and the stirring rod (82) is connected to the output end of the stirring motor (81).

7. A stirring device for a feed mold inhibitor according to claim 6, characterized in that: A sealing cover (83) is fitted on the stirring rod (82), and the sealing cover (83) is connected to the stirring rod (82) through a bearing.