A device for treating kimchi water

By combining the methods of shaking off impurities with the oscillating component, scraping off impurities from the inner wall with the lifting component, and ultrasonic disinfection, the problem of difficult-to-clean impurities adhering to the kimchi water treatment device is solved, and automated and efficient wastewater treatment is achieved.

CN122233463APending Publication Date: 2026-06-19CHONGQING XINGNENG BREWING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
CHONGQING XINGNENG BREWING CO LTD
Filing Date
2026-04-27
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

In existing kimchi water treatment devices, sediment and impurities tend to adhere to the inner wall, making them difficult to remove effectively and causing cleaning inconvenience.

Method used

The system uses a wave-like component to generate a wave-like state to shake off impurities. Combined with the lifting and suction functions of the lifting and suction components, impurities on the inner wall are scraped off using a rubber cover. The system then achieves automated processing through ultrasonic disinfection and ultraviolet sterilization.

Benefits of technology

It improved the impurity removal rate, reduced the frequency of manual cleaning, and enhanced the sustainability and efficiency of the treatment device.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention provides a fermented kimchi water treatment device, relating to the field of wastewater treatment technology. It includes a treatment component, a disinfection component, a suction component, a lifting component, a pulsating component, and an ultrasonic component. The treatment component includes a treatment shell with a feed hopper at the top and a discharge port at the upper part. A baffle plate is fixedly connected to the middle of the treatment shell, and a transition inner shell is fixedly connected to the lower part of the treatment shell. A collection shell is fixedly connected to the lower part of the transition inner shell, and an end cap is threaded to the lower end of the collection shell. Through the lifting and suction components, the lifting component provides lifting functionality to the suction end of the suction component, enabling continuous suction of the supernatant. Furthermore, during suction, impurities on the inner wall of the collection shell can be scraped off, eliminating the need for manual cleaning of the inner wall and improving the sustainability of the treatment device.
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Description

Technical Field

[0001] This invention relates to the field of wastewater treatment technology, specifically to a fermented kimchi water treatment device. Background Technology

[0002] Kimchi is a vegetable product made from fresh vegetables through salting and fermentation with lactic acid bacteria. It has a salty and sour taste and is characterized by its crispness, refreshing taste, and ability to stimulate the appetite and invigorate the mind. During the fermentation process, kimchi produces wastewater containing a large amount of microorganisms, salt, and impurities, which requires further treatment using processing equipment.

[0003] In related technologies, such as the device and method for recycling fermented pickled vegetable brine (publication number CN119930076B), the device includes a treatment tank connected to an ultrasonic sterilizer via a pipe. After treatment with high-frequency ultrasound, the microorganisms in the brine die due to the cavitation effect of the ultrasound, which causes perforation of the cell membrane of yeast. The ultrasonic sterilizer is connected to an ultraviolet sterilizer via a pipe, and the ultraviolet sterilizer is connected to a storage tank via a pipe. The treatment tank is used for filtering and settling the pickled vegetable brine, the ultrasonic sterilizer and the ultraviolet sterilizer are used for sterilizing the pickled vegetable brine, and the storage tank is used to store the pickled vegetable brine.

[0004] During the sedimentation process, impurities accumulate at the bottom and inner wall of the container. When the impurities are discharged, those adhering to the inner wall are not easily removed. Over time, a thick layer of impurities will accumulate, requiring frequent cleaning and causing inconvenience. Summary of the Invention

[0005] To address the shortcomings of existing technologies, this invention provides a fermented kimchi water treatment device that solves the problem of sedimented impurities easily adhering to the inner wall and being difficult to drain.

