A honey wine clarification and filtration device with adjustable filtration precision
By designing a mead filtration device with adjustable filtration precision, the problem of inflexible adjustment of filtration precision in mead production has been solved, thereby improving filtration efficiency and product quality and meeting the demands of the high-end market.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ANHUI BEE BIOTECHNOLOGY CO LTD
- Filing Date
- 2025-07-25
- Publication Date
- 2026-06-30
AI Technical Summary
The filtration precision of existing mead filtration devices cannot be flexibly adjusted, resulting in low filtration efficiency or poor product quality under different production conditions, which cannot meet the high-quality demands of the high-end market.
A filtration device including a coarse filter component and a fine filter component was designed. The filtration accuracy can be flexibly adjusted through the cooperation of a three-way solenoid valve and a controller. A limit mechanism is also provided to prevent the filter screen from falling out, making it easy to disassemble and clean.
It enables flexible adjustment of the filtration precision of mead, improves the applicability of the equipment, meets different quality requirements, and enhances filtration efficiency and product quality.
Smart Images

Figure CN224422128U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of mead production equipment, and in particular to a mead clarification and filtration device with adjustable filtration precision. Background Technology
[0002] With the improvement of people's living standards and the change of consumption concepts, the demand for mead, a type of alcoholic beverage that combines nutrition and flavor, is increasing. In the production process of mead, clarification and filtration are key steps that determine product quality. They not only remove visible impurities and suspended matter from the mead, but also effectively separate microorganisms, colloidal substances, and large protein molecules that are difficult to detect, directly affecting the color, transparency, taste, and shelf-life stability of the mead.
[0003] However, in existing technologies, most commercially available mead filtration devices use a single filter structure or a filter element with fixed precision. The filtration precision cannot be flexibly adjusted according to actual production needs. In actual production, the quality of raw materials and fermentation process parameters of mead vary, and different customers have different requirements for product quality. When using high-quality honey raw materials and the fermentation process is well controlled, the impurity content in the mead is relatively low. In this case, if a high-precision filtration device is used, the filtration efficiency will be greatly reduced due to high filtration resistance, increasing production time and costs. On the other hand, when the quality of honey raw materials is inconsistent and the fermentation process is unstable, the mead contains more impurities and colloidal substances. Fixed-precision filtration devices cannot fully remove these substances, leading to problems such as turbidity and sedimentation in the finished mead. This seriously affects the appearance quality and market competitiveness of the product and cannot meet the strict requirements of the high-end market for high-quality mead. Utility Model Content
[0004] The purpose of this invention is to solve the problems existing in the prior art by proposing a honey wine clarification and filtration device with adjustable filtration precision.
[0005] To achieve the above objectives, the present invention adopts the following technical solution: a honey wine clarification and filtration device with adjustable filtration accuracy, comprising a support base and a filter tank, wherein a controller is provided on the outer wall of the support base, a filtration mechanism is provided inside the filter tank, and a limit mechanism is provided on the outer wall of the filter tank.
[0006] The filtration mechanism includes a coarse filtration component and a fine filtration component, and two sets of semi-circular holes are opened through the outer wall of the filter tank;
[0007] The coarse filter assembly includes a No. 1 circular ring seat and a No. 1 sealing semicircle. A No. 1 circular ring recess is installed at the upper end of the No. 1 circular ring seat. A coarse filter screen is slidably inserted into the interior of the No. 1 circular ring recess. A No. 1 circular hopper is installed on the inner wall of the filter tank and below the coarse filter screen. A three-way solenoid valve is installed at the lower end of the No. 1 circular hopper. An inclined guide assembly is installed through the outer wall of the filter tank.
[0008] The fine filter assembly includes a second annular seat and a second sealing semicircle. A second annular recess is installed at the upper end of the second annular seat, and a fine filter screen is slidably inserted into the interior of the second annular recess.
[0009] Preferably, the outer wall of the first annular seat is fixed to the inner wall of the filter tank, the inner wall of the first sealing semicircle is fixed to the outer wall of the coarse filter screen, and the first sealing semicircle is disposed inside one of the sets of semicircular holes.
