An automatic cleaning device
By integrating rinsing and drying devices into the cleaning tank, and combining sensors and control devices, the automated cleaning equipment solves the problem of low automation in existing equipment, achieving efficient cleaning and simple structure.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- WELL TECHNOLOGY COMPANY LIMITED
- Filing Date
- 2025-07-16
- Publication Date
- 2026-07-03
AI Technical Summary
Existing hydraulic component cleaning equipment cannot achieve full automation, resulting in high labor intensity, low cleaning efficiency, complex structure, large size, and high production costs.
Design an automatic cleaning device that integrates a rinsing mechanism and a drying device within a cleaning tank. The device achieves automated positioning and drying of the object to be cleaned through a support assembly and a fixed base. It utilizes spray pipes for high-pressure rinsing and ultrasonic cleaning, and combines level and pressure sensors to control the cleaning process. The device is equipped with a unified control unit for management.
It enables cleaning and drying to be completed in one cleaning tank, reducing labor intensity, improving cleaning efficiency, simplifying equipment structure, reducing size and production costs, and increasing automation.
Smart Images

Figure CN224443905U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of cleaning, and in particular to an automatic cleaning device. Background Technology
[0002] Existing hydraulic component cleaning equipment cannot achieve full automation; some functions still require manual operation. For example, workers may manually hold a high-pressure nozzle to carefully clean the object, which is not only labor-intensive but also inefficient. Therefore, some cleaning equipment directly installs the high-pressure nozzle inside the machine body, allowing for automatic cleaning by directing the nozzle at the object. However, this type of equipment has the following drawbacks: it has a cleaning chamber and a drying chamber that are not connected. After cleaning in the cleaning chamber, the object needs to be manually moved from the cleaning chamber to the drying chamber for drying, again resulting in high labor intensity and low efficiency. Furthermore, the two-chamber setup makes the equipment large, space-consuming, structurally complex, and costly to produce. Utility Model Content
[0003] The technical problem to be solved by this utility model is to provide an automatic cleaning device with simple structure, high degree of automation and high cleaning efficiency.
[0004] To solve the above-mentioned technical problems, this utility model provides an automatic cleaning device, including a machine body and a cleaning device and a drying device installed in the machine body;
[0005] The cleaning device includes a cleaning container, a rinsing mechanism, and a supporting mechanism. The cleaning container is provided with a cleaning tank, and the rinsing mechanism and the supporting mechanism are both located inside the cleaning tank.
[0006] The supporting mechanism includes a support component and a support plate; the support component includes a fixed base, the cleaning container, the fixed base and the support plate are fixedly connected in sequence, and the fixed base and the support plate are both located in the cleaning tank;
[0007] The flushing mechanism is arranged along the outer side of the support plate;
[0008] The drying device is mounted on a fixed base.
[0009] As an improvement to the above solution, the support assembly further includes a connecting rod;
[0010] The fixed base is located at the top of the cleaning tank; the support plate is fixedly connected to the fixed base via a connecting rod, and the support plate is located below the fixed base.
[0011] As an improvement to the above solution, the fixed base is provided with a cavity and an air outlet communicating with the cavity;
[0012] The drying device includes a drying mechanism and a fan. The drying mechanism is located inside the cavity, and the fan is located inside the air outlet.
[0013] As an improvement to the above solution, the rinsing mechanism includes several spray pipes, which are arranged sequentially on the outside of the support plate.
[0014] As an improvement to the above solution, the bottom wall of the cleaning container is provided with a liquid inlet and a liquid outlet, and a solenoid valve is provided at the liquid outlet.
[0015] It also includes a liquid supply device, which includes a liquid storage tank and a liquid delivery mechanism installed inside the machine body. The liquid inlet is connected to the liquid storage tank through the liquid delivery mechanism, and the liquid outlet is connected to the liquid storage tank through a solenoid valve.
[0016] As an improvement to the above solution, a filter is provided on the pipeline connecting the drain port and the storage tank.
[0017] As an improvement to the above solution, the cleaning tank is equipped with a liquid level sensor for detecting the liquid level height in the cleaning tank.