[0006] To achieve the above objectives, the present invention provides the following technical solution: a fermentation kimchi water treatment device, comprising: The processing assembly includes a processing housing, a feed hopper at the top of the processing housing, a discharge port at the upper part of the processing housing, a baffle plate fixedly connected to the middle part of the processing housing, a transition inner shell fixedly connected to the lower part of the processing housing, a collecting shell fixedly connected to the lower part of the transition inner shell, an end cap threadedly connected to the lower end of the collecting shell, a filter plate rotatably connected to the discharge port, and a support leg fixedly connected to the bottom of the processing housing. A disinfection component, located on the outside of the treatment housing, is used for wastewater disinfection. A suction assembly, located at the top of the disinfection assembly, is used to draw the supernatant from the treatment assembly into the disinfection assembly. A lifting assembly, which is located inside the processing housing, is used to provide lifting functionality for the suction end of the suction assembly; A wave component, located at the right end of the filter plate, is used to provide wave power; An ultrasonic component, located within the disinfection component, provides ultrasonic disinfection. Through the inclusion of a wave-generating component and a processing component, the wave-generating component dislodges impurities from the filter plate surface, improving the impurity removal rate and eliminating the need for manual filter plate cleaning. Furthermore, the inclusion of a lifting component and a suction component allows for continuous suction of the supernatant, while also scraping away impurities from the inner wall of the collection shell during suction, further eliminating the need for manual cleaning and improving the sustainability of the treatment device.

[0007] Preferably, the disinfection assembly includes a disinfection housing, a transparent tube fixedly connected to the center of the disinfection housing, an ultraviolet lamp installed inside the transparent tube, and a discharge tube fixedly connected to the bottom of the disinfection housing.

[0008] Preferably, the suction assembly includes a suction pump, a suction pipe is fixedly connected to the suction end of the suction pump, a connecting pipe is fixedly connected to the water outlet end of the suction pump, a water outlet ring is fixedly connected to the other end of the connecting pipe, and a water outlet pipe is fixedly connected to the lower part of the water outlet ring.

[0009] Preferably, the lifting assembly includes a fixed plate fixedly installed inside the processing housing, a protective shell fixedly connected to the fixed plate, a telescopic tube fixedly connected to the center of the protective shell, an electric push rod provided on the outer side of the telescopic tube, the electric push rod fixedly installed at the lower part of the protective shell, a lifting plate fixedly connected to the lower end of the telescopic tube, a filter screen shell fixedly connected to the lower end of the lifting plate, the telescopic end of the electric push rod fixedly connected to the filter screen shell, a central column fixedly connected to the center of the filter screen shell, a rubber cover fixedly connected to the lower end of the central column, the rubber cover having the same radius as the filter screen shell, a circular hole provided at the center of the baffle plate, the inner diameter of the circular hole matching the outer diameter of the filter screen shell; a suction tube passing through the protective shell and communicating with the telescopic tube, the outer diameter of the protective shell matching the outer diameter of the filter screen shell.

[0010] Preferably, the filter plate is inclined with the left side lower and the right side higher; the oscillation component includes an electromagnet fixedly installed on the inner wall of the processing housing, a spring is fixedly connected between the right end of the filter plate and the inner wall of the processing housing, a permanent magnet is fixedly connected to the right end of the filter plate, and the electromagnet attracts the permanent magnet when energized.

[0011] Preferably, the ultrasonic component includes an ultrasonic generator fixedly installed on the top of the sterilization housing, a mounting ring fixedly installed on the inner wall of the sterilization housing, a transducer fixedly installed on the mounting ring, and the ultrasonic generator and the transducer being electrically connected.

[0012] Preferably, the rubber cover is funnel-shaped, and a gap D is reserved between the rubber cover and the inner wall of the transition inner shell.

[0013] Preferably, the water outlet pipe is inclined.

[0014] This invention provides a device for treating fermented kimchi water. It has the following beneficial effects: 1. The present invention, through the setting of the wave component and the processing component, utilizes the wave state generated by the wave component to shake off impurities on the surface of the filter plate, thereby improving the impurity removal rate and eliminating the need for manual cleaning of the filter plate.

