A material cleaning device

By combining the design of the cleaning basket, cleaning mechanism, separation mechanism and turbulence mechanism, the problems of low cleaning efficiency and easy damage of the popping beads in the existing technology are solved, and efficient cleaning and oil recovery are achieved.

CN224332906UActive Publication Date: 2026-06-09CHINA TOBACCO HUNAN IND CORP

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHINA TOBACCO HUNAN IND CORP
Filing Date
2025-07-08
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing technologies are not efficient or effective at cleaning burst beads, and they can easily damage the burst beads.

Method used

The design incorporates a combination of a cleaning basket, a cleaning mechanism, a separation mechanism, and a turbulence mechanism. The turbulence mechanism drives the flow of the popping beads in the cleaning basket, improving cleaning efficiency and effectiveness. At the same time, the separation mechanism guides the oil to the recovery chamber, preventing damage to the popping beads.

Benefits of technology

It improves cleaning efficiency and effectiveness, enables oil recycling and reuse, and avoids damage to the popping beads.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention provides a material cleaning device, comprising a cleaning basket, a cleaning mechanism, a separation mechanism, and a turbulence-disrupting mechanism. The cleaning basket contains a material-containing cavity and has a mesh structure. The cleaning mechanism includes a main body and a partition, with a receiving chamber within the main body. The partition separates the receiving chamber into a cleaning chamber and a recovery chamber. The cleaning basket can be placed in the cleaning chamber. The separation mechanism, located on the main body, sprays a medium to guide oil floating on the top surface of the cleaning chamber to the recovery chamber. The turbulence-disrupting mechanism, located on the main body and corresponding to the cleaning chamber, agitates the cleaning medium within the cleaning chamber. Compared with existing technologies, this material cleaning device improves cleaning effect and efficiency, and better prevents damage to the material being cleaned.
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Description

Technical Field

[0001] This utility model relates to the field of material cleaning technology, and in particular to a material cleaning device. Background Technology

[0002] Flavor capsules, also known as flavoring beads, are primarily used in cigarette filters. They contain a liquid flavoring agent that smokers can pop during smoking to release the liquid, resulting in a richer and more flavorful cigarette.

[0003] Cleaning is an essential step in the production of popping beads, removing impurities such as oil adhering to their surface. Currently, cleaning popping beads primarily utilizes the principle that oil and water are immiscible and have different densities. The popping beads are placed in water. Due to the lower density of oil, it settles and floats on top of the water, thus achieving oil-water separation.

[0004] The conventional cleaning method in the existing technology is to hold the popping beads in a container, then inject water into the container, and then have the popping beads cleaned manually by the operator. This method has low cleaning efficiency and low cleaning effect.

[0005] With the gradual development of technology, some cleaning devices for cleaning popping beads have emerged. These devices also rely on the principle that oil and water are immiscible and have different densities, using the cooperation of mechanical structures to clean the popping beads. Compared with conventional manual cleaning methods, these devices can improve cleaning efficiency and effectiveness to some extent, but the improvement is limited, and they also have the problem of easily damaging the popping beads.

[0006] Therefore, how to provide a new material cleaning device is a technical problem that urgently needs to be solved in this field. Utility Model Content

[0007] To address the problems of poor cleaning efficiency and effectiveness, and the tendency to damage the burst beads in existing cleaning techniques, this invention provides a material cleaning device. The device uses a cleaning basket to hold the burst beads, which is placed inside the cleaning chamber of a cleaning mechanism. The cleaning chamber is equipped with a flow-driving mechanism that agitates the burst beads within the cleaning basket, thereby improving cleaning efficiency and effectiveness. Furthermore, the cleaning basket restricts the position of the burst beads, preventing them from moving freely within the cleaning chamber and further reducing the risk of damage.

[0008] A material cleaning device includes a cleaning basket, a cleaning mechanism, a separation mechanism, and a turbulence-inducing mechanism;

[0009] The cleaning basket is provided with a cavity for receiving materials to be cleaned, and the cleaning basket is provided with a mesh structure.

