JP2010046474A - Chip end member, medical laser irradiation chip, medical laser hand piece, and medical laser device - Google Patents
Chip end member, medical laser irradiation chip, medical laser hand piece, and medical laser device Download PDFInfo
- Publication number
- JP2010046474A JP2010046474A JP2009114078A JP2009114078A JP2010046474A JP 2010046474 A JP2010046474 A JP 2010046474A JP 2009114078 A JP2009114078 A JP 2009114078A JP 2009114078 A JP2009114078 A JP 2009114078A JP 2010046474 A JP2010046474 A JP 2010046474A
- Authority
- JP
- Japan
- Prior art keywords
- chip
- tip
- laser
- base
- light guide
- 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
Links
Landscapes
- Radiation-Therapy Devices (AREA)
- Laser Surgery Devices (AREA)
- Dental Tools And Instruments Or Auxiliary Dental Instruments (AREA)
Abstract
Description
本発明は、チップ先端部材、該チップ先端部材を構成部分として含む医療用レーザ照射チップ、該医療用レーザ照射チップが着脱自在に接続されて構成される医療用レーザハンドピース及び該医療用レーザハンドピースを含む医療用レーザ装置に関する。 The present invention relates to a tip end member, a medical laser irradiation chip including the tip end member as a component, a medical laser handpiece configured by detachably connecting the medical laser irradiation chip, and the medical laser hand. The present invention relates to a medical laser apparatus including a piece.
医療用レーザ装置は、レーザ発生装置と、該レーザ発生装置で発生したレーザ光を導光する導光体と、該導光体の先端に接続されるハンドピースとより構成され、ハンドピースのヘッド部にはレーザ照射チップ(レーザプローブ)が着脱可能に装着される。歯科用のレーザ装置の場合、術者はハンドピースのグリップ部(本体部)を把持し、レーザ照射チップの先端(出光端)を歯牙や歯肉の表面に近接させ、あるいは接触させ、出光端よりレーザ光を出射させて、齲蝕の蒸散治療、歯周病の治療、止血、或いは歯石の除去等を行う。このような医療用レーザ装置(レーザ光照射装置、レーザ照射チップ)としては、例えば、特許文献1乃至5に開示されたものが挙げられる。 A medical laser device includes a laser generator, a light guide that guides laser light generated by the laser generator, and a handpiece connected to the tip of the light guide, and the head of the handpiece A laser irradiation chip (laser probe) is detachably attached to the part. In the case of a dental laser device, the surgeon grasps the grip part (main body part) of the handpiece and brings the tip (light emitting end) of the laser irradiation tip close to or in contact with the surface of the tooth or gingiva. Laser light is emitted to treat caries transpiration, periodontal disease, hemostasis, or calculus removal. Examples of such a medical laser device (laser light irradiation device, laser irradiation chip) include those disclosed in Patent Documents 1 to 5.
上記のような医療用レーザ装置においては、使用とともにレーザ照射チップの先端が磨耗・破損し、照射効率や照射精度が低下するため、レーザ照射チップの交換が必要となる。特許文献1〜4に開示された医療用レーザ装置では、ハンドピース或いはレーザ光の導波体に対して、コネクタ等の接続手段を介して着脱可能として、レーザ照射チップの交換がなし得るように構成されている。また、特許文献5に開示された医療用レーザ装置では、レーザ照射チップとしての光ファイバの先端部を、磨耗・破損の進行に応じて切断或いは研磨し、これに伴い、光ファイバの先端部を保護する伸縮性保護管を短くし得るよう構成されている。
特許文献1及び3の医療用レーザ装置においては、ハンドピース本体に対してレーザプローブ(レーザ照射チップ)が着脱自在に装着される。従って、プローブの先端部が損耗等した場合に、プローブ全体(光ファイバ、プローブホルダー、コネクタ部等を含む)を別のものに交換することができる。しかし、これら特許文献のレーザプローブは、プローブホルダーや、コネクタ部等のハンドピースに対する接続手段を一体に備えるものであるから、高価なものとならざるを得ず、消耗品としての観点からは、ユーザに大きな負担を強いることになっていた。 In the medical laser devices of Patent Documents 1 and 3, a laser probe (laser irradiation chip) is detachably attached to the handpiece body. Therefore, when the tip of the probe is worn or the like, the entire probe (including the optical fiber, probe holder, connector portion, etc.) can be replaced with another one. However, since the laser probes of these patent documents are integrally provided with a probe holder and a connection means for a hand piece such as a connector part, they must be expensive, and from the viewpoint of consumables, It was to impose a heavy burden on the user.
また、上記特許文献2のレーザプローブは、金属パイプからなり、保護チューブ内に保持されたレーザ光の導波路の先端に、コネクタスリーブを介して接続可能とされている。この場合も、プローブの先端が損耗した時には、コネクタスリーブと共に他のプローブと交換する必要があり、消耗品としての部品コストが高くなることは否めなかった。尚、本特許文献には、プローブの先端に封止チップを設けたものも記載されている。しかし、この封止チップをプローブの先端にどのように装着するかの記載はなく、しかも、封止チップが損耗した場合に、封止チップのみを交換すると言う技術思想は、垣間見ることができない。 Further, the laser probe of Patent Document 2 is made of a metal pipe, and can be connected to the tip of a laser light waveguide held in a protective tube via a connector sleeve. Also in this case, when the tip of the probe is worn out, it is necessary to replace it with another probe together with the connector sleeve, and it cannot be denied that the cost of parts as a consumable item increases. In this patent document, a probe provided with a sealing tip at the tip of the probe is also described. However, there is no description of how to attach the sealing chip to the tip of the probe, and the technical idea of exchanging only the sealing chip when the sealing chip is worn out cannot be glimpsed.
特許文献4には、ハンドピース本体に着脱自在に装着されるハンドピースヘッド部に対して、止め金具等によって保持されたファイバ型チップをアダプタを介して着脱自在に取付けられるレーザ照射チップが開示されている。この場合も、チップの先端が損耗した時には、ファイバ型チップ、止め金具及びアダプタが一体とされたレーザ照射チップを交換する必要があり、上記と同様にコストパフォーマンスの面で、ユーザのニーズに充分に応えることができるものではなかった。また、歯科診療等においては、照射目的部位(患部)の状態に応じて、チップ先端部の形状の異なるものを複数準備しておき、術者はこれらを選択使用して治療に臨むが、特許文献1〜4に示されるようなレーザ照射チップ(レーザプローブ)の場合、それぞれのコストが高く、消耗品であるにも拘わらず、これらを複数準備しておくことは、大きな負担となる。 Patent Document 4 discloses a laser irradiation chip in which a fiber-type chip held by a fastener or the like is detachably attached to a handpiece head portion that is detachably attached to a handpiece body via an adapter. ing. Also in this case, when the tip end of the chip is worn out, it is necessary to replace the laser irradiation chip in which the fiber type chip, the fastener and the adapter are integrated, which is sufficient for the user's needs in terms of cost performance as described above. It was not something that could meet. Also, in dental practice etc., depending on the state of the target irradiation site (affected area), multiple tips with different tip tip shapes are prepared, and the surgeon selects and uses these for treatment. In the case of laser irradiation chips (laser probes) as shown in Documents 1 to 4, it is a heavy burden to prepare a plurality of these chips despite their high costs and consumables.
特許文献5の医療用レーザ装置は、上述のように、光ファイバの先端部を損耗の進行に応じて切断或いは研磨するものであるが、光ファイバが切断或いは研磨できなくなるまで短くなると、光ファイバを新品に交換する必要がある。この場合、光ファイバは、レーザ光発振源(レーザ発生装置)からレーザ光出射端面に及ぶ一連のものと解され、その為、光ファイバの交換は大変な労力を伴うことは予想されるところである。また、切断或いは研磨の仕方によっては、チップ先端からのレーザ光の照射状態が変化することが予想され、細部の治療を行う歯科治療のように治療精度が求められる場合の適性において、不充分さがあることは否めなかった。 As described above, the medical laser device of Patent Document 5 cuts or polishes the tip of the optical fiber according to the progress of wear. However, when the optical fiber is shortened until it cannot be cut or polished, the optical fiber Need to be replaced with a new one. In this case, the optical fiber is understood to be a series extending from the laser light oscillation source (laser generator) to the laser light emitting end face, and therefore replacement of the optical fiber is expected to involve a great deal of labor. . In addition, depending on the way of cutting or polishing, it is expected that the irradiation state of the laser light from the tip of the tip will change, and inadequate in the suitability when treatment accuracy is required as in dental treatment that performs detailed treatment. There was no denying that there was.
本発明は、上記実情に鑑みなされたものであり、レーザ治療の多様化に的確に対応し、先端が損耗した場合のチップ交換時のコスト的な負担を軽減することができる、チップ先端部材、医療用レーザ照射チップ、医療用レーザハンドピース及び医療用レーザ装置を提供することを目的とする。 The present invention has been made in view of the above circumstances, and corresponds to diversification of laser treatment accurately, and can reduce the cost burden when replacing the tip when the tip is worn, An object of the present invention is to provide a medical laser irradiation chip, a medical laser handpiece, and a medical laser device.
第1の発明に係るチップ先端部材は、レーザ発生装置からのレーザ光が導光体を経由して導光されるハンドピースのヘッド部に着脱自在に装着され、該ハンドピースに導光されたレーザ光を受光し、出光端より目的部位にレーザ光を照射する為のレーザ照射チップを構成するチップ先端部材であって、該ハンドピースのヘッド部に着脱自在に装着されるチップ基部材の先側部に着脱自在に連結する為の連結基部と、該連結基部に一体保持された出光部材とよりなり、該出光部材は、先端に上記出光端を備え、該連結基部をしてチップ基部材に連結された時には、該チップ基部材内のレーザ導光部材と光学的に接続されて出光端より該レーザ光の照射がなし得るよう構成されていることを特徴とする。 The chip tip member according to the first invention is detachably attached to the head part of the handpiece to which the laser light from the laser generator is guided through the light guide, and is guided to the handpiece. A tip end member of a laser irradiation chip for receiving laser light and irradiating the target site with laser light from the light output end, the tip of the tip base member detachably attached to the head portion of the handpiece It comprises a connecting base for detachably connecting to the side part, and a light output member integrally held by the connection base, the light output member having the light output end at the tip, and using the connection base as a chip base member When connected to the laser beam, it is optically connected to the laser light guide member in the chip base member so that the laser beam can be irradiated from the light output end.
第2の発明に係る医療用レーザ照射チップは、前記チップ先端部材及びチップ基部材よりなる医療用レーザ照射チップであって、該チップ先端部材の前記連結基部と、該チップ基部材の前記先側部とには連結手段が設けられ、該連結手段を介して、チップ先端部材がチップ基部材に対して着脱自在に連結可能とされ、該連結手段による連結状態では、前記ハンドピースに導光されたレーザ光を、チップ基部材内の前記レーザ導光部材及びチップ先端部材に保持された前記出光部材を介して前記出光端より目的部位に照射し得るよう構成されていることを特徴とする。 A medical laser irradiation chip according to a second aspect of the present invention is a medical laser irradiation chip including the tip end member and a tip base member, the connection base portion of the tip end member and the front side of the tip base member. A connecting means is provided on the part, and the tip end member can be detachably connected to the chip base member via the connecting means, and in the connected state by the connecting means, the light is guided to the handpiece. The laser beam is configured to be able to irradiate the target part from the light exit end through the laser light guide member in the chip base member and the light exit member held by the tip end member.
前記連結手段としては、チップ先端部材の連結基部と、チップ基部材の先側部とを互いに嵌合関係で連結する方式のものが望ましく採用され、具体的には以下の種々の態様を挙げることができるが、これらに限定されるものではない。
(態様1) 前記チップ基部材の先側部に、前記チップ先端部材の連結基部をレーザ光の導光方向に沿って嵌受し得る凹部を設け、該凹部及び該連結基部によって前記連結手段を構成する。
(態様2) 前記チップ先端部材の連結基部に、前記チップ基部材の先側部をレーザ光の導光方向に沿って嵌受し得る凹部を設け、該凹部及び上記先側部によって前記連結手段を構成する。
(態様3) 前記チップ基部材の先側部に、前記チップ先端部材の連結基部をレーザ光の導光方向に直交する方向に沿って嵌受し得る凹部を設け、且つ、この凹部の開口幅と略同幅の開環部を有する凹部開閉用リング部材を該先側部の周体に回転可能に環装し、該凹部、該連結基部及び該凹部開閉用リング部材によって前記連結手段を構成する。この場合、凹部開閉用リング部材を、更に、該先側部の周体に対して、導光方向に沿って摺動可能としても良い。
(態様4) 前記チップ基部材の先側部に、前記チップ先端部材の連結基部をレーザ光の導光方向に直交する方向に沿って嵌受し得る凹部を設け、且つ、凹部開閉用リング部材を該先側部の周体に該導光方向に沿って摺動可能に環装し、該凹部、該連結基部及び該凹部開閉用リング部材によって前記連結手段を構成する。
The connecting means preferably employs a system in which the connecting base portion of the tip end member and the tip side portion of the tip base member are connected to each other in a fitting relationship, and specific examples include the following various aspects. However, it is not limited to these.
(Aspect 1) A concave portion capable of fitting the connecting base portion of the tip end member of the chip base member along the light guide direction of the laser light is provided on the front side portion of the chip base member, and the connecting means is provided by the concave portion and the connecting base portion. Constitute.
(Aspect 2) A concave portion capable of receiving the tip side portion of the chip base member along the light guide direction of the laser beam is provided in the connecting base portion of the tip end member of the tip, and the connecting means is formed by the recess and the tip side portion. Configure.