[0015] 2. The present invention, through the setting of lifting components and suction components, uses the lifting components to provide lifting function for the suction end of the suction components, which can continuously suction the supernatant. In addition, during the suction process, impurities on the inner wall of the collection shell can be scraped off, eliminating the need for manual cleaning of impurities on the inner wall and improving the sustainability of the processing device. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the overall structure of the present invention; Figure 2 This is a side view of the entire invention; Figure 3 for Figure 2 Sectional view of AA; Figure 4 for Figure 3 Enlarged view of point B in the middle; Figure 5 This is a sectional perspective view of the entire invention; Figure 6 This is a schematic diagram of the structure of the transition inner shell and the rubber cover in this invention; Figure 7 This is a schematic diagram of the disassembled structure of the lifting component in this invention; Figure 8 This is a schematic diagram of the structure of the water outlet ring shell and the water outlet pipe in this invention.

[0017] The components include: 1. Processing assembly; 2. Disinfection assembly; 3. Lifting assembly; 101. Waste discharge port; 102. Processing shell; 103. Feed hopper; 104. Filter plate; 105. Transition inner shell; 106. Aggregating shell; 107. End cap; 108. Support leg; 109. Baffle plate; 201. Disinfection shell; 202. Discharge pipe; 203. Ultraviolet lamp; 204. Transparent tube; 301. Fixing plate; 302. Anti-fouling... 303. Protective shell; 304. Telescopic tube; 305. Electric push rod; 306. Lifting plate; 307. Central column; 308. Rubber cover; 309. Filter screen shell; 401. Suction tube; 402. Suction pump; 403. Connecting pipe; 404. Water outlet ring shell; 405. Water outlet pipe; 501. Ultrasonic generator; 502. Transducer; 503. Mounting ring; 601. Permanent magnet; 602. Spring; 603. Electromagnet. Detailed Implementation

[0018] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0019] like Figures 1-8 As shown, an embodiment of the present invention provides a fermented kimchi water treatment device, comprising: refer to Figure 1 , Figure 3 Processing component 1 includes a processing housing 102, a feeding hopper 103 at the top of the processing housing 102, a discharge port 101 at the upper part of the processing housing 102, a baffle plate 109 fixedly connected to the middle part of the processing housing 102, a transition inner shell 105 fixedly connected to the lower part of the processing housing 102, a collecting shell 106 fixedly connected to the lower part of the transition inner shell 105, an end cap 107 threadedly connected to the lower end of the collecting shell 106, a filter plate 104 rotatably connected to the discharge port 101, and a support leg 108 fixedly connected to the bottom of the processing housing 102. Wastewater from fermenting kimchi can enter the interior of the processing shell 102 through the feed hopper 103. Then, under the filtration action of the filter plate 104, impurities are filtered out. The wastewater will continue to fall under the action of gravity, and the filtered impurities will be discharged from the discharge port 101 under the action of gravity. The baffle plate 109 is used to block the wastewater, so that the wastewater can be collected in the center and fall down, providing water flow for subsequent backwashing operations. The end cover 107 can be opened to discharge the settled impurities.

[0020] refer to Figure 1 , Figure 3 , Figure 5Disinfection component 2 is located on the outside of the treatment housing 102 and is used for wastewater disinfection. The disinfection component 2 includes a disinfection housing 201, a transparent tube 204 is fixedly connected to the center of the disinfection housing 201, an ultraviolet lamp 203 is installed inside the transparent tube 204, and a discharge pipe 202 is fixedly connected to the bottom of the disinfection housing 201. During disinfection, the ultraviolet light generated by the ultraviolet lamp 203 can pass through the transparent tube 204 and irradiate the wastewater, which can kill the bacteria in the wastewater. The discharge pipe 202 is used to discharge the disinfected wastewater.

[0021] refer to Figure 1 , Figure 3 , Figure 5 , Figure 8 A suction assembly is located at the top of the disinfection assembly 2 and is used to draw the supernatant in the treatment assembly 1 into the disinfection assembly 2. The suction assembly includes a suction pump 402, a suction pipe 401 is fixedly connected to the suction end of the suction pump 402, a connecting pipe 403 is fixedly connected to the water outlet end of the suction pump 402, a water outlet ring shell 404 is fixedly connected to the other end of the connecting pipe 403, and a water outlet pipe 405 is fixedly connected to the lower part of the water outlet ring shell 404. The water outlet pipe 405 is inclined. During the suction operation, the suction pump 402 operates under the control of the external power supply and controller, and can generate suction force at the suction pipe 401 to suction the supernatant, thus realizing the suction operation. Then, it passes through the water outlet ring shell 404 and is sprayed out from the water outlet pipe 405 into the disinfection shell 201. The water outlet pipe 405 is inclined so that the wastewater can impact the transducer 502 and provide a rinsing function for the transducer 502.