[0010] The cleaning mechanism includes a main body and a partition. A receiving chamber is provided inside the main body. The partition is provided inside the main body and separates a cleaning chamber and a recycling chamber in the receiving chamber. The cleaning basket can be placed in the cleaning chamber.

[0011] The separation mechanism is mounted on the main body and is used to spray a medium to guide the oil floating on the top surface in the cleaning chamber to the recovery chamber.

[0012] The turbulence-disrupting mechanism is disposed on the main body and corresponding to the cleaning chamber, and is used to agitate the cleaning medium in the cleaning chamber.

[0013] Preferably, the cleaning chamber is further provided with a support member for supporting the cleaning basket.

[0014] Preferably, the cleaning basket includes a basket body and a cover plate. The basket body is provided with a cavity for receiving the material to be cleaned. The cover plate is movably connected to the basket body to open and close the cavity for receiving the material to be cleaned. Both the basket body and the cover plate are mesh structures.

[0015] Preferably, a connecting rod is provided on the cover plate;

[0016] The material cleaning device also includes a limiting member, which is detachably connected to the main body to lock the connecting rod and restrict the rotation of the cleaning basket.

[0017] Preferably, the separation mechanism includes a medium pipeline and a control valve connected to the medium pipeline. The medium pipeline is disposed on the side wall of the main body and opposite to the partition plate. The height of the medium pipeline is flush with the top of the partition plate. A medium outlet is provided on the side of the medium pipeline near the partition plate.

[0018] The control valve is used to control the opening and closing of the medium pipeline.

[0019] Preferably, the turbulence-disrupting mechanism includes a circulating pump, an outlet, and a return outlet;

[0020] The water outlet is located on the main body and corresponds to the cleaning chamber, and is connected to the medium outlet of the circulating pump through a pipeline;

[0021] The return water inlet is located on the main body and corresponds to the cleaning chamber, and is connected to the medium inlet of the circulating pump through a pipeline.

[0022] Preferably, a tee pipe is provided on the pipeline connected to the return water inlet, and the three channels of the tee pipe are respectively connected to the return water inlet, the medium inlet of the circulating pump, and the drain valve.

[0023] Preferably, the water outlet is positioned directly opposite the location where the cleaning basket is placed in the cleaning chamber.

[0024] Preferably, a recycling port is provided at the bottom of the recycling bin;

[0025] The bottom of the body is equipped with rollers.

[0026] Preferably, the washing chambers are respectively provided on both sides of the recycling chamber, and the separation mechanism and the turbulence mechanism are respectively provided at each washing chamber.

[0027] Compared with the prior art, the material cleaning device provided by this utility model includes a cleaning basket, a cleaning mechanism, a separation mechanism, and a turbulence-inducing mechanism. The cleaning basket has a material-containing cavity and a mesh structure. The cleaning mechanism includes a main body and a partition, with a receiving chamber inside the main body. The partition separates the receiving chamber into a cleaning chamber and a recovery chamber. The cleaning basket can be placed in the cleaning chamber. The separation mechanism is located on the main body and sprays a medium to guide oil floating on the top surface of the cleaning chamber to the recovery chamber. The turbulence-inducing mechanism is located on the main body and corresponds to the cleaning chamber to agitate the cleaning medium in the cleaning chamber. In use, the material cleaning device can be used by first placing the material to be cleaned into the cleaning basket, then placing the cleaning basket into the cleaning chamber, and injecting water or cleaning liquid into the cleaning chamber to clean the material. During the cleaning process, the flow-around mechanism can agitate the water or cleaning fluid in the cleaning chamber, thereby moving the material to be cleaned in the cleaning basket, improving the cleaning efficiency and effectiveness. Additionally, during the cleaning process, the separation mechanism can guide oil floating on the surface of the water or cleaning fluid to the recovery chamber, enabling oil recycling and reuse. Furthermore, due to the confinement of the cleaning basket, the material to be cleaned only moves within the basket and not within the cleaning chamber, better preventing damage and avoiding accidental diversion of material to the recovery chamber by the separation mechanism. Attached Figure Description

[0028] To more clearly illustrate the technical solutions in the embodiments of this application 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 application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0029] Figure 1 A top view of a material cleaning apparatus provided in one embodiment;

[0030] Figure 2 for Figure 1 A schematic diagram of the internal structure of the material cleaning device shown.

