A cleaning basket

Abstract

The application discloses a cleaning basket, comprising a frame, a rotating part and a plurality of receiving parts; the rotating part is rotatably installed on the frame, and the plurality of receiving parts are arranged on the rotating part; the receiving part is rotatably installed on the rotating part through a rotating shaft arranged thereon; the center of gravity of the receiving part is located below the rotating shaft, so that the plurality of receiving parts can all maintain a predetermined posture of the receiving part being horizontal during rotation of the rotating part. The application optimizes the workpiece stacking operation process; through the cooperation structure of the rotating part and the receiving part, workers can only complete workpiece stacking of all the receiving parts from the upper end; after stacking, the receiving part automatically rotates to the lower end with the rotating part, without the need of adjusting the position or overturning the cleaning basket, so that the workpiece stacking convenience is greatly improved, and the operation steps are reduced.

Description

Technical Field

[0001] This invention relates to the field of ultrasonic cleaning equipment technology, and in particular to a cleaning basket. Background Technology

[0002] In the workpiece cleaning process, it is often necessary to use a cleaning basket to carry the workpiece into the ultrasonic cleaning equipment.

[0003] Most existing cleaning baskets are one-piece fixed structures with fixed storage space positions. When workers stack workpieces, they need to adjust their operating posture according to the storage positions of the cleaning basket. In some positions, it is necessary to bend over or flip the workpieces to complete the stacking. Especially when the cleaning basket has a multi-layer storage structure, the stacking operation of the lower storage positions is not convenient, which increases the number of operation steps for workers and leads to low workpiece stacking efficiency. Summary of the Invention

[0004] In order to solve the technical problems existing in the background art, the present invention proposes a cleaning basket.

[0005] The present invention provides a cleaning basket comprising: a frame, a rotating component, and multiple storage components; the rotating component is rotatably mounted on the frame, and the multiple storage components are disposed on the rotating component. The storage components are rotatably mounted on the rotating component via a rotating shaft disposed thereon, and the center of gravity of the storage components is located below the rotating shaft, so that the multiple storage components can maintain a predetermined horizontal posture as they rotate with the rotating component.

[0006] Preferably, the frame is hollowed out, and hanging rods are fixedly installed on both sides of the upper end of the frame. The two hanging rods are arranged in parallel and on the same horizontal plane.

[0007] Preferably, the rotating component includes two parallel mounting plates connected by a shaft. The shaft is coaxially arranged with the two mounting plates and is rotatably mounted on the frame.

[0008] Preferably, the mounting plate is a circular plate, and the mounting plate and the shaft are fixedly connected by multiple rods. Multiple storage components are movably installed between the two mounting plates through the rotating shaft on them.

[0009] Preferably, multiple storage components are arranged in a circular array between two mounting plates, and the rotation axes on the multiple storage components are evenly spaced on the mounting plates.

[0010] Preferably, the storage component includes a fixing rod and a storage frame. The fixing rod is fixedly installed on the rotating shaft, and the storage frame is fixedly installed between the two fixing rods on the storage component.

[0011] The cleaning basket proposed in this invention has the following advantages: It optimizes the workpiece stacking process. Through the cooperative structure of the rotating and collecting components, workers can stack all workpieces in the collecting components from the top. After stacking, the collecting components automatically rotate with the rotating component to the bottom, eliminating the need to adjust the worker's position or flip the cleaning basket. This significantly improves the convenience of workpiece stacking and reduces operational steps. The collecting components maintain a horizontal, predetermined posture based on their center of gravity layout. Combined with the rotation adjustment of the rotating component, this prevents workpieces from tilting and falling during stacking and cleaning. Furthermore, the circular array arrangement of the collecting components enables batch loading, balancing operational convenience with workpiece load-bearing stability, and is suitable for ultrasonic cleaning processes. Attached Figure Description

[0012] Figure 1 This is a schematic diagram of the structure of a cleaning basket proposed in this invention. Detailed Implementation

[0013] refer to Figure 1 This invention proposes a cleaning basket, comprising: a frame 1, a rotating component 2, and multiple storage components 3. The rotating component 2 is rotatably mounted on the frame 1. The frame 1 is made of lightweight stainless steel, has an overall rectangular shape, and its height is adapted to the depth of the ultrasonic cleaning tank (typically 50-70cm) for easy gripping by a robotic arm. It can rotate circumferentially relative to the frame 1 around its own axis. Multiple storage components 3 are evenly distributed on the rotating component 2. Each storage component 3 is rotatably mounted on the rotating component 2 via its own rotating shaft 31. The rotating shaft 31 is arranged horizontally, and the center of gravity of the storage component 3 is located below the rotating shaft 31. This center of gravity arrangement ensures that the multiple storage components 3 are not affected by the rotational posture of the rotating component 2 during the overall rotation of the rotating component 2, and can all maintain a predetermined horizontal posture, ensuring that the workpiece will not fall off due to the tilt of the storage component 3 after placement.

