An ionized food material deep cleaning machine

By designing an ionized food deep cleaning machine, which utilizes ultrasonic vibration and ionized water cleaning, the problem of low efficiency in traditional manual cleaning is solved, achieving efficient and safe cleaning of food.

CN224443936UActive Publication Date: 2026-07-03SHENJING TECHNOLOGY DEVELOPMENT (CHONGQING) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENJING TECHNOLOGY DEVELOPMENT (CHONGQING) CO LTD
Filing Date
2025-08-14
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Traditional hand washing of food is inefficient, making it difficult to effectively remove fat-soluble chemical contaminants and pathogens, and the use of detergents and other cleaning agents may harm the body.

Method used

An ionization food deep cleaning machine was designed, comprising components such as a machine body, a cleaning tank, an ultrasonic cleaning mechanism, a bubbling mechanism, an ionization release module, and a spray gun. It achieves deep cleaning of food through ultrasonic vibration, ionized water cleaning, and multiple physicochemical synergistic effects.

Benefits of technology

It achieves efficient cleaning of food, ensuring high safety and effectively removing pesticide residues and bacteria, making it suitable for users of different ages and backgrounds.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to a cleaning machine technical field, concretely relates to a kind of ionization food material deep cleaning machine, including machine body, washing tank, control panel, remove floating device, sewage outlet, ultrasonic cleaning mechanism, bubbling mechanism, bubbling mechanism power device, ionization release module and spray gun;After clicking switch by control panel, washing tank is automatically watered, opens bubbling mechanism power device, and the water in washing tank is bubbled to form disturbance by bubbling mechanism, ultrasonic cleaning mechanism moves, and surface cleaning is carried out to food material, while ionization release module opens OH ‑ The utility model relates to a cleaning machine technical field, concretely relates to a kind of ionization food material deep cleaning machine, including machine body, washing tank, control panel, remove floating device, sewage outlet, ultrasonic cleaning mechanism, bubbling mechanism, bubbling mechanism power device, ionization release module and spray gun;After clicking switch by control panel, washing tank is automatically watered, opens bubbling mechanism power device, and the water in the washing tank is bubbled to form disturbance by bubbling mechanism, ultrasonic cleaning mechanism moves, to food material, and surface cleaning is carried out, while ionization release module opens OH ‑ The utility model relates to the deep cleaning of food material, opens remove floating device and washes floating object, and floating object is discharged through sewage outlet, and after exhausting, sewage outlet is closed, and water is injected again, at this time, ionization release module stops working, to the water level set in work, and the above-mentioned operation is repeated to food material for secondary cleaning, finally, food material is taken out, and spray gun is used to clean washing tank, machine body side wall and surface manually.
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Description

Technical Field

[0001] This utility model relates to the field of cleaning machine technology, and in particular to an ionized food deep cleaning machine. Background Technology

[0002] With the continuous deterioration of the natural environment, including water, air, and soil, coupled with the large-scale application of industrial products such as fertilizers and pesticides, pesticide residues on food are becoming increasingly serious. At the same time, a large number of bacteria, viruses, and other microorganisms may adhere to the surface of food, all of which pose a threat to human health. Therefore, it is necessary to thoroughly wash food.

[0003] Traditional food cleaning involves manual washing, which is inefficient. Rinsing with water can only remove surface dust and dirt, but it's difficult to effectively remove fat-soluble chemical contaminants and pathogens. Using detergents like dish soap is not only ineffective against pathogens and pesticide residues, but improper washing can also leave residues that can harm your health. Utility Model Content

[0004] The purpose of this invention is to provide an ionized food deep cleaning machine, which aims to solve the problem of poor efficiency in traditional manual food cleaning.