[0018] As an improvement to the above solution, the rinsing mechanism is equipped with a pressure sensor for detecting rinsing pressure.
[0019] As an improvement to the above solution, an ultrasonic generator is provided at the bottom of the cleaning container.
[0020] As an improvement to the above solution, a control device installed on the machine body is also included, which is connected to the cleaning device and the drying device respectively.
[0021] The following are the beneficial effects of implementing this utility model:
[0022] This utility model of automatic cleaning equipment integrates both the rinsing mechanism and the drying device within the cleaning tank of the washing container. This allows both rinsing and drying steps to be completed within the cleaning tank, eliminating the need for workers to move the objects to different work areas, reducing labor intensity, shortening the overall cleaning process time, and improving cleaning efficiency. Compared to existing technologies, this utility model completes both rinsing and drying steps within a single cleaning tank, eliminating the need for multiple chambers to perform different steps separately. This results in a smaller, simpler structure, lower production costs, and a higher degree of automation.
[0023] In addition, the support plate is used to support the object being cleaned, allowing it to be placed in a specific area within the cleaning tank for rinsing and drying. The fixing base, fixed inside the cleaning tank, supports and secures the support plate, thus providing support and positioning for the object being cleaned. Furthermore, the drying device is mounted on the fixing base. After cleaning, the drying device can be directly activated to dry the object, reducing the number of installation components, resulting in a simple and compact structure, lower production costs, and a smaller overall equipment size, thus minimizing space occupation. Attached Figure Description
[0024] Figure 1 This is a schematic diagram of the structure of the automatic cleaning equipment of this utility model;
[0025] Figure 2 yes Figure 1 Top view of the cleaning device;
[0026] Figure 3 yes Figure 2 A three-dimensional image. Detailed Implementation
[0027] To make the objectives, technical solutions, and advantages of this utility model clearer, the following will describe this utility model in further detail with reference to the accompanying drawings. It is hereby declared that the terms "up," "down," "left," "right," "front," "back," "inner," and "outer," etc., appearing or about to appear in this document, are based solely on the accompanying drawings and are not intended to specifically limit this utility model.
[0028] See Figure 1-3 This utility model discloses an automatic cleaning device, including a body 1 and a cleaning device and a drying device installed in the body 1.
[0029] The cleaning device includes a cleaning container 2, a rinsing mechanism and a supporting mechanism. The cleaning container 2 is provided with a cleaning tank 21, and the rinsing mechanism and the supporting mechanism are both located in the cleaning tank 21.
[0030] The supporting mechanism includes a supporting component and a supporting plate 6; the supporting component includes a fixed seat 4, the cleaning container 2, the fixed seat 4 and the supporting plate 6 are fixedly connected in sequence, and the fixed seat 4 and the supporting plate 6 are both located in the cleaning tank 21.
[0031] The rinsing mechanism is arranged along the outer side of the support plate 6.
[0032] The drying device is installed on the fixed base 4.
[0033] This utility model of automatic cleaning equipment integrates both the rinsing mechanism and the drying device within the cleaning tank of the washing container. This allows both rinsing and drying steps to be completed within the cleaning tank, eliminating the need for workers to move the objects to different work areas, reducing labor intensity, shortening the overall cleaning process time, and improving cleaning efficiency. Compared to existing technologies, this utility model completes both rinsing and drying steps within a single cleaning tank, eliminating the need for multiple chambers to perform different steps separately. This results in a smaller, simpler structure, lower production costs, and a higher degree of automation.
[0034] In addition, the support plate is used to support the object being cleaned, allowing it to be placed in a specific area within the cleaning tank for rinsing and drying. The fixing base, fixed inside the cleaning tank, supports and secures the support plate, thus providing support and positioning for the object being cleaned. Furthermore, the drying device is mounted on the fixing base. After cleaning, the drying device can be directly activated to dry the object, reducing the number of installation components, resulting in a simple and compact structure, lower production costs, and a smaller overall equipment size, thus minimizing space occupation.
[0035] Specifically, such as Figure 3 As shown, the support assembly also includes a connecting rod 5; the fixing seat 4 is located at the top of the cleaning tank 21; the support plate 6 is fixedly connected to the fixing seat 4 via the connecting rod 5, and the support plate 6 is located below the fixing seat 4. The support plate is hung on the fixing seat via the connecting rod and suspended inside the cleaning tank.
