Cleaning device for artificial diamonds

By using a material storage frame and material support assembly in the ultrasonic cleaning chamber, the problem of collision during manual diamond cleaning was solved, thereby improving the integrity of the diamond surface and the cleaning efficiency.

CN224332950UActive Publication Date: 2026-06-09BOZHOU QIAOZUAN NEW MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BOZHOU QIAOZUAN NEW MATERIALS CO LTD
Filing Date
2025-07-09
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

During the cleaning process, artificial diamonds may collide with each other due to the movement of the storage structure, resulting in defects or scratches, which affects the cleaning effect and efficiency.

Method used

The ultrasonic cleaning chamber uses a storage mesh frame and a material support assembly, including an outer mesh cylinder, a bottom rubber cylinder, and a downward pressing and fastening assembly. By vertically moving and positioning the artificial diamond, collisions are avoided, and the cleaning fluid fully contacts the diamond surface.

Benefits of technology

It effectively avoids collisions between artificial diamonds during the cleaning process, improves cleaning results and work efficiency, and ensures the integrity of the diamond surface.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model belongs to artificial diamond processing technical field especially is a kind of cleaning device for artificial diamond, including ultrasonic cleaning tank, the inside vertical activity of ultrasonic cleaning tank has material storage net frame, the inside of material storage net frame is equipped with a plurality of material supporting subassembly, the material supporting subassembly includes outer net cylinder and bottoming rubber cylinder, bottoming rubber cylinder is positioned in the inside of material storage net frame by outer net cylinder, in the utility model, each material supporting subassembly can place artificial diamond, bottoming rubber cylinder holds the bottom of artificial diamond from below, after fastening, it can cooperate bottoming rubber cylinder and simultaneously tighten artificial diamond in outer net cylinder inside from the top and bottom of artificial diamond, so as to carry out the batch positioning and fastening operation of artificial diamond in the inside of ultrasonic cleaning tank, the cleaning fluid in ultrasonic cleaning tank effectively contacts the surface different area of artificial diamond passing through outer net cylinder, improves the cleaning effect of artificial diamond.
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Description

Technical Field

[0001] This utility model belongs to the field of artificial diamond processing technology, specifically relating to a cleaning device for artificial diamonds. Background Technology

[0002] During the processing of synthetic diamonds, surface impurities are removed to ensure the quality of the finished product. Currently, the cleaning process involves operators placing batches of synthetic diamonds into a cleaning tank or frame, rotating them to allow them to come into contact with the cleaning fluid. However, the movement of the storage structure during cleaning causes the synthetic diamonds to move and come into contact with each other, potentially resulting in sharp edges or thin sections with defects or scratches, which can affect subsequent processing. Utility Model Content

[0003] This invention provides a cleaning device for artificial diamonds, which improves the cleaning effect and increases work efficiency.

[0004] This utility model provides the following technical solution: It includes an ultrasonic cleaning box, inside which a vertically movable storage mesh frame is provided. The storage mesh frame contains several material support components, each including an outer mesh cylinder and a bottom support rubber cylinder. The bottom support rubber cylinder is positioned inside the storage mesh frame via the outer mesh cylinder. A downward pressing fastening component is provided at the top of the outer mesh cylinder. The downward pressing fastening component includes a fastening band, a connecting block, and a locking frame. There are two connecting blocks and two locking frames. The two locking frames rotate symmetrically on the outer side of the top of the outer mesh cylinder via the two connecting blocks. The fastening band engages with the inner sides of the two locking frames to cover the top of the outer mesh cylinder.

[0005] The material storage mesh frame is snapped into the interior of the ultrasonic cleaning chamber, and two uprights are fixedly connected inside the material storage mesh frame, with the tops of the uprights extending above the ultrasonic cleaning chamber.

[0006] The bottom of the outer mesh cylinder is fixedly connected to a vertical mesh cylinder, and the bottom end of the vertical mesh cylinder is fixedly connected to the inner wall of the storage mesh frame.

[0007] The bottom-supporting rubber tube is fixedly connected to the center of the outer mesh tube, and the height of the bottom-supporting rubber tube is less than that of the outer mesh tube.

[0008] Two of the connecting blocks are symmetrically fixed to the outer wall of the outer mesh cylinder, with the top of the connecting blocks flush with the bottom of the outer mesh cylinder.

[0009] The two card frames are located on the outside of the two connecting blocks respectively. The open end of each card frame is fixedly connected to two symmetrically distributed rotating rods, which are rotatably connected to the side wall of the corresponding connecting block.

[0010] The open end of the card frame is engaged with the outside of the connecting block, and the end of the fastening strap is inserted between the corresponding connecting block and the card frame.