[0010] Preferably, the upper end of the inclined guide assembly is connected to an opening at the lower end of the three-way solenoid valve, and the three-way solenoid valve is connected to the controller signal.
[0011] Preferably, a second circular hopper is installed inside the filter tank and below the fine filter screen. The lower end of the second circular hopper is located inside the discharge pipe at the lower end of the filter tank, and the outer wall of the second circular seat is fixed to the inner wall of the filter tank.
[0012] Preferably, the inner wall of the second sealing semicircle is fixed to the outer wall of the fine filter screen, and the second sealing semicircle is set inside another set of semicircular holes.
[0013] Preferably, the limiting mechanism includes a semi-circular seat, a bidirectional cylinder is installed through the upper end of the semi-circular seat, and limiting blocks are fixedly installed at both the upper and lower ends of the bidirectional cylinder. Four sets of guide rods are slidably installed through the upper end of the semi-circular seat.
[0014] Preferably, the inner walls of both sets of limiting blocks are in contact with the outer wall of the filter tank, one end of each pair of guide rods is fixed to one end of a set of limiting blocks, the bidirectional cylinder is connected to the controller signal, and the lower part of the filter tank is installed inside the support base.
[0015] Compared with the prior art, the advantages and positive effects of this utility model are as follows:
[0016] 1. In this utility model, by setting up a filtration mechanism, the coarse filter component, fine filter component, three-way solenoid valve and controller are coordinated to achieve flexible adjustment of the filtration precision of mead, which can meet the production of mead with different quality requirements and improve the applicability of the equipment. At the same time, the three-way solenoid valve can control the flow direction after the coarse filter component through the controller, which can directly discharge or fall into the fine filter component below for further filtration. Furthermore, both the coarse filter component and the fine filter component are installed in a sliding manner, and both can be removed from the inside of the filter tank, which facilitates the disassembly, cleaning and replacement of the coarse filter component and the fine filter component.
[0017] 2. In this utility model, by setting a limiting mechanism, the bidirectional cylinder can drive the two sets of limiting blocks to move until the inner walls of the two sets of limiting blocks contact the outer walls of the first sealing semicircle and the second sealing semicircle respectively, thereby limiting the first sealing semicircle and the second sealing semicircle, thus preventing the first sealing semicircle and the second sealing semicircle from coming out of the two sets of semicircular holes. Attached Figure Description
[0018] Figure 1 A three-dimensional structural diagram of a honey wine clarification and filtration device with adjustable filtration precision is provided for this utility model.
[0019] Figure 2 This invention presents a partial half-sectional structural diagram of a honey wine clarification and filtration device with adjustable filtration precision.
[0020] Figure 3 A front view of the honey wine clarification and filtration device with adjustable filtration precision is presented in this utility model.
[0021] Figure 4 A perspective view of the limiting mechanism of a honey wine clarification and filtration device with adjustable filtration precision is presented in this utility model.
[0022] Legend: 1. Support base; 11. Filter tank; 12. Controller; 2. Filtering mechanism; 21. Semicircular hole; 22. Coarse filter assembly; 221. No. 1 circular seat; 222. No. 1 circular recess; 223. No. 1 sealing semicircle; 224. Coarse filter screen; 225. No. 1 circular hopper; 226. Three-way solenoid valve; 227. Inclined guide assembly; 23. Fine filter assembly; 231. No. 2 circular seat; 232. No. 2 circular recess; 233. No. 2 sealing semicircle; 234. Fine filter screen; 235. No. 2 circular hopper; 3. Limiting mechanism; 31. Semicircular seat; 32. Two-way cylinder; 33. Limiting block; 34. Guide rod. Detailed Implementation
[0023] To better understand the above-mentioned objectives, features, and advantages of this utility model, the present utility model will be further described below with reference to the accompanying drawings and embodiments. It should be noted that, unless otherwise specified, the embodiments and features described in these embodiments can be combined with each other.
[0024] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Therefore, the present invention is not limited to the specific embodiments disclosed in the following specification.
