Coconut cleaning device for coconut milk production

By combining ultrasonic waves, ozone, and mechanical scrubbing, the coconut cleaning device solves the problems of incomplete cleaning, high water consumption, and insufficient sterilization in traditional cleaning methods, achieving efficient cleaning and water-saving sterilization, and meeting the hygiene and environmental protection requirements of food production.

CN224482923UActive Publication Date: 2026-07-14FUNAN YEFENG FOOD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FUNAN YEFENG FOOD CO LTD
Filing Date
2025-07-11
Publication Date
2026-07-14

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    Figure CN224482923U_ABST
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Abstract

The utility model discloses a coconut cleaning device for coconut juice production belongs to coconut cleaning technical field, to solve the problem of not being completely washed, large water consumption, insufficient sterilization and other problems existing in prior art, including the installation shell for water storage, the inside bottom of installation shell is provided with the baffle, the below of baffle is provided with ultrasonic emission end, the inside of installation shell is provided with the aeration pipe for inputting ozone in ultrasonic emission end side, the top of installation shell is provided with the scrubbing frame that washes the surface of coconut, the device comprehensively utilizes ultrasonic cleaning, ozone sterilization and mechanical scrubbing three modes, multi -dimensional effect is in coconut surface, can effectively remove the soil, microorganism and other impurities on coconut surface, and the cleaning effect is far superior to traditional cleaning mode, through setting up water circulation system, the cleaning water can be recycled after filtering through the filter, and the ultraviolet sterilizing lamp in the water tank ensures the hygiene of circulating water.
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Description

Technical Field

[0001] A coconut cleaning device for coconut juice production. This utility model belongs to the field of coconut cleaning technology, specifically relating to the field of coconut cleaning technology for coconut juice production. Background Technology

[0002] In the coconut juice production industry, coconut cleaning is a crucial initial step. Traditional coconut cleaning methods, often involving simple manual brushing or single-stage spray rinsing, suffer from incomplete cleaning, failing to effectively remove dirt, microorganisms, and other impurities adhering to the coconut surface. This not only affects the quality of the coconut juice but may also adversely impact subsequent production stages. Furthermore, traditional cleaning methods often consume large amounts of water, resulting in low water resource utilization, and lack effective sterilization methods, failing to meet the stringent hygiene and environmental requirements of modern food production. Therefore, developing a highly efficient, water-saving coconut cleaning device with excellent sterilization capabilities is of significant practical importance. Utility Model Content

[0003] The technical problem to be solved by this utility model is to overcome the existing defects and provide a coconut cleaning device for coconut juice production, thereby solving the problems of incomplete cleaning, large water consumption and insufficient sterilization in the prior art.

[0004] To achieve the above objectives, this utility model provides the following technical solution:

[0005] A coconut cleaning device for coconut juice production includes a mounting shell for storing water, a partition is provided at the bottom of the inner side of the mounting shell, an ultrasonic transmitter is provided below the partition, an aeration pipe for inputting ozone is installed inside the mounting shell on the side of the ultrasonic transmitter, and a scrubbing frame for scrubbing the surface of the coconut is provided at the top of the mounting shell.

[0006] As a preferred technical solution of this utility model, the top of the brushing frame is equipped with a cover plate covering the brushing frame. The brushing frame includes mounting shafts distributed inside the mounting housing. Brush bristles are distributed outside the mounting shafts inside the mounting housing. A servo motor that provides power for the rotation of the mounting shafts is installed on one side of the mounting housing. The mounting shafts pass through and extend to the outside of the other side of the mounting housing, and adjacent mounting shafts are connected by a gear chain connection structure.

[0007] As a preferred embodiment of this utility model, a water tank is provided below the mounting shell, a water pump is installed on the side of the mounting shell, the water inlet of the water pump is connected to the water tank through a pipe, the water outlet of the water pump is connected to the mounting shell through a pipe, a water inlet for water intake is provided at one end of the mounting shell, and a discharge end is provided on the mounting shell above the water inlet.

[0008] As a preferred embodiment of this utility model, a drain outlet is provided at the other end of the mounting shell, a discharge end is provided on the mounting shell above the drain outlet, and a filter is provided between the drain outlet and the water tank.

[0009] As a preferred embodiment of this utility model, an ultrasonic generator for providing power to the ultrasonic transmitting end is also installed on the side of the mounting shell, and a drain pipe is provided at the bottom of the mounting shell.

[0010] As a preferred embodiment of this utility model, the water tank is equipped with an ultraviolet germicidal lamp for sterilization, a water injection pipe is installed at the top of the water tank, and a drain pipe is installed on the bottom side of the water tank.

