Energy-saving and environment-friendly ultrasonic cleaning machine
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN JINTAIYING ENVIRONMENTAL PROTECTION EQUIP CO LTD
- Filing Date
- 2025-06-11
- Publication Date
- 2026-06-09
Smart Images

Figure CN224332940U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of ultrasonic technology, specifically to an energy-saving and environmentally friendly ultrasonic cleaning machine. Background Technology
[0002] Traditional ultrasonic cleaning machines suffer from high energy consumption, severe pollution, and insufficient intelligence, making it difficult to meet the demands of modern environmental protection and precision cleaning. With increasingly stringent environmental and energy-saving requirements in actual production, and the ever-growing demands for cleaning precision in industries such as medical and semiconductors, energy-saving and environmentally friendly technologies have long been a key area of research and development in the field of cleaning technology.
[0003] In terms of energy conservation and environmental protection, existing technologies typically use filters to remove impurities generated during the cleaning process, followed by recycling the filtered water. However, due to the long-term trapping of particulate pollutants, the filter mesh gradually becomes clogged, leading to a slowdown in the circulating water flow rate and a reduction in volume. When the filtration effect fails, unblocked impurities will re-enter the cleaning tank, causing secondary pollution of the cleaning solution. This results in repeated contamination of the cleaned objects, significantly reducing cleaning accuracy and efficiency. Therefore, we propose an energy-saving and environmentally friendly ultrasonic cleaning machine. Utility Model Content
[0004] The purpose of this invention is to provide an energy-saving and environmentally friendly ultrasonic cleaning machine to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: an energy-saving and environmentally friendly ultrasonic cleaning machine, comprising a machine body, support legs disposed at the bottom of the machine body, and further comprising:
[0006] A rotating assembly includes a rotating rod rotatably connected to a machine body, a filter screen connected to the rotating rod, a first housing disposed on the side of the machine body near the rotating rod, a first motor disposed inside the first housing, and the rotating rod connected to the output end of the first motor;
[0007] The cleaning assembly includes a connecting rod rotatably connected to the body, a turntable on the body, the turntable connected to the connecting rod, an extension shaft connected to the turntable, an extension plate connected to the extension shaft, a rotating plate on the body near the extension plate, a connecting arm connected to the connecting rod, a striking block connected to the connecting arm, and a spring piece connected between the connecting arm and the inner wall of the body.
[0008] Furthermore, a drive assembly is provided on the side of the machine body near the rotating plate. The drive assembly includes a second housing connected to the machine body, a second motor disposed inside the second housing, and a fixed shaft connected to the rotating plate. The fixed shaft is connected to the output end of the first motor.
[0009] The above technical solution involves setting up a drive component as the power source for the cleaning component, which drives the striking block to strike the filter screen.
[0010] Furthermore, a collection component is provided inside the machine body, the collection component including a pull-out plate slidably connected to the machine body, and a handle is connected to the pull-out plate.
[0011] The above technical solution involves setting up a collection component to collect the dust and impurities after the object is knocked off, and then pulling the handle to pull out the pull-out panel for cleaning.
[0012] Furthermore, the machine body is provided with a support assembly, which includes a bracket plate, and the bracket plate is threadedly connected to the machine body with bolts.
[0013] The above technical solution involves setting up a support component to support and limit the spray assembly.
[0014] Furthermore, a spray assembly is provided on the top of the support plate. The spray assembly includes a water tank, and a conduit is connected to the top of the water tank. A solenoid valve is provided on the conduit.
[0015] The above technical solution involves setting up a spray assembly to inject water into the interior of the machine.
[0016] Furthermore, a circulation assembly is provided at the bottom of the water tank. The circulation assembly includes a circulation pipe connected to the bottom of the water tank. The end of the circulation pipe away from the water tank is connected to the machine body, and a water pump is provided on the circulation pipe.
[0017] The above technical solution involves setting up a circulation component to recirculate the filtered water back into the water tank through a circulation pipe, thereby reducing water waste.
[0018] Furthermore, an ultrasonic generator is provided on the machine body, a cable is connected to the ultrasonic generator, an ultrasonic transducer is provided at the bottom of the machine body, and the end of the cable away from the ultrasonic generator is plugged into the ultrasonic transducer.
[0019] The above technical solution involves setting up an ultrasonic generator to convert industrial frequency AC power into a high-frequency electrical signal, which is then transmitted to the ultrasonic transducer via a cable to drive it to generate mechanical vibration, which is then transmitted to the cleaning fluid.
