Oral implant abutment accessory ultrasonic cleaning tool

Abstract

The application relates to an ultrasonic cleaning tool for oral implant abutment accessories, which comprises a cleaning plate and a groove formed in the cleaning plate, the groove is composed of a circular arc groove and a baffle, the assembly of multiple cleaning plates is realized through a connecting piece, the distance between adjacent grooves is reasonably designed to adapt to the placement of abutments with different diameters, in addition, the cleaning plate is provided with a draining hole and is made of PPSU material. The application realizes effective fixation and stable cleaning of the oral implant abutment accessories, improves the cleaning efficiency, ensures good drainage performance and material durability, and has the effect of preventing the abutment from being scratched.

Description

Technical Field

[0001] This application relates to the field of medical devices, and in particular to an ultrasonic cleaning fixture for dental implant abutment accessories. Background Technology

[0002] Dental implants consist of a crown, an abutment, and the implant itself (the implant plate). When a dentist implants a tooth, they first screw the implant into the alveolar bone. The implant connects to the alveolar bone via external threads on its periphery. Current dental implant abutment structures have a vertically threaded hole in the center, and the abutment is connected to the implant via screws.

[0003] Existing ultrasonic cleaning fixtures for dental implant abutments consist of a support with a receiving tank. The tank's walls and bottom are constructed of mesh. Multiple implant abutments are placed inside the tank, and the support is then immersed in an ultrasonic cleaning device. However, when multiple implant abutments are subjected to ultrasonic cleaning via the device's sound waves, they collide with each other, causing scratches. Furthermore, the abutments vary in structure and size, requiring the selection of different cleaning baskets for different sizes. Utility Model Content

[0004] To address the aforementioned issues, this application provides an ultrasonic cleaning fixture for dental implant abutment accessories.

[0005] The ultrasonic cleaning fixture for dental implant abutment accessories provided in this application adopts the following technical solution:

[0006] An ultrasonic cleaning fixture for dental implant abutment accessories includes a cleaning plate with grooves for placing the abutments. The grooves can fix abutments of different diameters into the grooves.

[0007] By adopting the above technical solution, and by setting grooves in the cleaning plate, each abutment can be placed individually in the groove. This effectively avoids collisions between multiple dental implant abutments during ultrasonic cleaning, preventing scratches and maintaining the integrity and aesthetics of the abutments. The groove design can accommodate abutments of different diameters; regardless of the size of the abutment, it can be effectively fixed inside the groove, greatly improving the versatility and flexibility of the cleaning fixture, making it suitable for various sizes of dental implant abutments.

[0008] Preferably, the groove includes an arc groove formed below the plane of the cleaning plate, and a baffle extending along the arc groove toward the top of the cleaning plate. The two cleaning plates are connected into a whole by means of connecting members and by means of the baffle being staggered, so as to realize the placement of the base.

[0009] By adopting the above technical solution, the arc groove design can adapt to the shape of the base, providing a stable placement space. The baffle further enhances the stability of the base, preventing it from moving or tipping over during the cleaning process. The two cleaning plates are connected in a staggered baffle configuration. This staggered design not only ensures the base is stably placed in the groove but also provides a degree of protection.

[0010] Preferably, the connector includes a mounting hole on one side of the cleaning plate and a connecting boss on the other side of the cleaning plate, and adjacent cleaning plates are connected and fixed by inserting the connecting boss into the mounting hole.

[0011] By adopting the above technical solution, the design of the connecting boss and mounting holes provides a stable connection, ensuring that the cleaning plate will not easily separate due to vibration or external force during use. At the same time, the design of the connecting boss and mounting holes makes the assembly and disassembly of the cleaning plate quick and simple, greatly improving work efficiency. This connection method allows users to freely combine cleaning plates according to actual needs, easily increasing the number or adjusting the layout.

[0012] Preferably, the distance between two adjacent grooves is greater than the maximum diameter of a base.

