JPH09168549A - Manufacturing method of dental tip - Google Patents

Manufacturing method of dental tip

Info

Publication number
JPH09168549A
JPH09168549A JP33086695A JP33086695A JPH09168549A JP H09168549 A JPH09168549 A JP H09168549A JP 33086695 A JP33086695 A JP 33086695A JP 33086695 A JP33086695 A JP 33086695A JP H09168549 A JPH09168549 A JP H09168549A
Authority
JP
Japan
Prior art keywords
dental
tip
mixing ratio
dental tip
kinds
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP33086695A
Other languages
Japanese (ja)
Other versions
JP3800436B2 (en
Inventor
Hiroshi Himeno
宏 姫野
Kazuko Himeno
和子 姫野
Kenichi Kita
健一 北
Tadashi Imanishi
正 今西
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
TAKARAZUKA KASEI KK
Original Assignee
TAKARAZUKA KASEI KK
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by TAKARAZUKA KASEI KK filed Critical TAKARAZUKA KASEI KK
Priority to JP33086695A priority Critical patent/JP3800436B2/en
Publication of JPH09168549A publication Critical patent/JPH09168549A/en
Application granted granted Critical
Publication of JP3800436B2 publication Critical patent/JP3800436B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61CDENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
    • A61C17/00Devices for cleaning, polishing, rinsing or drying teeth, teeth cavities or prostheses; Saliva removers; Dental appliances for receiving spittle
    • A61C17/16Power-driven cleaning or polishing devices
    • A61C17/20Power-driven cleaning or polishing devices using ultrasonics

Landscapes

  • Health & Medical Sciences (AREA)
  • Dentistry (AREA)
  • Epidemiology (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Dental Tools And Instruments Or Auxiliary Dental Instruments (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a dental tip not causing any damage to teeth and artificial parts in a mouth during medical treatments and having a most appropriate natural frequency that resonates to an excited frequency emitted from an ultrasonic generator that a dentist operates. SOLUTION: Plastics and filler materials are mixed for forming a dental composite. In preparing a monolithic dental chip for an ultrasonic scaler that is provided with a base part to be connected to an electric source and a top part to work at a tooth or at a body part to be treated medically, two kinds of composites of different compositions are selected, and these two composites are mixed according to a specified weight ratio before use. The above-mentioned method is the manufacturing method to obtain a dental tip aimed to possess a specific natural frequency. Therefore, a composite is formed experimentally with changing mixing ratios of two kinds of composites, and the natural frequency of the formed composite is measured in terms of the composition. Thus, the relationship between the natural frequency and the composition of a formed composite is experimentally understood, and a required mixing ratio of two kinds of composites in forming a dental tip is determined based on the obtained relationship.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【発明の属する技術分野】本発明は、プラスチックをマ
トリックスとし、充填材を強化材として成る樹脂成形体
で形成され、例えば超音波スケーラーに装着して実使用
に供される歯科用チップの製造方法に関し、更に詳しく
は、駆動源である超音波発振器の発振振動数と実使用時
に最適の状態で共振するように前記樹脂成形体の共振振
動数を調整して歯科用チップを製造する方法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for manufacturing a dental tip which is formed of a resin molded body having a plastic matrix and a filler as a reinforcing material, and which is mounted on an ultrasonic scaler for practical use. More specifically, the present invention relates to a method of manufacturing a dental tip by adjusting the oscillation frequency of an ultrasonic oscillator that is a drive source and the resonance frequency of the resin molded body so that it resonates in an optimum state during actual use.

【0002】[0002]

【従来の技術】歯科治療において、歯面に付着する歯石
の除去,ポケット内のデブライドメント,根面を滑沢す
る歯根面の無毒化を行う処置、すなわちスケーリングや
ルートプレーニングは基本処置として位置づけられる。
上記の基本処置は、主として、手用スケーラーとくに手
用キュレットスケーラーを用いて行われているが、その
外に、補助的に、エンジン用ロトソニック,タービン用
エアスケーラー,超音波スケーラーを用いても従来から
実施されている。2. Description of the Related Art In dental treatment, removal of tartar adhering to the tooth surface, debridation in the pocket, detoxification of the root surface sliding the root surface, that is, scaling and root planing are positioned as basic procedures. To be
The above basic procedure is mainly performed by using a hand scaler, especially a hand curette scaler, but in addition to this, an engine rotosonic engine, turbine air scaler, or ultrasonic scaler may be used as an auxiliary. It has been practiced conventionally.

【0003】これらのうち、超音波スケーラーは、歯根
面に沿うように3次元的に湾曲した複雑な形状に成形さ
れている歯科用チップを、駆動源である超音波発振器に
接続できる構造になっている。また、超音波スケーラー
の場合には、一般に、チップを根管治療用チップに代え
ることにより根管治療に使用することもできる。なお、
ここでいう根管治療とは、根管の拡大,根管内から軟組
織や壊死組織を除去する処置,根管内の拡大清掃,洗
浄,根管充填などの処置、また同様の処置を手術を伴っ
て逆から行う逆根管治療などの処置のことを指す。Among them, the ultrasonic scaler has a structure in which a dental tip formed in a complicated shape curved three-dimensionally along the tooth root surface can be connected to an ultrasonic oscillator which is a drive source. ing. In the case of an ultrasonic scaler, generally, the tip can be used for root canal treatment by replacing the tip with a root canal treatment tip. In addition,
Root canal treatment here means expansion of the root canal, treatment of removing soft tissue and necrotic tissue from the inside of the root canal, enlargement and cleaning of the root canal, cleaning, root canal filling, and similar procedures. With this, it refers to treatment such as reverse root canal treatment performed from the reverse.