[0031] Figure label:

[0032] Material cleaning device 100;

[0033] 10. Cleaning basket; 11. Mesh structure; 12. Basket body; 13. Cover plate; 14. Connecting rod;

[0034] Cleaning mechanism 20, body 21, bottom wall 2101, end side wall 2102, side side wall 2103, receiving chamber 211, cleaning chamber 2111, recycling chamber 2112, recycling port 2113, partition 22, support component 23, mounting plate 24, roller 25;

[0035] Separation mechanism 30, medium pipeline 31, control valve 32, pagoda connector 33;

[0036] 40. Fluid turbulence mechanism; 41. Circulation pump; 42. Water outlet; 43. Water return port; 44. T-pipe; 45. Drain valve;

[0037] Limiting component 50;

[0038] Fastener 60. Detailed Implementation

[0039] To enable those skilled in the art to better understand the technical solutions in this application, the technical solutions in the embodiments of this application will be clearly and completely described below. Obviously, the described embodiments are only a part of the embodiments of this application, and not all of the embodiments. Based on the embodiments in this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.

[0040] It should be noted that when a component is referred to as being "fixed to", "mounted to", or "set on" another component, it can be directly on or indirectly set on the other component; when a component is "connected" to another component, or a component is referred to as being "connected to" another component, it can be directly connected to or indirectly connected to the other component.

[0041] It should be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this application.

[0042] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this application, "a plurality of" or "several" means two or more, unless otherwise explicitly specified.

[0043] It should be noted that the structures, proportions, sizes, etc., shown in the accompanying drawings are only for the purpose of assisting those skilled in the art in understanding and reading the content disclosed in the specification, and are not intended to limit the conditions under which this application can be implemented. Therefore, they have no substantial technical significance. Any modifications to the structure, changes in the proportions, or adjustments to the size should still fall within the scope of the technical content disclosed in this application, provided that they do not affect the effects and purposes that this application can produce.

[0044] This utility model provides a material cleaning device, comprising a cleaning basket, a cleaning mechanism, a separation mechanism, and a turbulence-disrupting mechanism. The cleaning basket contains a material-containing cavity and has a mesh structure. The cleaning mechanism includes a main body and a partition, with a receiving chamber within the main body. The partition separates the receiving chamber into a cleaning chamber and a recovery chamber. The cleaning basket can be placed in the cleaning chamber. The separation mechanism is located on the main body and sprays a medium to guide oil floating on the top surface of the cleaning chamber to the recovery chamber. The turbulence-disrupting mechanism is located on the main body and corresponds to the cleaning chamber to agitate the cleaning medium within the cleaning chamber. In use, the material to be cleaned is first placed in the cleaning basket, and then the cleaning basket is placed into the cleaning chamber. Water or cleaning liquid is injected into the cleaning chamber to clean the material. During the cleaning process, the flow-around mechanism can agitate the water or cleaning fluid in the cleaning chamber, thereby moving the material to be cleaned in the cleaning basket, improving the cleaning efficiency and effectiveness. Additionally, during the cleaning process, the separation mechanism can guide oil floating on the surface of the water or cleaning fluid to the recovery chamber, enabling oil recycling and reuse. Furthermore, due to the confinement of the cleaning basket, the material to be cleaned only moves within the basket and not within the cleaning chamber, better preventing damage and avoiding accidental diversion of material to the recovery chamber by the separation mechanism.

[0045] Please refer to the following: Figure 1 and Figure 2 In one embodiment, a material cleaning device 100 is provided, specifically a material cleaning device for cigarette flavoring beads. Of course, in other embodiments, depending on actual needs, the material cleaning device 100 can also be used for cleaning other materials.