(Aspect 3) A concave portion capable of fitting and receiving the connecting base portion of the tip end member of the tip base member along a direction orthogonal to the light guide direction of the laser light is provided on the front side portion of the tip base member, and the opening width of the concave portion A ring member for opening and closing a recess having a ring-opening portion having substantially the same width as that of the ring, and is rotatably mounted on a peripheral body of the front side portion, and the connecting means is configured by the recess, the connection base, and the ring member for opening and closing the recess. To do. In this case, the recess opening / closing ring member may be further slidable along the light guide direction with respect to the peripheral body of the front side portion.
(Aspect 4) A concave portion capable of fitting the connecting base portion of the tip end member of the tip base member along a direction perpendicular to the light guide direction of the laser light is provided on the front side portion of the tip base member, and the concave portion opening / closing ring member Is attached to the peripheral body of the front side portion so as to be slidable along the light guide direction, and the connecting means is constituted by the recess, the connecting base, and the recess opening / closing ring member.
これらの医療用レーザ照射チップにおいて、前記チップ基部材をして前記ハンドピースに接続された時には、該ハンドピースに内蔵される水及びエア管路の少なくとも一つに連通して、水及びエアの少なくとも一つを目的部位に向け送出し得るよう構成された管路を更に備えているものとすることができる。 In these medical laser irradiation chips, when the chip base member is connected to the handpiece, the medical laser irradiation chip communicates with at least one of water and air pipes built in the handpiece, It may further comprise a conduit configured to deliver at least one toward the target site.
第3の発明に係る医療用レーザハンドピースは、レーザ発生装置にレーザ光の導光体を介して接続される医療用レーザハンドピースであって、前記導光体との接続基部からヘッド部の先端部に臨むレーザ光の導光路を内蔵し、該ヘッド部には前記医療用レーザ照射チップのいずれかが着脱自在に装着され、該導光体、該導光路、前記チップ基部材内のレーザ導光部材及びチップ先端部材の出光部材を経て前記出光端より目的部位にレーザ光を照射し得るよう構成されていることを特徴とする。 A medical laser handpiece according to a third aspect of the present invention is a medical laser handpiece connected to a laser generator via a laser light guide, from the connection base to the light guide to the head portion. A laser light guide path facing the tip is built in, and any one of the medical laser irradiation chips is detachably attached to the head section, and the laser in the light guide, the light guide path, and the chip base member The laser beam is configured to be able to irradiate the target portion from the light exit end through the light guide member and the light exit member of the tip end member.
第4の発明に係る医療用レーザ装置は、レーザ発生装置と、該レーザ発生装置で発生したレーザ光を導光する導光体と、該導光体の先端に接続される前記医療用レーザハンドピースとを備えたことを特徴とする。 According to a fourth aspect of the present invention, there is provided a medical laser device, a laser generator, a light guide for guiding laser light generated by the laser generator, and the medical laser hand connected to a tip of the light guide. And a piece.
第1〜第4の発明に係るチップ先端部材、医療用レーザ照射チップ、医療用レーザハンドピース及び医療用レーザ装置によれば、レーザ発生装置で発生したレーザ光は、導光体を導光されて、医療用レーザハンドピース内の導光路を経てヘッド部の先端部に至る。ヘッド部の先端部には、医療用レーザ照射チップが装着されているから、ヘッド部に至ったレーザ光は、医療用レーザ照射チップを構成するチップ基部材内のレーザ導光部材に受光され、更に該レーザ導光部材から、チップ先端部材の出光部材に伝播され、出光端より目的部位に照射される。術者は、ハンドピースを手持ち把持し、出光端より照射されるレーザ光を目的部位に照射することにより所定の治療作業を実施することができる。 According to the chip tip member, the medical laser irradiation chip, the medical laser handpiece, and the medical laser device according to the first to fourth inventions, the laser light generated by the laser generator is guided through the light guide. Thus, it reaches the tip of the head portion through the light guide path in the medical laser handpiece. Since the medical laser irradiation chip is attached to the tip of the head part, the laser light reaching the head part is received by the laser light guide member in the chip base member constituting the medical laser irradiation chip, Further, the light is transmitted from the laser light guide member to the light output member of the tip end member of the chip, and is irradiated to the target site from the light output end. An operator can carry out a predetermined treatment work by holding the handpiece and irradiating the target site with laser light emitted from the light exit end.
上記目的部位へのレーザ光の照射は、特に、歯科の治療の場合、出光端を目的部位にできるだけ接近させて、あるいは接触させてなされるが、目的部位となる歯牙や歯肉の表面からのレーザ光のはね返り等が多く、また、出光端部分の特に中央へのレーザエネルギの集中が生じ易く、出光端部分が損耗し易い。出光端部分が損耗したまま使用を続けると、照射効率や照射精度が低下する。つまり、損耗前と比較して、出射されるレーザ光が減少したり、予期せぬ拡散が生じたりして、所望のレーザ光が目的部位へ照射されにくくなる。本発明の医療用レーザチップは、チップ基部材と、これに着脱自在に連結されるチップ先端部材とよりなるから、チップ先端部材のみを新しいものに交換することにより、初期の照射効率及び照射精度を維持して治療作業を続行することができる。また、形状の異なるチップ先端部材を複数種準備しておき、これらを適宜選択使用することにより、目的部位の状態に応じた治療を的確に実施することができる。このように、比較的コストのかかるチップ基部材はハンドピースのヘッド部に装着したまま、チップ先端部材のみ着脱交換し得るようにしているから、チップ先端部材を使い捨てとしてもユーザにとってのコスト的負担は左程大きくなることがない。そして、チップ基部材もハンドピースのヘッド部に対して着脱自在としているから、ハンドピースから取外し、滅菌消毒等に供することもでき、また、まっすぐなチップや湾曲したチップなど、治療対象部位や目的に応じた形状のチップを使い分けることもできる。 The irradiation of the laser beam to the target site is performed by bringing the light emitting end as close as possible to or in contact with the target site, especially in the case of dental treatment. There are many reflections of light and the like, and the laser energy tends to concentrate particularly at the center of the light emitting end portion, and the light emitting end portion is likely to be worn out. If the use is continued while the light emitting end portion is worn out, the irradiation efficiency and the irradiation accuracy are lowered. That is, as compared with the case before wear, the emitted laser light is reduced or unexpected diffusion occurs, and it is difficult to irradiate the target part with the desired laser light. Since the medical laser chip of the present invention includes a chip base member and a chip tip member that is detachably connected to the chip base member, the initial irradiation efficiency and irradiation accuracy can be obtained by replacing only the chip tip member with a new one. It is possible to continue the treatment work while maintaining. In addition, by preparing a plurality of types of tip end members having different shapes and appropriately selecting and using them, treatment according to the state of the target site can be performed accurately. In this way, since the relatively expensive chip base member is mounted on the head portion of the handpiece, only the tip end member can be attached and detached, so that even if the tip end member is disposable, it is a cost burden for the user. Does not grow as far as the left. And since the tip base member is also detachable from the head part of the handpiece, it can be removed from the handpiece and used for sterilization, etc. It is also possible to use differently shaped chips according to the requirements.
チップ基部材とチップ先端部材との連結手段として、前述のようなチップ先端部材の連結基部と、チップ基部材の先側部とを互いに嵌合関係で連結する方式のものとすれば、ほぼワンタッチ操作で連結がなし得、着脱交換作業の円滑性を図ることができる。また、連結構造を簡単に構成することができるから、チップ先端部材のコストを低く抑えることができ、使い捨てされる消耗部品としての適性が増大する。 As a means for connecting the chip base member and the tip end member, if the connection base portion of the tip end member and the tip side portion of the tip base member are connected in a fitting relationship as described above, it is almost one touch. The connection can be made by operation, and the smoothness of the attachment / detachment exchange work can be achieved. Further, since the connecting structure can be easily configured, the cost of the tip end member can be kept low, and the suitability as a disposable consumable part increases.
そして、連結手段の具体的な態様として、前記態様1或いは態様2を採用した場合、チップ基部材の先側部又はチップ先端部材の連結基部に、チップ先端部材の連結基部又はチップ基部材の先側部をレーザ光の導光方向に沿って嵌受し得る凹部を設けているから、嵌合を伴うチップ先端部材の装着操作が簡易になされる。この場合、摩擦力を伴う嵌合関係とすれば、チップ先端部材が脱落することなく安定保持される。特に、レーザ光の導光方向に沿って着脱操作がなされるから、嵌合部分に摩擦力が作用しても、着脱操作時の摩擦力に抗した力がチップ先端部材を折損させる方向にかかることもない。また、態様3或いは態様4の連結手段を採用した場合、チップ基部材の先側部に形成された凹部に、チップ先端部材の連結基部をレーザ光の導光方向に直交する方向に沿って嵌受し得るようにし、且つこの凹部を開閉するためのリング部材を、上記先側部の周体に回転可能及び/若しくは摺動可能に環装しているから、嵌合連結が簡易になされ、しかも、この嵌合連結状態は、リング部材を回転若しくは摺動させて凹部を閉止することによって、安定維持される。 And when the said aspect 1 or aspect 2 is employ | adopted as a specific aspect of a connection means, the connection base part of a chip | tip tip member or the tip of a chip | tip base member is attached to the front side part of a chip | tip base member, or the connection base part of a chip | tip tip member. Since the concave portion capable of fitting the side portion along the light guide direction of the laser beam is provided, the mounting operation of the tip end member with fitting is easily performed. In this case, if the fitting relationship is accompanied by a frictional force, the tip end member is stably held without falling off. In particular, since the attachment / detachment operation is performed along the light guide direction of the laser beam, even if a frictional force is applied to the fitting portion, a force against the frictional force during the attachment / detachment operation is applied in a direction to break the tip end member. There is nothing. Further, when the connecting means of aspect 3 or aspect 4 is adopted, the connecting base part of the tip end member of the chip base member is fitted in the recess formed in the tip side part of the chip base member along the direction orthogonal to the laser light guide direction. Since the ring member for opening and closing the concave portion is rotatably and / or slidably mounted on the peripheral body of the front side portion, the fitting connection is made simple, Moreover, this fitted and connected state is stably maintained by rotating or sliding the ring member to close the recess.
また、本発明の医療用レーザ照射チップが、ハンドピースに接続した時に、該ハンドピースに内蔵される水及びエア管路の少なくとも一つに連通して、水及びエアの少なくとも一つを目的部位に向け送出し得るよう構成された管路を更に備えるようにすれば、レーザ光を目的部位に照射する際、目的部位の発熱を抑え、或いは目的部位から発生する処置屑等の除去が的確になされ、治療の効率化がなされる。また、レーザ光の種類によって、例えばEr:YAGレーザのような水に吸収されやすいレーザ光を照射する場合、水を目的部位に送出することで、目的部位に付着した水にレーザ光を吸収させ、作用させることができ、治療効率の向上に資する。特に、水とエアを併用するようにすれば、水が霧化状態で送出されるから、冷却及び除去効果が一層向上する。 In addition, when the medical laser irradiation chip of the present invention is connected to the handpiece, it communicates with at least one of the water and air pipes built in the handpiece, and at least one of water and air is supplied to the target site. If it is further provided with a conduit configured to be able to be sent to the target site, when the target site is irradiated with laser light, heat generation at the target site is suppressed, or treatment waste generated from the target site is accurately removed. To improve the efficiency of treatment. Also, depending on the type of laser light, for example, when irradiating laser light that is easily absorbed by water, such as an Er: YAG laser, by sending water to the target site, the water adhering to the target site is absorbed by the water. It can be acted on and contributes to the improvement of treatment efficiency. In particular, if water and air are used in combination, the water is sent in an atomized state, so that the cooling and removal effects are further improved.
以下、本発明の最良の形態について図面に基づき説明する。図1は本発明の医療用レーザ装置の全体概略図、図2は図1におけるX部の部分破断拡大図、図3は同医療用レーザ装置における医療用レーザハンドピースに装着される医療用レーザ照射チップの一実施形態の正面図、図4は同医療用レーザ照射チップの断面図、図5は同医療用レーザ照射チップにおいてチップ基部材とチップ先端部材とを分離した状態を示す斜視図、図6は同医療用レーザ照射チップの斜視図、図7(a)(b)(c)は図4における拡大部分に対応する部分の変形例を示す断面図である。 Hereinafter, the best mode of the present invention will be described with reference to the drawings. FIG. 1 is an overall schematic view of the medical laser device of the present invention, FIG. 2 is a partially broken enlarged view of a portion X in FIG. 1, and FIG. 3 is a medical laser attached to a medical laser handpiece in the medical laser device. FIG. 4 is a cross-sectional view of the medical laser irradiation chip, FIG. 5 is a perspective view showing a state in which the chip base member and the tip end member are separated in the medical laser irradiation chip, FIG. 6 is a perspective view of the medical laser irradiation chip, and FIGS. 7A, 7B, and 7C are cross-sectional views showing a modification of the portion corresponding to the enlarged portion in FIG.