[0025] Example 1: As Figure 1-4As shown, this utility model provides a honey wine clarification and filtration device with adjustable filtration accuracy, including a support base 1 and a filter tank 11. A controller 12 is provided on the outer wall of the support base 1, a filtration mechanism 2 is provided inside the filter tank 11, and a limit mechanism 3 is provided on the outer wall of the filter tank 11.
[0026] The filtration mechanism 2 includes a coarse filtration component 22 and a fine filtration component 23. Two sets of semi-circular holes 21 are provided through the outer wall of the filter tank 11.
[0027] The coarse filter assembly 22 includes a first annular seat 221 and a first sealing semicircle 223. A first annular recess 222 is installed at the upper end of the first annular seat 221. A coarse filter screen 224 is slidably inserted into the interior of the first annular recess 222. A first circular hopper 225 is installed on the inner wall of the filter tank 11 and below the coarse filter screen 224. A three-way solenoid valve 226 is installed at the lower end of the first circular hopper 225. An inclined guide assembly 227 is installed through the outer wall of the filter tank 11. The outer wall of the first annular seat 221 is fixed to the inner wall of the filter tank 11. The inner wall of the first sealing semicircle 223 is fixed to the outer wall of the coarse filter screen 224. The first sealing semicircle 223 is located inside one set of semicircular holes 21. The upper end of the inclined guide assembly 227 is connected to one opening at the lower end of the three-way solenoid valve 226. The three-way solenoid valve 226 is signal-connected to the controller 12.
[0028] The fine filter assembly 23 includes a second annular seat 231 and a second sealing semicircle 233. A second annular recess 232 is installed at the upper end of the second annular seat 231. A fine filter screen 234 is slidably inserted into the interior of the second annular recess 232. A second circular hopper 235 is installed inside the filter tank 11 and below the fine filter screen 234. The lower end of the second circular hopper 235 is located inside the discharge pipe at the lower end of the filter tank 11. The outer wall of the second annular seat 231 is fixed to the inner wall of the filter tank 11. The inner wall of the second sealing semicircle 233 is fixed to the outer wall of the fine filter screen 234. The second sealing semicircle 233 is located inside another set of semicircular holes 21.
[0029] The specific settings and functions of this embodiment are described in detail below. A controller 12 is installed at one end of the support base 1. Two sets of semi-circular holes 21 are formed through the outer wall of the filter tank 11. A first annular seat 221 is installed on the inner wall of the filter tank 11. A first annular recess 222 is installed at the upper end of the first annular seat 221. A coarse filter screen 224 is slidably inserted into the interior of the first annular recess 222. A first sealing semicircle 223 is installed on the outer wall of the coarse filter screen 224, and the first sealing semicircle 223 is inserted into one of the sets of semi-circular holes 21. A first circular hopper 225 is installed inside the filter tank 11 and below the first annular seat 221. A three-way solenoid valve 226 is installed at the lower end of the filter tank 11. An inclined guide assembly 227 is installed through the outer wall of the filter tank 11. The upper end of the inclined guide assembly 227 is connected to one of the openings at the lower end of the three-way solenoid valve 226. The three-way solenoid valve 226 is connected to the controller 12. When the honey wine enters the filter tank 11, it is filtered by the coarse filter screen 224. When fine filtration is required, the controller 12 will control the three-way solenoid valve 226 to operate, so that the filtered honey wine falls into the first round hopper 225 and enters the inclined guide assembly 227 through the three-way solenoid valve 226. The filtration accuracy of the honey wine can be adjusted.
[0030] A second annular seat 231 is installed on the inner wall of the filter tank 11. A second annular recess 232 is installed on the upper end of the second annular seat 231. A fine filter screen 234 is slidably inserted into the opening of the second annular seat 231. A second sealing semicircle 233 is inserted into the interior of another set of semicircular holes 21. The inner wall of the second sealing semicircle 233 is fixed to the outer wall of the fine filter screen 234. A second circular hopper 235 is installed on the inner wall of the filter tank 11 and below the fine filter screen 234. When it is necessary to finely filter the honey wine, the controller 12 controls the three-way solenoid valve 226 to close the connecting channel of the inclined guide assembly 227 so that the honey wine falls into the interior of the fine filter screen 234, thus enabling fine filtration of the honey wine.