[0046] The material cleaning device 100 includes a cleaning basket 10, a cleaning mechanism 20, a separation mechanism 30, and a turbulence-inducing mechanism 40. The cleaning basket 10 is mainly used to hold the material to be cleaned. The cleaning mechanism 20 is mainly used to hold the cleaning basket 10 and the cleaning medium (wherein, the cleaning medium can be water or cleaning liquid. When the cleaning medium is cleaning liquid, the cleaning liquid is not miscible with the oil to be cleaned, and the oil needs to be able to float on the top of the cleaning liquid). The separation mechanism 30 is mainly used to separate the oil from the cleaning medium. The turbulence-inducing mechanism 40 is mainly used to turbulent the cleaning medium in the cleaning mechanism 20.

[0047] The cleaning basket 10 has a material-containing cavity for holding the material to be cleaned (e.g., cigarette flavoring capsules). The cleaning basket 10 also has a mesh structure 11. This mesh structure 11 is composed of multiple intersecting unit strips, with each unit strip forming multiple small through-holes that connect the material-containing cavity to the external environment. In other words, the mesh structure 11 is a perforated structure with multiple small through-holes, allowing external cleaning media to enter and exit the material-containing cavity through these holes. It is understood that to prevent the material from flowing out of the cavity through these small through-holes, the diameter of each through-hole should be smaller than the diameter of the material to be cleaned.

[0048] The cleaning mechanism 20 includes a body 21 and a partition 22. A receiving chamber 211 is provided within the body 21. The partition 22 is disposed within the body 21 and divides the receiving chamber 211 into a cleaning chamber 2111 and a recovery chamber 2112. The cleaning basket 10 can be placed in the cleaning chamber 2111. When the material to be cleaned needs to be cleaned, the material to be cleaned is first loaded into the material receiving cavity of the cleaning basket 10. Then, the cleaning basket 10 is placed into the cleaning chamber 2111, and a cleaning medium is injected into the cleaning chamber 2111. The cleaning medium in the cleaning chamber 2111 can flow into and out of the cleaning basket 10 through small through holes on the mesh structure 11, thereby achieving the cleaning of the material to be cleaned.

[0049] The separation mechanism 30 is mounted on the main body 21 and is used to spray a medium to guide the oil floating on the top surface of the cleaning chamber 2111 to the recovery chamber 2112. The medium sprayed by the separation mechanism 30 can be a liquid or a gaseous structure, as long as it can move the oil towards the recovery chamber 2112 and allow it to flow into it. In other words, the separation mechanism 30 is mainly used to send the oil removed during the cleaning process into the recovery chamber 2112, thereby separating the cleaning medium from the oil. This improves cleaning efficiency and also allows for the recovery of the oil.

[0050] The flow-dispersing mechanism 40 is disposed on the main body 21 and corresponds to the cleaning chamber 2111, and is used to agitate the cleaning medium in the cleaning chamber 2111. The flow-dispersing mechanism 40 is mainly used to drive the cleaning medium in the cleaning chamber 2111 to flow, and the flowing cleaning medium will also drive the materials to be cleaned in the cleaning basket 10 to move in the cleaning basket 10, so that the cleaning medium can come into more full contact with the materials to be cleaned, thereby improving the cleaning effect and efficiency of the materials to be cleaned.

[0051] In use, the material cleaning device 100 first loads the material to be cleaned into the material receiving cavity of the cleaning basket 10, and then places the cleaning basket 10 into the cleaning chamber 2111. Simultaneously, cleaning medium is injected into the cleaning chamber 2111, allowing the cleaning medium to contact the material to be cleaned, thus achieving cleaning. During the cleaning process, the turbulence-inducing mechanism 40 works synchronously to agitate the cleaning medium in the receiving chamber 211, allowing the cleaning medium to make more thorough contact with the material to be cleaned. During the cleaning process, the oil released floats on the surface of the cleaning medium, and the separation mechanism 30 sprays medium to guide the oil into the recovery chamber 2112.

[0052] Specifically, in one embodiment, the main body 21 has an open top structure, so the cleaning basket 10 can be placed into the cleaning chamber 2111 or taken out of the cleaning chamber 2111 directly from the top of the main body 21. Alternatively, the cleaning medium can be injected directly into the cleaning chamber 2111 from the top.

[0053] Preferably, in one embodiment, the cleaning chamber 2111 is further provided with a support member 23, which is used to support the cleaning basket 10. The support member 23 serves two purposes: firstly, it supports the cleaning basket 10 to a certain height within the cleaning chamber 2111; secondly, it limits the movement of the cleaning basket 10 within the cleaning chamber 2111 during the cleaning process, thus better preventing accidental damage to the materials to be cleaned.