図1に示す医療用レーザ装置1は歯科用のレーザ装置であって、キャスタ付のレーザ装置本体10内に、レーザ発生装置11と、噴射用水(生理食塩水を含む場合あり)などを供給する水供給源12と、エア(不活性ガスも含む場合あり)を供給するエア供給源13とが配設されている。また、装置本体10から導出され、レーザ発生装置11及び水供給源12並びにエア供給源13から供給されるレーザ光及び水並びにエアなどを装置本体10外の医療用(歯科用)レーザハンドピース2に導光及び給送するフレキシブルホース3と、装置本体10の前面上部に設けられた設定操作部14及び表示部15と、レーザ装置本体10に接続されたフートコントローラ16とを備えている。フレキシブルホース3は、レーザ発生装置11に接続されるレーザ光の導光体11a、水供給源12に接続される水供給チューブ12a及びエア供給源13に接続されるエア供給チューブ13aを束ねて内装し、歯科用レーザハンドピース2の基部に接続されている。設定操作部14は、操作キーやタッチパネル、あるいは回転摘みなどから構成され、レーザ光の照射条件や、水又はエアの噴出量あるいは噴出の有無等を設定操作し得るようになされている。表示部15は、液晶パネル(LCD)などから構成され、設定された照射条件等を表示する。また、フートコントローラ16は、レーザ光の照射、或いは、水及びエアの供給操作スイッチであり、術者の足踏み動作によってそのスイッチ操作がなされる。その他、レーザ装置本体10内には、レーザ発生装置11に付設されるレーザ発生装置用冷却器や、電源(いずれも不図示)が設置される。 A medical laser device 1 shown in FIG. 1 is a dental laser device, and supplies a laser generator 11 and water for injection (which may include physiological saline) into a laser device body 10 with casters. A water supply source 12 and an air supply source 13 for supplying air (which may include an inert gas) are provided. Further, the laser beam, water, air, and the like, which are derived from the apparatus main body 10 and supplied from the laser generator 11, the water supply source 12 and the air supply source 13, are used for medical (dental) laser handpiece 2 outside the apparatus main body 10. The flexible hose 3 that guides and feeds the light, the setting operation unit 14 and the display unit 15 provided on the upper front of the apparatus main body 10, and the foot controller 16 connected to the laser apparatus main body 10 are provided. The flexible hose 3 includes a laser light guide 11 a connected to the laser generator 11, a water supply tube 12 a connected to the water supply source 12, and an air supply tube 13 a connected to the air supply source 13. The dental laser handpiece 2 is connected to the base. The setting operation unit 14 includes an operation key, a touch panel, a rotary knob, and the like. The setting operation unit 14 can set and operate the laser light irradiation conditions, the amount of water or air ejected, the presence or absence of ejection, and the like. The display unit 15 includes a liquid crystal panel (LCD) or the like, and displays set irradiation conditions and the like. The foot controller 16 is a laser light irradiation or water / air supply operation switch, which is operated by the operator's stepping action. In addition, a laser generator cooler attached to the laser generator 11 and a power source (both not shown) are installed in the laser apparatus body 10.
水供給源12は、精製水又は生理食塩水などの水を収容するタンクを備え、ポンプ機構などにより水を水供給チューブ12aに供給する。また、エア供給源13は、圧縮空気又は圧縮した不活性ガスを発生させ、エア供給チューブ13aに供給することができるようになっており、例えば、空気を発生させる場合には、ブロアやコンプレッサなどが用いられ、また、不活性ガスを発生させる場合には、不活性ガスを圧縮して充填したガスボンベなどが用いられる。 The water supply source 12 includes a tank for storing water such as purified water or physiological saline, and supplies water to the water supply tube 12a by a pump mechanism or the like. The air supply source 13 can generate compressed air or compressed inert gas and supply it to the air supply tube 13a. For example, in the case of generating air, a blower, a compressor, etc. In addition, when an inert gas is generated, a gas cylinder filled with compressed inert gas is used.
レーザ発生装置11は、Er:YAGレーザ、Nd:YAGレーザ、CO2レーザ、半導体レーザ、Er.Cr:YSGGレーザ、Ho:YAGレーザ等の医療用レーザをレーザ発生源とするものである。該レーザ発生装置11で発生したレーザ光は、前記導光体11aを経由して歯科用レーザハンドピース2に導光される。該導光体11aとしては、前記フレキシブルホース3に内装される中実又は中空の光ファイバ(導波路)が用いられるが、該フレキシブルホース3によらず、マニピュレータ(多関節伝送装置)型に構成されたものも用いられる。 The laser generator 11 includes an Er: YAG laser, an Nd: YAG laser, a CO 2 laser, a semiconductor laser, an Er. A medical laser such as a Cr: YSGG laser or a Ho: YAG laser is used as a laser generation source. Laser light generated by the laser generator 11 is guided to the dental laser handpiece 2 via the light guide 11a. As the light guide 11a, a solid or hollow optical fiber (waveguide) built in the flexible hose 3 is used, but it is configured as a manipulator (multi-joint transmission device) regardless of the flexible hose 3. What was done is also used.
歯科用レーザハンドピース2は、前記フレキシブルホース3との接続基部20A、該接続基部20Aに連なり術者が手持ち操作するグリップ部(胴部)20B、及び該グリップ部20Bの先側に連接されるヘッド部20Cを含むハンドピース本体部20と、ヘッド部20Cに着脱自在に装着される歯科用(医療用)レーザ照射チップ4よりなる。フレキシブルホース3とハンドピース本体20の接続基部20Aとの接続部は、着脱自在なコネクタ部で構成され、この接続状態では、フレキシブルホース3内のレーザ光の導光体11a、水供給チューブ12a及びエア供給チューブ13aが、ハンドピース本体20内の後記するレーザ光の導光路21、通水管路22及び通気管路23の基端部に接合される。これによりフレキシブルホース3内のレーザ光の導光体11aとハンドピース本体20内の導光路21との光学的な接続、フレキシブルホース3内の水供給チューブ12aとハンドピース本体20内の通水管路22との水密的な接続、及び、フレキシブルホース3内のエア供給チューブ13aとハンドピース本体20内の通気管路23との気密的な接続がなされる。 The dental laser handpiece 2 is connected to the connection base 20A with the flexible hose 3, a grip part (body part) 20B which is connected to the connection base part 20A and is operated by a surgeon, and connected to the front side of the grip part 20B. It comprises a handpiece main body 20 including a head portion 20C and a dental (medical) laser irradiation chip 4 that is detachably attached to the head portion 20C. The connection portion between the flexible hose 3 and the connection base portion 20A of the handpiece body 20 is constituted by a detachable connector portion. In this connection state, the laser light guide 11a, the water supply tube 12a in the flexible hose 3 and the The air supply tube 13 a is joined to the base end portions of a laser light guide path 21, a water conduit 22, and a vent duct 23 described later in the handpiece body 20. Accordingly, the optical connection between the laser light guide 11 a in the flexible hose 3 and the light guide path 21 in the handpiece body 20, the water supply tube 12 a in the flexible hose 3 and the water conduit in the handpiece body 20. The airtight connection between the air supply tube 13a in the flexible hose 3 and the air duct 23 in the handpiece body 20 is made.
ハンドピース本体20と、歯科用レーザ照射チップ4との接続部分の詳細を、図2〜図6を参照して説明する。図2に示すように、ハンドピース本体20は、グリップ部20Bからヘッド部20Cに至る一連の円筒状本体筒部20aと、該本体筒部20aに外装された外装スリーブ部20bとを備える。前記レーザ光の導光路21は、中空或いは中実の導波路(ファイバ)からなり、ハンドピース本体20内にその長手方向に沿って同心的に配設され、先端部はフェルール24に保持されて、ヘッド部20C内に臨んでいる。フェルール24は、本体筒部20aに同心的に内嵌支持された支持リング24aに嵌挿され、該支持リング24aに螺装された固定ねじ部材24bの先端をフェルール24の周体に形成された周溝24cに整合させることによって、支持リング24aに対するフェルール24の位置決め固定がなされている。支持リング24aは、本体筒部20aの先端部内に螺合装着された筒状ホールダ部材20cにより、スペーサカラー部材20dを介して、本体筒部20a内の所定位置に位置決め内嵌支持されている。フェルール24に嵌挿支持された導光路21の先端21aは、該ホールダ部材20cに保持された光学集光レンズ(ドラムレンズ)25に対峙している。 The detail of the connection part of the handpiece main body 20 and the dental laser irradiation chip | tip 4 is demonstrated with reference to FIGS. As shown in FIG. 2, the handpiece main body 20 includes a series of cylindrical main body cylinder portions 20a extending from the grip portion 20B to the head portion 20C, and an outer sleeve portion 20b externally mounted on the main body cylinder portion 20a. The laser light guide 21 is formed of a hollow or solid waveguide (fiber), is disposed concentrically along the longitudinal direction in the handpiece body 20, and the tip is held by a ferrule 24. The head portion 20C is faced. The ferrule 24 is inserted into a support ring 24 a that is concentrically fitted and supported by the main body cylinder portion 20 a, and the tip of a fixing screw member 24 b that is screwed to the support ring 24 a is formed on the periphery of the ferrule 24. By aligning with the circumferential groove 24c, the ferrule 24 is positioned and fixed with respect to the support ring 24a. The support ring 24a is positioned and fitted and supported at a predetermined position in the main body cylinder portion 20a via a spacer collar member 20d by a cylindrical holder member 20c that is screwed into the front end portion of the main body cylinder portion 20a. The distal end 21a of the light guide 21 fitted and supported by the ferrule 24 is opposed to the optical condensing lens (drum lens) 25 held by the holder member 20c.
前記通水管路22及び通気管路23は、いずれも細チューブからなり、各先端部は前記ホールダ部材20cに保持され、該ホールダ部材20cに形成された通水用連絡管路22a及び通気用連絡管路23aに連通している。更に、該ホールダ部材20cには、チップホルダ26が嵌合され、該チップホルダ26は袋ナット27を前記外装スリーブ部20bの先端部に螺合することによって、嵌合状態に固定維持される。チップホルダ26は中空筒状体であり、同心的に形成された内筒部26aは、後記する歯科用レーザ照射チップ4を構成するチップ基部材5を着脱自在に螺合装着する為の接合部とされる。チップホルダ26の筒壁には、通水用連通路22b及び通気用連通路23bが形成されている。これら通水用連通路22b及び通気用連通路23bは、チップホルダ26がホールダ部材20cに嵌合固定された状態では、前記通水用連絡管路22a及び通気用連絡管路23aに、該チップホルダ26の外周部に形成された各周溝を介して夫々連接される。そして、各連通路22b,23bの先端部はチップホルダ26の内筒部26aに開口している。チップホルダ26の内筒部26aには、チップ基部材5を螺合接合するための雌ねじ部26bが形成されている。 Each of the water conduit 22 and the vent conduit 23 is formed of a thin tube, each tip is held by the holder member 20c, and the water conduit 22a and the vent communication formed in the holder member 20c. It communicates with the pipe line 23a. Further, a chip holder 26 is fitted to the holder member 20c, and the chip holder 26 is fixed and maintained in the fitted state by screwing the cap nut 27 to the tip of the outer sleeve portion 20b. The tip holder 26 is a hollow cylindrical body, and an inner cylindrical portion 26a formed concentrically is a joint for detachably screwing and mounting a chip base member 5 constituting a dental laser irradiation chip 4 to be described later. It is said. On the cylindrical wall of the chip holder 26, a water communication passage 22b and a ventilation communication passage 23b are formed. When the tip holder 26 is fitted and fixed to the holder member 20c, the water communication passage 22b and the air communication passage 23b are connected to the water communication passage 22a and the air communication passage 23a. The holders 26 are connected to each other through respective peripheral grooves formed on the outer peripheral portion of the holder 26. And the front-end | tip part of each communicating path 22b, 23b is opened to the inner cylinder part 26a of the chip | tip holder 26. As shown in FIG. A female screw part 26 b for screwing and joining the chip base member 5 is formed in the inner cylinder part 26 a of the chip holder 26.
尚、図2では、便宜上、通水管路22及び通気管路23、通水用連絡管路22a及び通気用連絡管路23a、通水用連通路22b及び通気用連通路23b、固定ねじ部材24b等が同一断面に現れるよう表しているが、これらは、設計上はそれぞれが干渉しない周方向の適宜位置に形成されるべきものである。また、図示を省略したが、前記通気用連絡管路23aから分岐して、前記集光レンズ25の周辺や、導光路21の先端21aに冷却空気を導入し、この付近を冷却すると共に、導光路21の先端21a、集光レンズ25の入射面及び出射面、或いは後記するレーザ導光部材55の基端面55cに付着した異物等を除去するよう構成しても良い。なお、ハンドピース本体20内の導光路21が中空のものであれば、その導光路21内に空気を導入することで、上記集光レンズ25の冷却やレーザ導光部材55の異物除去に用いることもできる。 In FIG. 2, for the sake of convenience, the water conduit 22 and the vent conduit 23, the water conduit 22a and the vent conduit 23a, the water communicating passage 22b and the vent communication passage 23b, and the fixing screw member 24b are provided. Etc. are shown so as to appear in the same cross section, but these should be formed at appropriate positions in the circumferential direction so as not to interfere with each other by design. Although not shown in the figure, the air branches from the ventilation connecting pipe 23a, introduces cooling air to the periphery of the condenser lens 25 and the tip 21a of the light guide path 21, cools the vicinity, and guides the air. You may comprise so that the foreign material etc. which adhered to the front end 21a of the optical path 21, the entrance surface and output surface of the condensing lens 25, or the base end surface 55c of the laser light guide member 55 mentioned later may be removed. If the light guide path 21 in the handpiece body 20 is hollow, air is introduced into the light guide path 21 to cool the condenser lens 25 and remove foreign matter from the laser light guide member 55. You can also
チップ基部材5の前記ハンドピース本体20のヘッド部20Cに対する接続部には、前記チップホルダ26の内筒部26aに差込み螺合接続される竹の子形状のプラグ部51と、該プラグ部51を螺合操作する為のローレット回転摘み部52とが一体に形成されている。プラグ部51の周体には前記雌ねじ部26bに螺合される雄ねじ部51aが形成され、雄ねじ部51aの一部にフライスカット面51bが形成されている。フライスカット面51bの形成により、螺合関係の雄ねじ部51aと雌ねじ部26bと間に隙間が形成されるようになされている。この隙間部分に開口する通気口51cが形成され、該通気口51cは、プラグ部51がチップホルダ26に螺合接続された時には、前記通気用連通路23bに整合し、且つ、プラグ部51内を通って後記する外パイプ53内の空洞部(通気管路)53aに通じるよう形成されている。 The connecting portion of the tip base member 5 to the head portion 20C of the handpiece body 20 is a bamboo shoot shaped plug portion 51 that is inserted into and screwed into the inner cylinder portion 26a of the tip holder 26, and the plug portion 51 is screwed. A knurling rotary knob 52 for joint operation is integrally formed. A male thread part 51a that is screwed into the female thread part 26b is formed on the periphery of the plug part 51, and a milling cut surface 51b is formed on a part of the male thread part 51a. By forming the milling cut surface 51b, a gap is formed between the male screw portion 51a and the female screw portion 26b which are screwed. A vent 51c is formed in the gap, and the vent 51c is aligned with the vent communication path 23b when the plug 51 is screwed to the chip holder 26, and the plug 51 It is formed so as to communicate with a hollow portion (venting duct) 53a in the outer pipe 53 which will be described later.