[0031] By pulling the first sealing semicircle 223, the first sealing semicircle 223 can drive the coarse filter screen 224 to slide inside the first annular recess 222 and remove it from the inside of the filter tank 11, which makes it convenient to clean or replace the coarse filter screen 224 later.
[0032] By pulling the second sealing semicircle 233, the second sealing semicircle 233 can drive the fine filter screen 234 to move, so that it slides inside the second annular recess 232 and is removed from the inside of the filter tank 11, which makes it convenient to clean or replace the fine filter screen 234 in the future.
[0033] Example 2: Figure 1 , Figure 2 , Figure 3 and Figure 4As shown, the limiting mechanism 3 includes a semi-circular seat 31, with a bidirectional cylinder 32 installed through the upper end of the semi-circular seat 31. Limiting blocks 33 are fixedly installed at both the upper and lower ends of the bidirectional cylinder 32. Four sets of guide rods 34 are slidably installed through the upper end of the semi-circular seat 31. The inner walls of the two sets of limiting blocks 33 are in contact with the outer wall of the filter tank 11. One end of each pair of guide rods 34 is fixed to one end of a set of limiting blocks 33. The bidirectional cylinder 32 is signal-connected to the controller 12. The lower part of the filter tank 11 is installed inside the support base 1.
[0034] The overall effect of this embodiment is that by installing a semi-circular seat 31 on the outer wall of the filter tank 11, and installing a bidirectional cylinder 32 through the upper end of the semi-circular seat 31, and installing limiting blocks 33 on both protruding ends of the bidirectional cylinder 32, and the inner walls of the two sets of limiting blocks 33 are in contact with the outer wall of the filter tank 11, by sliding four sets of guide rods 34 through the upper end of the semi-circular seat 31, and fixing one end of each set of guide rods 34 to one set of limiting blocks 33, the bidirectional cylinder 32 is connected to the controller 12 by signal. By controlling the bidirectional cylinder 32 to run, the bidirectional cylinder 32 drives the two sets of limiting blocks 33 to move, so that they move up and down respectively, until the inner walls of the two sets of limiting blocks 33 contact the outer walls of the first sealing semi-circle 223 and the second sealing semi-circle 233 respectively, thereby limiting the first sealing semi-circle 223 and the second sealing semi-circle 233, thereby preventing the first sealing semi-circle 223 and the second sealing semi-circle 233 from coming out of the two sets of semi-circular holes 21;
[0035] When the two sets of limit blocks 33 move, the two sets of limit blocks 33 drive the two sets of guide rods 34 to move together, so that the four sets of guide rods 34 slide inside the semi-circular seat 31, which can guide the two sets of limit blocks 33 and improve the stability of the two sets of limit blocks 33 when they move.
[0036] The usage and working principle of this device are as follows: First, according to the filtration precision of the honey wine, the settings are pre-set on the controller 12. When coarse filtration is required, the controller 12 pre-controls the three-way solenoid valve 226 to open the opening connected to the inclined guide assembly 227 and close the other opening. When the honey wine enters the filter tank 11, it first passes through the coarse filter screen 224, and then falls into the first round hopper 225. It then enters the inclined guide assembly 227 through the three-way solenoid valve 226, thus completing the coarse filtration of the honey wine.
[0037] Then, when fine filtration is required, the controller 12 is set to control the three-way solenoid valve 226, so that the three-way solenoid valve 226 closes the interface connected to the inclined guide assembly 227 and opens another set of interfaces. At this time, the honey wine filtered by the coarse filter screen 224 falls into the interior of the fine filter screen 234 through the first round hopper 225 and the three-way solenoid valve 226. After being filtered by the fine filter screen 234, the honey wine either falls into the interior of the second round hopper 235 and is discharged from the discharge assembly of the filter tank 11, thus completing the fine filtration of the honey wine.