[0011] The beneficial effects of this utility model are:

[0012] This invention combines multiple material support components using a storage mesh frame. The storage mesh frame can move vertically along with these components inside the ultrasonic cleaning chamber, facilitating the unified placement and removal of the components. Each support component can hold one artificial diamond. A bottom support tube supports the bottom of the diamond from below. A pressing and fastening component on the outer mesh tube covers and shields the outer mesh tube and the artificial diamond. After the fastening strap is secured, it works with the bottom support tube to simultaneously tighten and position the artificial diamond from both the top and bottom inside the outer mesh tube. This facilitates the batch positioning and securing of the artificial diamonds inside the ultrasonic cleaning chamber, effectively separating and storing the artificial diamonds inside the storage mesh frame to prevent movement and collisions during cleaning. The cleaning fluid inside the ultrasonic cleaning chamber passes through the outer mesh tube to effectively contact different areas of the artificial diamond's surface, improving the cleaning effect and increasing work efficiency.

[0013] The parts of the device not covered herein are the same as or can be implemented using existing technologies. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the structure of this utility model;

[0015] Figure 2 This is a top view of the structure of this utility model;

[0016] Figure 3 This is a side view of the cross-sectional structure of the present invention;

[0017] Figure 4 This is a schematic diagram of the partially separated structure of this utility model.

[0018] In the diagram: 1. Ultrasonic cleaning box; 2. Material storage frame; 21. Column; 3. Material support assembly; 31. Outer mesh cylinder; 32. Bottom support rubber cylinder; 33. Vertical mesh cylinder; 4. Downward pressing fastening assembly; 41. Fastening strap; 42. Connecting block; 43. Clip frame; 431. Rotating rod. Detailed Implementation

[0019] Please see Figures 1-4The present invention provides the following technical solution: it includes an ultrasonic cleaning box 1, inside which a material storage mesh frame 2 is vertically movable, and inside the material storage mesh frame 2 are a plurality of material support components 3, each material support component 3 including an outer mesh cylinder 31 and a bottom support rubber cylinder 32, the bottom support rubber cylinder 32 being positioned inside the material storage mesh frame 2 by the outer mesh cylinder 31, the top of the outer mesh cylinder 31 being provided with a pressing fastening component 4, the pressing fastening component 4 including a fastening band 41, a connecting block 42 and a clamping frame 43, the number of connecting blocks 42 and clamping frames 43 being two, the two clamping frames 43 being symmetrically rotated on the outer side of the top of the outer mesh cylinder 31 by the two connecting blocks 42, the fastening band 41 being engaged and connected to the inner side of the two clamping frames 43 to cover the top of the outer mesh cylinder 31.

[0020] In this implementation plan: the ultrasonic cleaning chamber 1 provides space for the artificial diamond to be cleaned. The storage mesh frame 2 is vertically movable inside the ultrasonic cleaning chamber 1 and is snapped into place inside the ultrasonic cleaning chamber 1. Two columns 21 are fixedly connected inside the storage mesh frame 2. The two columns 21 are located at the two inner corners of the storage mesh frame 2. The top of the columns 21 extends above the ultrasonic cleaning chamber 1. By operating the two columns 21, the operator can move the storage mesh frame 2 vertically inside the ultrasonic cleaning chamber 1, so as to facilitate the positioning, placement and removal of the storage mesh frame 2 inside the ultrasonic cleaning chamber 1.

[0021] The storage mesh frame 2 is equipped with several material support components 3. Each material support component 3 consists of an outer mesh cylinder 31 and a bottom support rubber cylinder 32. A vertical mesh cylinder 33 is fixedly connected to the bottom of the outer mesh cylinder 31. The bottom end of the vertical mesh cylinder 33 is fixedly connected to the inner wall of the storage mesh frame 2. The bottom support rubber cylinder 32 is fixedly connected to the center position inside the outer mesh cylinder 31. The outer mesh cylinder 31, the bottom support rubber cylinder 32, and the vertical mesh cylinder 33 are stably combined, so that the bottom support rubber cylinder 32 and the outer mesh cylinder 31 are stably connected inside the storage mesh frame 2 through the vertical mesh cylinder 33. The outer mesh cylinder 31 is used to place artificial diamonds. The artificial diamonds are put into the outer mesh cylinder 31 through the top opening of the outer mesh cylinder 31. The bottom support rubber cylinder 32 contacts the bottom area of ​​the artificial diamond to effectively position the artificial diamond inside the outer mesh cylinder 31. The height of the bottom support rubber cylinder 32 is less than that of the outer mesh cylinder 31 to ensure that the bottom support rubber cylinder 32 stably contacts the bottom area of ​​the artificial diamond.