また、プラグ部51の周体で前記通気口51cとは軸方向に離れた部位には、通水口51dが形成され、該通水口51dは、プラグ部51がチップホルダ26に螺合接続された時には、前記通水用連通路22bに整合すると共に、プラグ部51内を通り外パイプ53内に配設された後記する通水チューブ54に接続されるよう形成されている。そして、プラグ部51の周体には、通気口51c及び通水口51dを通じた通気及び通水が気密的及び水密的になし得るよう、これらの通気部分及び通水部分を隔絶する3個のOリング(図2及び図4参照、図3、図5及び図6では図示省略)51e…が、各Oリング溝51f…を介して装着されている。 Further, a water passage 51d is formed in a portion of the periphery of the plug portion 51 that is separated from the vent hole 51c in the axial direction, and the plug portion 51 is screwed and connected to the chip holder 26. Sometimes, it is formed so as to be aligned with the water communication passage 22 b and to be connected to a water flow tube 54 (described later) disposed in the outer pipe 53 through the plug portion 51. Further, in the periphery of the plug portion 51, there are three O's that isolate the ventilation portion and the water passage portion so that the ventilation and the water passage through the ventilation port 51c and the water passage port 51d can be made airtight and watertight. Rings (see FIGS. 2 and 4; not shown in FIGS. 3, 5 and 6) 51e... Are mounted via O-ring grooves 51f.
プラグ部51には、前記外パイプ53内に配設されたファイバからなるレーザ光の導光部材55の基部が、一部ジャケットと呼ばれる外装体55aが剥離され、コアとクラッドよりなる、あるいはコアのみよりなる芯材55bが露出された状態で同心的に保持されている。該導光部材55の先端は、前記外パイプ53内を経てチップ基部材5の先側部56に至っている(図2、図4参照)。そして、該レーザ導光部材55の基端面55cは、前記集光レンズ25の出光側面に対峙し、集光レンズ25を経たレーザ光の光学的接続がなされる。プラグ部51及び回転摘み部52は、金属(ステンレス、ニッケルメッキが施された真鍮等)或いは樹脂による一体成形体からなり、また、外パイプ53は金属(ステンレス、真鍮等)、セラミックス或いは樹脂からなり、外径が約3mmとされる。これら材質や寸法については、後述する部品についても同様であるが、周囲の部品の材質や寸法、高温滅菌の要否等を考慮して、適宜選択され設計される。また、前記導光部材55を外パイプ53内に挿通するにあたり、外パイプに予め内パイプを内装しておき、その内パイプに導光部材55を挿通する、という組み立て上の工夫も適宜なされうる。 The plug portion 51 has a base portion of a laser light guide member 55 made of a fiber disposed in the outer pipe 53, and an outer body 55 a called a jacket is partially peeled off, and is made of a core and a clad, or a core It is concentrically held in a state in which the core material 55b made of only is exposed. The tip of the light guide member 55 reaches the front side portion 56 of the chip base member 5 through the inside of the outer pipe 53 (see FIGS. 2 and 4). The base end surface 55c of the laser light guide member 55 is opposed to the light output side surface of the condensing lens 25, and optical connection of the laser light passing through the condensing lens 25 is made. The plug part 51 and the rotary knob 52 are made of a metal (stainless steel, nickel-plated brass, or the like) or resin, and the outer pipe 53 is made of metal (stainless steel, brass, etc.), ceramics, or resin. Thus, the outer diameter is about 3 mm. These materials and dimensions are the same for components described later, but are appropriately selected and designed in consideration of the materials and dimensions of surrounding components, necessity of high-temperature sterilization, and the like. Further, when the light guide member 55 is inserted into the outer pipe 53, an assembling device may be made as appropriate, in which an inner pipe is previously installed in the outer pipe and the light guide member 55 is inserted into the inner pipe. .
斯くして、プラグ部51を、回転摘み部52の回転操作をして、ハンドピース本体20側のチップホルダ26に差込み螺合接続すると、ハンドピース本体20内の導光路21とチップ基部材5内の導光部材55との光学的接続、ハンドピース本体20内の通水管路22とチップ基部材5内の通水チューブ54との水密的な接続、及び、ハンドピース本体20内の通気管路23とチップ基部材5内の通気路53aとの気密的な接続がなされる。 Thus, when the plug 51 is rotated by the rotary knob 52 and inserted into the chip holder 26 on the handpiece body 20 side and screwed, the light guide path 21 and the chip base member 5 in the handpiece body 20 are connected. Optical connection with the light guide member 55 in the inside, watertight connection between the water passage 22 in the handpiece body 20 and the water passage tube 54 in the chip base member 5, and a ventilation pipe in the handpiece body 20. An airtight connection between the passage 23 and the ventilation passage 53a in the chip base member 5 is made.
次に、歯科用レーザ照射チップ4を構成するチップ基部材5の先側部56及びチップ先端部材6の構成、更に両部材5,6の連結構造の詳細を説明する。尚、図2に示す歯科用レーザ照射チップ4は、第3の実施形態(前記態様3の連結手段を備えるもの)に対応し、図13〜図16に示すものに相当する。 Next, the configuration of the tip side portion 56 and the tip end member 6 of the tip base member 5 constituting the dental laser irradiation tip 4 and the details of the connecting structure of both members 5 and 6 will be described. The dental laser irradiation chip 4 shown in FIG. 2 corresponds to the third embodiment (having the connecting means of the aspect 3) and corresponds to that shown in FIGS.
図3〜図6は、歯科用レーザ照射チップ4の第1の実施形態、即ち、前記態様1の連結手段を備えたものである。チップ先端部材6は、前記チップ基部材5の先側部56に着脱自在に連結する為の円柱状連結基部61と、該連結基部61に同心的に一体保持された出光部材62とよりなる。連結基部61は、金属(ステンレス、真鍮等)、セラミックス、或いは樹脂の成形体からなるが、図例は樹脂の成形体であることを示している。出光部材62は、石英等のコアとクラッド、あるいはサファイアのコアよりなる芯材62aを、ジャケットと呼ばれる外装体62bで被覆した導光ファイバからなり、連結基部61における一体保持部分より先側に突出する部分では、この外装体62bが剥離されている。そして、この出光部材62の先端部がレーザ光の出光端62aaとされる。連結基部61による出光部材62の保持においては、接着剤を使用したり、あるいは、出光部材62の周面とそれを包有する連結基部61の内面との双方に、相互に適合するねじ、テ−パ、鼓形状など種々の形状を与えて係合させたりすることで、保持力を確保することができる。以降、連結基部61と出光部材62とよりなるチップ先端部材を基に実施形態を説明するが、出光部材62の基端部を連結基部とみなし、出光部材とは異なる部材を連結基部として設けないという構成も、採用しうることを付言する。 3 to 6 show the first embodiment of the dental laser irradiation chip 4, that is, the connecting means of the aspect 1 described above. The tip end member 6 includes a columnar connecting base 61 for removably connecting to the front side portion 56 of the tip base member 5 and a light output member 62 concentrically and integrally held by the connecting base 61. The connection base 61 is made of a molded body of metal (stainless steel, brass, etc.), ceramics, or resin, but the illustrated example shows a molded body of resin. The light output member 62 is composed of a light guide fiber in which a core 62a made of a core such as quartz and a clad or a sapphire core is covered with an exterior body 62b called a jacket, and protrudes forward from the integral holding portion in the connection base 61. The exterior body 62b is peeled off at the portion to be applied. And the front-end | tip part of this light output member 62 is made into the light output end 62aa of a laser beam. In the holding of the light emitting member 62 by the connecting base 61, an adhesive is used, or screws, tapes that are compatible with each other on both the peripheral surface of the light emitting member 62 and the inner surface of the connecting base 61 that encloses the light emitting member 62 are used. Holding force can be ensured by giving various shapes such as a drum and a drum shape and engaging them. Hereinafter, the embodiment will be described on the basis of the tip end member composed of the connection base 61 and the light output member 62. However, the base end portion of the light output member 62 is regarded as the connection base, and a member different from the light output member is not provided as the connection base. It is added that the structure can also be adopted.
チップ基部材5の先側部56は、金属(ステンレス、真鍮等)、セラミックス(ジルコニア等)、或いは樹脂等により成形された接続用円筒体とされ、前記外パイプ53の先端部に一体固着されている。該接続用円筒体56にはその先端側に開口する円筒状凹部561が長手方向(レーザ光の導光方向)に沿って偏心状に形成され、該凹部561に前記チップ先端部材6の連結基部61を嵌受し得るようになされている。該凹部561を含む接続用円筒体56と連結基部61との相互の嵌合接合構造によって、前記態様1に係る連結手段7が構成される。 The tip side portion 56 of the chip base member 5 is a connecting cylindrical body formed of metal (stainless steel, brass, etc.), ceramics (zirconia, etc.), resin, etc., and is integrally fixed to the distal end portion of the outer pipe 53. ing. The connecting cylindrical body 56 is formed with a cylindrical recess 561 that opens to the tip side thereof in an eccentric shape along the longitudinal direction (light guide direction of laser light), and the connecting base portion of the tip end member 6 is formed in the recess 561. 61 can be received. The connecting means 7 according to the first aspect is configured by the mutual fitting and joining structure of the connecting cylindrical body 56 including the concave portion 561 and the connecting base 61.
前記凹部561の底部に、前記外パイプ53内に配設された導光部材55の先端面55dが臨むよう、該導光部材55の先側が接続用円筒体56に一体保持されている。該凹部561に連結基部61を嵌入してチップ先端部材6をチップ基部材5に連結した時には、チップ先端部材6の出光部材62における基端面62abが、該先端面55dに対峙するよう構成されている。この出光部材62の基端面62ab及び導光部材55の先端面55dが対峙する部分においては、単純な端面同士の向かい合わせでも良いが、空気より屈折率の小さな導光性カップリンググリスを介在させておく、集光レンズを配置する、あるいは、AR(Anti−Reflection(抗反射))コーティングを施す、といった方法を採用することが望ましく、これにより、導光部材55から出光部材62へのレーザ光の導光伝播が効率的になされる。 The front side of the light guide member 55 is integrally held by the connecting cylindrical body 56 so that the front end surface 55 d of the light guide member 55 disposed in the outer pipe 53 faces the bottom of the recess 561. When the connecting base 61 is fitted into the recess 561 and the tip end member 6 is connected to the tip base member 5, the base end face 62ab of the light output member 62 of the tip end member 6 is configured to face the end face 55d. Yes. In the portion where the base end face 62ab of the light output member 62 and the front end face 55d of the light guide member 55 face each other, simple end faces may be opposed to each other, but light guide coupling grease having a refractive index smaller than that of air is interposed. It is desirable to adopt a method such as arranging a condenser lens, or applying an AR (Anti-Reflection) coating, whereby the laser light from the light guide member 55 to the light output member 62 is adopted. Is efficiently transmitted.
また、上記集光レンズを配置するのではなく、導光部材55の先端面55dの端面を研磨または溶融加工することで、出光部材62の基端面62abへ向かうレーザ光を集光させてもよい。この場合、導光部材55の先端面55dの端面は、半球状、非球面状、円錐状、中央が平面で周縁が球面の組合せ形状、等の形状を、加工の容易性や加工時間との兼ね合いで適宜採用することができる。集光レンズまたは端面形状によって出光部材62の基端面62abへレーザ光を集光させて入光させる場合、導光部材55の直径を、出光部材62の直径よりも大きくすることができ、導光部材55で導光できるレーザ光のエネルギ量をより大きくすることができる。さらに、出光部材62の基端面62abへ、ある程度の角度をもってレーザ光が入光されるため、出光部材62の内部におけるレーザ光の導光中に、出光部材62内部でレーザ光が反射を繰り返しやすくなる。その結果として、出光端62aaから照射されるレーザ光のエネルギ分布は照射領域内において略均一なものとなり、さらに、出光端62aaの中央部にレーザ光のエネルギが集中することが避けられることから、当該中央部だけが周縁部に比べて磨耗しやすいという問題も回避される。 In addition, the laser beam toward the base end surface 62ab of the light output member 62 may be condensed by polishing or melting the end surface of the front end surface 55d of the light guide member 55 instead of disposing the condensing lens. . In this case, the end surface of the front end surface 55d of the light guide member 55 has a hemispherical shape, an aspherical shape, a conical shape, a combined shape in which the center is a plane and the periphery is a spherical shape, etc. It is possible to adopt as appropriate in balance. When the laser light is condensed and incident on the base end surface 62ab of the light output member 62 by the condensing lens or the end surface shape, the diameter of the light guide member 55 can be made larger than the diameter of the light output member 62. The amount of energy of the laser beam that can be guided by the member 55 can be further increased. Further, since the laser light is incident on the base end face 62ab of the light output member 62 at a certain angle, the laser light easily repeats reflection inside the light output member 62 during the light guide of the laser light inside the light output member 62. Become. As a result, the energy distribution of the laser light emitted from the light exit end 62aa becomes substantially uniform in the irradiated region, and further, it is avoided that the energy of the laser light is concentrated on the central portion of the light exit end 62aa. The problem that only the central part is more easily worn than the peripheral part is also avoided.