[0038] Finally, after the first sealing semicircle 223 and the second sealing semicircle 233 are respectively inserted into the two sets of semicircular holes 21, the controller 12 controls the bidirectional cylinder 32 to run. The bidirectional cylinder 32 drives the two sets of limiting blocks 33 to move towards or away from each other along the guide rod 34 until the inner walls of the two sets of limiting blocks 33 are tightly fitted with the outer walls of the first sealing semicircle 223 and the second sealing semicircle 233 respectively. The friction force axially limits the first sealing semicircle 223 and the second sealing semicircle 233 to prevent them from coming out of the semicircular holes 21.
[0039] The above are merely preferred embodiments of this utility model and are not intended to limit the 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 this utility model without departing from the technical solution of this utility model shall still fall within the protection scope of this utility model.
Claims
1. A mead clarification and filtration device with adjustable filtration precision, comprising a support base (1) and a filter tank (11), characterized in that: A controller (12) is provided on the outer wall of the support base (1), a filter mechanism (2) is provided inside the filter tank (11), and a limit mechanism (3) is provided on the outer wall of the filter tank (11). The filtration mechanism (2) includes a coarse filter assembly (22) and a fine filter assembly (23), and two sets of semi-circular holes (21) are provided through the outer wall of the filter tank (11). The coarse filter assembly (22) includes a first annular seat (221) and a first sealing semicircle (223). A first annular recess (222) is installed at the upper end of the first annular seat (221). A coarse filter screen (224) is slidably inserted into the interior of the first annular recess (222). A first circular hopper (225) is installed on the inner wall of the filter tank (11) and below the coarse filter screen (224). A three-way solenoid valve (226) is installed at the lower end of the first circular hopper (225). An inclined guide assembly (227) is installed through the outer wall of the filter tank (11). The fine filter assembly (23) includes a second annular seat (231) and a second sealing semicircle (233). A second annular recess (232) is installed on the upper end of the second annular seat (231), and a fine filter screen (234) is slidably inserted inside the second annular recess (232).
2. The honey wine clarification and filtration device with adjustable filtration precision according to claim 1, characterized in that: The outer wall of the first ring seat (221) is fixed to the inner wall of the filter tank (11), the inner wall of the first sealing semicircle (223) is fixed to the outer wall of the coarse filter screen (224), and the first sealing semicircle (223) is set inside one of the semicircular holes (21).
3. The honey wine clarification and filtration device with adjustable filtration precision according to claim 2, characterized in that: The upper end of the inclined guide assembly (227) is connected to an opening at the lower end of the three-way solenoid valve (226), and the three-way solenoid valve (226) is connected to the controller (12) via signal.
4. The honey wine clarification and filtration device with adjustable filtration precision according to claim 1, characterized in that: Inside the filter tank (11) and below the fine filter screen (234), a second circular hopper (235) is installed. The lower end of the second circular hopper (235) is located inside the discharge pipe at the lower end of the filter tank (11). The outer wall of the second circular seat (231) is fixed to the inner wall of the filter tank (11).
5. A honey wine clarification and filtration device with adjustable filtration precision according to claim 4, characterized in that: The inner wall of the second sealing semicircle (233) is fixed to the outer wall of the fine filter screen (234), and the second sealing semicircle (233) is set inside another set of semicircular holes (21).
6. The honey wine clarification and filtration device with adjustable filtration precision according to claim 1, characterized in that: The limiting mechanism (3) includes a semicircular seat (31), a two-way cylinder (32) is installed through the upper end of the semicircular seat (31), and a limiting block (33) is fixedly installed at both the upper and lower ends of the two-way cylinder (32). Four sets of guide rods (34) are slidably installed through the upper end of the semicircular seat (31).
7. A honey wine clarification and filtration device with adjustable filtration precision according to claim 6, characterized in that: The inner walls of the two sets of limit blocks (33) are in contact with the outer wall of the filter tank (11). One end of each set of guide rods (34) is fixed to one end of a set of limit blocks (33). The bidirectional cylinder (32) is connected to the controller (12) by signal. The lower part of the filter tank (11) is installed inside the support base (1).