【0004】なお、これら上記した歯科用チップは、一
般に、治療対象個所を有効に治療できるような最適形状
に設計される。そのため、実使用されている歯科用チッ
プは、ほとんど同じような形状になっているのが通例で
ある。前記した歯科用チップは、超音波発振器に接続さ
れる基端部と、歯,根管,人工物,インプラント体や患
部(以下、治療対象個所という)に接触して作用する先
端部とから成る形状を有し、前記した超音波発振器の発
振振動数に共振させた状態で実使用される。The above-mentioned dental tips are generally designed to have an optimum shape so that an area to be treated can be effectively treated. Therefore, the dental tip actually used usually has almost the same shape. The above-mentioned dental tip is composed of a base end portion connected to an ultrasonic oscillator and a tip end portion that acts by contacting a tooth, a root canal, an artificial body, an implant body or an affected part (hereinafter referred to as a treatment target part). It has a shape and is actually used in a state of being resonated at the oscillation frequency of the ultrasonic oscillator described above.

【0005】したがって、この歯科用チップは、その固
有振動数が、超音波発振器の発振振動数の近傍で共振可
能な振動数となるように、材質や形状などが決められ
る。このような超音波スケーラー用の歯科用チップの材
質としては、従来、ステンレス鋼などの耐蝕性や耐摩耗
性に富む硬質の金属材料が広く用いられてきた。これら
材料から成る歯科用チップは、硬質で耐摩耗性に富むた
め、短時間で効率よく治療効果を発揮できるという点で
有用であるが、その反面、硬質でありすぎるため、治療
対象個所それ自体やその周囲の歯肉などをかえって損傷
することがあり、新たにプラークの増加を誘発し、また
傷が周囲組織を刺激して新たな歯周病の原因を引き起こ
すことがある。Therefore, the material and shape of this dental tip are determined so that the natural frequency of the dental tip can be resonated near the oscillation frequency of the ultrasonic oscillator. As a material for such a dental tip for an ultrasonic scaler, conventionally, a hard metal material such as stainless steel having a high corrosion resistance and a high wear resistance has been widely used. Dental tip made of these materials is hard and rich in abrasion resistance, and therefore useful in that it can efficiently exhibit a therapeutic effect in a short time, but on the other hand, it is too hard, and therefore the treatment target site itself. It may injure the gingiva and its surroundings, and may induce new plaque growth, and the wound may stimulate surrounding tissues to cause new periodontal disease.

【0006】また、これら金属材料の歯科用チップは、
一般に、複雑に湾曲し、内部に洗浄用の細管が形成され
ていて、製造に高度の熟練を要し、大量生産に向かず、
したがって高価である。そして、高価であるがために、
上記金属材料の歯科用チップは、B型肝炎やエイズなど
の口腔内疾病の感染防止のために、とくに、血液や唾液
などに直接接触したものや細管を有するものは使用済み
の器具を使い捨て、いわゆるディスポーザブル化は最近
の医療用品の動向でもあるが、このことに充分有効に対
応し得ない。Further, the dental chips made of these metal materials are
Generally, it is complicatedly curved, and a thin tube for cleaning is formed inside, which requires a high degree of skill in manufacturing and is not suitable for mass production.
Therefore, it is expensive. And because it is expensive,
In order to prevent the infection of oral diseases such as hepatitis B and AIDS, the above-mentioned dental tip made of a metal material is used as a disposable instrument, especially if it has direct contact with blood or saliva or has a thin tube. So-called disposable technology is a recent trend of medical supplies, but it cannot respond effectively to this.

【0007】このようなことから、本発明者は、従来の
金属材料の歯科用チップに代わるものを開発すべく研究
を重ね、その結果、治療対象個所を損傷することがな
く、製造も容易で安価であり、それゆえ使い捨ても可能
な歯科用チップを開発し、既にそれを、特願平6−33
9787号として出願した。ここで提案されている歯科
用チップは、全体あるいは一部が、各種のプラスチック
をマトリックスとし、これにカーボン繊維のような充填
材を強化材として分散させた複合材料で構成されてい
る。この複合材料において、充填材とプラスチックの種
類や配合割合を適宜に選定することにより、適正な硬度
と弾性率が付与される。From the above, the present inventor has conducted extensive research to develop an alternative to the conventional dental tip made of a metal material, and as a result, the treatment target area is not damaged and the manufacturing is easy. We have developed a dental chip that is inexpensive and therefore disposable, and has already developed it into Japanese Patent Application No. 6-33.
Filed as No. 9787. The dental tip proposed here is wholly or partially composed of a composite material in which various plastics are used as a matrix and a filler such as carbon fiber is dispersed as a reinforcing material in the matrix. In this composite material, appropriate hardness and elastic modulus are imparted by appropriately selecting the type and blending ratio of the filler and the plastic.

【0008】この歯科用チップを製造する場合には、ま
ず、所定のプラスチックと充填材とを所定の割合で混合
し、得られた混合物を、所定の型面加工が施されている
金型の中に例えば射出成形して目的形状に成形される。In the case of manufacturing this dental tip, first, a predetermined plastic and a filler are mixed in a predetermined ratio, and the obtained mixture is made into a mold which has been subjected to a predetermined mold surface processing. It is molded into a target shape by, for example, injection molding.