[0014] When cleaning workpieces, the frame 1 can be hung at the corresponding position on the ultrasonic cleaning equipment, and then the workpieces are stacked one by one in the storage container 3. When a workpiece is placed in one of the storage containers 3, the weight of the storage container 3 changes due to the workpiece, breaking the original weight balance of the multiple storage containers 3 on the rotating part 2. This drives the rotating part 2 to rotate around its own mounting axis, eventually rotating the storage container 3 containing the workpiece to the bottom position of the rotating part 2. Thus, workers can continuously stack multiple storage containers 3 from the top without adjusting their positions or flipping the cleaning basket. After stacking, the storage containers 3 will automatically rotate to the bottom of the rotating part 2, while empty storage containers 3 will synchronously rotate to the top to be stacked. This makes it easier for workers to stack workpieces, preparing them for the subsequent ultrasonic cleaning process and ensuring that the workpieces are stably placed in the storage containers 3 during the cleaning process.

[0015] The frame 1 features a perforated design, allowing the cleaning fluid to penetrate smoothly and make full contact with the workpiece inside the housing 3, while minimizing obstruction of the cleaning fluid flow during the cleaning process. Hanging rods 11 are fixedly installed on both sides of the upper end of the frame 1. These two hanging rods 11 are parallel and on the same horizontal plane, and are used to cooperate with the mounting structure of the ultrasonic cleaning equipment to ensure stable suspension of the frame 1 within the equipment, preventing displacement or shaking during the cleaning process.

[0016] The rotating component 2 includes two parallel mounting plates 21, which are arranged opposite each other with a spacing adapted to the installation requirements of the storage component 3. The two mounting plates 21 are connected by a shaft 22, which is coaxially arranged with the two mounting plates 21. The two ends of the shaft 22 are rotatably mounted on the corresponding side walls of the frame 1, allowing the rotating component 2 to rotate flexibly relative to the frame 1 through the shaft 22 without any jamming.

[0017] Mounting plate 21 is an annular plate. Mounting plate 21 and shaft 22 are fixedly connected by multiple rods 23. These rods 23 are evenly distributed along the circumference of shaft 22 to ensure a stable connection between mounting plate 21 and shaft 22, guaranteeing the overall structural strength of the rotating component 2 and preventing relative displacement between mounting plate 21 and shaft 22 during rotation. Multiple storage components 3 are movably mounted between two mounting plates 21 via rotating shafts 31. The two ends of the rotating shafts 31 pass through corresponding mounting positions on the two mounting plates 21, allowing the storage components 3 to rotate independently around the rotating shafts 31.

[0018] Multiple storage components 3 are arranged in a circular array between two mounting plates 21 to ensure that the rotating component 2 is subjected to balanced force and rotates smoothly. The rotating shafts 31 on the multiple storage components 3 are set at equal intervals on the mounting plate 21 to maintain a fixed distance between adjacent storage components 3, avoid interference between adjacent storage components 3 after the workpieces are stacked, and at the same time ensure that the weight distribution is uniform when the rotating component 2 rotates, thus improving the smoothness of balance adjustment.

[0019] The storage component 3 includes a fixing rod 32 and a storage frame 33. The storage frame 33 also adopts a hollow design, which allows the cleaning fluid to pass through smoothly. The fixing rod 32 is fixedly installed on the rotating shaft 31, with two fixing rods 32 installed on each rotating shaft 31. The two fixing rods 32 are arranged at intervals along the axial direction of the rotating shaft 31. The storage frame 33 is fixedly installed between the two fixing rods 32 on the same storage component 3, and the connection with the rotating shaft 31 is achieved through the fixing rods 32, thereby realizing the assembly of the storage component 3 and the rotating component 2. The storage frame 33 is used to support the workpiece, and its structure is adapted to the shape of the workpiece, which can limit the workpiece and prevent the workpiece from moving around in the storage frame 33 during the cleaning process.

[0020] The above description is only a preferred embodiment of the present invention, but the scope of protection of the present invention is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in the present invention, based on the technical solution and inventive concept of the present invention, should be covered within the scope of protection of the present invention.

Claims

1. A washing basket, characterized in that, include: The frame (1), the rotating part (2), and the multiple storage parts (3) are rotatably mounted on the frame (1). The multiple storage parts (3) are set on the rotating part (2). The storage parts (3) are rotatably mounted on the rotating part (2) via a rotating shaft (31) set on it. The center of gravity of the storage parts (3) is located below the rotating shaft (31) so that the multiple storage parts (3) can maintain a predetermined horizontal posture as they rotate with the rotating part (2).

2. A washing basket according to claim 1, characterized in that: The frame (1) is hollowed out. Hanging rods (11) are fixedly installed on both sides of the upper end of the frame (1). The two hanging rods (11) are set in parallel and on the same horizontal plane.

3. A washing basket according to claim 2, characterized in that: The rotating component (2) includes two parallel mounting plates (21), which are connected by a shaft (22). The shaft (22) is coaxially arranged with the two mounting plates (21) and is rotatably mounted on the frame (1).

4. A washing basket according to claim 2, characterized in that: The mounting plate (21) is a circular plate. The mounting plate (21) and the shaft (22) are fixedly connected by multiple rods (23). Multiple storage parts (3) are movably installed between the two mounting plates (21) through the rotating shaft (31) on them.

5. A washing basket according to claim 4, characterized in that: Multiple storage components (3) are arranged in a ring array between two mounting plates (21), and the rotating shafts (31) on the multiple storage components (3) are set at equal intervals on the mounting plates (21).

6. A washing basket according to claim 4, characterized in that: The storage component (3) includes a fixing rod (32) and a storage frame (33). The fixing rod (32) is fixedly installed on the rotating shaft (31), and the storage frame (33) is fixedly installed between the two fixing rods (32) on the storage component (3).

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