Wine body design mixing device based on a rotating homogenizing mechanism

CN224371187UActive Publication Date: 2026-06-19SICHUAN YINFAN BIOTECH LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SICHUAN YINFAN BIOTECH LTD
Filing Date
2025-06-07
Publication Date
2026-06-19

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Abstract

The utility model belongs to the technical field of wine body mixing, specifically relates to wine body design mixing arrangement based on rotation homogenate mechanism, including stirring bucket, the movable setting of stirring bucket has stirring paddle, is installed on stirring bucket for driving stirring paddle rotation's drive mechanism, the inner wall of stirring bucket is fixed with at least one guide plate, drive mechanism includes having the first motor of installation in stirring bucket top, the output of first motor is fixed with stirring shaft vertically downward, stirring shaft rotatory connection is in stirring bucket inside, stirring paddle and stirring shaft sliding connection, the reset structure is installed between stirring paddle and stirring shaft, the side of guide plate is close to stirring paddle and is provided with the guide surface, and stirring paddle and guide surface abut, reset structure includes the fixed sheet of fixed in the outside of stirring paddle. The utility model can reciprocatingly swing left and right, breaks the limitation of traditional stirring paddle single rotation, promotes the uniformity and production efficiency of wine mixing.
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Description

Technical Field

[0001] This utility model belongs to the field of wine mixing technology, specifically relating to a wine mixing device based on a rotating homogenizing mechanism. Background Technology

[0002] In today's beverage production industry, the uniformity of mixing of the beverage plays a crucial role in the quality and taste of the product. To achieve this goal, various beverage mixing devices have emerged. Currently, there are many types of mixing devices on the market, such as some devices that use conventional stirring paddles to stir the beverage. These devices use motors to drive the stirring paddles to rotate in the beverage to achieve the purpose of mixing. However, these traditional devices have revealed some obvious defects in practical applications.

[0003] On the one hand, existing stirring paddles can usually only rotate in one direction. This means that during the stirring process, the liquid can only make a relatively conventional circular motion driven by the stirring paddle. The flow pattern of the liquid is relatively simple and it is difficult to fully cover the entire mixing space. As a result, some liquid cannot be effectively stirred, and the mixing uniformity is poor. On the other hand, because the movement mode of the stirring paddle is fixed, the shear force and impact force that the liquid is subjected to during the stirring process are relatively limited. For some complex liquids that require high-intensity mixing, the existing stirring method is difficult to fully integrate the various components, which affects the overall quality of the liquid.

[0004] In conclusion, existing wine mixing devices have many shortcomings in terms of mixing effect, and there is an urgent need for an innovative device to improve this situation. Utility Model Content

[0005] The purpose of this invention is to provide a wine mixing device based on a rotating homogenizing mechanism, which can swing back and forth, breaking the limitation of the traditional single rotation of the stirring paddle and improving the uniformity of wine mixing and production efficiency.

[0006] The specific technical solution adopted by this utility model is as follows:

[0007] A wine mixing device based on a rotating homogenizing mechanism includes a stirring tank, a stirring paddle movably disposed inside the stirring tank, a drive mechanism for driving the stirring paddle to rotate mounted on the stirring tank, at least one guide plate fixed to the inner wall of the stirring tank, and the drive mechanism including a first motor mounted on the top of the stirring tank, a stirring shaft vertically fixed to the output end of the first motor, the stirring shaft being rotatably connected inside the stirring tank, the stirring paddle being slidably connected to the stirring shaft, and a reset structure installed between the stirring paddle and the stirring shaft.

[0008] The guide plate has a guide surface on the side near the agitator, and the agitator abuts against the guide surface.

[0009] The reset structure includes a fixing plate fixed to the outside of the stirring paddle, and a spring is installed between the fixing plate and the stirring shaft and located on the outside of the stirring paddle.

[0010] Multiple stirring blades are fixed near the center of the stirring paddle, and the top and bottom of both ends of the stirring blades are provided with inclined surfaces.

[0011] The inner wall of the mixing tank is provided with grooves that are the same number and position as the guide plates. The guide plates are slidably connected in the grooves. A ring gear is fixed to the inner wall of the mixing tank. A second motor is installed in the guide plate. A transmission gear is fixed to the output end of the second motor, and the transmission gear is meshed with the ring gear.

[0012] A conductive ring is fixed on the inner wall of the mixing tank near the second motor, and the power terminal of the second motor slides on the conductive ring.