【0009】[0009]

【発明が解決しようとする課題】ところで、上記した歯
科用チップの場合、耐摩耗性や研削性の点から適正な硬
度や弾性率は重要な具備特性であるが、それ以上に重要
な特性は、超音波発振器から供給される振動エネルギー
を効率よく治療対象個所に伝達できることである。その
ためには、上記した歯科用チップを超音波スケーラーに
装着して実使用した場合、超音波発振器から供給される
振動エネルギーが有効に先端部にまで伝達されて治療効
果を発揮するために、この歯科用チップが超音波発振器
の発振振動数(これをfとする)と有効に共振できるよ
うな固有振動数を有していることが好ましい。前記発振
振動数fと歯科用チップの固有振動数(これをf0とす
る)が一致している場合、すなわち、f0=fである場
合を最適とする。しかし、歯科用チップの固有振動数f
0が、超音波発振器の発振振動数fの近傍、例えば、f
−500(Hz)≦f0≦f+500(Hz)にある場合で
も、一応、有効な治療効果を発揮することができる。By the way, in the case of the above-mentioned dental tip, proper hardness and elastic modulus are important properties in terms of wear resistance and grindability, but more important characteristics are more important. That is, the vibration energy supplied from the ultrasonic oscillator can be efficiently transmitted to the treatment target portion. Therefore, when the above-mentioned dental tip is mounted on an ultrasonic scaler and actually used, the vibrational energy supplied from the ultrasonic oscillator is effectively transmitted to the tip portion to exert a therapeutic effect. It is preferable that the dental tip has a natural frequency capable of effectively resonating with the oscillation frequency of the ultrasonic oscillator (which is referred to as f). The case where the oscillation frequency f and the natural frequency of the dental tip (which is referred to as f 0 ) match, that is, the case where f 0 = f is optimal. However, the natural frequency f of the dental tip
0 is near the oscillation frequency f of the ultrasonic oscillator, for example, f
Even in the case of −500 (Hz) ≦ f 0 ≦ f + 500 (Hz), it is possible to exert an effective therapeutic effect.

【0010】この固有振動数f0は、各種の要因によっ
て規定されるが、最も大なる影響を与える因子は、当該
歯科用チップの形状と材質である。したがって、上記し
た複合材料の歯科用チップの場合、プラスチックと充填
材との配合割合が一定であり、かつ形状も全く同一であ
る場合には、それらの歯科用チップは全てある値の固有
振動数を有していることになる。The natural frequency f 0 is defined by various factors, but the factor that exerts the greatest influence is the shape and material of the dental tip. Therefore, in the case of the above-mentioned composite material dental tip, when the mixing ratio of the plastic and the filler is constant and the shapes are exactly the same, those dental tips all have a certain natural frequency. Will have.

【0011】更に、各種の超音波発振器が市販されてい
るが、それら発振器は全て同一の発振周波数の超音波を
発振するとは限らず、厳密にいえば、異なった発振周波
数の超音波を発振する。したがって、前記したように臨
床に最適な形状になっている歯科用チップを超音波スケ
ーラーに装着して実使用した場合、採用する超音波発振
器の機種によっては、当該歯科用チップがその機種の最
適発振振動数と共振しないことも起こりうる。そのよう
な場合には、成形された既存の歯科用チップの例えば基
幹部を手作業で研削して使用発振振動数と共振可能とな
るように再加工することが必要になる。Further, various ultrasonic oscillators are commercially available, but all of them do not always oscillate ultrasonic waves of the same oscillation frequency, but strictly speaking, they oscillate ultrasonic waves of different oscillation frequencies. . Therefore, when the dental tip that has the optimal shape for clinical use is actually used by mounting it on the ultrasonic scaler as described above, depending on the model of the ultrasonic oscillator that is used, the dental tip is the most suitable for that model. It may happen that it does not resonate with the oscillation frequency. In such a case, it is necessary to manually grind, for example, the basic part of the existing molded dental tip and reprocess it so that it can resonate with the oscillation frequency used.

【0012】そして、この歯科用チップの場合、その形
状を変更するときには、変更する形状に対応した金型を
新たに製作することが必要になる。しかしながら、その
ような対策は、製造された歯科用チップの製造コストを
著しく高めることになり、また、その形状を実使用時の
最適形状にできない場合もある。そのような場合にも、
前記したような再加工が必要になる。In the case of this dental tip, when changing its shape, it is necessary to newly manufacture a mold corresponding to the changed shape. However, such a measure remarkably increases the manufacturing cost of the manufactured dental tip, and in some cases, the shape cannot be made the optimum shape for actual use. In such cases,
The rework as described above is required.

【0013】このように、特願平6−339787号で
提案した歯科用チップは、特性的には優れたものである
が、実際の治療現場で採用する際には、採用する発振振
動数の関係で上記したような問題が生じてくる。また、
超音波発振器の出力パワーが小さい状態で操作すること
は、治療時に治療対象個所や周囲の正常組織の損傷を防
ぐことができるという点で好ましいことである。しか
し、前記出力パワーを小さくしていくと、有効な振動伝
達を実現させるためには、そのときの発振振動数で共振
する振動数の範囲はより狭くなっていくため、歯科用チ
ップは共振動作を起こしづらくなる。したがって、前記
歯科用チップにとっては、安全性の向上,患者の不快感
を解消するために、超音波発振器の出力パワーをより小
さく設定したいのであるが、出力パワーを小さくすれば
するほど共振する振動数の幅も狭くなり、発振振動数と
好適に共振する固有振動数の調整が重要になってくる。As described above, the dental tip proposed in Japanese Patent Application No. 6-339787 has excellent characteristics, but when it is used in an actual treatment site, the oscillation frequency to be adopted is The above-mentioned problems arise due to the relationship. Also,
It is preferable to operate the ultrasonic oscillator in a state where the output power is small, because it can prevent damage to the treatment target portion and the surrounding normal tissue during the treatment. However, as the output power is reduced, in order to realize effective vibration transmission, the range of frequencies that resonate at the oscillation frequency at that time becomes narrower. Is hard to cause. Therefore, for the dental tip, it is desired to set the output power of the ultrasonic oscillator to a smaller value in order to improve the safety and eliminate the discomfort of the patient. The number range is also narrowed, and it becomes important to adjust the oscillation frequency and the natural frequency that resonates favorably.