[0054] Specifically, in one embodiment, the washing basket 10 is a hollow cylindrical structure, and the part of the support member 23 used to support the washing basket 10 is a semi-enclosed annular structure. The support member 23 is in contact with the bottom wall and the outer surface of the side wall of the washing basket 10 respectively.

[0055] Preferably, in one embodiment, the cleaning basket 10 includes a basket body 12 and a cover plate 13. The basket body 12 has a cavity for receiving the material to be cleaned, and the cover plate 13 is movably connected to the basket body 12 to open and close the cavity for receiving the material to be cleaned. The movable connection between the cover plate 13 and the basket body 12 means that the cover plate 13 can move relative to the basket body 12, thereby changing the position of the cover plate 13 relative to the basket body 12 to open or close the cavity for receiving the material to be cleaned. The movable connection between the cover plate 13 and the basket 12 can be any desired method. For example, the cover plate 13 can be detachably connected to the basket 12. The material receiving cavity can be opened by removing the cover plate 13, so that the material to be cleaned can be placed into the material receiving cavity or the cleaned material can be taken out of the material receiving cavity. The material receiving cavity can be closed by installing the cover plate 13 on the basket 12. Alternatively, one end of the cover plate 13 can be hinged to the basket 12, and a corresponding locking structure (such as a magnetic structure, a snap-fit ​​structure, etc.) can be provided between the other end of the cover plate 13 and the basket 12. The material receiving cavity can be opened and closed by flipping the cover plate 13.

[0056] Specifically, in one embodiment, the cover plate 13 is disposed on the top of the basket 12.

[0057] More preferably, in one embodiment, both the basket 12 and the cover plate 13 are mesh structures. That is, each wall of the basket 12 and the cover plate 13 adopt a hollow mesh structure, which is more conducive to the inflow and outflow of the cleaning medium, thereby improving cleaning efficiency and cleaning effect.

[0058] Preferably, in one embodiment, a connecting rod 14 is provided on the cover plate 13. The material cleaning device 100 further includes a limiting member 50, which is detachably connected to the body 21 to lock the connecting rod 14 and restrict the rotation of the cleaning basket 10. It can be understood that since the turbulence mechanism 40 can disturb the flow of the cleaning medium in the cleaning chamber 2111, and the flowing cleaning medium can easily cause the cleaning basket 10 to rotate, the limiting member 50 can limit the cleaning basket 10 and prevent it from rotating during the cleaning process.

[0059] Specifically, in one embodiment, the connecting rod 14 has a U-shaped rod structure, which can both cooperate with the limiting member 50 to limit the cleaning basket 10 and facilitate the operator to pick up and put down the cleaning basket 10.

[0060] Specifically, in one embodiment, the two ends of the limiting member 50 are detachably mounted on the top of the body 21 by fasteners 60 (which may be bolts), and the bottom of the limiting member 50 is provided with a slot, into which the connecting rod 14 can be inserted to limit the connection rod 14. When using the material cleaning device 100, the cleaning basket 10 can be placed into the cleaning chamber 2111 first, then the limiting member 50 can be installed on the body 21 to limit the connection rod 14, and finally the limiting member 50 can be fixed to the body 10 by the fasteners 60. After cleaning, the fasteners 60, the limiting member 50, and the cleaning basket 10 can be disassembled in sequence.

[0061] Preferably, in one embodiment, the separation mechanism 30 includes a medium pipeline 31 and a control valve 32 connected to the medium pipeline 31. The medium pipeline 31 is disposed on the side wall of the main body 21 and opposite to the partition 22, and the height of the medium pipeline 31 is flush with the top of the partition 22. A medium outlet is provided on the side of the medium pipeline 31 near the partition 22. In use, by activating the control valve 32, the medium flows into the medium pipeline 31 and is sprayed towards the recovery chamber 2112 through the medium outlet on the medium pipeline 31, thereby guiding the oil into the recovery chamber 2112.