[0013] The technical effects achieved by this utility model are as follows:

[0014] This invention, when the stirring paddle stirs the liquor, can make the stirring paddle swing back and forth by contacting the guide plate, being guided by the guide surface, and being reset by the spring. This breaks the limitation of the traditional stirring paddle's single rotation and improves the uniformity of liquor mixing and production efficiency. Attached Figure Description

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

[0016] Figure 2 This is a cross-sectional view of the mixing tank in this utility model;

[0017] Figure 3 This is a schematic diagram of the structure between the stirring blade, the stirring paddle, and the guide plate in this utility model;

[0018] Figure 4 This utility model Figure 3 Enlarged view of point A in the middle;

[0019] Figure 5 This is a schematic diagram of the structure between the guide plate, guide surface and ring gear in this utility model;

[0020] Figure 6 This utility model Figure 5 Enlarged view of point B in the middle.

[0021] The attached diagram lists the components represented by each number as follows:

[0022] 1. Mixing tank; 2. Mixing shaft; 3. First motor; 4. Mixing paddle; 5. Mixing blade; 6. Inclined surface; 7. Guide plate; 8. Guide surface; 9. Fixing plate; 10. Spring; 11. Ring gear; 12. Transmission gear; 13. Second motor. Detailed Implementation

[0023] To make the objectives and advantages of this utility model clearer, the following detailed description is provided in conjunction with embodiments. It should be understood that the following text is merely used to describe one or more specific embodiments of this utility model and does not strictly limit the scope of protection specifically claimed by this utility model.

[0024] like Figures 1-6 As shown, a wine mixing device based on a rotating homogenizing mechanism includes a mixing tank 1. One end of the mixing tank 1 is provided with an inlet pipe and the other end with an outlet pipe. Various wines are fed into the inlet pipe, and after being mixed in the mixing tank 1, they are discharged from the outlet pipe. Both the inlet pipe and the outlet pipe are equipped with solenoid valves to control the feeding and discharging. A stirring paddle 4 is movably arranged inside the mixing tank 1. When the stirring paddle 4 rotates, it can mix the wines in the mixing tank 1. A drive mechanism for driving the stirring paddle 4 to rotate is installed on the mixing tank 1.

[0025] See attached document Figure 2 The drive mechanism includes a first motor 3 mounted on the top of the mixing tank 1. The output end of the first motor 3 is vertically fixed to a stirring shaft 2. The stirring shaft 2 is rotatably connected inside the mixing tank 1. The stirring paddle 4 is slidably connected to the stirring shaft 2. A linear bearing is provided inside the stirring shaft 2 and outside the stirring paddle 4, so that the stirring paddle 4 slides better on the stirring shaft 2.

[0026] When the first motor 3 is driven, it can drive the stirring shaft 2 to rotate, and through the sliding connection between the stirring shaft 2 and the stirring paddle 4, it can drive the stirring paddle 4 to rotate, thereby enabling the stirring paddle 4 to mix the wine and water inside the stirring tank 1. At least one guide plate 7 is fixed on the inner wall of the stirring tank 1. A reset structure is installed between the stirring paddle 4 and the stirring shaft 2. Through the centrifugal force of the rotation of the stirring shaft 2 and the stirring paddle 4 and the reset structure (the stirring paddle 4 rotates relatively slowly, so the centrifugal force actually plays a small role), the stirring paddle 4 moves towards the direction of the guide plate 7, thereby causing the stirring paddle 4 and the guide plate 7 to abut against each other.

[0027] See attached document Figure 3Multiple stirring blades 5 are fixed near the middle of the stirring paddle 4. The top and bottom of both ends of the stirring blades 5 are provided with inclined surfaces 6. The stirring blades 5 can increase the stirring effect on the liquor, and the inclined surfaces 6 can separate the liquor upward and downward. The stirring shaft 2 can also be provided with a plate similar to the stirring blades 5 to further increase the stirring effect.

[0028] The guide plate 7 has a guide surface 8 on the side near the stirring paddle 4. The guide surface 8 gradually increases in inclination clockwise, and the stirring paddle 4 abuts against the guide surface 8. By setting the guide surface 8, the stirring paddle 4 can gradually move away from the guide plate 7 when it rotates. When it leaves the guide plate 7, the stirring paddle 4 is reset by a reset structure. In this way, the stirring paddle 4 can move back and forth left and right when it rotates, thereby increasing the stirring range of the beverage and ensuring the stirring effect.