【0014】本発明は、上記したような問題を解決し、
特願平6−339787号で提案された歯科用チップを
製造する際に、新たに金型の設計変更を行うことなく、
術者が採用する発振振動数に対応して、その発振振動数
と有効に共振できる共振振動数を有し、また超音波発振
器の出力パワーが小さい場合であっても、その発振振動
数と共振できるように調整することができる歯科用チッ
プを安価に製造する方法の提供を目的とする。The present invention solves the above problems,
When manufacturing the dental tip proposed in Japanese Patent Application No. 6-339787, without changing the design of the mold newly,
Corresponding to the oscillation frequency adopted by the surgeon, it has a resonance frequency that can effectively resonate with the oscillation frequency, and even if the output power of the ultrasonic oscillator is small, the oscillation frequency and resonance It is an object of the present invention to provide a method for inexpensively manufacturing a dental tip that can be adjusted as needed.

【0015】[0015]

【課題を解決するための手段】上記した目的を達成する
ために、本発明においては、プラスチックに充填材を配
合して成る複合材料を成形して、駆動源に接続される基
端部と治療対象個所に作用する先端部とを備えた超音波
スケーラー用の歯科用チップを一体成形する際に、組成
が異なる複合材料を2種類選定し、それらを所定の混合
比率で混合して成形することにより、目標とする固有振
動数の成形体にすることを特徴とする歯科用チップの製
造方法が提供される。In order to achieve the above-mentioned object, in the present invention, a composite material obtained by mixing a plastic with a filler is molded to form a base end portion connected to a drive source and a treatment. When integrally molding a dental tip for an ultrasonic scaler that has a tip that acts on the target location, select two types of composite materials with different compositions, and mix and mold them at a prescribed mixing ratio. According to the above, there is provided a method for manufacturing a dental tip, which is characterized by forming a molded body having a target natural frequency.

【0016】そして、本発明の製造方法では、前記2種
類の複合材料の混合比率を変化させてそれぞれの混合比
率に対応する成形体を製造し、得られた成形体の固有振
動数をそれぞれ測定することにより固有振動数と混合比
率との相関関係を把握し、その相関関係に基づいて歯科
用チップ成形時における2種類の複合材料の混合比率が
決定される。In the manufacturing method of the present invention, the mixing ratio of the two kinds of composite materials is changed to manufacture a molded body corresponding to each mixing ratio, and the natural frequency of each of the obtained molded bodies is measured. By doing so, the correlation between the natural frequency and the mixing ratio is grasped, and the mixing ratio of the two kinds of composite materials at the time of molding the dental tip is determined based on the correlation.

【0017】[0017]

【発明の実施の形態】図1は、本発明方法で製造される
歯科用チップ例を示す断面図である。歯科用チップA
は、基端部1と先端部2とを備え、基端部1は、軸線に
沿って直線状に伸びる接続部1aと、この接続部1aに
対して1方向に屈曲する支柱部1bとから成る。そし
て、前記支柱部1bからは、歯根面や歯根分岐部内や根
管内の複雑な形状に適合するように、更に複雑に屈曲し
て先端部2が連続して形成されている。1 is a sectional view showing an example of a dental tip manufactured by the method of the present invention. Dental tip A
Includes a base end portion 1 and a tip end portion 2, and the base end portion 1 is composed of a connecting portion 1a extending linearly along an axis and a column portion 1b bent in one direction with respect to the connecting portion 1a. Become. Further, from the column portion 1b, the tip portion 2 is continuously formed by being further complicatedly bent so as to conform to a complicated shape in the root surface, the root branch portion, or the root canal.

【0018】接続部1aの内部には例えばねじ部1cが
形成され、ここに超音波発振器が螺合されることによ
り、振動エネルギーが歯科用チップAの全体に供給され
るようになっている。また、基端部1には、ねじ部1c
から先端部の方向に液路3が形成され、その開口3aか
ら洗浄水や薬液を噴出できるようになっている。この歯
科用チップAは、プラスチックをマトリックスとし、こ
こに所定量の充填材が分散して成る樹脂成形体で構成さ
れており、次のようにして製造される。For example, a screw portion 1c is formed inside the connecting portion 1a, and an ultrasonic oscillator is screwed into the screw portion 1c so that vibration energy is supplied to the entire dental tip A. Further, the base end portion 1 has a threaded portion 1c.
A liquid path 3 is formed in the direction from the end to the tip, and washing water and chemicals can be jetted from the opening 3a. The dental tip A is made of a resin molded body in which a plastic is used as a matrix and a predetermined amount of filler is dispersed therein, and is manufactured as follows.

【0019】まず、プラスチックに充填材の所定量を混
合して、組成が異なる2種類の複合材料a,bを調製す
る。その場合、複合材料a,bは次のようにして調製さ
れる。すなわち、複合材料a,bをそれぞれ例えば射出
成形して成形体a’,b’にしたときに、得られた成形
体a’の固有振動数がf1,成形体b’の固有振動数が
2になった場合、それぞれの固有振動数f1,f2が、
使用する超音波発振器の発振振動数と共振可能な振動数
になるように、複合材料a,bの組成が選定される。換
言すれば、成形体a’,b’それ自体でも歯科用チップ
の素材として使用できるように、複合材料a,bの組成
が調整される。First, a plastic is mixed with a predetermined amount of a filler to prepare two kinds of composite materials a and b having different compositions. In that case, the composite materials a and b are prepared as follows. That is, when the composite materials a and b are respectively injection-molded into molded articles a ′ and b ′, the natural frequency of the obtained molded article a ′ is f 1 and the natural frequency of the molded article b ′ is When it becomes f 2 , the respective natural frequencies f 1 and f 2 are
The composition of the composite materials a and b is selected so that the oscillation frequency of the ultrasonic oscillator used can resonate. In other words, the composition of the composite materials a and b is adjusted so that the molded bodies a ′ and b ′ themselves can be used as the material for the dental tip.