[0013] By adopting the above technical solution, since vibrations are generated during ultrasonic cleaning, if the groove spacing is too small, it may cause contact and collision between the base stations, thus affecting the cleaning effect or even damaging the base stations. Sufficient groove spacing can effectively prevent mutual collision between base stations during cleaning, protecting the base stations from damage. Moreover, it ensures that each base station receives uniform and thorough cleaning, improving cleaning quality and efficiency.

[0014] Preferably, the distance between two adjacent grooves is set to 1.5-2 times the maximum diameter of a base.

[0015] By adopting the above technical solution, the distance between two adjacent grooves is set to 1.5-2 times the maximum diameter of a base, ensuring sufficient space between the bases and avoiding mutual interference during cleaning or operation. At the same time, sufficient spacing allows cleaning fluid or gas to flow more freely, ensuring that each base is thoroughly cleaned without dead corners, thus improving cleaning efficiency.

[0016] Preferably, the cleaning plate is further provided with drainage holes for draining cleaning water.

[0017] By adopting the above technical solution, drainage holes are opened on the cleaning plate to receive the sound wave vibration source during cleaning. The drainage holes can better receive the sound wave vibration source, improve the cleaning effect of the base, and avoid the formation of water film in the inner hole.

[0018] Preferably, the drainage holes are spaced apart between two adjacent grooves.

[0019] By adopting the above technical solution, the drainage hole is opened between the two grooves. The drainage hole separates the grooves, which can better receive the ultrasonic vibration source to rinse the base on both sides, and filter and discharge the water in time, so as to avoid the formation of a water film in the inner hole and affect the cleaning of the inner hole.

[0020] Preferably, the cleaning plate is made of PPSU material.

[0021] By adopting the above technical solutions, PPSU material has excellent heat resistance and good mechanical properties, which can effectively avoid scratches with metal and protect the base from scratches.

[0022] In summary, this application includes at least one of the following beneficial technical effects:

[0023] 1. The groove design on the cleaning plate can fix each base individually, effectively avoiding collisions and scratches between bases during ultrasonic cleaning, and significantly improving the integrity and aesthetics of the bases;

[0024] 2. The grooves are adapted to bases of different diameters. Combined with the reasonable spacing between adjacent grooves, the versatility and flexibility of the cleaning fixture are improved, meeting the cleaning needs of bases of various specifications.

[0025] 3. The design of the drainage holes optimizes the water flow distribution during the cleaning process, ensuring that the base fully receives the action of the ultrasonic vibration source, avoiding the formation of a water film in the inner hole, thereby improving cleaning efficiency and quality. Attached Figure Description

[0026] Figure 1 This is a schematic diagram of an ultrasonic cleaning fixture for dental implant abutment accessories according to this application.

[0027] Figure 2 This is a cross-sectional view of an ultrasonic cleaning fixture for dental implant abutment accessories according to this application.

[0028] Explanation of reference numerals in the attached drawings: 1. Cleaning plate; 2. Groove; 21. Arc groove; 22. Baffle; 3. Drain hole; 4. Connector; 41. Mounting hole; 42. Connecting boss. Detailed Implementation

[0029] The following is in conjunction with the appendix Figure 1-2 This application will be described in further detail.

[0030] This application discloses an ultrasonic cleaning fixture for dental implant abutment accessories. (Refer to...) Figure 1The ultrasonic cleaning fixture for dental implant abutments includes a cleaning plate 1 with multiple grooves 2. Each groove 2 can hold abutments of different diameters. This design not only effectively prevents contact and collision between abutments but also ensures the abutments remain stable during cleaning, thus improving cleaning quality.

[0031] Specifically, the cleaning plate 1 is made of PPSU material, which has excellent heat resistance and good mechanical properties, reducing friction with the base and lowering the risk of wear.

[0032] The groove 2 consists of two parts: an arc groove 21 and a baffle 22. The arc groove 21 is located below the plane of the cleaning plate 1 and is semi-circular in shape, which is suitable for the cylindrical body section of most standard dental abutments. The baffle 22 extends vertically upward from the arc groove 21 and serves to support and limit the abutment, so that it is firmly fixed in the groove 2.