[0011] Compared with existing technologies, the beneficial effects of this invention are as follows: This device comprehensively utilizes three methods—ultrasonic cleaning, ozone sterilization, and mechanical brushing—to act on the coconut surface from multiple dimensions, effectively removing dirt, microorganisms, and other impurities. The cleaning effect is far superior to traditional cleaning methods. By setting up a water circulation system, the cleaning water can be recycled after being filtered, while the ultraviolet germicidal lamp in the water tank ensures the hygiene of the circulating water, greatly reducing water waste and meeting environmental protection requirements. The dual sterilization effect of ozone and ultraviolet germicidal lamps effectively kills bacteria and microorganisms on the coconut surface and in the cleaning water, meeting the stringent hygiene and safety requirements of food production. A servo motor drives the brush rack to rotate, and a water pump controls water circulation; all components work together to achieve an automated cleaning process, improving production efficiency and reducing labor costs. Attached Figure Description

[0012] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0013] Figure 2 This is a three-dimensional rear structure schematic diagram of the present invention;

[0014] Figure 3 This is a cross-sectional structural diagram of the present invention;

[0015] 1-Mounting shell; 2-Water tank; 3-Water pump; 4-Filter; 5-Brush rack; 6-Ultrasonic generator; 7-Water inlet; 8-Discharge end; 9-Drain outlet; 10-Discharge end; 11-Cover plate; 12-Drainage pipe one; 13-Water injection pipe; 14-Drainage pipe two; 15-Electrical control box; 16-Ultraviolet germicidal lamp; 17-Mounting shaft; 18-Brush bristles; 19-Servo motor; 20-Gear and chain connection structure; 21-Ultrasonic transmitting end; 22-Aeration pipe; 23-Air outlet; 24-Baffle plate. Detailed Implementation

[0016] 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. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0017] Please see Figure 1-3 This utility model provides a technical solution:

[0018] A coconut cleaning device for coconut juice production mainly consists of a mounting shell 1, a water tank 2, etc. The mounting shell 1 is used to support the cleaning process, and a partition 24 is provided at the bottom of its interior to divide the interior of the mounting shell into different functional areas. An ultrasonic transmitter 21 is provided below the partition 24. The ultrasonic transmitter 21 is powered by an ultrasonic generator 6 installed on the side of the mounting shell 1 and can generate ultrasonic waves to deeply clean the surface of the coconut using the cavitation effect of the ultrasonic waves. An aeration pipe 22 is installed inside the mounting shell 1 on the side of the ultrasonic transmitter 21. An air outlet 23 is opened on the aeration pipe 22 inside the mounting shell 1 for inputting ozone. Ozone has strong oxidizing properties and can sterilize and disinfect the coconut. A scrubbing frame 5 is provided at the top of the mounting shell 1 to mechanically scrub the surface of the coconut.

[0019] A cover plate 11 is installed at the top of the brushing frame 5 for protection and sealing. The brushing frame 5 includes a mounting shaft 17, which is distributed inside the mounting shell 1 and has bristles 18 distributed on its outside. A servo motor 19 is installed on one side of the mounting shell 1 to provide power for the rotation of the mounting shaft 17. The mounting shaft 17 passes through and extends to the outside of the other side of the mounting shell 1. Adjacent mounting shafts 17 are connected by a gear chain connection structure 20, thereby realizing the synchronous rotation of multiple mounting shafts and ensuring the uniformity of brushing the coconut surface.

[0020] A water tank 2 is installed below the mounting shell 1 to store cleaning water. A water pump 3 is installed on the side of the mounting shell 1. The inlet of the water pump 3 is connected to the water tank 2 through a pipe, and the outlet is connected to the mounting shell 1 through a pipe to form a water circulation loop. A water inlet 7 is set at one end of the mounting shell 1 to replenish fresh water. A discharge end 8 is set above the water inlet 7 to put in the coconuts to be cleaned. A drain outlet 9 is set at the other end of the mounting shell 1. A discharge end 10 is set above the drain outlet 9 to output the cleaned coconuts. A filter 4 is set between the drain outlet 9 and the water tank 2 to filter the wastewater after cleaning, remove impurities, and enable water resources to be recycled.

[0021] The bottom of the mounting shell 1 is equipped with a drain pipe 12 for periodically discharging sewage and impurities from the mounting shell; the water tank 2 is equipped with an ultraviolet germicidal lamp 16 to further sterilize the water in the water tank and ensure the hygiene of the circulating water; the top of the water tank 2 is equipped with a water inlet pipe 13 for replenishing the water in the water tank, and the bottom side is equipped with a drain pipe 14 for discharging sewage from the water tank.

[0022] When using:

[0023] Equipment installation

[0024] Install the housing 1 and water tank 2 securely according to the design position, ensuring a tight connection and no leakage.