【0020】このような複合材料a,bを構成するプラ
スチックとしては、例えば、ポリフェニレンサルファイ
ドの外にポリアミド,ポリエチレンテレフタレート,ポ
リブチレンテレフタレート,液晶ポリマー,ポリカーボ
ネート,ポリエーテルエーテルケトン,ポリエーテルケ
トン,ポリエーテルサルホン,ポリサルホン,ポリエー
テルイミド,ポリアミドイミド,ポリイミド,ポリアセ
タールをあげることができる。Examples of the plastics constituting such composite materials a and b include polyamide, polyethylene terephthalate, polybutylene terephthalate, liquid crystal polymer, polycarbonate, polyether ether ketone, polyether ketone, polyether in addition to polyphenylene sulfide. Examples include sulfone, polysulfone, polyetherimide, polyamideimide, polyimide, and polyacetal.

【0021】次に、充填材としては、無機質充填材と有
機質充填材を使用することができる。充填材として無機
質充填材を用いる場合には、例えば、カーボン繊維,繊
維状チタン酸カリウム,ガラス繊維,アルミナ繊維や、
酸化チタン,ボロン,タルクなどをあげることができ
る。これらは、それぞれ単独で用いてもよいし、2種以
上を適宜に混合して用いてもよい。Next, as the filler, an inorganic filler and an organic filler can be used. When an inorganic filler is used as the filler, for example, carbon fiber, fibrous potassium titanate, glass fiber, alumina fiber,
Titanium oxide, boron, talc, etc. can be mentioned. These may be used alone, or two or more kinds may be appropriately mixed and used.

【0022】また、充填材として有機質充填材を用いる
場合には、例えば、アラミド(芳香族ポリアミド)繊
維,ポリエチレン繊維,ポリビニルアルコール繊維,ポ
リアリーレート繊維,ポリブチレンテレフタレート繊維
などをあげることができる。これらは、それぞれ単独で
用いてもよいし、2種以上を適宜に混合して用いてもよ
い。When an organic filler is used as the filler, for example, aramid (aromatic polyamide) fiber, polyethylene fiber, polyvinyl alcohol fiber, polyarylate fiber, polybutylene terephthalate fiber and the like can be mentioned. These may be used alone, or two or more kinds may be appropriately mixed and used.

【0023】なお、複合材料の調製時に、無機質充填材
と有機質充填材は、それぞれ単独で別々に用いてもよ
く、また、混合して一緒に用いてもよい。その場合、有
機質充填材は、一般に、振動エネルギーの吸収による減
衰能が大きいので、それを用いて製造した成形体も振動
エネルギーの減衰能は大きくなり、例えば、超音波発振
器の出力パワーを小さくすると共振動作を起こさないよ
うな傾向が表れてくるので、このことを考慮にいれて、
充填材を選定することが好ましい。超音波発振器の出力
パワーを小さくしても共振動作を発揮させるためには、
充填材として無機質充填材を選定することが好ましい。When the composite material is prepared, the inorganic filler and the organic filler may be used individually or separately and may be mixed and used together. In that case, the organic filler generally has a large damping capacity due to absorption of vibration energy, so that the molded body manufactured using the same also has a large damping capacity for vibration energy, and for example, when the output power of the ultrasonic oscillator is reduced. There is a tendency that resonance does not occur, so taking this into consideration,
It is preferable to select a filler. In order to show the resonance operation even if the output power of the ultrasonic oscillator is reduced,
It is preferable to select an inorganic filler as the filler.

【0024】このようなことを考慮に入れると、プラス
チックとしては耐蝕性,耐薬品性が優れ、無毒であると
いうことからしてポリフェニレンサルファイドが好適で
あり、充填材としては、カーボン繊維や繊維状チタン酸
カリウムが好適である。複合材料a,bの調製時におけ
る充填材の配合量は、その複合材料の成形体に付与する
固有振動数,硬度,曲げ弾性率を考慮して適宜に決めら
れる。Taking this into consideration, polyphenylene sulfide is preferable as a plastic because it has excellent corrosion resistance and chemical resistance and is nontoxic, and as a filler, carbon fiber or fibrous material is used. Potassium titanate is preferred. The compounding amount of the filler at the time of preparing the composite materials a and b is appropriately determined in consideration of the natural frequency, hardness, and bending elastic modulus applied to the molded body of the composite material.

【0025】本発明においては、目的とする歯科用チッ
プの製造に先立ち、次のような準備操作が行われる。す
なわち、複合材料aと複合材料bの混合比率を様々に変
えて混合し、得られた各混合物を例えば射出成形して組
成が異なる混合物の成形体を製造し、超音波発振器の最
適発振振動数に対するそれぞれ成形体の共振振動数を測
定し、その共振振動数を前記した混合比率に対してプロ
ットして共振振動数と混合比率の相関関係を表わすグラ
フを作成しておく。In the present invention, the following preparatory operation is performed prior to the production of the intended dental tip. That is, the mixing ratios of the composite material a and the composite material b are changed variously, and the obtained respective mixtures are injection-molded, for example, to produce a molded body of a mixture having a different composition, and the optimum oscillation frequency of the ultrasonic oscillator The resonance frequency of each molded body is measured, and the resonance frequency is plotted against the above-mentioned mixing ratio to prepare a graph showing the correlation between the resonance frequency and the mixing ratio.