[0005] To achieve the above objectives, this utility model provides an ionized food deep cleaning machine, comprising a body, a cleaning tank, a control panel, a floating debris removal device, a drain outlet, an ultrasonic cleaning mechanism, a bubbling mechanism, a power unit for the bubbling mechanism, an ionization release module, and a spray gun. The cleaning tank is disposed within the body of the machine. The control panel is fixedly connected to the body and located on one side of the body. The floating debris removal device is mounted on both sides of the cleaning tank. The drain outlet communicates with the cleaning tank and is located on one side of the body. The ultrasonic cleaning mechanism is disposed at the bottom of the cleaning tank. The bubbling mechanism is fixedly connected to the cleaning tank and located at the bottom of the cleaning tank. The power unit for the bubbling mechanism is connected to the bubbling mechanism and located within the body of the machine. The ionization release module is mounted at the bottom of the cleaning tank. The spray gun is mounted at the top of the body.

[0006] The ionized food deep cleaning machine also includes adjustable casters, which are mounted on the bottom of the machine body.

[0007] The ionized food deep cleaning machine also includes an anti-touch movable baffle and a sensing device. The anti-touch movable baffle is located at the bottom of the cleaning tank, and the sensing device is located at the bottom of the anti-touch movable baffle.

[0008] The ionized food deep cleaning machine further includes an activated carbon unit, a resin unit, a reverse osmosis membrane, and an ultraviolet light generator. The activated carbon unit is located at the bottom of the cleaning tank, the resin unit is located on the side of the cleaning tank close to the activated carbon unit, the reverse osmosis membrane is located on the side of the resin unit away from the activated carbon unit, and the ultraviolet light generator is fixedly connected to the machine body and located at the bottom of the cleaning tank.

[0009] The ionized food deep cleaning machine also includes a content detector, which is fixedly connected to the cleaning tank and located on the inner wall of the cleaning tank.

[0010] This utility model discloses an ionization-based deep cleaning machine for food. The floating debris removal device is installed on both sides of the cleaning tank in an L-shape, with nozzles arranged in a 60-120° fan shape. The upper end of the bubbling mechanism protrudes from the visible light surface of the cleaning tank, and the pipe is concealed inside the machine body. The ultrasonic cleaning mechanism is installed in the backlight area of ​​the cleaning tank, distributed in a dotted pattern, and intermittently installed with the nozzles of the bubbling mechanism. The ionization release module uses a titanium substrate, with the anode being a specially coated pure titanium substrate and the cathode being a pure titanium substrate. Alternatively, a boron-doped diamond film (BDD) substrate can be used to effectively prevent coating peeling. The design can be optimized to allow for alternating use of two ionization release modules connected in series. The power supply direction of the two ionization release modules is changed through an AC contactor, a time relay, and an intermediate relay, thereby enabling alternating use of the two ionization release modules and extending their service life. The switching power supply method between the two ionization release modules is integrated into the control panel and automatically controlled by the background program of the control panel.

[0011] The machine body provides installation conditions for the other mechanisms. After the user clicks the switch on the control panel, the cleaning tank automatically fills with water. Once the cleaning tank reaches the water level line, the water filling stops, and the bubbling mechanism's power unit automatically activates. The bubbling mechanism causes the water in the cleaning tank to bubble and create disturbance. The ultrasonic cleaning mechanism then activates, causing the water in the cleaning tank to vibrate at high frequency, resulting in violent vibration of water molecules and accelerating their movement to clean the surface of the food. Simultaneously, the ionization release module is activated, utilizing the OH radicals generated by the ionization of water... -This cleaning machine performs deep cleaning of food ingredients. After cleaning, the floating debris removal device automatically activates to remove floating debris generated during the ionization release process. The debris is then discharged through the drain outlet. Once the debris is completely removed, the drain outlet is closed, and water drains from the drain outlet at the bottom of the cleaning tank. Water is then refilled, at which point the ionization release module stops working. Once the set water level is reached, the above operation is repeated for a second cleaning of the food ingredients. Finally, the food ingredients are removed, and the cleaning tank, the side walls of the machine, and the surface are manually cleaned using a spray gun. This cleaning machine achieves deep cleaning of food ingredients through multiple physicochemical synergistic effects. It can automatically and manually clean food ingredients, allowing users to select the cleaning mode according to their needs, better serving users of all ages and backgrounds. The control panel includes function buttons for water inlet, bubbling and ultrasonic cleaning, purification, rinsing, and drainage. The duration of each working state can be determined by the operator based on their actual needs. Automatic cleaning is a one-button operation; after clicking the button, the device automatically works according to the preset process until cleaning is complete. The entire process is safe and convenient, thus solving the problem of low efficiency in traditional manual food cleaning. Attached Figure Description

