Implant cleaning jig and cleaning structure

By designing a clamp and cleaning structure for implant cleaning, and utilizing high-pressure water and efficient mechanical means, the problem of poor cleaning effect on the inner wall of the implant cavity was solved, achieving a thorough cleaning effect on the inner wall of the implant cavity, thus solving the problem of cleaning the inner wall of the implant cavity and achieving a complete cleaning effect for dental implants.

CN224405876UActive Publication Date: 2026-06-26CHANGZHOU MIJIEK CLEANING TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHANGZHOU MIJIEK CLEANING TECH CO LTD
Filing Date
2025-06-19
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing technologies have poor cleaning effects on the inner wall of implant openings, making it impossible to clean them effectively.

Method used

Design a fixture for cleaning implants, including a base and a pressure cap, to fix the implants by threaded connection, and combine a cleaning head and a U-shaped frame driven by a servo linear guide slide to achieve high-pressure water and gas jet cleaning and drying.

Benefits of technology

It achieves thorough and efficient cleaning of implant pores, with high cleaning efficiency, capable of cleaning multiple implants simultaneously, and drying quickly after cleaning.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application relates to a kind of implant cleaning clamps and cleaning structures, belong to the technical field of implant cleaning, it includes base and gland, the base surface is uniformly provided with several positioning holes, the positioning hole includes coaxially arranged positioning groove and through hole, the diameter of the positioning groove is greater than the diameter of the through hole, the through hole and the positioning groove form a step surface, the implant is matched and arranged in the positioning groove, and the bottom of the implant is placed on the step surface. In the application, the clamp can load more implants uniformly at a time. During cleaning, the nozzles in the cleaning assembly can correspond to each implant one by one. The cleaning and drying of the implants are completed by the nozzles. Each implant can be cleaned separately, and the cleaning efficiency is high and the cleaning is very thorough.
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Description

Technical Field

[0001] This application relates to the technical field of implant cleaning, and in particular to a clamp and cleaning structure for implant cleaning. Background Technology

[0002] Dental implants involve inserting an artificial tooth root (implant) into the jawbone at the site of the missing tooth. Once the root has integrated firmly with the jawbone, a lifelike porcelain crown is then attached to the root. In this way, the implanted artificial tooth is not only strong and beautiful, but also durable and is known as the third set of teeth for humans.

[0003] Among them, such as Figure 1 The implant 8 shown has a pore inside. During the production process, the inner wall of the pore needs to be cleaned. In the existing technology, the implant is usually placed directly into an ultrasonic cleaning device for cleaning, which cannot directly clean the inner wall of the pore, resulting in poor cleaning effect and incomplete cleaning. Cleaning the inner wall of the implant pore has always been a difficult problem in the cleaning industry. Utility Model Content

[0004] The purpose of this application is to provide a clamp and cleaning structure for implant cleaning to solve the problems mentioned in the background art.

[0005] On the one hand, to achieve the above objectives, this application provides a clamp for cleaning implants, employing the following technical solution:

[0006] A clamp for cleaning implants includes a base and a pressure cap. The base has a plurality of positioning holes evenly distributed on its surface. Each positioning hole includes a positioning groove and a through hole arranged coaxially. The diameter of the positioning groove is larger than the diameter of the through hole. A stepped surface is formed between the through hole and the positioning groove. An implant is fitted into the positioning groove with its bottom flat on the stepped surface. Studs are symmetrically fixed on both sides of the base. Locking nuts are threaded onto the surface of each stud. The pressure cap has guide holes corresponding to the positions of the studs. The pressure cap is locked onto the base by nuts, and its lower surface can press against the end face of the implant.

[0007] The base is also provided with a limiting hole, and the cover is fixed with a handle.

[0008] On the other hand, to achieve the above objectives, this application also provides a cleaning structure using the above-mentioned implant cleaning clamp, employing the following technical solution:

[0009] A cleaning structure includes a cleaning tank, a workbench, and a cleaning assembly. The workbench is disposed inside the cleaning tank. The surface of the workbench has a placement groove for placing fixtures. A through clearance groove is provided in the middle of the placement groove. Pressure rods are symmetrically arranged on both sides of the placement groove. The pressure rods are rotatably connected to the workbench and can press against the base.

[0010] The cleaning assembly includes a servo linear guide slide, a cleaning head, and a U-shaped frame. A support plate is fixed to the top of the cleaning tank. The servo linear guide slide is fixed to the support plate. The U-shaped frame can move along the length of the support plate and is driven by the servo linear guide slide. The cleaning head is fixed on the U-shaped frame and is located at the bottom of the workbench. The cleaning head has several interconnected flow channels inside and air inlets and water inlets connected to the flow channels on its side. The surface of the cleaning head has several through holes connected to the flow channels. Nozzles are installed in the through holes and correspond to the positioning holes. A water inlet pipe and an air inlet pipe are installed inside the U-shaped frame. The water inlet pipe is connected to the water inlet, and the air inlet pipe is connected to the air inlet.