[0025] Inside the mounting housing 1, correctly install components such as partition 24, ultrasonic transmitter 21, aeration pipe 22, and scrubbing frame 5. Electrically connect ultrasonic generator 6 to ultrasonic transmitter 21, mechanically connect servo motor 19 to mounting shaft 17, and connect adjacent mounting shafts 17 through gear chain connection structure 20.

[0026] Install the ultraviolet germicidal lamp 16 inside the water tank 2, and connect the water inlet pipe 13 and the drain pipe 14.

[0027] Connect the water pump 3 to the water tank 2 and the mounting shell 1 to ensure that the water circulation system is connected correctly and smoothly. At the same time, install the filter 4 between the drain outlet 9 and the water tank 2.

[0028] Work process

[0029] Preparation stage: Inject an appropriate amount of clean water into the water tank 2 through the water injection pipe 13, and turn on the ultraviolet sterilization lamp 16 to sterilize the water in the tank. At the same time, turn on the ultrasonic generator 6 to make the ultrasonic transmitter 21 work.

[0030] Cleaning Stage: The coconuts to be cleaned are placed into the mounting shell 1 through the feeding end 8. The water pump 3 is started, allowing water from the water tank 2 to be pumped into the mounting shell 1, creating a water flow to initially rinse the coconuts. Simultaneously, the servo motor 19 is started, driving the mounting shaft 17 and brush bristles 18 to rotate, mechanically scrubbing the surface of the coconuts. The ultrasonic transmitter 21 emits ultrasonic waves, utilizing the cavitation effect of the ultrasonic waves to further remove dirt from the surface of the coconuts. Ozone is introduced through the aeration pipe 22 to sterilize and disinfect the coconuts.

[0031] Drainage and Recycling Stage: Wastewater generated during the cleaning process flows out through drain outlet 9, is filtered by filter 4, and then returns to water tank 2, realizing the recycling of water resources.

[0032] Discharge stage: After cleaning, the cleaned coconuts are output from the discharge end 10, completing one cleaning process.

[0033] Maintenance phase: Regularly discharge sewage and impurities from the installation shell 1 through drain pipe 12, discharge sewage from the water tank 2 through drain pipe 2, and clean and maintain the filter 4 to ensure normal operation of the equipment.

[0034] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A coconut cleaning device for coconut juice production, comprising a mounting shell (1) for storing water, characterized in that: The bottom of the mounting shell (1) is provided with a partition (24), and an ultrasonic transmitter (21) is provided below the partition (24). An aeration pipe (22) for inputting ozone is installed inside the mounting shell (1) on the side of the ultrasonic transmitter (21). A scrubbing rack (5) for scrubbing the surface of the coconut is provided at the top of the mounting shell (1).

2. The coconut cleaning device for coconut juice production according to claim 1, characterized in that: The brush holder (5) is topped with a cover plate (11) covering the brush holder (5). The brush holder (5) includes mounting shafts (17) distributed inside the mounting housing (1). Brush bristles (18) are distributed outside the mounting shafts (17) inside the mounting housing (1). A servo motor (19) is installed on one side of the mounting housing (1) to provide power for the rotation of the mounting shafts (17). The mounting shafts (17) penetrate and extend to the other side of the mounting housing (1). Adjacent mounting shafts (17) are connected by a gear chain connection structure (20).

3. The coconut cleaning device for coconut juice production according to claim 1, characterized in that: A water tank (2) is provided below the mounting shell (1), and a water pump (3) is installed on the side of the mounting shell (1). The water inlet of the water pump (3) is connected to the water tank (2) through a pipe, and the water outlet of the water pump (3) is connected to the mounting shell (1) through a pipe. A water inlet (7) for water intake is provided at one end of the mounting shell (1), and a discharge end (8) is provided on the mounting shell (1) above the water inlet (7).

4. The coconut washing device for coconut juice production according to claim 3, characterized in that: The other end of the mounting shell (1) is provided with a drain outlet (9), and the mounting shell (1) above the drain outlet (9) is provided with a discharge end (10). A filter (4) is provided between the drain outlet (9) and the water tank (2).

5. The coconut cleaning device for coconut juice production according to claim 1, characterized in that: An ultrasonic generator (6) that provides power to the ultrasonic transmitter (21) is also installed on the side of the mounting shell (1), and a sewage pipe (12) is provided at the bottom of the mounting shell (1).

6. The coconut cleaning device for coconut juice production according to claim 3, characterized in that: The water tank (2) is equipped with an ultraviolet germicidal lamp (16) for sterilization. A water injection pipe (13) is installed at the top of the water tank (2), and a sewage pipe (14) is installed on the bottom side of the water tank (2).