[0033] The distance between two adjacent grooves 2 is greater than the maximum diameter of a base. In order to allow the cleaning liquid or gas to flow more freely and ensure that each base is thoroughly cleaned without dead corners, the distance between two adjacent grooves 2 is set to 1.5-2 times the maximum diameter of a base.

[0034] Reference Figure 2 To increase the flexibility of the cleaning fixture, two adjacent cleaning plates 1 can be spliced ​​together in an interlaced manner using connectors 4 to form a larger whole. Specifically, the arc grooves 21 are arranged opposite each other, and the baffle 22 is located on the other side of the arc groove 21 of the other cleaning plate 1. The two arc grooves 21 and the two baffles 22 together form an installation cavity. The base is placed in the installation cavity for cleaning.

[0035] The connector 4 includes a mounting hole 41 on one edge and a connecting boss 42 on the other edge. Connection and fixation can be quickly completed by inserting the connecting boss 42 into the mounting hole 41. This modular design allows for flexible adjustment of the load-bearing capacity according to actual needs, while ensuring the relative independence of each unit and avoiding secondary pollution.

[0036] Reference Figure 1 In addition, to optimize drainage performance, drainage holes 3 are provided on the cleaning plate 1, which are distributed between two adjacent grooves 2. The presence of drainage holes 3 helps to quickly remove residual water and avoid bacterial growth caused by water stagnation. In this way, the functionality and ease of use of the cleaning fixture are further improved.

[0037] The implementation principle of the ultrasonic cleaning fixture for dental implant abutments in this application embodiment is as follows: By setting grooves 2 on the cleaning plate 1, each abutment can be placed individually in the groove 2. This effectively avoids collisions between multiple dental implant abutments during ultrasonic cleaning, preventing scratches and maintaining the integrity and aesthetics of the abutments. The design of the grooves 2 can accommodate abutments of different diameters. Regardless of the size of the abutment, it can be effectively fixed inside the groove 2, greatly improving the versatility and flexibility of the cleaning fixture, making it applicable to various specifications of dental implant abutments.

[0038] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.

Claims

1. An oral implant abutment fitting ultrasonic cleaning tool, characterized in that: The utility model relates to a cleaning plate (1) which is provided with a groove (2) for placing a base, the groove (2) can fix the base with different diameters to the inside of the groove (2), the groove (2) includes an arc groove (21) which is opened below the plane of the cleaning plate (1), and a baffle (22) which extends towards the upper side of the cleaning plate (1) along the arc groove (21), two cleaning plates (1) are connected into a whole by setting a connecting piece (4) and by staggered arrangement of the baffles (22), and the base can be placed.

2. The oral implant abutment fitting ultrasonic cleaning tooling of claim 1, wherein: The connecting piece (4) includes a mounting hole (41) which is arranged on one side of the cleaning plate (1) and a connecting boss (42) which is arranged on the other side of the cleaning plate (1), and two adjacent cleaning plates (1) are connected and fixed by inserting the connecting boss (42) into the mounting hole (41).

3. The oral implant abutment fitting ultrasonic cleaning tooling of claim 1, wherein: The distance between two adjacent grooves (2) is greater than the maximum diameter of a base.

4. The oral implant abutment fitting ultrasonic cleaning tooling of claim 3, wherein: The distance between two adjacent grooves (2) is 1.5-2 times the maximum diameter of a base.

5. The oral implant abutment fitting ultrasonic cleaning tooling of claim 1, wherein: The cleaning plate (1) is further provided with a drain hole (3) for draining cleaning water.

6. The oral implant abutment assembly ultrasonic cleaning fixture of claim 5, wherein: The drain holes (3) are arranged at intervals between two adjacent grooves (2).

7. The oral implant abutment fitting ultrasonic cleaning tooling of any one of claims 1-6, wherein: The cleaning plate (1) is made of PPSU.

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