[0029] See attached document Figure 4 The reset structure includes a fixing plate 9 fixed to the outside of the stirring paddle 4. A spring 10 is installed between the fixing plate 9 and the stirring shaft 2 and on the outside of the stirring paddle 4. After the stirring paddle 4 rotates to leave the guide plate 7, the spring 10 applies elasticity to the fixing plate 9 and drives the stirring paddle 4 to move through the fixing plate 9, so that the stirring paddle 4 is reset.

[0030] See attached document Figure 2 Appendix Figure 5 and attached Figure 6The inner wall of the mixing tank 1 is provided with grooves that are the same number and position as the guide plates 7. The guide plates 7 are slidably connected in the grooves. A ring gear 11 is fixed to the inner wall of the mixing tank 1. A second motor 13 is installed inside the guide plate 7. A transmission gear 12 is fixed to the output end of the second motor 13, and the transmission gear 12 is meshed with the ring gear 11. When it is necessary to change the position of the guide plate 7, the second motor 13 can be driven, so that the output end of the second motor 13 drives the transmission gear 12 to rotate. Through the meshing connection between the transmission gear 12 and the ring gear 11, the transmission gear 12 drives the guide plate 7 to move, thereby enabling the guide plate 7 to move and change the position of the mixing paddle 4 abutting against the guide plate 7. During stirring, the position of the guide plate 7 can be changed at any time or at set intervals, thereby making the stirring position of the stirring paddle 4 random and increasing the stirring effect. Furthermore, a conductive ring is fixed on the inner wall of the stirring tank 1 near the second motor 13, and the power terminal of the second motor 13 slides on the conductive ring. When the guide plate 7 rotates, the second motor 13 can always be in contact with the conductive ring through the power terminal, thereby ensuring normal power supply to the second motor 13. Protective covers can be set at the conductive ring and the power terminal of the second motor 13 to prevent splashing of alcohol. In fact, the power supply wire of the second motor 13 can be set to be relatively long, thus serving as an alternative to the conductive ring.

[0031] The above description is merely a preferred embodiment of this utility model. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of this utility model, and these improvements and modifications should also be considered within the scope of protection of this utility model. Structures, devices, and operating methods not specifically described or explained in this utility model, unless otherwise specified or limited, shall be implemented using conventional methods in the field.

Claims

1. A wine design mixing device based on a rotating homogenizer mechanism, comprising a stirring barrel (1), characterized in that: A stirring paddle (4) is movably disposed inside the stirring tank (1). A driving mechanism for driving the stirring paddle (4) to rotate is installed on the stirring tank (1). At least one guide plate (7) is fixed on the inner wall of the stirring tank (1). The driving mechanism includes a first motor (3) installed on the top of the mixing tank (1), and a stirring shaft (2) is fixed vertically downward at the output end of the first motor (3). The stirring shaft (2) is rotatably connected inside the mixing tank (1), and the stirring paddle (4) is slidably connected to the stirring shaft (2). A reset structure is installed between the stirring paddle (4) and the stirring shaft (2).

2. A rotary homogenizer-based wine design blending apparatus as claimed in claim 1, wherein: The guide plate (7) has a guide surface (8) on the side near the stirring paddle (4), and the stirring paddle (4) abuts against the guide surface (8).

3. The rotary homogenizer-based wine design blending apparatus of claim 1, wherein: The reset structure includes a fixing plate (9) fixed to the outside of the stirring paddle (4), and a spring (10) is installed between the fixing plate (9) and the stirring shaft (2) and located on the outside of the stirring paddle (4).

4. The rotary homogenizer-based wine design blending apparatus of claim 1, wherein: Multiple stirring blades (5) are fixed near the middle of the stirring paddle (4), and the top and bottom of both ends of the stirring blades (5) are provided with inclined surfaces (6).

5. The rotary homogenizer-based wine design blending apparatus of claim 1, wherein: The inner wall of the mixing tank (1) is provided with the same number of grooves as the guide plates (7) and corresponding in position. The guide plates (7) are slidably connected in the grooves. The inner wall of the mixing tank (1) is fixed with a ring gear (11). A second motor (13) is installed in the guide plate (7). The output end of the second motor (13) is fixed with a transmission gear (12), and the transmission gear (12) meshes with the ring gear (11).

6. A rotary homogenizer-based wine design blending apparatus as defined in claim 5, wherein: A conductive ring is fixed on the inner wall of the mixing tank (1) near the second motor (13), and the power-connecting end of the second motor (13) slides on the conductive ring.