【0026】そして、目的とする共振振動数を有する歯
科用チップの製造に移る。すなわち、その共振振動数が
nである歯科用チップを製造する場合、前記したグラ
フから、共振振動数がfnになる複合材料aと複合材料
bの混合比率を読み取る。そして、読み取った混合比率
となるように、複合材料aと複合材料bを混合した状態
で例えば所定型面の金型内に射出成形する。かくして、
所定の形状と目的とする共振振動数fnを有する歯科用
チップが複合材として得られる。Then, the production of the dental tip having the desired resonance frequency is started. That is, if the resonant frequency to produce a dental tip is f n, the graph above, reads the mixing ratio of the composite material a composite material b that resonance frequency is f n. Then, the composite material a and the composite material b are mixed and injection-molded, for example, in a mold having a predetermined mold surface so as to obtain the read mixing ratio. Thus,
A dental tip having a predetermined shape and a desired resonance frequency f n is obtained as a composite material.

【0027】このように、本発明方法によれば、金型の
形状を変えなくても、複合材料a,bの混合比率を変え
るだけ、すなわち成形体の組成を変えるだけで、成形さ
れる歯科用チップの共振振動数を任意の値に変化させる
ことができる。すなわち、使用目的にとって最適の共振
振動数を有する歯科用チップを2種類の複合材料を所定
の比率で混合するだけで製造することができる。As described above, according to the method of the present invention, the dentist can be molded by changing the mixing ratio of the composite materials a and b, that is, changing the composition of the molded body without changing the shape of the mold. The resonance frequency of the chip can be changed to any value. That is, the dental tip having the optimum resonance frequency for the purpose of use can be manufactured simply by mixing the two kinds of composite materials at a predetermined ratio.

【0028】[0028]

【実施例】【Example】

実施例1 (1) 共振振動数と混合比率との関係図の作成 ポリフェニレンサルファイド60重量%と、平均径0.3
〜0.6μm,アスペクト比15〜67の繊維状チタン酸
カリウム40重量%を混合して複合材料aを調製した。Example 1 (1) Creation of Relationship Diagram between Resonance Frequency and Mixing Ratio Polyphenylene sulfide 60% by weight and average diameter 0.3
A composite material a was prepared by mixing 40% by weight of fibrous potassium titanate having an aspect ratio of 15 to 67 in a range of from about 0.6 μm.

【0029】また、ポリフェニレンサルファイド60重
量%と、平均径8μm,アスペクト比100のカーボン
繊維30重量%,平均径0.3〜0.6μmでアスペクト比
15〜67の繊維状チタン酸カリウム10重量%を混合
して複合材料bを調製した。上記した複合材料aと複合
材料bとの混合比率を変えた状態で2種類の材料を金型
内に射出成形して、図1で示した形状の歯科用チップ各
20個を製造した。Further, 60% by weight of polyphenylene sulfide, 30% by weight of carbon fibers having an average diameter of 8 μm and an aspect ratio of 100, and 10% by weight of fibrous potassium titanate having an average diameter of 0.3 to 0.6 μm and an aspect ratio of 15 to 67. Was mixed to prepare a composite material b. Two kinds of materials were injection-molded in a mold while changing the mixing ratio of the composite material a and the composite material b to manufacture 20 dental tips each having the shape shown in FIG.

【0030】そして、各歯科用チップの共振振動数fn
を測定して平均値と標準偏差を求め、その結果を表1と
図2に示した。Then, the resonance frequency f n of each dental tip
Was measured to obtain an average value and a standard deviation, and the results are shown in Table 1 and FIG.

【0031】[0031]

【表1】 [Table 1]

【0032】(2) 共振振動数が32kHzになる歯科用チ
ップの製造 まず、図2において、共振振動数値が32kHzである曲
線上の点Aを求め、そのときの混合比率を読み取った。
複合材料aは55重量%,複合材料bは45重量%にな
っている。ついで、複合材料aと複合材料bが上記の混
合比率となるようにして射出成形を行い、図1で示した
形状の歯科用チップを製作し、その共振振動数を測定し
たところ、平均値は32.05kHz,標準偏差は±0.12k
Hzであった。すなわち、目標とする固有振動数との誤差
は、平均値で0.05kHzであった。(2) Manufacture of a dental chip having a resonance frequency of 32 kHz First, in FIG. 2, a point A on a curve having a resonance frequency of 32 kHz was obtained and the mixing ratio at that time was read.
The composite material a is 55% by weight, and the composite material b is 45% by weight. Then, injection molding was performed so that the composite material a and the composite material b had the above mixing ratio, a dental tip having the shape shown in FIG. 1 was manufactured, and the resonance frequency thereof was measured. 32.05kHz, standard deviation is ± 0.12k
It was Hz. That is, the error from the target natural frequency was 0.05 kHz on average.

【0033】実施例2 (1) 共振振動数と混合比率との関係図の作成 ポリアセタール80重量%と、平均径8μm,アスペク
ト比100のカーボン繊維20重量%を混合して複合材
料cを調製した。また、ポリアセタール70重量%と、
平均径0.3〜0.6μm,アスペクト比15〜67の繊維
状チタン酸カリウム30重量%を混合して複合材料dを
調製した。Example 2 (1) Creation of Relationship Diagram between Resonance Frequency and Mixing Ratio 80% by weight of polyacetal and 20% by weight of carbon fiber having an average diameter of 8 μm and an aspect ratio of 100 were mixed to prepare a composite material c. . Also, with 70% by weight of polyacetal,
A composite material d was prepared by mixing 30% by weight of fibrous potassium titanate having an average diameter of 0.3 to 0.6 μm and an aspect ratio of 15 to 67.

【0034】上記した複合材料cと複合材料dとの混合
比率を変えた状態で2種類の材料を金型内に射出成形し
て、図1で示した形状の歯科用チップ各20個を製造し
た。そして、各歯科用チップの共振振動数fnを測定し
て平均値と標準偏差を求め、その結果を表2と図3に示
した。Two kinds of materials are injection-molded in a mold with the mixing ratio of the composite material c and the composite material d being changed to manufacture 20 dental tips each having the shape shown in FIG. did. Then, the resonance frequency f n of each dental tip was measured to obtain the average value and the standard deviation, and the results are shown in Table 2 and FIG.