[0020] Compared with the prior art, the advantages and positive effects of this utility model are as follows:
[0021] In this invention, a rotating component is used to flip the side of the filter screen that intercepts impurities downwards. Then, a cleaning component is used to knock the impurities off the surface of the filter screen, preventing filter screen blockage and avoiding problems such as reduced circulating water flow rate and reduced flow. This ensures that the cleaning efficiency will not decrease significantly in the short term, and the cleaning fluid can be recycled and reused in a cleaner state, improving the cleaning effect of the recycled cleaning fluid. Attached Figure Description
[0022] Figure 1 This is a front view of an energy-saving and environmentally friendly ultrasonic cleaning machine.
[0023] Figure 2 This is a side view of an energy-saving and environmentally friendly ultrasonic cleaning machine.
[0024] Figure 3 This is a structural diagram of a cleaning process in an energy-saving and environmentally friendly ultrasonic cleaner.
[0025] Figure 4 This is a diagram of the internal structure of an energy-saving and environmentally friendly ultrasonic cleaner.
[0026] Figure 5 This is a bottom structure diagram of an energy-saving and environmentally friendly ultrasonic cleaner.
[0027] Numbering on the map:
[0028] 1. Body; 2. Support leg; 3. Rotating assembly; 31. Rotating rod; 32. Filter screen; 33. First housing; 4. Cleaning assembly; 41. Turntable; 42. Extension shaft; 43. Extension plate; 44. Rotating plate; 45. Connecting rod; 46. Connecting arm; 47. Striking block; 48. Spring; 5. Drive assembly; 51. Second housing; 52. Fixed shaft; 6. Collection assembly; 61. Pull-out plate; 62. Handle; 7. Spray assembly; 71. Water tank; 72. Pipe; 73. Solenoid valve; 8. Support assembly; 81. Bracket plate; 82. Bolt; 9. Circulation assembly; 91. Circulation pipe; 92. Water pump; 10. Ultrasonic generator; 11. Cable; 12. Ultrasonic transducer. Detailed Implementation
[0029] 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.
[0030] like Figure 1 - Figure 4As shown, this utility model provides a technical solution: an energy-saving and environmentally friendly ultrasonic cleaning machine, including a body 1, support legs 2 provided at the bottom of the body 1, and further including:
[0031] Rotating assembly 3 includes a rotating rod 31 rotatably connected inside the body 1, a filter screen 32 connected to the rotating rod 31, a first housing 33 provided on the side of the body 1 near the rotating rod 31, a first motor provided inside the first housing 33, and the rotating rod 31 connected to the output end of the first motor.
[0032] Cleaning component 4 includes a connecting rod 45 rotatably connected inside the body 1, a turntable 41 on the body 1, the turntable 41 being connected to the connecting rod 45, an extension shaft 42 connected to the turntable 41, an extension plate 43 connected to the extension shaft 42, a rotating plate 44 on the side of the body 1 near the extension plate 43, a connecting arm 46 connected to the connecting rod 45, a striking block 47 connected to the connecting arm 46, and a spring piece 48 connecting the connecting arm 46 to the inner wall of the body 1.
[0033] A drive assembly 5 is provided on the side of the body 1 near the rotating plate 44. The drive assembly 5 includes a second housing 51 connected to the body 1. A second motor is provided inside the second housing 51. A fixed shaft 52 is connected to the rotating plate 44. The fixed shaft 52 is connected to the output end of the first motor.
[0034] Specifically, over time, excessive impurities will remain on the filter screen 32. The first motor is activated to rotate the rotating rod 31, which in turn rotates the filter screen 32, flipping the impurity-laden side of the filter screen 32 to the bottom. Then, the second motor is activated to rotate the fixed shaft 52, which in turn rotates the rotating plate 44. One side of the rotating plate 44 is designed with a raised surface. When the raised surface contacts the extension plate 43, it causes the extension plate 43 to rotate. The extension plate 43 then rotates the extension shaft 42 and the turntable 41. The turntable 41 rotates the connecting rod 45, which in turn rotates the connecting arm 46. The connecting arm 46 then causes the bottom striking block 47 to strike the filter screen 32, knocking the impurities off. After the raised surface separates from the extension plate 43, the connecting arm 46 automatically resets due to the elastic force of the retracted spring piece 48, thus allowing the striking motion to reciprocate.