[0012] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0013] Figure 1 This is a schematic diagram of an ionized food deep cleaning machine provided by this utility model.

[0014] Figure 2 This is a top view of an ionized food deep cleaning machine provided by this utility model.

[0015] Figure 3 This is an internal schematic diagram (air circuit connection diagram of the bubbling mechanism) of an ionized food deep cleaning machine provided by this utility model.

[0016] Figure 4 This is an internal schematic diagram (water circuit connection diagram of the floating matter removal device) of an ionized food deep cleaning machine provided by this utility model.

[0017] Figure 5 This is a side view (illustration of the air circuit connection of the bubbling mechanism) of an ionized food deep cleaning machine provided by this utility model.

[0018] Figure 6This is a side view (a schematic diagram of the connection between the activated carbon unit, the resin unit, and the reverse osmosis membrane) of an ionized food deep cleaning machine provided by this utility model.

[0019] In the diagram: 1-Cleaning tank, 2-Control panel, 3-Floating debris removal device, 4-Drain outlet, 5-Adjustable casters, 6-Ultrasonic cleaning mechanism, 7-Bubble mechanism, 8-Bubble mechanism power unit, 9-Ionization release module, 10-Activated carbon unit, 11-Resin unit, 12-Reverse osmosis membrane, 13-Ultraviolet light generator, 14-Anti-touch movable baffle, 15-Sensing device, 16-Main body, 17-Content detector, 18-Spray gun. Detailed Implementation

[0020] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain this utility model, and should not be construed as limiting this utility model.

[0021] Please see Figures 1 to 6 This utility model provides an ionized food deep cleaning machine, including a body 16, a cleaning tank 1, a control panel 2, a floating debris removal device 3, a drain outlet 4, an ultrasonic cleaning mechanism 6, a bubbling mechanism 7, a bubbling mechanism power unit 8, an ionization release module 9, and a spray gun 18. The cleaning tank 1 is disposed inside the body 16. The control panel 2 is fixedly connected to the body 16 and located on one side of the body 16. The floating debris removal device 3 is assembled on both sides of the cleaning tank 1. The drain outlet 4 is connected to the cleaning tank 1 and located on one side of the body 16. The ultrasonic cleaning mechanism 6 is disposed at the bottom of the cleaning tank 1. The bubbling mechanism 7 is fixedly connected to the cleaning tank 1 and located at the bottom of the cleaning tank 1. The bubbling mechanism power unit 8 is connected to the bubbling mechanism 7 and located inside the body 16. The ionization release module 9 is assembled at the bottom of the cleaning tank 1. The spray gun 18 is assembled at the top of the body 16.

[0022] In this embodiment of the invention, the floating debris removal device 3 is installed on both sides of the cleaning tank 1 in an L-shaped distribution, with nozzles arranged in a 60-120° fan shape. The upper end of the bubbling mechanism 7 protrudes from the visible light surface of the cleaning tank 1, and the pipe is concealed inside the body 16. The ultrasonic cleaning mechanism 6 is installed in the backlight area of ​​the cleaning tank 1 in a dotted distribution, intermittently installed with the nozzles of the bubbling mechanism 7. The ionization release module 9 uses a titanium substrate, with the anode being a specially coated pure titanium substrate and the cathode being a pure titanium substrate. Alternatively, a boron-doped diamond film (BDD) substrate can be used to effectively prevent coating peeling. It can be optimized to have two ionization release modules 9 used alternately, connected in series, and the power supply direction of the two ionization release modules 9 is changed by an AC contactor, a time relay, and an intermediate relay, thereby completing the alternating use of the two ionization release modules 9 and extending their service life. The switching power supply method between the two ionization release modules 9 is integrated into the control panel 2, and is automatically controlled by the background program of the control panel 2.