さらに、出光部材62の基端面62abを、凹面あるいは凸面状に形成することで、レーザ光が入光される際に屈折が起こり、出光部材62の内部におけるレーザ光の導光中に、出光部材62内部でレーザ光がさらに反射を繰り返しやすくなる。なお、上記の各導光ファイバは、内面にポリイミドや環状オレフィンポリマーなどの誘電体薄膜を設けた中空ファイバとしてもよい。また、上記のように導光部材55の先端面55dを加工する場合は、導光部材55を中実とし、出光部材62のみを中空とすることができる。 Further, by forming the base end face 62ab of the light exiting member 62 in a concave or convex shape, refraction occurs when the laser light enters, and the light exiting member 62 is guided during the laser light guiding inside the light exiting member 62. It becomes easier for the laser beam to be repeatedly reflected inside 62. In addition, each said light guide fiber is good also as a hollow fiber which provided dielectric thin films, such as a polyimide and a cyclic olefin polymer, on the inner surface. Moreover, when processing the front end surface 55d of the light guide member 55 as described above, the light guide member 55 can be solid, and only the light output member 62 can be hollow.
該接続用円筒体56には、外パイプ53内に配設された前記通水チューブ54の先側が貫装保持され、該通水チューブ54の先端は該接続用円筒体56の先端面より露出して水の送出口54aとされている。更に、該接続用円筒体56には、外パイプ53内の空洞部(通気管路)53aから、先端側に通じるエア噴出用の通孔562が形成され、該通孔562の先端が前記水の送出口54aに隣接するエアの噴出口562aとされる。 The front end of the water flow tube 54 disposed in the outer pipe 53 is penetratingly held in the connection cylindrical body 56, and the front end of the water flow tube 54 is exposed from the front end surface of the connection cylindrical body 56. Thus, the water outlet 54a is provided. Further, the connecting cylindrical body 56 is formed with an air ejection through hole 562 that communicates from the hollow portion (vent pipe) 53a in the outer pipe 53 to the front end side, and the front end of the through hole 562 is the water The air outlet 562a is adjacent to the outlet 54a.
前記連結手段7によるチップ基部材5とチップ先端部材6との嵌合連結状態においては、チップ先端部材6の脱落防止の措置が図られていることが望ましい。最も簡易な脱落防止手段としては、該連結を圧入嵌合によるものとし、嵌合部分の相互の摩擦力によって、チップ先端部材6を保持するよう構成することができるが、図4の拡大部分や、図7(a)(b)(c)に示す手段も望ましく採用される。以下、これらについて説明する。図4の拡大部分に示す例では、前記連結基部61の前記凹部561に対する嵌入側端部には、軸方向に延びる複数のスリット611が周方向に隔設され、隣り合うスリット611間の部分が径方向に弾性変形し得る弾性舌片612とされている。該弾性舌片612の外周面には周溝612aが形成され(図5も参照)、凹部561の内壁には、該周溝612aに対応する突条561aが周方向に沿って形成されている。このように構成された連結手段7の場合、連結基部61を凹部561に嵌入させてゆくと、弾性舌片612が突条561aの作用を受けて求心方向に弾性変形する。更に嵌入を続けると、突条561aが周溝612aに嵌り込み弾性舌片612が遠心方向に弾性復元する。この状態では、突条561aが周溝612aに嵌り込むことによる拘束作用により、チップ基部材5からのチップ先端部材6の脱落が防止される。そして、連結基部61を抜き出すよう操作すれば、弾性舌片612の同様の弾性変形により、チップ先端部材6を容易に取外すことができる。 In the fitting connection state of the chip base member 5 and the tip end member 6 by the connecting means 7, it is desirable that measures for preventing the tip end member 6 from falling off are taken. As the simplest drop-off prevention means, the connection is made by press-fitting, and the tip end member 6 can be held by the mutual frictional force of the fitting portion. The means shown in FIGS. 7A, 7B, and 7C are also preferably employed. Hereinafter, these will be described. In the example shown in the enlarged part of FIG. 4, a plurality of slits 611 extending in the axial direction are provided at the insertion side end of the coupling base 61 with respect to the recess 561, and a portion between adjacent slits 611 is formed. The elastic tongue piece 612 is elastically deformable in the radial direction. A circumferential groove 612a is formed on the outer peripheral surface of the elastic tongue 612 (see also FIG. 5), and a protrusion 561a corresponding to the circumferential groove 612a is formed along the circumferential direction on the inner wall of the recess 561. . In the case of the connecting means 7 configured as described above, when the connecting base 61 is fitted into the recess 561, the elastic tongue 612 is elastically deformed in the centripetal direction under the action of the protrusion 561a. When the fitting is further continued, the protrusion 561a is fitted into the circumferential groove 612a, and the elastic tongue piece 612 is elastically restored in the centrifugal direction. In this state, the tip end member 6 is prevented from falling off from the tip base member 5 due to the restraining action caused by the protrusions 561a fitting into the circumferential grooves 612a. And if it operates so that the connection base part 61 may be extracted, the chip | tip tip member 6 can be easily removed by the same elastic deformation of the elastic tongue piece 612. FIG.
図7(a)の例では、前記連結基部61の前記凹部561に対する嵌入側端部には、雄ねじ部613が形成され、一方、前記凹部561の内面には、該雄ねじ部613を螺装し得る雌ねじ部561bが形成されている。従って、凹部561に連結基部61を挿入し、捻回させて雌ねじ部561bに雄ねじ部613を螺合させることによって、チップ先端部材6のチップ基部材5に対する安定的な連結状態が達成される。チップ先端部材6を逆方向に捻回させて雌ねじ部561bに対する雄ねじ部613の螺合を解除させることによって、チップ先端部材6を容易に取外すことができる。図7(b)の例では、前記連結基部61の前記凹部561に対する嵌入側端部に弾性変形可能な鉤形爪片614が延出され、前記凹部561の内面には、該鉤形爪片614が嵌り込む係合孔561cが形成されている。従って、凹部561に連結基部61を挿入する際、鉤形爪片614が凹部561の内壁の作用を受けて求心方向に撓むように弾性変形し、その後、図示のように係合孔561cに鉤形爪片614が嵌り込む。係合孔561cと鉤形爪片614との嵌り込み係合関係によって、チップ先端部材6のチップ基部材5に対する安定的な連結状態が維持される。そして、連結基部61を抜き出すよう操作すれば、鉤形爪片614の求心方向への同様の弾性変形により、係合孔561cと鉤形爪片614との嵌り込み係合関係が解除され、チップ先端部材6を容易に取外すことができる。図7(c)の例では、前記連結基部61の前記凹部561に対する嵌入側端部の周体に周溝615が形成され、一方、前記凹部561の内面には、該周溝615に対応する位置に板ばねからなる環状弾性部材561dが装着されている。該弾性部材561dは、径方向外側への外力が付加されると同方向に弾性変形するものであり、板ばねに限らず、ゴム或いは弾性樹脂からなるものでも良い。この例の場合、凹部561に連結基部61を挿入する際、連結基部61の外周面の作用を受けて弾性部材561dが遠心方向に弾性変形する。更に挿入を続けると、周溝615において弾性部材561dが求心方向に弾性復元し、該周溝615内に嵌り込んで周溝615と弾性部材561dとの噛み合うような係合関係により、チップ先端部材6のチップ基部材5に対する安定的な連結状態が維持される。そして、連結基部61を抜き出すよう操作すれば、弾性部材561dの遠心方向への同様の弾性変形により、周溝615と弾性部材561dとの噛み合い係合関係が解除され、チップ先端部材6を容易に取外すことができる。 In the example of FIG. 7A, a male screw part 613 is formed at the end of the coupling base 61 on the side where the concave part 561 is fitted, while the male screw part 613 is screwed on the inner surface of the concave part 561. An internal thread portion 561b to be obtained is formed. Therefore, a stable connection state of the tip end member 6 to the chip base member 5 is achieved by inserting the connection base portion 61 into the concave portion 561 and twisting the male screw portion 613 into the female screw portion 561b. The tip end member 6 can be easily removed by twisting the tip end member 6 in the reverse direction to release the screwing of the male screw portion 613 with respect to the female screw portion 561b. In the example of FIG. 7B, a hook-shaped claw piece 614 that can be elastically deformed is extended to an end portion of the coupling base 61 that is fitted into the recess 561, and the hook-shaped claw piece is formed on the inner surface of the recess 561. An engagement hole 561c into which 614 is fitted is formed. Therefore, when the coupling base 61 is inserted into the concave portion 561, the hook-shaped claw piece 614 is elastically deformed so as to bend in the centripetal direction under the action of the inner wall of the concave portion 561, and then into the engagement hole 561c as shown in the drawing. The nail piece 614 is fitted. Due to the fitting engagement relationship between the engagement hole 561c and the hook-shaped claw piece 614, a stable connection state of the tip end member 6 to the tip base member 5 is maintained. Then, if the operation is performed so as to extract the connection base 61, the engagement engagement relationship between the engagement hole 561c and the hook-shaped claw piece 614 is released by the same elastic deformation in the centripetal direction of the hook-shaped claw piece 614, and the tip The tip member 6 can be easily removed. In the example of FIG. 7C, a circumferential groove 615 is formed on the peripheral body of the fitting side end of the coupling base 61 with respect to the concave portion 561, while the inner surface of the concave portion 561 corresponds to the circumferential groove 615. An annular elastic member 561d made of a leaf spring is mounted at the position. The elastic member 561d is elastically deformed in the same direction when an external force is applied outward in the radial direction, and is not limited to a leaf spring but may be made of rubber or elastic resin. In this example, when the connection base 61 is inserted into the recess 561, the elastic member 561d is elastically deformed in the centrifugal direction under the action of the outer peripheral surface of the connection base 61. When the insertion is further continued, the elastic member 561d is elastically restored in the centripetal direction in the circumferential groove 615, and the tip end member is engaged with the circumferential groove 615 by engaging with the circumferential groove 615 and the elastic member 561d. The stable connection state with respect to the chip base member 5 of 6 is maintained. Then, if the operation is performed so as to extract the connection base 61, the meshing engagement relationship between the circumferential groove 615 and the elastic member 561d is released by the same elastic deformation in the centrifugal direction of the elastic member 561d, and the tip end member 6 can be easily moved. Can be removed.
上述の脱落防止手段は、典型例を示したに過ぎず、例えば、チップ先端部材6及びチップ基部材5の一方に磁石を設け、他方の部材を該磁石に吸着される金属の成形体によって構成することも可能であり、これらは設計的に適宜選択採用される。また、前記凹部561の内壁と連結基部61との間にOリング等のシール部材を設けることで、該シール部材による摩擦力で脱落防止を図るとともに、凹部561内を水密に保持することもできる。凹部561内を水密に保持することは、例えばEr:YAGレーザのように水に吸収されやすいレーザ光を照射する場合、レーザ照射チップ内部においてレーザ光が水に反応し、その作用で導光部材55や出光部材62が破損するのを防止することができ、有益である。また、図7(a)ないし(c)はいずれも連結基部61を接続用円筒体56の凹部561に嵌入させる方式であるが、連結基部61に凹部を設け、接続用円筒体56をその凹部に嵌入させる雄側と雌側が逆になった構造でもよい。 The drop-off prevention means described above is merely a typical example. For example, a magnet is provided on one of the tip end member 6 and the tip base member 5, and the other member is formed of a metal molded body that is attracted to the magnet. These can also be selected, and these are appropriately selected and adopted in design. Further, by providing a sealing member such as an O-ring between the inner wall of the concave portion 561 and the connecting base portion 61, it is possible to prevent dropping by the frictional force of the sealing member and to keep the concave portion 561 watertight. . Keeping the inside of the concave portion 561 watertight means that, for example, when irradiating laser light that is easily absorbed by water, such as an Er: YAG laser, the laser light reacts with water inside the laser irradiation chip, and the light guide member is caused by its action. 55 and the light-emitting member 62 can be prevented from being damaged, which is beneficial. 7A to 7C show a method in which the coupling base 61 is fitted into the concave portion 561 of the connecting cylindrical body 56. The concave portion is provided in the coupling base portion 61, and the connecting cylindrical body 56 is disposed in the concave portion. A structure in which a male side and a female side to be inserted into the base are reversed may be used.