【0035】[0035]

【表2】 [Table 2]

【0036】(2) 共振振動数が32kHzになる歯科用チ
ップの製造 まず、図3において、共振振動数値が32kHzである曲
線上の点Bを求め、そのときの混合比率を読み取った。
複合材料cは80重量%,複合材料dは20重量%にな
っている。ついで、複合材料cと複合材料dが上記の混
合比率となるようにして射出成形を行い、図1で示した
形状の歯科用チップを製作し、その共振振動数を測定し
たところ、平均値は32.03kHz,標準偏差は±0.22k
Hzであった。すなわち、目標とする共振振動数との誤差
は、平均値で0.03kHzであった。(2) Manufacture of a dental chip having a resonance frequency of 32 kHz First, in FIG. 3, a point B on the curve having a resonance frequency of 32 kHz was obtained, and the mixing ratio at that time was read.
The composite material c is 80% by weight, and the composite material d is 20% by weight. Then, injection molding was performed so that the composite material c and the composite material d had the above mixing ratio, a dental tip having the shape shown in FIG. 1 was manufactured, and the resonance frequency thereof was measured. 32.03kHz, standard deviation is ± 0.22k
It was Hz. That is, the error from the target resonance frequency was 0.03 kHz on average.

【0037】実施例3 (1) 共振振動数と混合比率との関係図の作成 ポリフェニレンサルファイド60重量%,平均径0.3〜
0.6μm,アスペクト比15〜67の繊維状チタン酸カ
リウム35重量%、繊維径12μmのアラミド繊維5重
量%を混合して複合材料eを調製した。Example 3 (1) Creation of Relationship Diagram between Resonance Frequency and Mixing Ratio Polyphenylene sulfide 60% by weight, average diameter 0.3 to
A composite material e was prepared by mixing 35% by weight of fibrous potassium titanate having an aspect ratio of 15 to 67 with 0.6 μm and 5% by weight of aramid fiber having a fiber diameter of 12 μm.

【0038】ポリフェニレンサルファイド70重量%、
平均径8μm,アスペクト比100のカーボン繊維20
重量%,平均径0.3〜0.6μm,アスペクト比15〜6
7の繊維状チタン酸カリウム5重量%、繊維径12μm
のアラミド繊維5重量%を混合して複合材料fを調製し
た上記した複合材料eと複合材料fとの混合比率を変え
た状態で2種類の材料を、金型内に射出成形して、図1
で示した形状の歯科用チップ各20個を製造した。70% by weight of polyphenylene sulfide,
Carbon fiber 20 having an average diameter of 8 μm and an aspect ratio of 100
% By weight, average diameter 0.3 to 0.6 μm, aspect ratio 15 to 6
No. 7 fibrous potassium titanate 5% by weight, fiber diameter 12 μm
5% by weight of aramid fiber was mixed to prepare a composite material f, and two kinds of materials were injection-molded in a mold while changing the mixing ratio of the composite material e and the composite material f described above. 1
20 dental tips each having the shape shown in were manufactured.

【0039】そして、各歯科用チップの共振振動数fn
を測定して平均値と標準偏差を求めその結果を表3と図
4に示した。Then, the resonance frequency f n of each dental tip
Was measured to obtain the average value and standard deviation, and the results are shown in Table 3 and FIG.

【0040】[0040]

【表3】 [Table 3]

【0041】(2) 共振振動数が32kHzになる歯科用チ
ップの製造 まず、図4において、共振振動数値が32kHzである曲
線上の点Cを求め、そのときの混合比率を読み取った。
複合材料eは72.5重量%,複合材料fは27.5重量%
になっている。ついで、複合材料eと複合材料fが上記
の混合比率となるようにして射出成形を行い、図1で示
した形状の歯科用チップを製作し、その共振振動数を測
定したところ、平均値は32.14kHz,標準偏差は±0.
30kHzであった。すなわち、目標とする共振振動数と
の誤差は、平均値で0.14kHzであった。(2) Manufacture of a dental chip having a resonance frequency of 32 kHz First, in FIG. 4, a point C on a curve having a resonance frequency of 32 kHz was obtained and the mixing ratio at that time was read.
Composite material e is 72.5% by weight, composite material f is 27.5% by weight
It has become. Then, injection molding was performed so that the composite material e and the composite material f had the above mixing ratio, a dental tip having the shape shown in FIG. 1 was manufactured, and the resonance frequency thereof was measured. 32.14kHz, standard deviation ± 0.
It was 30 kHz. That is, the error from the target resonance frequency was 0.14 kHz on average.

【0042】[0042]

【発明の効果】以上の説明で明らかなように、本発明方
法で製造された歯科用チップは、プラスチックをマトリ
ックスとしているので、従来の金属材料製の歯科用チッ
プに比べて軟質であり、治療対象個所や周囲の正常組織
を損傷することがない。そして、本発明では、2種類の
複合材料を所定の割合で混合して例えば射出成形法で製
造することができるので、大量生産することができる。As is clear from the above description, since the dental tip manufactured by the method of the present invention uses plastic as a matrix, it is softer than the conventional dental tip made of a metal material and can be treated. It does not damage the target site or surrounding normal tissue. Further, in the present invention, since two kinds of composite materials can be mixed at a predetermined ratio and manufactured by, for example, an injection molding method, mass production can be performed.