[0011] The side of the U-shaped frame is also provided with air holes, which are connected to the air inlet pipe and are located on the top of the workbench for blowing water onto the outer wall of the implant.

[0012] Positioning rods are provided on both sides of the top of the placement slot, corresponding to the positions of the limiting holes.

[0013] Preferably, for ease of manufacturing, the flow channels inside the cleaning head are arranged horizontally and vertically, and all flow channels penetrate the cleaning head, with plugs connected to the ends of the flow channels.

[0014] In summary, this application includes at least one of the following beneficial technical effects: the implant cleaning clamp can uniformly load a large number of implants at one time; during cleaning, the nozzles in the cleaning assembly can correspond one-to-one with the implants; the cleaning and drying of the implants are both accomplished through the nozzles; each implant can be cleaned individually; the cleaning efficiency is high and the cleaning is very thorough. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the structure used to represent the implant in existing technology.

[0016] Figure 2 This is an exploded structural diagram illustrating the fixture in the embodiments of this application.

[0017] Figure 3 This is a structural schematic diagram used to illustrate the base in the embodiments of this application.

[0018] Figure 4 yes Figure 3 Enlarged view of section A.

[0019] Figure 5 This is a schematic diagram illustrating the cleaning structure in an embodiment of this application.

[0020] Figure 6 This is a schematic diagram illustrating the structure of the cleaning component in the embodiments of this application.

[0021] Figure 7 This is a schematic diagram illustrating the structure of the cleaning head in the embodiments of this application.

[0022] Figure 8 This is a schematic diagram illustrating the cleaning structure under the application fixture state in the embodiments of this application.

[0023] Explanation of reference numerals in the attached drawings: 1. Base; 11. Positioning hole; 111. Positioning groove; 112. Through hole; 12. Stud; 13. Locking nut; 14. Limiting hole; 2. Pressure cap; 21. Handle; 3. Cleaning box; 4. Worktable; 41. Placement groove; 411. Through clearance groove; 5. Cleaning assembly; 51. Servo linear guide slide; 52. Cleaning head; 521. Nozzle; 53. U-shaped frame; 531. Water inlet pipe; 532. Air inlet pipe; 533. Air hole; 6. Pressure rod; 7. Positioning rod. Detailed Implementation

[0024] The following is in conjunction with the appendix Figure 2-8 This application will be described in further detail.

[0025] This application discloses a clamp for cleaning implants, as shown in the embodiments below. Figure 2-4 The device includes a base 1 and a pressure cap 2. The surface of the base 1 is evenly provided with a plurality of positioning holes 11. The positioning holes 11 include a positioning groove 111 and a through hole 112 arranged coaxially. The diameter of the positioning groove 111 is larger than the diameter of the through hole 112. A stepped surface is formed between the through hole 112 and the positioning groove 111. The implant is matched and placed in the positioning groove 111, and the bottom of the implant is placed flat on the stepped surface. The base 1 is symmetrically fixed with studs 12 on both sides. The surface of the studs 12 is threaded with locking nuts 13. The pressure cap 2 is provided with guide holes corresponding to the positions of the studs 12. The pressure cap 2 is locked on the base 1 by nuts, and the lower surface of the pressure cap 2 can press against the end face of the implant.

[0026] To facilitate subsequent positioning and placement, a limiting hole 14 is provided on the base 1, and a handle 21 is fixed on the pressure cover 2 to facilitate taking it out.

[0027] The implementation principle of the implant cleaning clamp in this application embodiment is as follows:

[0028] During use, the staff places the implants one by one into the positioning holes 11, with the central hole of the implant facing down. Then, the pressure cap 2 is pressed onto the top of the implant, and the pressure cap 2 is locked onto the base 1 with a nut, so that several implants can be pressed into the clamp.

[0029] This application also discloses a cleaning structure using the above-mentioned implant cleaning clamp, referring to... Figure 5-8 The system includes a cleaning tank 3, a workbench 4, and a cleaning assembly 5. The workbench 4 is located inside the cleaning tank 3. The surface of the workbench 4 has a placement groove 41 for placing fixtures. A through clearance groove 411 is provided in the middle of the placement groove 41. Pressure rods 6 are symmetrically arranged on both sides of the placement groove 41. The pressure rods 6 are rotatably connected to the workbench 4 and can press on the base 1. Positioning rods 7 are provided on both sides of the top of the placement groove 41 at the positions corresponding to the limiting holes 14.