以上のとおり、本実施形態のチップ先端部材6、該チップ先端部材6を含む歯科用レーザ照射チップ4、該歯科用レーザ照射チップ4を装着して構成される歯科用レーザハンドピース2、並びに、該歯科用レーザハンドピース2を含む歯科用レーザ装置1によれば、レーザ発生装置11で発生したレーザ光は、フレキシブルホース3内の導光体11a、ハンドピース本体20内の導光路21、チップ基部材5内の導光部材55及びチップ先端部材6の出光部材62を経て、その出光端62aaより目的部位(患部)に照射される。この時、水供給源12から供給される水は、フレキシブルホース3内の水供給チューブ12a、ハンドピース本体20内の通水管路22、及びチップ基部材5内の通水チューブ54を経て、通水チューブ54の先端送出口54aより目的部位(患部)に向け送出される。また、エア供給源13から供給されるエアは、フレキシブルホース3内のエア供給チューブ13a、ハンドピース本体20内の通気管路23、外パイプ53内の空洞部(通気管路)53a及び先側部56内の通孔562を経てエアの噴出口562aより目的部位(患部)に噴出される。エアの噴出口562aは、水の送出口54aに近接して設けられているから、水がミストとなって患部に噴射され、患部の冷却や処置異物等の除去、あるいはレーザ光を吸収させるための目的部位への水付着が効果的になされる。
尚、本実施形態では、水及びエアの両方の供給系を備えたものとしたが、少なくともどちらか一方を備えたものであっても良い。また、本実施形態では、水及びエアの管路をチップ基部材5のみに設けたものとしたが、チップ先端部材6にも同様に水あるいはエアの管路(不図示)を設け、チップ基部材5の管路と接続し、チップ先端部材6に水の送出口54aあるいはエアの噴出口562aを設けてもよい。また、水及びエアの供給系を、導光部材を内包する管路とし、レーザ光、水、及びエアを同軸状に供給する構成としてもよい。
As described above, the tip end member 6 of the present embodiment, the dental laser irradiation chip 4 including the tip end member 6, the dental laser handpiece 2 configured by mounting the dental laser irradiation chip 4, and According to the dental laser device 1 including the dental laser handpiece 2, the laser light generated by the laser generator 11 is transmitted through the light guide 11 a in the flexible hose 3, the light guide path 21 in the handpiece body 20, and the chip. After passing through the light guide member 55 in the base member 5 and the light output member 62 of the tip end member 6, the target portion (affected part) is irradiated from the light output end 62aa. At this time, the water supplied from the water supply source 12 passes through the water supply tube 12 a in the flexible hose 3, the water conduit 22 in the handpiece body 20, and the water conduit 54 in the chip base member 5. The water tube 54 is sent out toward the target site (affected area) from the distal end delivery port 54a. The air supplied from the air supply source 13 includes an air supply tube 13 a in the flexible hose 3, a vent pipe 23 in the handpiece body 20, a cavity (a vent pipe) 53 a in the outer pipe 53, and the front side. It is ejected from the air outlet 562a to the target site (affected site) through the through hole 562 in the portion 56. Since the air ejection port 562a is provided close to the water delivery port 54a, water becomes a mist and is sprayed onto the affected area to cool the affected area, remove the treatment foreign matter, or absorb the laser beam. Water adhesion to the target site is effectively made.
In the present embodiment, both water and air supply systems are provided, but at least one of them may be provided. In this embodiment, the water and air conduits are provided only on the tip base member 5, but the tip end member 6 is similarly provided with a water or air conduit (not shown) to provide a tip base. It may be connected to the pipe line of the member 5, and the tip end member 6 may be provided with a water outlet 54 a or an air outlet 562 a. In addition, the water and air supply system may be a pipe that includes the light guide member, and the laser light, water, and air may be supplied coaxially.
歯科用のレーザ装置の場合、出光端62aaを歯牙や歯肉の表面に近接させて、あるいは接触させて、レーザ光の照射治療がなされる。その為、歯牙からのはね返りにより、また、出光端部分の特に中央へのレーザエネルギの集中が生じ易く、出光端62aa及びその近傍部分が損耗し易く、そのまま継続して使用すると、レーザ光の照射効率や照射精度が低下する。而して、本実施形態の歯科用レーザ装置1の場合、このように出光端62aa及びその近傍部分が損耗した時は、前記連結手段7をして、チップ先端部材6をチップ基部材5から取外し、損耗のない新品に容易に取替えることができる。チップ基部材5は、ハンドピース本体20に装着させたままで良いから、チップ先端部材6にはチップ基部材5に設けられるプラグ部51や回転摘み部52のような高価な接続部が不要とされ、従って、消耗品として複数準備し、損耗した場合や治療態様に応じて適宜取替え使用するようにしても、ユーザに対するコスト的負担が大きくなることもない。特に、出光部材62として、照射精度の高い高価なサファイアファイバや、例えばテーパ形状の先端部のように形状上やむを得ず耐久性が低くなるファイバ等を使用しても、コストメリットが充分に得られる。 In the case of a dental laser device, the light emitting end 62aa is brought close to or in contact with the surface of a tooth or gum, and laser beam irradiation treatment is performed. For this reason, the laser energy is likely to be concentrated at the light emitting end portion, particularly at the center due to the rebound from the tooth, and the light emitting end 62aa and the vicinity thereof are easily worn out. Efficiency and irradiation accuracy decrease. Thus, in the case of the dental laser device 1 of the present embodiment, when the light emitting end 62aa and the vicinity thereof are worn out in this way, the connecting means 7 is used to remove the tip end member 6 from the tip base member 5. It can be easily removed and replaced with a new one with no wear. Since the tip base member 5 may remain attached to the handpiece body 20, the tip tip member 6 does not require expensive connection parts such as the plug part 51 and the rotary knob 52 provided on the tip base member 5. Therefore, even if a plurality of consumables are prepared and worn and used as appropriate according to the treatment mode, the cost burden on the user does not increase. In particular, even if an expensive sapphire fiber with high irradiation accuracy or a fiber whose durability is inevitably reduced, such as a tapered tip, is used as the light output member 62, cost merit can be sufficiently obtained.
図8〜図12は、本発明の第2の実施形態であって、更に詳しくは、前記態様2に係る連結手段によりチップ基部材5とチップ先端部材6とが着脱自在とされる歯科用レーザ照射チップ4を示している。図8は同歯科用(医療用)レーザ照射チップの正面図、図9は同歯科用レーザ照射チップの断面図、図10は同歯科用レーザ照射チップにおいてチップ基部材とチップ先端部材とを分離した状態を示す斜視図、図11は同歯科用レーザ照射チップの斜視図、図12(a)(b)は図9におけるY−Y線矢視拡大断面図であり、(a)はチップ基部材とチップ先端部材とを連結する前の状態を、(b)は連結後の状態を示す。本実施形態において、チップ基部材5のハンドピース本体に対する接続部の構造は、第1の実施形態と同様であるから、共通部分に同一の符号を付し、以下ではその説明を割愛する。 FIGS. 8 to 12 show a second embodiment of the present invention, and more specifically, a dental laser in which the tip base member 5 and the tip end member 6 are detachable by the connecting means according to the second aspect. The irradiation chip 4 is shown. 8 is a front view of the dental (medical) laser irradiation chip, FIG. 9 is a sectional view of the dental laser irradiation chip, and FIG. 10 is a separation of the chip base member and the tip end member of the dental laser irradiation chip. FIG. 11 is a perspective view of the dental laser irradiation chip, FIGS. 12A and 12B are enlarged sectional views taken along line YY in FIG. 9, and FIG. The state before connecting the member and the tip end member is shown, and (b) shows the state after connection. In this embodiment, since the structure of the connection part with respect to the handpiece main body of the chip | tip base member 5 is the same as that of 1st Embodiment, the same code | symbol is attached | subjected to a common part and the description is omitted below.
図に示すように、チップ先端部材6の連結基部61は、樹脂の成形体からなり、そのチップ基部材5側へ臨む部分には、該チップ基部材5の先側部56を長手方向に沿って(導光方向に沿って)嵌受し得る円筒状凹部616を有している。一方、チップ基部材5の先側部56は、前記と同様に金属(ステンレス、真鍮等)、セラミックス(ジルコニア等)、或いは樹脂等により成形された接続用円筒体とされているが、該接続用円筒体56の外径は、前記凹部616に内嵌し得る大きさとされている。従って、接続用円筒体56を凹部616に嵌合させることによって、チップ基部材5をチップ先端部材6に連結させることができ、これらによって連結手段7A(態様2)が構成される。接続用円筒体56には、前記と同様に前記外パイプ53内に配設された導光部材55の先端面55dが、先側に突出するよう一体保持されている。該凹部616に接続用円筒体56を嵌入してチップ先端部材6をチップ基部材5に連結した時には、チップ先端部材6の出光部材62における基端面62abが、該先端面55dに対峙するよう構成されている。この対峙部分には前記と同様にカップリンググリスを介在させておく等の処置を採用することが望ましい。 As shown in the drawing, the connecting base portion 61 of the tip end member 6 is formed of a resin molded body, and the tip side portion 56 of the tip base member 5 is arranged along the longitudinal direction at a portion facing the tip base member 5 side. A cylindrical recess 616 that can be received (along the light guide direction). On the other hand, the tip side portion 56 of the chip base member 5 is a connecting cylinder formed of metal (stainless steel, brass, etc.), ceramics (zirconia, etc.), resin, or the like, as described above. The outer diameter of the cylinder for use 56 is set to a size that can be fitted into the recess 616. Therefore, the chip base member 5 can be connected to the tip end member 6 by fitting the connecting cylindrical body 56 into the recess 616, and these constitute the connecting means 7A (mode 2). The front end surface 55d of the light guide member 55 disposed in the outer pipe 53 is integrally held by the connecting cylinder 56 so as to protrude to the front side. When the connecting cylindrical body 56 is fitted into the recess 616 and the tip end member 6 is connected to the tip base member 5, the base end face 62ab of the light output member 62 of the tip end member 6 faces the tip end face 55d. Has been. It is desirable to adopt a measure such as interposing coupling grease in the opposite part as described above.
また、前記接続用円筒体56には、外パイプ53内に配設された前記通水チューブ54の先側が貫装保持され、その先側が突出している。そして、チップ先端部材6をチップ基部材5に連結する際には、該通水チューブ54の先側はチップ先端部材6の連結基部61に形成された挿通孔617に遊挿され、連結基部61の先端面より露出して水の送出口54aとされている。更に、該接続用円筒体56には、外パイプ53の空洞部53aから、先端側に通じるエア噴出用の通孔562が形成され、該通孔562は、チップ先端部材6をチップ基部材5に連結した時には、連結基部61に形成された挿通孔617に連通し、該挿通孔617はエア噴出用の通孔を兼ね、その先端が前記水の送出口54aの周りからエアを噴出させる為のエアの噴出口617aとされる。接続用円筒体56の外パイプ53との一体固着基部には、鍔部563が形成され、該鍔部563の一部に切欠部563aが形成されている。一方、先端部材6の連結基部61には、その接続用円筒体56との連結側端部に長手方向に延びる突片61aが形成され、図11に示すように、該突片61aを切欠部563aに整合させることによって、これらを目印として、チップ先端部材6のチップ基部材5に対する正常な連結が容易になし得る。 In addition, the connecting cylinder 56 has the front side of the water flow tube 54 disposed in the outer pipe 53 penetratingly held, and the front side protrudes. When the tip end member 6 is connected to the tip base member 5, the front side of the water flow tube 54 is loosely inserted into an insertion hole 617 formed in the connection base 61 of the tip end member 6, and the connection base 61 The water outlet 54a is exposed from the front end surface. Further, the connection cylindrical body 56 is formed with an air ejection through hole 562 that communicates from the cavity 53 a of the outer pipe 53 to the distal end side, and the through hole 562 connects the tip distal end member 6 to the chip base member 5. , The insertion hole 617 also serves as an air ejection hole, and the tip of the insertion hole 617 ejects air from around the water outlet 54a. The air outlet 617a. A flange portion 563 is formed on a base portion of the connecting cylinder 56 that is integrally fixed to the outer pipe 53, and a notch portion 563 a is formed in a part of the flange portion 563. On the other hand, a protruding piece 61a extending in the longitudinal direction is formed on the connecting base portion 61 of the tip member 6 at the connecting side end portion with the connecting cylindrical body 56. As shown in FIG. By aligning with 563a, normal connection of the tip end member 6 to the tip base member 5 can be easily made using these as marks.
この実施形態においても、チップ先端部材6の脱落防止手段が採用されている。即ち、前記接続用円筒体56の周体には断面山形の開環リング564が、図12(a)に示すように抜出不能に遊嵌され、一方、前記連結基部61の凹部616の内壁面には、該開環リング564に対応する位置に周溝616aが形成されている。従って、チップ先端部材6を、連結基部61の凹部616と接続用円筒体56との嵌合をして、チップ基部材5に連結する際、凹部616の内壁の作用を受けて、図12(b)に示すように開環リング564がその開環部分564aの存在により縮径する。その後、開環リング564が周溝616aに整合する位置に達すると、開環リング564が周溝616aに嵌り込み、その拡径作用により、周溝616aと接続用円筒体56との間で係合してチップ先端部材6の脱落を防止すべく機能する。チップ先端部材6の脱落防止手段としては、この例に限定されず、前述の種々の手段が採用され得ることは言うまでもない。 Also in this embodiment, means for preventing the tip end member 6 from falling off is employed. That is, an annular ring 564 having a mountain-shaped cross section is loosely fitted to the periphery of the connecting cylindrical body 56 so as not to be pulled out as shown in FIG. A circumferential groove 616 a is formed on the wall surface at a position corresponding to the ring-opening ring 564. Accordingly, when the tip end member 6 is connected to the tip base member 5 by fitting the recess 616 of the connection base 61 with the connecting cylindrical body 56, the inner surface of the recess 616 receives the action of FIG. As shown in b), the ring-opening ring 564 is reduced in diameter by the presence of the ring-opening portion 564a. Thereafter, when the ring-opening ring 564 reaches a position where it is aligned with the circumferential groove 616a, the ring-opening ring 564 is fitted into the circumferential groove 616a, and the diameter expansion action causes the engagement between the circumferential groove 616a and the connecting cylindrical body 56. Together, it functions to prevent the tip end member 6 from falling off. Needless to say, the means for preventing the tip end member 6 from falling off is not limited to this example, and various means described above may be employed.