[0022] refer to Figure 1 , Figure 3 , Figure 5 , Figure 7The lifting assembly 3 is located inside the processing housing 102 and provides lifting functionality for the suction end of the suction assembly. The lifting assembly 3 includes a fixed plate 301 fixedly installed inside the processing housing 102. A protective shell 302 is fixedly connected to the fixed plate 301. A telescopic tube 303 is fixedly connected to the center of the protective shell 302. An electric push rod 304 is provided on the outer side of the telescopic tube 303 and is fixedly installed at the lower part of the protective shell 302. A lifting plate 305 is fixedly connected to the lower end of the telescopic tube 303, and a filter screen shell 308 is fixedly connected to the lower end of the lifting plate 305. The telescopic end is fixedly connected to the filter screen shell 308. A central column 306 is fixedly connected to the center of the filter screen shell 308. A rubber cover 307 is fixedly connected to the lower end of the central column 306. The rubber cover 307 has the same radius as the filter screen shell 308. A circular hole is provided at the center of the baffle plate 109. The inner diameter of the circular hole is adapted to the outer diameter of the filter screen shell 308. The suction tube 401 passes through the protective shell 302 and communicates with the telescopic tube 303. The protective shell 302 is adapted to the outer diameter of the filter screen shell 308. The rubber cover 307 is trumpet-shaped. A gap D is reserved between the rubber cover 307 and the inner wall of the transition inner shell 105. Lifting operation: In the initial state, the telescopic end of the electric push rod 304 is not extended, the upper surface of the filter screen 308 is flush with the round hole at the center of the baffle plate 109, and the wastewater can impact the upper surface of the filter screen 308, which can backwash the impurities on the lower surface of the filter screen 308, so that the impurities will not adhere to the lower surface of the filter screen 308, ensuring that the filter screen 308 always has the filtering function in the suction state, and ensuring that the impurities will not affect the filtering function of the filter screen 308. During the suction state, the electric push rod 304 works under the action of the external power supply and controller, driving the filter screen shell 308 to move down, and the telescopic tube 303 changes from a contracted state to an extended state. Through the central column 306, the rubber cover 307 is slowly moved down to ensure that the opening between adjacent lifting plates 305 is always below the liquid surface, ensuring that the supernatant can always be suctioned. As the liquid level drops, the rubber cover 307 will contact the inner wall of the collecting shell 106. Since the collecting shell 106 is funnel-shaped, the rubber cover 307 will deform, and the edge of the rubber cover 307 will fully contact the inner wall of the collecting shell 106 to scrape off the impurities adhering to the inner wall of the collecting shell 106, so that the impurities can be discharged from the end cap 107 without the need for manual cleaning of the inner wall of the collecting shell 106. Meanwhile, since there is a gap D between the rubber cover 307 and the inner wall of the transition inner shell 105, the wastewater will impact the inner wall of the transition inner shell 105 due to the obstruction of the rubber cover 307. Therefore, impurities on the inner wall of the transition inner shell 105 can be rinsed. Since the sediment is usually at the bottom, impurities will not adhere to the inner wall of the transition inner shell 105 at higher positions. The gap D should not be too large, otherwise it will not be able to achieve the rinsing effect. It should also not be too small, otherwise the wastewater will fall slowly, affecting the efficiency of supernatant suction. The gap D can be 3-6 cm.

