JPH1176263A - Dental handpiece - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve treatment and work efficiency by providing a hard titanium compound-coated layer on the slide contact surface of the insertion and detachment member of a dental handpiece. SOLUTION: A hard titanium compound-coated layer 13 is provided on the slide contact surface 5 of the recessed portion of the insertion and detachment portion of a handpiece 2, the slide contact surface 6 of the projected portion of the insertion and detachment portion of a micro motor 3, and the slide contact surface 7 of the recessed portion of the insertion and detachment portion of a micro motor 3, and the slide contact surface 8 of the projected portion of the insertion and detachment portion of a handpiece hose connector 4, respectively. The base material is stainless steel and the hard titanium compound- coated layer 13 is a yellowish bronze titanium nitride. The coated layer 13 is about 1 micron in thickness. An O ring 10 is formed of a synthetic resin such as fluororubber. Such structure helps improve the effect of controlling wear and flaws of the slide contact surfaces 5-8, reduce significantly damage to and separation of the O ring and prolong the life.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dental handpiece, and more particularly, to a dental handpiece having an improved insertion / removal member therein.

[0002]

2. Description of the Related Art A handpiece used in dentistry is rotated by a micromotor, an air turbine or the like, and holds a cutting tool for cutting, and a driving source for the handpiece. A handpiece hose section for supplying electricity, air, water, etc., or a scaler handpiece section for holding a vibrator, and a syringe handpiece section for mixing and radiating air and water There is a handpiece hose part of a drive and a supply source, and in using the same, for example, in a micromotor handpiece, a handpiece and a micromotor, and a micromotor and a handpiece hose connector are used for each purpose and purpose. For changing several types of handpieces, or for sterilization and disinfection, Insertion and extraction is carried out each other frequently. Conventionally, the sliding surface of the insertion / removal member of the handpiece has been subjected to a surface treatment such as a metal surface or alumite treatment or industrial chrome plating. However, when the sliding surface is worn due to the insertion and removal of the insertion / removal portion, and when the surface is scratched and the wear and scratches of the sliding surface gradually progress, a large force is required for the operation of insertion / removal and separation. In some cases, the number of wounds increased, and insertion / removal and separation could not be performed at the end, which sometimes hindered treatment and work. In addition, an O-ring is fitted to a part of the sliding surface between the handpiece and the micromotor so as to supply water and air to the handpiece without leakage. The scratches may cause scratches, peeling, cuts, etc. on the O-ring slidingly contacting the O-rings, causing problems such as water leakage and air leakage, which may hinder treatment and work. Also, in the scaler, the sliding contact surface of the insertion / removal member caused by replacement / removal of the handpiece of the air scaler, the ultrasonic scaler, and the handpiece hose connector causes abrasion and scratches. Occurred. Furthermore, in syringes,
The nozzle and syringe handpiece on the forehead, and the handpiece and handpiece hose connector are inserted and removed each time the work is performed, mainly for sterilization and disinfection. In some cases, the above-described problems occur together with the related O-ring. The present invention provides a handpiece that prevents the above-described inconveniences and improves treatment and work efficiency.

[0003]

Means for Solving the Problems As a result of intensive studies in view of the above, the present inventor has solved this problem by the following means. (1) A dental handpiece, wherein a hard titanium compound coating layer is applied to a sliding surface of an insertion / removal member of the handpiece. (2) The dental handpiece according to item (1), wherein an O-ring is interposed on a part of the sliding contact surface of the insertion / removal member on which the hard titanium compound coating layer is applied. (3) The dental handpiece according to (1) or (2), wherein the handpiece is a micromotor handpiece. (4) The dental handpiece according to (1) or (2), wherein the handpiece is an air turbine handpiece. (5) The dental handpiece according to the above mode (1) or (2), wherein the handpiece is an air scaler or an ultrasonic scaler. (6) The dental handpiece according to the above item (1) or (2), wherein the handpiece is a syringe provided with at least one fluid outlet at the tip of the nozzle. (7) The dental handpiece according to any one of (1) to (6), wherein the titanium compound is titanium nitride. (8) The dental handpiece according to any one of (1) to (6), wherein the titanium compound is titanium carbide.