[0062] Specifically, in one embodiment, the medium sprayed by the separation mechanism 30 is a liquid medium. More specifically, in another embodiment, the medium sprayed by the separation mechanism 30 is the same as the cleaning medium in the cleaning chamber 2111. In this embodiment, in the initial stage of cleaning, the cleaning medium can also be injected into the cleaning chamber 2111 through the separation mechanism 30, thereby improving the injection efficiency of the cleaning medium. For example, in the initial stage of cleaning, when the cleaning medium in the cleaning chamber 2111 is insufficient, the opening of the control valve 32 can be adjusted to a smaller degree, so that the cleaning medium can flow into the cleaning chamber 2111 through the medium outlet on the medium pipeline 31; while when the cleaning medium in the cleaning chamber 2111 is sufficient, and the oil floats on the surface of the cleaning medium, the opening of the control valve 32 can be increased, so that the cleaning medium sprayed through the medium outlet can cause the oil to move towards the recovery chamber 2112.

[0063] Specifically, in one embodiment, the body 21 is a hollow, open-top rectangular structure. The body 21 includes a bottom wall 2101 and two end side walls 2102 and two side side walls 2103 disposed on the bottom wall 2101. The two end side walls 2102 are spaced apart from each other, and the two side side walls 2103 are also spaced apart from each other. The two ends of the partition 22 are respectively connected to the two side side walls 2103. The end side walls 2102 and the partition 22 are positioned opposite each other at a distance, and the tops of both the end side walls 2102 and the side side walls 2103 are higher than the top of the partition 22. The medium pipeline 31 is disposed on the end side walls 2102.

[0064] Specifically, in one embodiment, the other end of the control valve 32 is connected to a pagoda connector 33, which facilitates the connection of the separation mechanism 30 with each medium supply source.

[0065] Preferably, in one embodiment, the turbulence-disrupting mechanism 40 includes a circulation pump 41, an outlet 42, and a return outlet 43. The outlet 42 is disposed on the body 21 and corresponds to the cleaning chamber 2111, and is connected to the medium outlet of the circulation pump 41 via a pipeline. The return outlet 43 is disposed on the body 21 and corresponds to the cleaning chamber 2111, and is connected to the medium inlet of the circulation pump 41 via a pipeline. In use, the circulation pump 41 provides power to draw the cleaning medium in the cleaning chamber 2111 out through the return outlet 43, and then returns the cleaning medium to the cleaning chamber 2111 through the outlet 42, thereby realizing the circulation of the cleaning medium and disturbing the cleaning medium in the cleaning chamber 2111.

[0066] Specifically, in one embodiment, a mounting plate 24 is fixed below the body 21, and the circulation pump 41 is disposed on the mounting plate 24.

[0067] Preferably, in one embodiment, a three-way pipe 44 is provided on the pipeline connected to the return water port 43. The three channels of the three-way pipe 44 are respectively connected to the return water port 43, the medium inlet of the circulating pump 41, and the drain valve 45. After the material cleaning device 100 has finished cleaning, it can open the drain valve 45 to discharge the residual cleaning medium in the cleaning chamber 2111.

[0068] Preferably, in one embodiment, the water outlet 42 is positioned directly opposite the location of the cleaning basket 10 within the cleaning chamber 2111. That is, when the cleaning basket 10 is placed in the cleaning chamber 2111, the cleaning medium sprayed from the water outlet 42 can flow directly into the cleaning basket 10, thereby better agitating the material to be cleaned within the cleaning basket 10 and improving cleaning efficiency and effectiveness.

[0069] Specifically, in one embodiment, the water outlet 42 is disposed on the bottom wall 2101 and located directly below the center of the washing basket 10. Of course, in other embodiments, the water outlet 42 can also be disposed on the side wall of the main body 21. Furthermore, the number of water outlets 42 can be multiple, selected according to requirements. Similarly, there can also be multiple return water outlets 43.

[0070] In addition, in some embodiments, a connecting pipe may be provided at the water outlet 42, which can extend into the cleaning basket 10, thereby further improving the disturbance effect on the material to be cleaned in the cleaning basket 10 and further improving the cleaning effect.