[0023] refer to Figure 3 , Figure 4 , Figure 5 The oscillation component is located on the right side of the filter plate 104 and is used to provide oscillation power. The filter plate 104 is inclined with the left side lower and the right side higher. The oscillation component includes an electromagnet 603 fixedly installed on the inner wall of the processing housing 102. A spring 602 is fixedly connected between the right side of the filter plate 104 and the inner wall of the processing housing 102. A permanent magnet 601 is fixedly connected to the right side of the filter plate 104. When the electromagnet 603 is energized, it attracts the permanent magnet 601. Rotation Operation: Electromagnet 603 operates intermittently under the action of external power supply and controller. When electromagnet 603 is energized, it can attract permanent magnet 601, thereby driving filter plate 104 to rotate downward. Spring 602 is compressed and accumulates elastic potential energy. When electromagnet 603 is de-energized, the elastic potential energy of spring 602 is released, which can drive filter plate 104 to rotate upward, realizing the function of pushing up impurities on the upper surface of filter plate 104. Under repeated pushing action and gravity, impurities will gradually roll and be discharged from impurity outlet 101. In order to avoid interference between filter plate 104 and inner wall of processing housing 102, a predetermined gap is reserved on the right side of filter plate 104 to meet the function of filter plate 104 rotation. In order to prevent impurities from entering the gap, the discharge point of feed hopper 103 should be selected at the center of filter plate 104.

[0024] refer to Figure 1 , Figure 3 , Figure 5 An ultrasonic component is provided inside the disinfection component 2 to provide ultrasonic disinfection function. The ultrasonic component includes an ultrasonic generator 501 fixedly installed on the top of the disinfection housing 201, a mounting ring 503 fixedly installed on the inner wall of the disinfection housing 201, and a transducer 502 fixedly installed on the mounting ring 503. The ultrasonic generator 501 and the transducer 502 are electrically connected.

[0025] Working principle: The wastewater generated from fermenting kimchi can enter the interior of the processing shell 102 through the feed hopper 103. Then, under the filtering action of the filter plate 104, the impurities are filtered out, and the wastewater will continue to fall under the action of gravity. Electromagnet 603 operates intermittently under the action of external power supply and controller. When electromagnet 603 is energized, it can attract permanent magnet 601, thereby driving filter plate 104 to rotate downward. Spring 602 is compressed and accumulates elastic potential energy. When electromagnet 603 is de-energized, the elastic potential energy of spring 602 is released, which can drive filter plate 104 to rotate upward, realizing the function of pushing up impurities on the upper surface of filter plate 104. Under repeated pushing action and gravity, impurities will gradually roll and be discharged from impurity outlet 101. Since there is a gap D between the rubber cover 307 and the inner wall of the transition inner shell 105, the wastewater will impact the inner wall of the transition inner shell 105 due to the obstruction of the rubber cover 307. Therefore, the impurities on the inner wall of the transition inner shell 105 can be washed away. The suction pump 402 operates under the power of an external power supply and controller. It can generate suction force at the suction pipe 401, which can suction the supernatant to achieve the suction operation. Then, it passes through the water outlet ring shell 404 and is sprayed out from the water outlet pipe 405 into the disinfection shell 201. The electric push rod 304 operates under the action of the external power supply and controller, driving the filter screen shell 308 to move down, and the telescopic tube 303 changes from a contracted state to an extended state. Through the central column 306, it drives the rubber cover 307 to move down slowly, ensuring that the opening between adjacent lifting plates 305 is always below the liquid surface, ensuring that the supernatant can always be drawn. As the liquid level drops, the rubber cover 307 will contact the inner wall of the collecting shell 106. Since the collecting shell 106 is funnel-shaped, the rubber cover 307 will deform, and the edge of the rubber cover 307 will fully contact the inner wall of the collecting shell 106 to scrape off the impurities adhering to the inner wall of the collecting shell 106, so that the impurities can be discharged from the end cap 107 without the need for manual cleaning of the inner wall of the collecting shell 106. Then the end cap 107 is opened, allowing the precipitated impurities to be discharged.