[0004]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The structure and operation of a dental handpiece in which a hard titanium compound coating layer is applied to a sliding surface of an insertion / removal member of the handpiece will be described with reference to the drawings. As a method for coating the sliding contact surface (substrate surface) of the insertion / removal member of the dental handpiece, for example, ion plating,
Methods such as CVD and dynamic mixing can be adopted,
A hard titanium compound coating layer such as TiN, TiC, TiB ₂ , TiAlN, and TiCN is coated on the surface of the base material (stainless steel or the like), thereby improving hardness, wear resistance, heat resistance, chemical stability, and the like. . In the prior art, a hard titanium compound coating layer has not been provided on the sliding surface of the insertion / removal member of a dental handpiece to prevent abrasion, generation of scratches, etc. When a hard titanium compound coating layer is applied to the surface, the wear preventing effect and the flaw generation preventing effect are large, and the O-ring interposed in a part of the sliding contact surface of the insertion / removal member provided with the titanium compound coating layer. , Drastically reduces the generation of scratches, peeling, cutting, etc.
A five-fold or more life extension effect was observed. In addition, as the material of the O-ring, a wear-resistant resin material such as fluorine rubber is preferably used.

[0005]

1 is an external perspective view of a micromotor handpiece, and FIG. 2 is an external perspective view of a micromotor handpiece in which a hard titanium compound coating layer is applied to a sliding surface of an insertion / removal member. In the figure, 1 is a micromotor handpiece, 2 is a handpiece, 3 is a micromotor, 4
Is a handpiece hose connector, 5 is a sliding contact surface of the insertion / removal portion on the handpiece side, 6 is a sliding contact surface of the insertion / removal portion on the micromotor side, 7 is a sliding contact surface of the insertion / removal portion on the micromotor side, 8
Is the sliding contact surface of the handpiece hose connector side
9 is an O-ring fitting groove, 10 is an O-ring, 11 is a hose,
12 is a cutting tool, 13 is a hard titanium compound coating layer, and 14 is a connector pin. At the time of use, they are integrated as shown in FIG. 1, but as shown in FIG. 2, in the course of the work, the handpiece 2 and the micromotor 3 and the micromotor 3 and the handpiece hose connector 4 are used and intended. The handpiece 2 or the micromotor 3 having several different types of interchangeability is frequently inserted or removed for sterilization or disinfection after work. Then, at the time of insertion / removal, the respective sliding contact surfaces (5,
6, 7, 8), friction due to pressing force, pulling force, and rotational force, twisting due to eccentricity, and the like occur, and the wear and scratches occur. Therefore, the sliding contact surface 5 of the insertion / removal portion on the handpiece side, the sliding contact surface 6 of the projection / removal portion on the micromotor side, the sliding contact surface 7 of the insertion / removal portion on the micromotor side, and the insertion / removal of the handpiece hose connector side. The hard titanium compound coating layer 13 was applied to each part of the convex part sliding contact surface 8. In the examples, the base material was stainless steel, the hard titanium compound coating layer was titanium nitride (TiN), the color tone was yellow bronze, and the thickness of the coating layer was 1 micron. The material of the O-ring is a synthetic resin such as fluorine rubber. As a result, in the durability test, each sliding contact surface (5, 6,
7, 8) The effect of preventing abrasion and scratches is great, and the related scratches, peeling, cutting, etc. of the O-ring 10 are also drastically reduced.
As a whole, the service life was increased by more than five times (compared to our company).