[0035] Furthermore, such as Figure 1 and Figure 2As shown: A support assembly 8 is provided on the machine body 1. The support assembly 8 includes a bracket plate 81. The bracket plate 81 is threadedly connected to the machine body 1 by bolts 82. A spray assembly 7 is provided on the top of the bracket plate 81. The spray assembly 7 includes a water tank 71. A conduit 72 is connected to the top of the water tank 71. A solenoid valve 73 is provided on the conduit 72. When the solenoid valve 73 is opened, the cleaning liquid in the water tank 71 is injected into the machine body 1 through the conduit 72 until it covers the workpiece that needs to be cleaned.
[0036] The above solutions still have the problem that impurities remaining inside the machine after being knocked out will mix with the filtered cleaning solution, such as... Figure 3 As shown: A collection component 6 is provided inside the body 1. The collection component 6 includes a pull-out plate 61 that is slidably connected inside the body 1. A handle 62 is connected to the pull-out plate 61. Impurities that are knocked off will fall on the top of the pull-out plate 61. Then, the handle 62 is pulled to pull the pull-out plate 61 out from inside the body 1 to clean the dust on the surface.
[0037] The above solutions also have the problem that the filtered cleaning solution cannot be circulated, such as... Figure 1 As shown: A circulation component 9 is provided at the bottom of the water tank 71. The circulation component 9 includes a circulation pipe 91 connected to the bottom of the water tank 71. The end of the circulation pipe 91 away from the water tank 71 is connected to the machine body 1. A water pump 92 is provided on the circulation pipe 91. When the water pump 92 is turned on, the filtered cleaning liquid is pumped back into the water tank 71 through the circulation pipe 91 for recycling.
[0038] Furthermore, such as Figure 5 As shown: An ultrasonic generator 10 is installed on the machine body 1, and a cable 11 is connected to the ultrasonic generator 10. An ultrasonic transducer 12 is installed at the bottom of the machine body 1. The end of the cable 11 away from the ultrasonic generator 10 is plugged into the ultrasonic transducer 12. The ultrasonic generator 10 converts the power frequency AC power into a high frequency electrical signal, and transmits the high frequency electrical signal to the ultrasonic transducer 12 through the cable 11, driving it to generate mechanical vibration, which is then transmitted to the cleaning fluid.
[0039] like Figure 1 - Figure 5 As shown, the energy-saving and environmentally friendly ultrasonic cleaning machine of this utility model can be technically understood by combining the following preferred embodiments:
[0040] First, the workpiece to be cleaned is placed on top of the filter screen 32. Next, the solenoid valve 73 is activated, injecting the cleaning solution from the water tank 71 into the machine body 1 through the conduit 72 until the cleaning solution completely covers the workpiece. Then, the ultrasonic generator 10 converts the mains frequency AC power into a high-frequency electrical signal, which is transmitted through the cable 11 to the ultrasonic transducer 12, driving it to generate mechanical vibrations. These vibrations are transmitted to the cleaning solution, cleaning the workpiece, while impurities remain on top of the filter screen 32.
[0041] During the cleaning process, water pump 92 is turned on to pump the filtered cleaning solution back into water tank 71 through circulation pipe 91 for recycling. Over time, excessive impurities accumulate on filter screen 32. At this point, the first motor is started, driving rotating rod 31 to rotate, which in turn drives filter screen 32 to rotate, flipping the side with impurities to the bottom.
[0042] Next, the second motor is turned on, driving the fixed shaft 52 to rotate. The fixed shaft 52 drives the rotating plate 44 to rotate, one side of which is designed as a raised surface. When the raised surface contacts the extension plate 43, it drives the extension plate 43 to rotate. The extension plate 43 then drives the extension shaft 42 and the turntable 41 to rotate, and the turntable 41 in turn drives the connecting rod 45 to rotate, which in turn drives the connecting arm 46 to rotate. The connecting arm 46 drives the bottom striking block 47 to strike the filter screen 32, knocking impurities off the filter screen. When the raised surface separates from the extension plate 43, the connecting arm 46 automatically resets due to the elastic force of the retracted spring piece 48, thus making the striking action a reciprocating motion to ensure the continuous cleanliness of the filter screen 32.
[0043] After cleaning, turn off the ultrasonic generator 10 and water pump 92 to stop the circulation of the cleaning solution. At this time, activate the reverse operation of the solenoid valve 73 to return the cleaning solution inside the machine body 1 to the water tank 71 through the conduit 72 for subsequent reuse or treatment. The design of the machine body 1 fully considers the concepts of energy saving and environmental protection, and its internal structure and material selection are all aimed at reducing energy consumption and environmental pollution.