[0026] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and variations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A fermentation kimchi water treatment device, characterized in that, include: The processing assembly (1) includes a processing housing (102), a feed hopper (103) at the top of the processing housing (102), a discharge port (101) at the upper part of the processing housing (102), a baffle plate (109) fixedly connected to the middle part of the processing housing (102), a transition inner shell (105) fixedly connected to the lower part of the processing housing (102), a collection shell (106) fixedly connected to the lower part of the transition inner shell (105), an end cap (107) threadedly connected to the lower end of the collection shell (106), a filter plate (104) rotatably connected to the discharge port (101), and a support leg (108) fixedly connected to the bottom of the processing housing (102). Disinfection component (2), which is located on the outside of the treatment housing (102) and is used for wastewater disinfection; A suction assembly is located at the top of the disinfection assembly (2) and is used to draw the supernatant in the treatment assembly (1) into the disinfection assembly (2). Lifting assembly (3), which is located inside the processing housing (102), is used to provide lifting function for the suction end of the suction assembly; A wave component, located at the right end of the filter plate (104), is used to provide wave power; An ultrasonic component is disposed within the disinfection component (2) and is used to provide ultrasonic disinfection function.

2. The fermentation kimchi water treatment device according to claim 1, characterized in that: The disinfection component (2) includes a disinfection housing (201), a transparent tube (204) is fixedly connected to the center of the disinfection housing (201), an ultraviolet lamp (203) is installed inside the transparent tube (204), and an exhaust tube (202) is fixedly connected to the bottom of the disinfection housing (201).

3. The fermentation kimchi water treatment device according to claim 1, characterized in that: The suction assembly includes a suction pump (402), a suction pipe (401) is fixedly connected to the suction end of the suction pump (402), a connecting pipe (403) is fixedly connected to the water outlet end of the suction pump (402), a water outlet ring shell (404) is fixedly connected to the other end of the connecting pipe (403), and a water outlet pipe (405) is fixedly connected to the lower part of the water outlet ring shell (404).

4. The fermentation kimchi water treatment device according to claim 3, characterized in that: The lifting assembly (3) includes a fixed plate (301) fixedly installed inside the processing housing (102). A protective shell (302) is fixedly connected to the fixed plate (301). A telescopic tube (303) is fixedly connected to the center of the protective shell (302). An electric push rod (304) is provided on the outside of the telescopic tube (303). The electric push rod (304) is fixedly installed at the lower part of the protective shell (302). A lifting plate (305) is fixedly connected to the lower end of the telescopic tube (303). A filter screen shell (308) is fixedly connected to the lower end of the lifting plate (305). The electric push rod (304) is fixedly installed at the lower part of the protective shell (302). 4) The telescopic end is fixedly connected to the filter screen shell (308). A central column (306) is fixedly connected to the center of the filter screen shell (308). A rubber cover (307) is fixedly connected to the lower end of the central column (306). The rubber cover (307) has the same radius as the filter screen shell (308). A circular hole is provided at the center of the baffle plate (109). The inner diameter of the circular hole is adapted to the outer diameter of the filter screen shell (308). The suction tube (401) passes through the protective shell (302) and communicates with the telescopic tube (303). The protective shell (302) is adapted to the outer diameter of the filter screen shell (308).

5. The fermentation kimchi water treatment device according to claim 1, characterized in that: The filter plate (104) is inclined with the left side lower and the right side higher; the wave component includes an electromagnet (603) fixedly installed on the inner wall of the processing housing (102), a spring (602) is fixedly connected between the right end of the filter plate (104) and the inner wall of the processing housing (102), a permanent magnet (601) is fixedly connected to the right end of the filter plate (104), and the electromagnet (603) attracts the permanent magnet (601) when energized.

6. The fermentation kimchi water treatment device according to claim 2, characterized in that: The ultrasonic component includes an ultrasonic generator (501) fixedly installed on the top of the disinfection housing (201), an installation ring (503) fixedly installed on the inner wall of the disinfection housing (201), a transducer (502) fixedly installed on the installation ring (503), and the ultrasonic generator (501) and the transducer (502) are electrically connected.

7. The fermentation kimchi water treatment device according to claim 4, characterized in that: The rubber cover (307) is horn-shaped, and a gap D is reserved between the rubber cover (307) and the inner wall of the transition inner shell (105).

8. The fermentation kimchi water treatment device according to claim 3, characterized in that: The water outlet pipe (405) is installed at an angle.