FIG. 3 is an external perspective view of the air turbine handpiece. FIG. 4 is an external perspective view in which a hard titanium compound coating layer is applied to a sliding contact surface of an insertion / removal member of an air turbine handpiece. In the drawing, 15 is an air turbine handpiece, 16 is a handpiece, 17 is a handpiece hose connector, 18 is a sliding contact surface of the insertion / removal portion concave portion on the handpiece side,
Reference numeral 19 denotes a sliding contact surface of the insertion / removal portion on the handpiece hose connector side, 20 denotes an O-ring fitting groove, 21 denotes an O-ring, 22 denotes a hose, 23 denotes an air turbine unit, 24 denotes a cutting tool, and 25 denotes a hard titanium compound. 3 shows a coating layer. In use,
As shown in FIG. 3, the handpiece 16 and the handpiece hose connector 17 are integrated as shown in FIG. Frequent insertion and removal are performed for changing or sterilization and disinfection after work. At the time of the insertion / removal, friction between the sliding contact surfaces (18, 19) of the concave / convex portion of the insertion / removal member due to a pressing force, an attractive force, a rotational force,
The eccentricity causes twisting and the like, and the abrasion and scratches occur.
Therefore, the insertion / removal portion sliding contact surface 18 on the handpiece side and the insertion / removal portion convex contact sliding surface 1 on the handpiece hose connector side.
9, the hard titanium compound coating layer 25
Was given. In the examples, the base material was stainless steel, the hard titanium compound coating layer was titanium nitride (TiN), the color tone was yellow bronze, and the thickness of the coating layer was 1 micron. The material of the O-ring is a synthetic resin such as fluorine rubber. As a result, in the durability test, the sliding and contacting surfaces (18, 19) of the concave and convex portions of the insertion / removal member have a large effect of preventing abrasion and scratching, and the associated O-ring 21 is damaged, peeled, cut, etc. And the overall service life was improved by more than 5 times (compared to our company).

FIG. 5 is an external perspective view of the air scaler. FIG. 6 is an external perspective view in which a hard titanium compound coating layer is applied to a sliding surface of an insertion / removal member of an air scaler. In the figure,
26 is an air scaler, 27 is a handpiece, 28 is a handpiece hose connector, 29 is a sliding contact surface of the insertion / removal portion on the handpiece side, 30 is a sliding contact surface of the insertion / removal portion on the handpiece hose connector side, and 31 is O A ring fitting groove, 32 is an O-ring, 33 is a hose, 34 is a cutting tool, and 35 is a hard titanium compound coating layer. At the time of use, the handpiece 27 is integrated as shown in FIG. 5, but as shown in FIG. The handpiece 27 is frequently inserted and removed for replacement of the handpiece 27 or sterilization and disinfection after the operation. At the time of insertion and removal, the respective sliding contact surfaces (2
In 9 and 30), friction due to pressing force, pulling force, and rotational force, twisting due to eccentricity, and the like occur, and the wear and scratches occur. Therefore, the hard titanium compound coating layer 35 was applied to each of the sliding contact surface 29 of the insertion / removal portion on the handpiece side and the sliding contact surface 30 of the insertion / removal portion on the handpiece hose connector side.
In the examples, the base material was stainless steel, the hard titanium compound coating layer was titanium nitride (TiN), the color tone was yellow bronze, and the thickness of the coating layer was 1 micron.
The material of the O-ring is a synthetic resin such as fluorine rubber. As a result, in the durability test, the effect of preventing abrasion and flaws of the sliding contact surfaces (29, 30) of the concave / convex portions of the insertion / removal member is large, and the related O-ring 32 is also drastically reduced in damage, peeling, cutting and the like. As a whole, the service life was improved five times or more (compared to our company) compared with the conventional one.