[0022] Each outer mesh cylinder 31 is equipped with a pressing fastening assembly 4 at its top. The pressing fastening assembly 4 consists of a fastening band 41, a connecting block 42, and a retaining frame 43. There are two connecting blocks 42 and two retaining frames 43. The two connecting blocks 42 are symmetrically fixed to the outer wall of the outer mesh cylinder 31, and the top of the connecting blocks 42 is flush with the bottom of the outer mesh cylinder 31. The two retaining frames 43 are located on the outside of the two connecting blocks 42, respectively. The open end of the retaining frame 43 is fixedly connected to two symmetrically distributed rotating rods 431. The rotating rods 431 are rotatably connected to the corresponding side wall of the connecting block 42. The retaining frame 43 can rotate on the outside of the corresponding connecting block 42 through the rotating rods 431, so that the two retaining frames 43 are stably and symmetrically connected to the top of the outer mesh cylinder 31 through the two connecting blocks 42. On the side, while ensuring that the clamping frame 43 rotates stably on the outside of the outer mesh cylinder 31, the clamping frame 43 rotates closer to the connecting block 42, so that the open end of the clamping frame 43 is engaged with the outside of the connecting block 42, so as to facilitate the rotation adjustment and fixing of the clamping frame 43. The end of the fastening strap 41 is inserted between the corresponding connecting block 42 and the clamping frame 43. The force on the fastening strap 41 allows the end of the fastening strap 41 to move between the corresponding connecting block 42 and the clamping frame 43, so as to adjust the position of the middle part of the fastening strap 41 at the top of the outer mesh cylinder 31. The clamping frame 43 clamps the fastening strap 41 from the outside onto the corresponding connecting block 42, so as to facilitate the fixing of the fastening strap 41, so that the fastening strap 41 covers the top of the outer mesh cylinder 31 from above.

[0023] The storage mesh frame 2 is combined with multiple material support components 3. The storage mesh frame 2 can move together with the multiple material support components 3 into the ultrasonic cleaning box 1. At the same time, it can move vertically inside the ultrasonic cleaning box 1 to facilitate the unified placement and removal of multiple material support components 3 into the ultrasonic cleaning box 1. Each material support assembly 3 can hold one artificial diamond. The bottom support tube 32 supports the bottom of the artificial diamond from below. The pressing fastening assembly 4 on the outer mesh tube 31 covers the top of the outer mesh tube 31, so that the fastening band 41 is positioned above the artificial diamond. The fastening band 41 moves downward to cover the artificial diamond. The fastening band 41 continues to move downward to press the artificial diamond onto the bottom support tube 32. By operating the two clips 43, the two ends of the fastening band 41 are clamped onto the two connecting blocks 42 to facilitate the adjustment and fixing of the fastening band 41. After being fixed, the fastening band 41, together with the bottom support tube 32, can firmly fix the artificial diamond inside the outer mesh tube 31, so as to effectively complete the fixing operation of the artificial diamond inside the ultrasonic cleaning box 1. It can effectively separate and store the artificial diamonds inside the storage mesh frame 2 to avoid the artificial diamonds moving and colliding during the cleaning process. The cleaning fluid in the ultrasonic cleaning box 1 passes through the outer mesh tube 31 and contacts the artificial diamond, which can effectively contact different areas of the surface of the artificial diamond, improve the cleaning effect of the artificial diamond, and improve the work efficiency.

Claims

1. A cleaning device for artificial diamonds, comprising an ultrasonic cleaning chamber (1), characterized in that: The ultrasonic cleaning box (1) has a vertically movable storage mesh frame (2) inside. The storage mesh frame (2) is provided with several material support components (3). The material support components (3) include an outer mesh cylinder (31) and a bottom support rubber cylinder (32). The bottom support rubber cylinder (32) is positioned inside the storage mesh frame (2) through the outer mesh cylinder (31). The top of the outer mesh cylinder (31) is provided with a pressing fastening component (4). The pressing fastening component (4) includes a fastening band (41), a connecting block (42), and a clamping frame (43). There are two connecting blocks (42) and two clamping frames (43). The two clamping frames (43) rotate symmetrically on the outside of the top of the outer mesh cylinder (31) through the two connecting blocks (42). The fastening band (41) is engaged and connected to the inside of the two clamping frames (43) to cover the top of the outer mesh cylinder (31).

2. The cleaning device for artificial diamonds according to claim 1, characterized in that: The storage mesh frame (2) is snapped into the interior of the ultrasonic cleaning box (1). Two columns (21) are fixedly connected inside the storage mesh frame (2), and the top of the columns (21) extends above the ultrasonic cleaning box (1).

3. The cleaning device for artificial diamonds according to claim 1, characterized in that: The bottom of the outer mesh cylinder (31) is fixedly connected to a vertical mesh cylinder (33), and the bottom end of the vertical mesh cylinder (33) is fixedly connected to the inner wall of the storage mesh frame (2).

4. The cleaning device for artificial diamonds according to claim 1, characterized in that: The bottom support tube (32) is fixedly connected to the center of the outer mesh tube (31), and the height of the bottom support tube (32) is less than that of the outer mesh tube (31).

5. The cleaning device for artificial diamonds according to claim 1, characterized in that: Two connecting blocks (42) are symmetrically fixed to the outer wall of the outer mesh cylinder (31), and the top of the connecting blocks (42) is flush with the bottom of the outer mesh cylinder (31).

6. The cleaning device for artificial diamonds according to claim 1, characterized in that: The two card frames (43) are located on the outside of the two connecting blocks (42) respectively. The open end of the card frame (43) is fixedly connected to two symmetrically distributed rotating rods (431). The rotating rods (431) are rotatably connected to the side wall of the connecting block (42).

7. A cleaning device for artificial diamonds according to claim 1, characterized in that: The open end of the card frame (43) is engaged with the outside of the connecting block (42), and the end of the fastening band (41) is inserted between the corresponding connecting block (42) and the card frame (43).