[0071] Preferably, in one embodiment, the bottom of the recycling bin 2112 is provided with a recycling port 2113, which facilitates the discharge and collection of oil in the recycling bin 2112.

[0072] Preferably, in one embodiment, the bottom of the body 21 is provided with rollers 25, thereby facilitating the movement of the material cleaning device 100.

[0073] Preferably, in one embodiment, the recycling bin 2112 has cleaning bins 2111 on both sides, and each cleaning bin 2111 is equipped with a separation mechanism 30 and a turbulence-inducing mechanism 40. That is, in this embodiment, the main body 21 has two partitions 22, which divide the receiving bin 211 into three spaces: the recycling bin 2112 in the middle, and the cleaning bins 2111 on both sides. During cleaning, cleaning baskets 10 can be placed in the two cleaning bins 2111 respectively, and the two cleaning baskets 10 can be cleaned simultaneously, further improving cleaning efficiency.

[0074] The above description is merely an embodiment of this utility model. It should be noted that those skilled in the art can make improvements without departing from the inventive concept of this utility model, but these improvements all fall within the protection scope of this utility model.

Claims

1. A material cleaning device, characterized in that, Includes a cleaning basket, a cleaning mechanism, a separation mechanism, and a flow-disrupting mechanism; The cleaning basket is provided with a cavity for receiving materials to be cleaned, and the cleaning basket is provided with a mesh structure. The cleaning mechanism includes a main body and a partition. A receiving chamber is provided inside the main body. The partition is provided inside the main body and separates a cleaning chamber and a recycling chamber in the receiving chamber. The cleaning basket can be placed in the cleaning chamber. The separation mechanism is mounted on the main body and is used to spray a medium to guide the oil floating on the top surface in the cleaning chamber to the recovery chamber. The turbulence-disrupting mechanism is disposed on the main body and corresponding to the cleaning chamber, and is used to agitate the cleaning medium in the cleaning chamber.

2. The material cleaning device according to claim 1, characterized in that, The cleaning chamber is also equipped with a support member, which is used to support the cleaning basket.

3. The material cleaning device according to claim 1, characterized in that, The cleaning basket includes a basket body and a cover plate. The basket body is provided with a cavity for receiving the material to be cleaned. The cover plate is movably connected to the basket body to open and close the cavity for receiving the material to be cleaned. Both the basket body and the cover plate are mesh structures.

4. The material cleaning device according to claim 3, characterized in that, A connecting rod is provided on the cover plate; The material cleaning device also includes a limiting member, which is detachably connected to the main body to lock the connecting rod and restrict the rotation of the cleaning basket.

5. The material cleaning device according to claim 1, characterized in that, The separation mechanism includes a medium pipeline and a control valve connected to the medium pipeline. The medium pipeline is disposed on the side wall of the main body and opposite to the partition plate. The height of the medium pipeline is flush with the top of the partition plate. A medium outlet is provided on the side of the medium pipeline near the partition plate. The control valve is used to control the opening and closing of the medium pipeline.

6. The material cleaning device according to claim 1, characterized in that, The flow disturbance mechanism includes a circulation pump, a water outlet, and a water return outlet; The water outlet is located on the main body and corresponds to the cleaning chamber, and is connected to the medium outlet of the circulating pump through a pipeline; The return water inlet is located on the main body and corresponds to the cleaning chamber, and is connected to the medium inlet of the circulating pump through a pipeline.

7. The material cleaning device according to claim 6, characterized in that, A tee pipe is installed on the pipeline connected to the return water inlet. The three channels of the tee pipe are respectively connected to the return water inlet, the medium inlet of the circulating pump, and the drain valve.

8. The material cleaning device according to claim 6, characterized in that, The water outlet is directly opposite the position where the cleaning basket is placed in the cleaning chamber.

9. The material cleaning device according to claim 1, characterized in that, The bottom of the recycling bin is equipped with a recycling port; The bottom of the body is equipped with rollers.

10. The material cleaning apparatus according to any one of claims 1 to 9, characterized in that, The recycling bin is provided with cleaning bins on both sides, and each cleaning bin is provided with a separation mechanism and a turbulence mechanism.