[0044] Support leg 2 provides stable support for the entire cleaning machine, ensuring its stability and safety during operation. The bottom of support leg 2 can be equipped with anti-slip pads or adjustable feet to adapt to different ground conditions and prevent the cleaning machine from sliding or tilting during use. Furthermore, the design of support leg 2 facilitates the movement and positioning of the cleaning machine, improving the equipment's flexibility and convenience.
[0045] In summary, the rotating component 3 of this invention can flip the side of the filter screen 32 that intercepts impurities downwards, and then the cleaning component 4 knocks the impurities off the surface of the filter screen 32, preventing the filter screen 32 from becoming clogged. The circulation process of cleaning water is smoother, the cleaning efficiency is high, and the good cleaning effect can be maintained for a longer period of time. In addition, the circulating filtration system can keep the cleaning liquid in a cleaner state, and when it is recycled and stored for the next use, its cleaning effect can also be well maintained, which has a good application effect on water conservation.
[0046] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any way. Although the present utility model has been disclosed above with reference to preferred embodiments, it is not intended to limit the present utility model. Any person skilled in the art can make some modifications or alterations to the above-described technical content to create equivalent embodiments without departing from the scope of the present utility model. The implementation schemes in the above embodiments can also be further combined or replaced. Any simple modifications, equivalent changes and alterations made to the above embodiments based on the technical essence of the present utility model without departing from the scope of the present utility model shall still fall within the scope of the present utility model.
Claims
1. An energy-saving and environmentally friendly ultrasonic cleaning machine, comprising a body (1) and support legs (2) provided at the bottom of the body (1), characterized in that, Also includes: Rotating assembly (3), the rotating assembly (3) includes a rotating rod (31) rotatably connected in the body (1), a filter screen (32) is connected to the rotating rod (31), a first housing (33) is provided on the side of the body (1) near the rotating rod (31), a first motor is provided in the first housing (33), and the rotating rod (31) is connected to the output end of the first motor; The cleaning assembly (4) includes a connecting rod (45) rotatably connected to the body (1), a turntable (41) is provided on the body (1), the turntable (41) is connected to the connecting rod (45), an extension shaft (42) is connected to the turntable (41), an extension plate (43) is connected to the extension shaft (42), a rotating plate (44) is provided on the side of the body (1) near the extension plate (43), a connecting arm (46) is connected to the connecting rod (45), a striking block (47) is connected to the connecting arm (46), and a spring piece (48) is connected between the connecting arm (46) and the inner wall of the body (1).
2. The energy-saving and environmentally friendly ultrasonic cleaning machine according to claim 1, characterized in that: A drive assembly (5) is provided on the side of the body (1) near the rotating plate (44). The drive assembly (5) includes a second housing (51) connected to the body (1). A second motor is provided inside the second housing (51). A fixed shaft (52) is connected to the rotating plate (44). The fixed shaft (52) is connected to the output end of the first motor.
3. The energy-saving and environmentally friendly ultrasonic cleaning machine according to claim 1, characterized in that: The body (1) is provided with a collection component (6), which includes a pull plate (61) slidably connected inside the body (1) and a handle (62) connected to the pull plate (61).
4. The energy-saving and environmentally friendly ultrasonic cleaning machine according to claim 1, characterized in that: The body (1) is provided with a support assembly (8), which includes a bracket plate (81) and a bolt (82) is threadedly connected between the bracket plate (81) and the body (1).
5. The energy-saving and environmentally friendly ultrasonic cleaning machine according to claim 4, characterized in that: The top of the support plate (81) is provided with a spray assembly (7), the spray assembly (7) includes a water tank (71), the top of the water tank (71) is connected to a conduit (72), and a solenoid valve (73) is provided on the conduit (72).
6. The energy-saving and environmentally friendly ultrasonic cleaning machine according to claim 5, characterized in that: The bottom of the water tank (71) is provided with a circulation component (9), which includes a circulation pipe (91) connected to the bottom of the water tank (71). The end of the circulation pipe (91) away from the water tank (71) is connected to the machine body (1), and a water pump (92) is provided on the circulation pipe (91).
7. The energy-saving and environmentally friendly ultrasonic cleaning machine according to claim 1, characterized in that: An ultrasonic generator (10) is provided on the body (1), and a cable (11) is connected to the ultrasonic generator (10). An ultrasonic transducer (12) is provided at the bottom of the body (1), and one end of the cable (11) away from the ultrasonic generator (10) is plugged into the ultrasonic transducer (12).