この実施形態でも、第1の実施形態と同様に、出光端62aaからの患部へのレーザ光の照射、送出口54aからの水の送出、噴出口617aからのエアの噴出がなし得る。また、出光端62aa及びその近傍部位が損耗した時には、チップ先端部材6のみを別のものに容易に交換することができ、ユーザにおけるコスト的負担を軽減することができる。前述のとおり、ハンドピース本体20との装着部の構成は第1の実施形態と同様であり、また、当該装着部以外のその他の構成も第1の実施形態と同様であるから、共通部分に同一の符号を付し、その説明を割愛する。 In this embodiment as well, similarly to the first embodiment, it is possible to irradiate the affected area with the laser beam from the light exit end 62aa, to send out water from the outlet 54a, and to eject air from the outlet 617a. Further, when the light emitting end 62aa and the vicinity thereof are worn out, only the tip end member 6 can be easily replaced with another one, and the cost burden on the user can be reduced. As described above, the configuration of the mounting portion with the handpiece main body 20 is the same as that of the first embodiment, and other configurations other than the mounting portion are the same as those of the first embodiment. The same reference numerals are given and the description thereof is omitted.
図13〜図16は、本発明の第3の実施形態であって、更に詳しくは、前記態様3に係る連結手段によりチップ基部材5とチップ先端部材6とが着脱自在とされる歯科用レーザ照射チップ4を示している。図13は同歯科用(医療用)レーザ照射チップの正面図、図14は同歯科用レーザ照射チップの断面図、図15は同歯科用レーザ照射チップにおいてチップ基部材とチップ先端部材とを分離した状態を示す斜視図、図16は同歯科用レーザ照射チップの斜視図である。本実施形態においても、チップ基部材5のハンドピース本体に対する接続部の構造は、第1の実施形態と同様であるから、共通部分に同一の符号を付し、以下ではその説明を割愛する。 FIGS. 13 to 16 show a third embodiment of the present invention, and more specifically, a dental laser in which the tip base member 5 and the tip end member 6 are detachable by the connecting means according to the third aspect. The irradiation chip 4 is shown. FIG. 13 is a front view of the dental (medical) laser irradiation chip, FIG. 14 is a sectional view of the dental laser irradiation chip, and FIG. 15 is a separation of the chip base member and the tip end member of the dental laser irradiation chip. FIG. 16 is a perspective view of the dental laser irradiation chip. Also in this embodiment, since the structure of the connection portion of the chip base member 5 with respect to the handpiece body is the same as that of the first embodiment, the same reference numerals are given to common portions, and the description thereof is omitted below.
図に示すように、チップ先端部材6の連結基部61は、略角柱状の樹脂の成形体からなり、前記と同様の出光部材62を一体保持し、該連結基部61の基端部には出光部材62の基端面62abが露出している。一方、チップ基部材5の先側部56は、前記と同様に金属(ステンレス、真鍮等)、セラミックス(ジルコニア等)、或いは樹脂等により成形された接続用円筒体とされており、該接続用円筒体56には、その長手方向(レーザ光の導光方向)に直交する方向に沿って連結基部61を嵌受し得る凹部565が設けられている。前記と同様に外パイプ53内に配設された導光部材55の先側が該接続用円筒体56に一体保持され、その先端面55dが凹部565内に臨んでいる。従って、連結基部61を接続用円筒体56の凹部565内に嵌合させることによって、チップ基部材5をチップ先端部材6に連結させることができ、これらによって連結手段7B(態様3)が構成される。そして、この連結によって導光部材55の先端面55dと出光部材62の基端面62abとが対峙するよう構成されている。この対峙部分には、前記と同様カップリンググリスを介在させる等の処置を採用することが望ましい。 As shown in the figure, the connecting base portion 61 of the tip end member 6 is made of a substantially prismatic resin molding, and a light output member 62 similar to that described above is integrally held. The base end face 62ab of the member 62 is exposed. On the other hand, the front side portion 56 of the chip base member 5 is a connecting cylinder formed of metal (stainless steel, brass, etc.), ceramics (zirconia, etc.), resin, or the like as described above. The cylindrical body 56 is provided with a recess 565 that can receive the connection base 61 along a direction orthogonal to the longitudinal direction (laser light guiding direction). Similarly to the above, the front side of the light guide member 55 disposed in the outer pipe 53 is integrally held by the connecting cylindrical body 56, and the front end surface 55 d faces the recess 565. Therefore, the chip base member 5 can be coupled to the tip end member 6 by fitting the coupling base 61 into the recess 565 of the connecting cylindrical body 56, and these constitute the coupling means 7B (mode 3). The And by this connection, it is comprised so that the front end surface 55d of the light guide member 55 and the base end surface 62ab of the light output member 62 may oppose. It is desirable to employ a treatment such as interposing coupling grease in the opposite part as described above.
接続用円筒体56の先端部にはフランジ部566が一体形成され、該フランジ部566には、前記連結基部61を前記凹部565に嵌合した状態で出光部材62を挿通保持するも、連結基部61のその長手方向に沿った抜出を阻止し得る幅の切欠566aが形成されている。そして、凹部565の開口幅と略同幅の開環部567aを有する凹部開閉用リング部材567が、前記連結手段7Bの一構成部材として、接続用円筒体56の周体に回転可能に環装されている。従って、該凹部開閉用リング部材567を、その開環部567aが凹部565の開口部に整合するようして(図15の状態)、連結基部61を凹部565に嵌合させ、その後凹部開閉用リング部材567を接続用円筒体56の周りに回転させて凹部565の開口部を閉塞するようにすれば、図13、図14及び図16に示すように、チップ先端部材6がチップ基部材5に対して脱落不能に連結される。 A flange portion 566 is integrally formed at the distal end portion of the connecting cylindrical body 56, and the light output member 62 is inserted and held in the flange portion 566 in a state where the connection base portion 61 is fitted in the recess portion 565. A notch 566a having a width that can prevent the 61 from being pulled out along its longitudinal direction is formed. Then, a recess opening / closing ring member 567 having an opening portion 567a having substantially the same width as the opening width of the recess 565 is provided as a component member of the connecting means 7B so as to be rotatable around the periphery of the connecting cylinder 56. Has been. Accordingly, the ring member 567 for opening / closing the recess is fitted to the recess 565 with the ring opening portion 567a aligned with the opening of the recess 565 (the state shown in FIG. 15), and then the recess opening / closing portion is opened. If the ring member 567 is rotated around the connecting cylindrical body 56 to close the opening of the recess 565, the tip end member 6 becomes the tip base member 5 as shown in FIGS. It is connected so that it cannot fall off.
凹部開閉用リング部材567は、その内径を接続用円筒体56の外径よりやや小さく形成し、開環部567aをして拡径するようにして、接続用円筒体56に環装されている。その為、該凹部開閉用リング部材567は常時縮径方向の付勢力を保有しており、該凹部開閉用リング部材567内壁と接続用円筒体56の表面との間に生じる摩擦力によって、該凹部開閉用リング部材567の接続用円筒体56に対する回転が規制される。従って、前記閉塞状態が維持され、治療操作中においてもチップ先端部材6がチップ基部材5から不意に脱落することがない。 The recess opening / closing ring member 567 is circularly mounted on the connecting cylinder 56 so that the inner diameter thereof is slightly smaller than the outer diameter of the connecting cylinder 56 and the diameter of the ring opening 567a is increased. . Therefore, the recess opening / closing ring member 567 always has an urging force in the direction of diameter reduction, and the frictional force generated between the inner wall of the recess opening / closing ring member 567 and the surface of the connecting cylindrical body 56 The rotation of the recess opening / closing ring member 567 relative to the connecting cylinder 56 is restricted. Therefore, the closed state is maintained, and the tip end member 6 is not unexpectedly dropped from the tip base member 5 even during the treatment operation.
また、接続用円筒体56には外パイプ53内に配設された通水チューブ54の先側が一体保持され、その先端が接続用円筒体56の先端面より露出し、水の送出口54aとされている。更に、接続用円筒体56には、外パイプ53の空洞部53aに通じる2本の通孔562が形成され、該通孔562の先端は接続用円筒体56の先端面において水の送出口54aに近接して開口し、エアの噴出口562aとされている。 Further, the connecting cylinder 56 integrally holds the front side of the water flow tube 54 disposed in the outer pipe 53, the tip of the connecting cylinder 56 is exposed from the tip of the connecting cylinder 56, and the water outlet 54a. Has been. Further, the connecting cylinder 56 is formed with two through holes 562 communicating with the cavity 53 a of the outer pipe 53, and the tip of the through hole 562 is the water outlet 54 a on the tip surface of the connecting cylinder 56. The air outlet 562a is opened in the vicinity.
この実施形態でも、第1の実施形態と同様に、出光端62aaからの患部へのレーザ光の照射、送出口54aからの水の送出、噴出口562aからのエアの噴出がなし得る。また、出光端62aa及びその近傍部位が損耗した時には、チップ先端部材6のみを別のものに容易に交換することができ、ユーザにおけるコスト的負担を軽減することができる。前述のとおり、ハンドピース本体20との装着部の構成は第1の実施形態と同様であり、また、当該装着部以外のその他の構成も第1の実施形態と同様であるから、共通部分に同一の符号を付し、ここでもその説明を割愛する。 Also in this embodiment, similarly to the first embodiment, irradiation of the laser beam to the affected part from the light exit end 62aa, delivery of water from the delivery port 54a, and ejection of air from the ejection port 562a can be achieved. Further, when the light emitting end 62aa and the vicinity thereof are worn out, only the tip end member 6 can be easily replaced with another one, and the cost burden on the user can be reduced. As described above, the configuration of the mounting portion with the handpiece main body 20 is the same as that of the first embodiment, and other configurations other than the mounting portion are the same as those of the first embodiment. The same reference numerals are given, and the description thereof is omitted here.
図17〜図20は、本発明の第4の実施形態であって、更に詳しくは、前記態様4に係る連結手段によりチップ基部材5とチップ先端部材6とが着脱自在とされる歯科用レーザ照射チップ4を示している。図17は同歯科用(医療用)レーザ照射チップの正面図、図18は同歯科用レーザ照射チップの断面図、図19は同歯科用レーザ照射チップにおいてチップ基部材とチップ先端部材とを分離した状態を示す斜視図、図20は同歯科用レーザ照射チップの斜視図である。本実施形態においても、チップ基部材5のハンドピース本体に対する接続部の構造は、第1の実施形態と同様であるから、共通部分に同一の符号を付し、以下ではその説明を割愛する。 FIGS. 17 to 20 show a fourth embodiment of the present invention, and more specifically, a dental laser in which the tip base member 5 and the tip end member 6 are detachable by the connecting means according to the fourth aspect. The irradiation chip 4 is shown. 17 is a front view of the dental (medical) laser irradiation chip, FIG. 18 is a sectional view of the dental laser irradiation chip, and FIG. 19 is a separation of the chip base member and the tip end member of the dental laser irradiation chip. FIG. 20 is a perspective view of the dental laser irradiation chip. Also in this embodiment, since the structure of the connection portion of the chip base member 5 with respect to the handpiece body is the same as that of the first embodiment, the same reference numerals are given to common portions, and the description thereof is omitted below.
図に示すように、チップ先端部材6の連結基部61は、円柱状の樹脂の成形体からなり、前記と同様の出光部材62を一体保持し、該連結基部61の基端部には出光部材62の基端面62abが露出している。一方、チップ基部材5の先側部56は、前記と同様に金属(ステンレス、真鍮等)、セラミックス(ジルコニア等)、或いは樹脂等により成形された接続用円筒体とされており、該接続用円筒体56には、その長手方向(レーザ光の導光方向)に直交する方向に沿って連結基部61を嵌受し得る凹部568が設けられている。前記と同様に外パイプ53内に配設された導光部材55の先側が該接続用円筒体56に一体保持され、その先端面55dが凹部568内に臨んでいる。従って、連結基部61を接続用円筒体56の凹部568内に嵌合させることによって、チップ基部材5をチップ先端部材6に連結させることができ、これらによって連結手段7C(態様4)が構成される。そして、この連結によって導光部材55の先端面55dと出光部材62の基端面62abとが対峙するよう構成されている。この対峙部分には、前記と同様にカップリンググリスを介在させる等の処置を採用することが望ましい。 As shown in the figure, the connection base 61 of the tip end member 6 is formed of a cylindrical resin molded body, integrally holding a light output member 62 similar to the above, and a light output member at the base end of the connection base 61. The base end face 62ab of 62 is exposed. On the other hand, the front side portion 56 of the chip base member 5 is a connecting cylinder formed of metal (stainless steel, brass, etc.), ceramics (zirconia, etc.), resin, or the like as described above. The cylindrical body 56 is provided with a recess 568 capable of fitting the connection base 61 along a direction orthogonal to the longitudinal direction (laser light guiding direction). Similarly to the above, the front side of the light guide member 55 disposed in the outer pipe 53 is integrally held by the connecting cylindrical body 56, and the front end surface 55 d faces the recess 568. Therefore, the tip base member 5 can be connected to the tip end member 6 by fitting the connecting base 61 into the recess 568 of the connecting cylindrical body 56, and these constitute the connecting means 7C (mode 4). The And by this connection, it is comprised so that the front end surface 55d of the light guide member 55 and the base end surface 62ab of the light output member 62 may oppose. It is desirable to adopt a treatment such as interposing coupling grease in the opposite part as described above.