[0036] To ensure overall force balance on the support plate, the object to be cleaned is placed on it more stably and reliably. Preferably, two sets of support components are used, one at each end of the support plate 6. Each set of support components is connected to the support plate via two connecting rods. Drying devices are installed on both fixed seats, and the two drying devices can be started simultaneously, allowing hot air to cover the object to be cleaned, thus accelerating the drying process and achieving a better drying effect.
[0037] More specifically, such as Figure 3 As shown, the fixed base 4 has a cavity (not shown) and an air outlet 41 communicating with the cavity, the air outlet 41 facing into the cleaning tank 21. The drying device includes a drying mechanism (not shown) and a fan 7. The drying mechanism is located inside the cavity, and the fan 7 is located inside the air outlet 41. The drying mechanism can be a heating element such as an electric heating wire or an electric heating lamp, and is not limited here. When the fan is turned on, the heat in the cavity can be blown into the cleaning tank through the air outlet, thereby drying the object being cleaned.
[0038] Preferably, such as Figure 2-3As shown, the rinsing mechanism includes several spray pipes 3, which are arranged sequentially on the outer side of the support plate 6. The object to be cleaned 10 is placed on the support plate 6, and the spray pipes 3 extend to the support plate 6, with the outlet of the spray pipes 3 aligned with the inner hole of the object to be cleaned 10, such as a hydraulic component. High-pressure liquid is used to rinse the inner hole, thereby completing the internal rinsing and cleaning of the object. Figure 2-3 As shown, three hydraulic components are placed sequentially on the support plate 6, and three spray pipes are arranged sequentially on the same side of the support plate 6. Each hydraulic component has a spray pipe 3 on both sides, and the outlet of the spray pipe 3 on both sides is aligned with the inner hole of the hydraulic component to flush and clean it.
[0039] Among them, such as Figure 3 As shown, the bottom wall of the cleaning container 2 is provided with an inlet 22 and an outlet 23, and a solenoid valve (not shown in the figure) is provided at the outlet 23. The cleaning fluid enters the cleaning tank from the inlet and exits the cleaning tank through the outlet. The solenoid valve is used to open or close the outlet.
[0040] Furthermore, this utility model also includes a liquid supply device, which includes a liquid storage tank (not shown in the figure) and a liquid conveying mechanism (not shown in the figure) installed inside the body 1. The liquid inlet 22 is connected to the liquid storage tank through the liquid conveying mechanism, and the liquid outlet 23 is connected to the liquid storage tank through a solenoid valve. The liquid conveying mechanism is preferably a circulating pump. The liquid storage tank is used to hold the cleaning solution. The liquid conveying mechanism conveys the cleaning solution in the liquid storage tank to the cleaning tank through the liquid inlet, and the cleaning solution in the cleaning tank flows into the liquid storage tank through the liquid outlet.
[0041] Preferably, a filter (not shown in the figure) is installed on the pipeline connecting the drain port 23 and the storage tank. The filter can remove dirt left in the cleaning solution after cleaning, preventing contamination of the cleaning solution in the storage tank. The cleaning solution in the storage tank can be circulated and continuously transported to the cleaning tank for the next cleaning.
[0042] like Figure 3 As shown, an ultrasonic generator 8 is installed at the bottom of the cleaning container 2. The ultrasonic generator generates ultrasonic waves to perform ultrasonic cleaning on the outer surface of the object to be cleaned; that is, the oil stains on the surface of the hydraulic components are cleaned by ultrasonic waves.
[0043] Preferably, the cleaning tank 21 is equipped with a liquid level sensor (not shown in the figure) for detecting the liquid level in the cleaning tank 21. The liquid level sensor can detect the height of the liquid level in the cleaning tank, and after the cleaning liquid completely submerges the object being cleaned, the liquid delivery mechanism is turned off and the cleaning step is started.
[0044] Preferably, the rinsing mechanism is equipped with a pressure sensor (not shown in the figure) for detecting rinsing pressure. Specifically, the pressure sensor is installed on the spray pipe 3, which can detect and obtain the rinsing pressure value in real time.