【0043】そして、本発明方法では、固有振動数が異
なる歯科用チップを製造するときに、前記した2種類の
複合材料の混合比率を変えることによって簡便に目的を
達成することができるので、新しい金型の製造などを行
うことが不要になり、その製造コストは大幅に低減す
る。このような本発明方法を適用することなく、所望す
る固有振動数を有するあるチップ形状の成形体を製作し
ようとした場合には、膨大な試作片を製作してプラスチ
ックと充填材との適正な配合割合などを決定せざるを得
ないことを考えると、本発明方法の工業的な有用性は明
らかである。In the method of the present invention, when the dental chips having different natural frequencies are manufactured, the object can be achieved easily by changing the mixing ratio of the above-mentioned two kinds of composite materials. It becomes unnecessary to manufacture the mold, and the manufacturing cost is greatly reduced. When an attempt is made to produce a chip-shaped molded article having a desired natural frequency without applying the method of the present invention, an enormous number of trial pieces are produced to obtain a proper plastic and filler material. The industrial utility of the method of the present invention is clear considering that the blending ratio must be determined.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の歯科用チップの1例を示す断面図であ
る。FIG. 1 is a cross-sectional view showing an example of a dental tip of the present invention.

【図2】複合材料a,bの混合比率と得られた成形体の
共振振動数との関係を示すグラフである。FIG. 2 is a graph showing the relationship between the mixing ratio of composite materials a and b and the resonance frequency of the obtained molded body.

【図3】複合材料c,dの混合比率と得られた成形体の
共振振動数との関係を示すグラフである。FIG. 3 is a graph showing the relationship between the mixing ratio of composite materials c and d and the resonance frequency of the obtained molded body.

【図4】複合材料e,fの混合比率と得られた成形体の
共振振動数との関係を示すグラフである。FIG. 4 is a graph showing the relationship between the mixing ratio of composite materials e and f and the resonance frequency of the obtained molded body.

【符号の説明】[Explanation of symbols]

1 基端部 1a 駆動源との接続部 1b 支柱部 1c ねじ部 2 先端部 3 液路 3a 液路3の開口 1 Base End Part 1a Connection Part with Driving Source 1b Post Part 1c Screw Part 2 Tip Part 3 Liquid Channel 3a Opening of Liquid Channel 3

───────────────────────────────────────────────────── フロントページの続き (72)発明者 今西 正 神奈川県横浜市保土ヶ谷区新井町220−12 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Masanori Imanishi 220-12 Araimachi, Hodogaya-ku, Yokohama-shi, Kanagawa

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 プラスチックに充填材を配合して成る複
合材料を成形して、駆動源に接続される基端部と治療対
象個所に作用する先端部とを備えた超音波スケーラー用
の歯科用チップを一体成形する際に、組成が異なる複合
材料を2種類選定し、それらを所定の混合比率で混合し
て成形することにより、目標とする共振振動数を有する
成形体にすることを特徴とする歯科用チップの製造方
法。1. A dental material for an ultrasonic scaler, comprising a composite material formed by mixing a plastic with a filler, and having a base end portion connected to a drive source and a tip end portion acting on a treatment target portion. When the chip is integrally molded, two kinds of composite materials having different compositions are selected, and they are mixed and molded at a predetermined mixing ratio to form a molded body having a target resonance frequency. Method for manufacturing a dental chip. 【請求項2】 前記2種類の複合材料の混合比率を変化
させてそれぞれの混合比率に対応する成形体を製造し、
得られた成形体の固有振動数をそれぞれ測定することに
より固有振動数と混合比率との相関関係を把握し、その
相関関係に基づいて歯科用チップ成形時における2種類
の複合材料の混合比率を決定し、その混合比率で前記2
種類の複合材料を混合し、得られた混合物を成形する請
求項1の歯科用チップの製造方法。2. A molded body corresponding to each mixing ratio is manufactured by changing the mixing ratio of the two kinds of composite materials,
By grasping the correlation between the natural frequency and the mixing ratio by measuring the natural frequency of each of the obtained molded products, the mixing ratio of the two kinds of composite materials at the time of molding the dental tip can be determined based on the correlation. Determine and mix the above two
The method for manufacturing a dental tip according to claim 1, wherein the composite materials of different types are mixed and the resulting mixture is molded.
JP33086695A 1995-12-19 1995-12-19 Manufacturing method of dental tip Expired - Lifetime JP3800436B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP33086695A JP3800436B2 (en) 1995-12-19 1995-12-19 Manufacturing method of dental tip

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP33086695A JP3800436B2 (en) 1995-12-19 1995-12-19 Manufacturing method of dental tip

Publications (2)

Publication Number Publication Date
JPH09168549A true JPH09168549A (en) 1997-06-30
JP3800436B2 JP3800436B2 (en) 2006-07-26

Family

ID=18237399

Family Applications (1)

Application Number Title Priority Date Filing Date
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Country Link
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2006115344A1 (en) * 2005-04-27 2006-11-02 Korea Institute Of Industrial Technology Method for manufacturing dental scaler tip using powder injection molding process, mold used therein and scaler tip manufactured by the same
WO2017014302A1 (en) * 2015-07-23 2017-01-26 ライオン株式会社 Interdental brush

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2006115344A1 (en) * 2005-04-27 2006-11-02 Korea Institute Of Industrial Technology Method for manufacturing dental scaler tip using powder injection molding process, mold used therein and scaler tip manufactured by the same
KR100690375B1 (en) * 2005-04-27 2007-03-09 한국생산기술연구원 Dental Scaler Tip and it's Manufacuturing Method and it's Mold for Powder Injection Molding
US7875237B2 (en) 2005-04-27 2011-01-25 Korea Institute Of Industrial Technology Method for manufacturing dental scaler tip using powder injection molding process, mold used therein and scaler tip manufactured by the same
WO2017014302A1 (en) * 2015-07-23 2017-01-26 ライオン株式会社 Interdental brush
KR20180036642A (en) * 2015-07-23 2018-04-09 라이온 가부시키가이샤 Interdental toothbrush
JPWO2017014302A1 (en) * 2015-07-23 2018-05-10 ライオン株式会社 Interdental brush

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