FIG. 7 is an external perspective view of a three-way syringe (in which an air syringe, a water syringe, and a spray syringe are integrated). FIG. 8 is an external perspective view in which a hard titanium compound coating layer is applied to a sliding surface of a three-way syringe insertion / removal member. FIG. 8A is an external perspective view of the nozzle viewed from the tip, and FIG. FIG. 3 is an external perspective view of the nozzle as viewed from a base. FIG. 9 is a longitudinal sectional view showing an internal O-ring when the nozzle is inserted into the handpiece. In the drawing, 36 is a three-way syringe, 37 is a handpiece, 38 is a handpiece hose connector, 39 is a hose, 40 is a lever, 41 is a nozzle, 42 is a nozzle-side insertion / removal part concave sliding contact surface, and 43 is a nozzle-side insertion / removal. Part convex sliding contact surface, 44
Is a sliding contact surface of the handpiece side insertion / removal portion concave portion, 45 is a handpiece side insertion / removal portion convex sliding contact surface, 46 is a handpiece base side insertion / removal portion concave sliding contact surface, and 47 is a handpiece hose connector side insertion / removal portion. A convex sliding surface, 48 is a hard titanium compound coating layer, 49 is a nozzle inserting / removing part convex part cover, 50 is a nozzle inserting / removing part convex part, 51 is a handpiece inserting / removing part convex part, and 52 is a handpiece body front part. , 53 is a nozzle insertion / removal button, 54 is a handpiece insertion / removal button, 55 is an O-ring groove, 56 is an O-ring groove.
The ring 57 indicates a connector pin.

At the time of use, it is integrated as shown in FIG. 7, but in the course of work, as shown in FIG.
The handpiece 37 and the handpiece 37 and the handpiece hose connector 38 are frequently inserted and removed mainly for sterilization and disinfection after work. At the time of insertion and removal, the respective sliding contact surfaces (42, 43,
44, 45, 46, and 47), friction due to pressing force, pulling force, and rotational force, twisting due to eccentricity, and the like occur, and the wear and scratches occur. Therefore, the nozzle-side insertion / removal portion concave sliding contact surface 42, the nozzle-side insertion / removal portion convex contact sliding surface 43, the handpiece-side insertion / removal portion concave contact sliding contact surface 44, and the handpiece-side insertion / removal portion convex contact sliding contact surface 45. The hard titanium compound coating layer 48 was applied to each of the sliding contact surface 46 of the insertion / removal portion of the insertion / removal portion on the base side of the handpiece and the sliding contact surface of the projection / recess portion on the handpiece hose connector side.
In the examples, the base material was stainless steel, the hard titanium compound coating layer was titanium nitride (TiN), the color tone was yellow bronze, and the thickness of the coating layer was 1 micron. The material of the O-ring is a synthetic resin such as fluorine rubber.
As a result, in the durability test, the effect of preventing abrasion and scratching of each sliding contact surface (42, 43, 44, 45, 46, 47) of the unevenness of the insertion / removal member is large, and the related O-ring 56 ( Damage, peeling, breakage, etc. in FIG. 9) were also drastically reduced, and the overall life was increased by 5 times or more (compared to our company). The above describes the case where the hard titanium compound coating layer is provided on the surface of the insertion / removal member base of the dental handpiece, but the coating layer is not limited to the titanium compound, and other non-oxides of metals, for example, other than titanium Metal carbides, metal nitrides, metal borides, non-metal carbides (eg, SiC, B ₄ C), non-metal nitrides (eg, Si
_{3 N 4),} non-metal borides (e.g., BN) coating layer of a hard or abrasion resistance, such as can be employed suitably. In the above, BN is one of the particularly preferable ones because of its low dynamic friction coefficient.

[0010]

According to the present invention, the following effects are exhibited. The hard titanium compound coating layer is applied to the sliding surface of the insertion / removal member of a handpiece such as a micromotor handpiece for dental use, an air turbine handpiece, an air scaler / ultrasonic scaler, and a syringe. The generation prevention effect is large and the related O
Scratch formation, peeling, breakage, and the like in the ring are also drastically reduced, and as a whole, the life can be increased by a factor of 5 or more compared to the conventional art. Therefore, if the dental handpiece of the present invention is used, dental treatment and work efficiency are improved, and excellent effects are economically exhibited.