[0045] It should be noted that, as Figure 1 As shown, this utility model also includes a control device 9 installed on the body 1, which is connected to the cleaning device and the drying device respectively. Specifically, the control device is connected to the liquid conveying mechanism, the rinsing mechanism, the solenoid valve, the drying mechanism, the fan 7, the liquid level sensor, the pressure sensor, and the ultrasonic generator 8 respectively.
[0046] During cleaning, the object to be cleaned 10 is first placed on the support plate 6. The liquid delivery mechanism is activated via the control device 9 to deliver the cleaning solution from the storage tank to the cleaning tank 21. Once the cleaning solution submerges the object 10, the liquid level sensor sends a signal to the control device 9, which then shuts off the liquid delivery mechanism. Next, the rinsing mechanism and the ultrasonic generator 8 are activated to clean the inner holes and outer surfaces of the object 10. During the cleaning process, a pressure sensor monitors the rinsing pressure in real time and displays the current liquid level and rinsing pressure value on the display screen of the control device 9. The rinsing pressure can also be adjusted via the control device 9.
[0047] After cleaning is completed, the solenoid valve is opened, and the cleaning fluid flows into the storage tank through the drain port 23. The filter in the tank filters the cleaning fluid.
[0048] Start the drying device and set the drying temperature and time using the control device 9. Remove the cleaned item after drying is complete.
[0049] In summary, this utility model provides an automatic cleaning device with a simple structure, high degree of automation, and high cleaning efficiency.
[0050] The above description is the preferred embodiment of this utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of this utility model, and these improvements and modifications are also considered to be within the protection scope of this utility model.
Claims
1. An automatic cleaning apparatus, characterized by, Includes the main body and the cleaning and drying devices installed inside the main body; The cleaning device includes a cleaning container, a rinsing mechanism, and a supporting mechanism. The cleaning container is provided with a cleaning tank, and the rinsing mechanism and the supporting mechanism are both located inside the cleaning tank. The supporting mechanism includes a support component and a support plate; the support component includes a fixed base, the cleaning container, the fixed base and the support plate are fixedly connected in sequence, and the fixed base and the support plate are both located in the cleaning tank; The flushing mechanism is arranged along the outer side of the support plate; The drying device is mounted on a fixed base.
2. The automatic cleaning apparatus according to claim 1, wherein The support assembly also includes a connecting rod; The fixed base is located at the top of the cleaning tank; the support plate is fixedly connected to the fixed base via a connecting rod, and the support plate is located below the fixed base.
3. The automatic cleaning apparatus according to claim 1 or 2, wherein The fixed base is provided with a cavity and an air outlet communicating with the cavity; The drying device includes a drying mechanism and a fan. The drying mechanism is located inside the cavity, and the fan is located inside the air outlet.
4. The automatic cleaning apparatus according to claim 1, wherein The rinsing mechanism includes several spray pipes, which are arranged sequentially on the outside of the support plate.
5. The automatic cleaning apparatus according to claim 1, wherein The bottom wall of the cleaning container is provided with a liquid inlet and a liquid outlet, and a solenoid valve is provided at the liquid outlet; It also includes a liquid supply device, which includes a liquid storage tank and a liquid delivery mechanism installed inside the machine body. The liquid inlet is connected to the liquid storage tank through the liquid delivery mechanism, and the liquid outlet is connected to the liquid storage tank through a solenoid valve.
6. The automatic cleaning apparatus according to claim 5, wherein A filter is installed on the pipeline connecting the drain outlet and the storage tank.
7. The automatic cleaning apparatus according to claim 1, wherein The cleaning tank is equipped with a liquid level sensor for detecting the liquid level in the cleaning tank.
8. The automatic cleaning apparatus according to claim 1, wherein The rinsing mechanism is equipped with a pressure sensor for detecting rinsing pressure.
9. The automatic cleaning apparatus according to claim 1, wherein An ultrasonic generator is installed at the bottom of the cleaning container.
10. The automatic cleaning apparatus according to claim 1, wherein It also includes a control device installed on the machine body, which is connected to the cleaning device and the drying device respectively.