[0023] The main body 16 provides installation conditions for the other mechanisms. After the user clicks the switch on the control panel 2, the cleaning tank 1 automatically fills with water. Once the cleaning tank 1 reaches the water level line, the water filling stops, and the bubbling mechanism power unit 8 is automatically turned on. The bubbling mechanism 7 causes the water in the cleaning tank 1 to bubble and create disturbance. The ultrasonic cleaning mechanism 6 is activated, causing the water in the cleaning tank 1 to vibrate at high frequency, resulting in violent vibration of water molecules, thereby accelerating the movement of water molecules and cleaning the surface of the food. At the same time, the ionization release module 9 is turned on, utilizing the OH- generated by the ionization of water... - The machine performs deep cleaning of food ingredients. After cleaning, the floating debris removal device 3 automatically opens to remove floating debris generated during the ionization release process. The debris is then discharged through the drain port 4. Once the debris is drained, the drain port 4 is closed, and water drains from the drain outlet at the bottom of the cleaning tank 1. Water is then added again, at which point the ionization release module 9 stops working. Once the set water level is reached, the above operation is repeated for a second cleaning of the food ingredients. Finally, the food ingredients are removed, and the cleaning tank 1, the side walls of the machine body 16, and the surface are manually cleaned using the spray gun 18. This cleaning machine achieves deep cleaning of food ingredients through multiple physicochemical synergistic effects. It can automatically and manually clean food ingredients, allowing users to select the cleaning mode according to their needs, better serving users of all ages and backgrounds. The control panel's page function buttons include water inlet, bubbling and ultrasonic cleaning, purification, rinsing, and drainage. The duration of each working state can be determined by the operator according to their actual needs. Automatic cleaning is a one-button cleaning function; after clicking the button, the device automatically works according to the preset process until cleaning is complete. The entire process is safe and convenient. This solves the problem of low efficiency in traditional manual food washing.

[0024] Furthermore, the ionized food deep cleaning machine also includes adjustable casters 5, which are mounted on the bottom of the machine body 16.

[0025] In this embodiment of the utility model, the adjustable casters 5 allow the body 16 to be pushed or adjusted and fixed, facilitating the movement and transportation of the cleaning machine.

[0026] Furthermore, the ionized food deep cleaning machine also includes an anti-touch movable baffle 14 and a sensing device 15. The anti-touch movable baffle 14 is disposed at the bottom of the cleaning tank 1, and the sensing device 15 is disposed at the bottom of the anti-touch movable baffle 14.

[0027] In this embodiment of the invention, an anti-touch movable baffle 14 is provided below the cleaning tank 1 and connected to the switch of the machine body 16. The anti-touch movable baffle 14 adopts a dual safety protection mode. The control panel 2 monitors the operating status of the equipment in real time. When a specific abnormality occurs, the equipment will self-protect and will not start. Connected to the control system via the sensing device 15, when the anti-touch movable baffle 14 is moved, the cleaning machine is powered off, allowing cleaning of the interior of the machine body 16, thus making the entire machine structure safer for the user.

[0028] Furthermore, the ionized food deep cleaning machine also includes an activated carbon unit 10, a resin unit 11, a reverse osmosis membrane 12, and an ultraviolet light generator 13. The activated carbon unit 10 is disposed at the bottom of the cleaning tank 1, the resin unit 11 is disposed on the side of the cleaning tank 1 close to the activated carbon unit 10, the reverse osmosis membrane 12 is disposed on the side of the resin unit 11 away from the activated carbon unit 10, and the ultraviolet light generator 13 is fixedly connected to the machine body 16 and located at the bottom of the cleaning tank 1.