[Brief description of the drawings]

FIG. 1 is an external perspective view of a micromotor handpiece.

FIG. 2 is an external perspective view in which a hard titanium compound coating layer is applied to a sliding contact surface of an insertion / removal member of the micromotor handpiece.

FIG. 3 is an external perspective view of an air turbine handpiece.

FIG. 4 is an external perspective view in which a hard titanium compound coating layer is applied to a sliding contact surface of an insertion / removal member of an air turbine handpiece.

FIG. 5 is an external perspective view of the air scaler.

FIG. 6 is an external perspective view in which a hard titanium compound coating layer is applied to a sliding surface of an insertion / removal member of the air scaler.

FIG. 7 is an external perspective view of a three-way syringe.

FIG. 8 is an external perspective view in which a hard titanium compound coating layer is applied to a sliding contact surface of a three-way syringe insertion / removal member.

FIG. 9 is a vertical cross-sectional view showing an internal O-ring when the nozzle is inserted into the handpiece.

[Explanation of symbols]

1: Micromotor handpiece 2: Handpiece 3: Micromotor 4: Handpiece hose connector 5: Sliding contact surface of insertion / removal part on handpiece side 6: Sliding contact surface of insertion / removal part on micromotor side Sliding surface of insertion / removal portion on motor side 8: Sliding surface of insertion / removal portion on handpiece hose connector 9: O-ring fitting groove 10: O-ring 11: Hose 12: Cutting tool 13: Hard titanium compound coating Layer 14: 14 is a connector pin 15: Air turbine handpiece 16: Handpiece 17: Handpiece hose connector 18: Handpiece side insertion / removal part sliding contact surface 19: Handpiece hose connector side insertion / removal part convex slide Contact surface 20: O-ring fitting groove 21: O-ring 22: Hose 23: Air turbine part 24: Cutting tool 25: Hard titanium compound Ingu layer 2
6: Air scaler 27: Handpiece 28: Handpiece hose connector 29: Handpiece side insertion / removal part sliding contact surface 30: Handpiece hose connector side insertion / removal part sliding contact surface 31: O-ring fitting groove 32 : O-ring 33: Hose 34: Cutting tool 35: Hard titanium compound coating layer 36: Three-way syringe 37: Handpiece 38: Handpiece hose connector 39: Hose 40: Lever 41: Nozzle 42: Nozzle side insertion / removal part concave slide Contact surface 43: Nozzle side insertion / removal portion convex sliding surface 44: Handpiece side insertion / removal portion concave contact sliding surface 45: Handpiece side insertion / removal portion convex portion sliding contact surface 46: Handpiece base side insertion / removal portion concave slide Contact surface 47: Handpiece hose connector side insertion / removal part sliding contact surface 48: Hard titanium compound coating layer 49: Nozzle insertion / removal part convex part cover 0: Nozzle insertion / removal projection 51: Handpiece insertion / removal projection 52: Handpiece body front 53: Nozzle insertion / removal button 54: Handpiece insertion / removal button 55: O-ring groove 56: O-ring 57: Connector pin

Claims (8)

[Claims] 1. A dental handpiece, wherein a hard titanium compound coating layer is applied to a sliding surface of an insertion / removal member of the handpiece. 2. The dental handpiece according to claim 1, wherein an O-ring is interposed on a part of the sliding contact surface of the insertion / removal member on which the hard titanium compound coating layer is applied. . 3. The dental handpiece according to claim 1, wherein the handpiece is a micromotor handpiece. 4. The dental handpiece according to claim 1, wherein the handpiece is an air turbine handpiece. 5. The dental handpiece according to claim 1, wherein the handpiece is an air scaler or an ultrasonic scaler. 6. The dental handpiece according to claim 1, wherein the handpiece is a syringe having at least one fluid ejection port at a tip of a nozzle. 7. The dental handpiece according to claim 1, wherein the titanium compound is titanium nitride. 8. The dental handpiece according to claim 1, wherein the titanium compound is titanium carbide.