[0030] The cleaning assembly 5 includes a servo linear guide slide 51, a cleaning head 52, and a U-shaped frame 53. A support plate is fixed to the top of the cleaning tank 3. The servo linear guide slide 51 is fixed to the support plate. The U-shaped frame 53 can move along the length of the support plate and is driven by the servo linear guide slide 51. The cleaning head 52 is fixed to the U-shaped frame 53 and is located at the bottom of the worktable 4. Several interconnected flow channels are opened inside the cleaning head 52, and a side panel of the cleaning head 52 is provided with a connection to these flow channels. For ease of manufacturing, the flow channels inside the cleaning head 52 are arranged horizontally and vertically, and all flow channels penetrate the cleaning head 52. The ends of the flow channels are connected to plugs (not shown in the figure). Several through holes connected to the flow channels are opened on the surface of the cleaning head 52. Nozzles 521 are installed in the through holes. The nozzles 521 can correspond to the positioning holes 11. A water inlet pipe 531 and an air inlet pipe 532 are provided in the U-shaped frame 53. The water inlet pipe 531 is connected to the water inlet, and the air inlet pipe 532 is connected to the air inlet.

[0031] The side of the U-shaped frame 53 is also provided with an air hole 533, which is connected to the air inlet pipe 532. The air hole 533 is located on the top of the workbench 4 and is used to blow water onto the outer wall of the implant.

[0032] The implementation principle of a cleaning structure in this application embodiment is as follows:

[0033] The staff places the clamp filled with implants into the placement slot 41 and fixes the clamp with the pressure rod 6. Then, high-pressure water is injected into the cleaning head 52 through the water inlet pipe 531. The servo linear guide slide 51 drives the cleaning head 52 to move to the set position. At this time, one nozzle 521 corresponds to one implant. Water is sprayed from the bottom of the clamp to the top to rinse the pores of the implant. The servo linear guide slide 51 controls the movement of the cleaning head 52 until all the implants in the clamp are cleaned.

[0034] After cleaning, water injection is stopped, and high-pressure gas is introduced through air inlet pipe 532. Servo linear guide slide 51 repeats the above actions, and nozzle 521 blows water into the pores of each implant to make it dry quickly. At the same time, the air holes 533 on the side of U-shaped frame 53 can also blow water into the outer wall of the implant to facilitate subsequent material feeding.

[0035] 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. A clamp for cleaning implants, characterized in that: The device includes a base (1) and a cap (2). The base (1) has a plurality of positioning holes (11) evenly arranged on its surface. Each positioning hole (11) includes a positioning groove (111) and a through hole (112) arranged coaxially. The diameter of the positioning groove (111) is larger than the diameter of the through hole (112). A stepped surface is formed between the through hole (112) and the positioning groove (111). The implant is matched and placed in the positioning groove (111), and the bottom of the implant is placed flat on the stepped surface. Studs (12) are symmetrically fixed on both sides of the base (1). Locking nuts (13) are threadedly connected to the surface of the studs (12). The cap (2) has a guide hole corresponding to the position of the studs (12). The cap (2) is locked on the base (1) by the nut, and the lower surface of the cap (2) can press against the end face of the implant.

2. The implant cleaning clamp according to claim 1, characterized in that: The base (1) is also provided with a limiting hole (14), and the cover (2) is fixed with a handle (21).

3. A cleaning structure using the implant cleaning clamp according to claim 2, characterized in that: The system includes a cleaning tank (3), a workbench (4), and a cleaning assembly (5). The workbench (4) is located inside the cleaning tank (3). The workbench (4) has a placement groove (41) for placing fixtures on its surface. A through clearance groove (411) is provided in the middle of the placement groove (41). Pressure rods (6) are symmetrically arranged on both sides of the placement groove (41). The pressure rods (6) are rotatably connected to the workbench (4) and can press on the base (1). The cleaning assembly (5) includes a servo linear guide slide (51), a cleaning head (52), and a U-shaped frame (53). A support plate is fixed to the top of the cleaning tank (3). The servo linear guide slide (51) is fixed to the support plate. The U-shaped frame (53) can move along the length of the support plate and is driven by the servo linear guide slide (51). The cleaning head (52) is fixed to the U-shaped frame (53) and is located at the bottom of the workbench (4). The internal structure has several interconnected flow channels, and the side of the cleaning head (52) is provided with an air inlet and a water inlet connected to the flow channels. The surface of the cleaning head (52) has several through holes connected to the flow channels. A nozzle (521) is installed in the through hole. The nozzle (521) can correspond to the positioning hole (11). The U-shaped frame (53) is provided with a water inlet pipe (531) and an air inlet pipe (532). The water inlet pipe (531) is connected to the water inlet, and the air inlet pipe (532) is connected to the air inlet.

4. The cleaning structure according to claim 3, characterized in that: The side of the U-shaped frame (53) is also provided with an air hole (533), which is connected to the air inlet pipe (532). The air hole (533) is located on the top of the workbench (4) and is used to blow water onto the outer wall of the implant.

5. The cleaning structure according to claim 4, characterized in that: Positioning rods (7) are provided on both sides of the top of the placement groove (41) corresponding to the positions of the limiting holes (14).

6. The cleaning structure according to claim 3, characterized in that: The flow channels inside the cleaning head (52) are arranged in both horizontal and vertical directions, and all flow channels penetrate the cleaning head (52). The ends of the flow channels are connected to plugs.