[0029] In this embodiment of the invention, the activated carbon unit 10 is used to adsorb organic matter, discoloration, odor, residual chlorine, some pesticide residues, and disinfection byproducts in the water. The resin unit 11 is used to remove hardness ions (calcium and magnesium ions), heavy metal ions (lead, cadmium, etc.), and some cationic pollutants from the water; softening the water, protecting the reverse osmosis membrane 12, and improving the water ion release efficiency. It has a good adsorption effect on organic matter, keeping the filtered water clear and transparent, and can also filter out impurities and reduce scale. It has a good removal effect on residual chlorine and odors in the water. The reverse osmosis membrane 12 is used to remove most dissolved solids (TDS), bacteria, viruses, colloids, pesticide molecules, heavy metal ions, and organic matter from the water. It provides a high-purity water source, greatly reducing the input of pollutants. The ultraviolet light generator 13 preferably uses a 254nm UVC germicidal lamp to assist the ionization release module 9.

[0030] Furthermore, the ionized food deep cleaning machine also includes a content detector 17, which is fixedly connected to the cleaning tank 1 and located on the inner wall of the cleaning tank 1.

[0031] In this embodiment of the invention, the content detector 17 detects Cl. - OH - Including H2 and other ingredients, as well as further optimized rapid pesticide residue detection devices, to ensure the water quality for washing ingredients and the extent to which pesticide residues are removed during the deep cleaning process.

[0032] The above-disclosed embodiments are merely preferred embodiments of the ionized food deep cleaning machine of this utility model, and should not be construed as limiting the scope of this utility model. Those skilled in the art can understand that implementing all or part of the above embodiments and making equivalent changes in accordance with the claims of this utility model still fall within the scope of this utility model.

Claims

1. An ionized food material deep cleaning machine characterized by ; It includes the main body, cleaning tank, control panel, floating debris removal device, drain outlet, ultrasonic cleaning mechanism, bubbling mechanism, bubbling mechanism power unit, ionization release module and spray gun; The cleaning tank is disposed inside the machine body. The control panel is fixedly connected to the machine body and located on one side of the machine body. The floating debris removal device is assembled on both sides of the cleaning tank. The drain outlet is connected to the cleaning tank and located on one side of the machine body. The ultrasonic cleaning mechanism is disposed at the bottom of the cleaning tank. The bubbling mechanism is fixedly connected to the cleaning tank and located at the bottom of the cleaning tank. The power unit of the bubbling mechanism is connected to the bubbling mechanism and located inside the machine body. The ionization release module is assembled at the bottom of the cleaning tank. The spray gun is assembled at the top of the machine body.

2. The ionized food material deep cleaning machine of claim 1, wherein ; The ionized food deep cleaning machine also includes adjustable casters, which are mounted on the bottom of the machine body.

3. The ionized food material deep cleaning machine of claim 1, wherein ; The ionized food deep cleaning machine also includes an anti-touch movable baffle and a sensing device. The anti-touch movable baffle is located at the bottom of the cleaning tank, and the sensing device is located at the bottom of the anti-touch movable baffle.

4. The ionized food material deep cleaning machine of claim 1, wherein ; The ionized food deep cleaning machine also includes an activated carbon unit, a resin unit, a reverse osmosis membrane, and an ultraviolet light generator. The activated carbon unit is located at the bottom of the cleaning tank, the resin unit is located on the side of the cleaning tank close to the activated carbon unit, the reverse osmosis membrane is located on the side of the resin unit away from the activated carbon unit, and the ultraviolet light generator is fixedly connected to the machine body and located at the bottom of the cleaning tank.

5. The ionized food material deep cleaning machine of claim 1, wherein ; The ionized food deep cleaning machine also includes a content detector, which is fixedly connected to the cleaning tank and located on the inner wall of the cleaning tank.