前記連結基部61の外周には、180°対向位置に一対の隆起部618が形成され、一方、前記凹部568の内面には、該隆起部618を受容し得る一対のガイド溝568aが形成されている。連結基部61の凹部568に対する嵌合は、該一対の隆起部618をガイド溝568aにそれぞれ受容整合させるようにしてなされる。従って、連結基部61の位置決めがなされるとともに、隆起部618とガイド溝568aとの係合関係によって、連結基部61の軸方向への抜出しが阻止される。そして、凹部568の開口幅と略同幅の開環部569aを有する凹部開閉用リング部材569が、前記連結手段7Cの一構成部材として、接続用円筒体56の周体に回転可能且つ軸方向(レーザ照射方向)に沿って摺動可能に環装されている。従って、該凹部開閉用リング部材569を、その開環部569aが凹部568の開口部に整合するようし、且つ外パイプ53側に後退させた状態にして(図19の状態)、連結基部61を凹部568に嵌合させ、その後凹部開閉用リング部材569を接続用円筒体56の周りに回転させ、且つ先端側に摺動させて凹部568の開口部を閉塞するようにすれば、図17、図18及び図20に示すように、チップ先端部材6がチップ基部材5に対して脱落不能に連結される。 A pair of raised portions 618 are formed on the outer periphery of the connecting base portion 61 at positions opposite to each other by 180 °. On the other hand, a pair of guide grooves 568a that can receive the raised portions 618 are formed on the inner surface of the recessed portion 568. Yes. The coupling base 61 is fitted into the recess 568 so that the pair of raised portions 618 are received and aligned with the guide grooves 568a. Accordingly, the connection base 61 is positioned, and the engagement relationship between the raised portion 618 and the guide groove 568a prevents the connection base 61 from being pulled out in the axial direction. A recess opening / closing ring member 569 having an opening portion 569a having substantially the same width as the opening width of the recess 568 is rotatable as a constituent member of the connecting means 7C on the periphery of the connecting cylinder 56 and axially. It is slidably mounted along (laser irradiation direction). Therefore, the ring member 569 for opening and closing the concave portion is set in a state in which the ring opening portion 569a is aligned with the opening portion of the concave portion 568 and retracted toward the outer pipe 53 (the state shown in FIG. 19). 17 is fitted into the recess 568, and then the recess opening / closing ring member 569 is rotated around the connecting cylindrical body 56 and is slid to the front end side to close the opening of the recess 568. FIG. 18 and 20, the tip end member 6 is connected to the tip base member 5 so as not to be detached.
凹部開閉用リング部材569は、第3の実施形態と同様に、その内径を接続用円筒体56の外径よりやや小さく形成し、開環部569aをして拡径するようにして、接続用円筒体56に環装されている。その為、該凹部開閉用リング部材569は常時縮径方向の付勢力を保有しており、該凹部開閉用リング部材569内壁と接続用円筒体56の表面との間に生じる摩擦力によって、該凹部開閉用リング部材569の接続用円筒体56に対する回転及び摺動が規制される。従って、前記閉塞状態が維持され、治療操作中においてもチップ基部材5からチップ先端部材6が不意に脱落することがない。更に、凹部開閉用リング部材569の先端部には、フランジ部566における切欠開口幅に略相当する幅の突起569bが形成され、凹部開閉用リング部材569を先側に摺動させた時には、この突起569bがフランジ部566における切欠開口部に嵌り込み、これによっても前記閉塞状態の維持が図られる。尚、この実施形態においては、前記凹部開閉用リング部材569を閉環状体としても良い。即ち、凹部開閉用リング部材569を接続用円筒体56に対して、その軸方向に沿って摺動のみ可能に環装しても同様の機能を奏する。 As in the third embodiment, the recess opening / closing ring member 569 is formed so that its inner diameter is slightly smaller than the outer diameter of the connecting cylindrical body 56, and the ring opening portion 569a is expanded to increase the diameter. It is mounted on the cylindrical body 56. Therefore, the recess opening / closing ring member 569 always has an urging force in the direction of diameter reduction, and the frictional force generated between the inner wall of the recess opening / closing ring member 569 and the surface of the connecting cylinder 56 causes the The rotation and sliding of the recess opening / closing ring member 569 with respect to the connecting cylindrical body 56 are restricted. Therefore, the closed state is maintained, and the tip end member 6 is not unexpectedly dropped from the tip base member 5 even during the treatment operation. Further, a protrusion 569b having a width substantially corresponding to the notch opening width in the flange portion 566 is formed at the tip of the recess opening / closing ring member 569. When the recess opening / closing ring member 569 is slid forward, The protrusion 569b fits into the notch opening in the flange portion 566, and this also maintains the closed state. In this embodiment, the recess opening / closing ring member 569 may be a closed annular body. That is, the same function can be achieved even if the recess opening / closing ring member 569 is mounted on the connecting cylinder 56 so as to be slidable along the axial direction.
また、接続用円筒体56には外パイプ53内に配設された通水チューブ54の先側が一体保持され、その先端が接続用円筒体56の先端面より露出し、水の送出口54aとされている。更に、接続用円筒体56には、外パイプ53の空洞部53aに通じる2本の通孔562が形成され、該通孔562の先端は接続用円筒体56の先端面において水の送出口54aに近接して開口し、エアの噴出口562aとされている。 Further, the connecting cylinder 56 integrally holds the front side of the water flow tube 54 disposed in the outer pipe 53, the tip of the connecting cylinder 56 is exposed from the tip of the connecting cylinder 56, and the water outlet 54a. Has been. Further, the connecting cylinder 56 is formed with two through holes 562 communicating with the cavity 53 a of the outer pipe 53, and the tip of the through hole 562 is the water outlet 54 a on the tip surface of the connecting cylinder 56. The air outlet 562a is opened in the vicinity.
この実施形態でも、第1の実施形態と同様に、出光端62aaからの患部へのレーザ光の照射、送出口54aからの水の送出、噴出口617aからのエアの噴出がなし得る。また、出光端62aa及びその近傍部位が損耗した時には、チップ先端部材6のみを別のものに容易に交換することができ、ユーザにおけるコスト的負担を軽減することができる。前述のとおり、ハンドピース本体20との装着部の構成は第1の実施形態と同様であり、また、当該装着部以外のその他の構成も第1の実施形態と同様であるから、共通部分に同一の符号を付し、ここでもその説明を割愛する。 In this embodiment as well, similarly to the first embodiment, it is possible to irradiate the affected area with the laser beam from the light exit end 62aa, to send out water from the outlet 54a, and to eject air from the outlet 617a. Further, when the light emitting end 62aa and the vicinity thereof are worn out, only the tip end member 6 can be easily replaced with another one, and the cost burden on the user can be reduced. As described above, the configuration of the mounting portion with the handpiece main body 20 is the same as that of the first embodiment, and other configurations other than the mounting portion are the same as those of the first embodiment. The same reference numerals are given, and the description thereof is omitted here.
図21(a)〜(d)は、出光部材62の種々の形状を示しており、これらはいずれも中実又は中空円柱状の石英或いはサファイア等のファイバからなり、図示では中実コア部62aの断面形状と、出光端62aa側から見た側面形状を示している。即ち、出光端62aaの形状が、(a)はフラット、(b)は円錐形、(c)は片面ヘラ形、(d)は両面ヘラ形、(e)は半凸球形であることを示している。これらは、患部の状態や治療目的等に応じて適宜選択使用されるものであり、連結基部61と一体にしたチップ先端部材6として複数種を準備しておくことにより、多様な治療態様に的確に対応することができる。特に、本チップ先端部材6は低コストで提供されるので、ユーザにおいて多数準備するようにしても、コスト負担が過剰となることがない。 21 (a) to 21 (d) show various shapes of the light output member 62, each of which is made of a solid or hollow cylindrical fiber such as quartz or sapphire, and in the drawing, a solid core portion 62a. And a side shape viewed from the light exit end 62aa side. That is, the shape of the light emitting end 62aa is (a) flat, (b) conical, (c) single-sided spatula, (d) double-sided spatula, and (e) semi-convex spherical. ing. These are appropriately selected and used according to the condition of the affected area, the purpose of treatment, and the like, and by preparing a plurality of types as the tip end member 6 integrated with the connecting base 61, it is possible to accurately apply to various treatment modes. It can correspond to. In particular, since the tip end member 6 is provided at low cost, even if a large number is prepared by the user, the cost burden does not become excessive.
図22は、本発明の医療用レーザハンドピースの別の実施形態を示している。図例の医療用レーザハンドピース2は、コントラアングル型の歯科用レーザハンドピースであって、ヘッド部20Cには、ストレートタイプの歯科用レーザ照射チップ4が、チップ基部材5をして着脱自在に装着され、該チップ基部材5に対して着脱自在にチップ先端部材6が連結されている。この歯科用レーザハンドピース2も、図1に示すように、レーザ発生装置11を含む装置本体10と組み合わさって歯科用(医療用)レーザ装置1が構成される。ハンドピース本体20の接続基部20Aには、レーザ光の導光体、水供給チューブ及びエア供給チューブ(いずれも不図示)を束ねて内装するフレキシブルホース3が接続され、ハンドピース本体20内では、これら導光体、水供給チューブ及びエア供給チューブと、光学的、水密的及び気密的に接続される導光路、通水管路及び通気管路(いずれも不図示)が配設され、ヘッド部20Cに装着される歯科用レーザ照射チップ4に至るよう構成されている。レーザ光の導光路は、コントラアングル型のヘッド部20C内において、ミラーによって偏光されるよう構成される点は、特許文献4に示されるものと同様である。 FIG. 22 shows another embodiment of the medical laser handpiece of the present invention. The illustrated medical laser handpiece 2 is a contra-angle type dental laser handpiece, and a straight type dental laser irradiation chip 4 is detachably attached to the head portion 20C through a chip base member 5. The tip end member 6 is connected to the tip base member 5 so as to be detachable. As shown in FIG. 1, the dental laser handpiece 2 is also combined with an apparatus body 10 including a laser generator 11 to form a dental (medical) laser apparatus 1. A flexible hose 3 bundled with a laser light guide, a water supply tube and an air supply tube (all not shown) is connected to the connection base 20A of the handpiece body 20, and in the handpiece body 20, These light guide, water supply tube, and air supply tube, and a light guide path, a water conduit, and a vent pipe (all not shown) connected optically, watertightly and airtightly are disposed, and the head portion 20C. It is comprised so that it may reach the dental laser irradiation chip | tip 4 with which it is mounted | worn. The laser light guiding path is the same as that shown in Patent Document 4 in that the laser light guiding path is configured to be polarized by a mirror in the contra-angle type head portion 20C.
尚、前記実施形態では、歯科用のレーザ装置を例示したが、その他の医療用レーザ装置及びその構成部分に本発明を適用しても良い。また、レーザ照射チップ4の形状は、図示のように湾曲したものや、ストレート形状に限らず、適用される医療分野に応じた適宜形状が選択採用される。レーザ照射チップ4の形状を湾曲したものとする場合、例えば、外パイプ53を、その長手軸方向中間において分割した二つの部材から構成し、各々の加工形成を容易にすることもできる。さらに、レーザ照射チップ4の組み立てを、ねじ止めによって行うこともできる。つまり、チップ基部材5の外パイプ53と回転摘み部52との接続部、あるいは、外パイプ53と先側部56との接続部において、一方の接続端を雄ねじとし、他方を雌ねじで構成することで、双方の螺合によってレーザ照射チップ4を組み立てることができる。 In the above embodiment, the dental laser device has been exemplified, but the present invention may be applied to other medical laser devices and components thereof. Further, the shape of the laser irradiation chip 4 is not limited to a curved shape or a straight shape as shown in the figure, and an appropriate shape according to the applied medical field is selected and adopted. In the case where the shape of the laser irradiation chip 4 is curved, for example, the outer pipe 53 can be configured by two members divided in the middle in the longitudinal axis direction, and each processing can be facilitated. Further, the laser irradiation chip 4 can be assembled by screwing. That is, at the connection portion between the outer pipe 53 and the rotary knob 52 of the chip base member 5 or the connection portion between the outer pipe 53 and the front side portion 56, one connection end is configured as a male screw and the other is configured as a female screw. Thereby, the laser irradiation chip | tip 4 can be assembled by both screwing.
1 歯科用(医療用)レーザ装置
11 レーザ発生装置
11a レーザ光の導光体
2 歯科用(医療用)レーザハンドピース
20A 接続基部
20C ヘッド部
21 レーザ光の導光路
4 歯科用レーザ照射チップ
5 チップ基部材
54 通水チューブ(通水管路)
53a 空洞部(通気管路)
55 レーザ光の導光部材
56 チップ基部材の先側部
561 凹部
565 凹部
567 凹部開閉用リング部材
568 凹部
569 凹部開閉用リング部材
6 チップ先端部材
61 連結基部
62 出光部材
62aa 出光端
7,7A,7B,7C 連結手段
DESCRIPTION OF SYMBOLS 1 Dental (medical) laser apparatus 11 Laser generator 11a Laser light guide 2 Dental (medical) laser handpiece 20A Connection base 20C Head part 21 Laser light guide 4 Dental laser irradiation chip 5 Chip Base member 54 Water flow tube (water flow line)
53a Cavity (venting duct)
55 Laser light guide member 56 Front side portion of chip base member 561 Recessed portion 565 Recessed portion 567 Recessed member opening / closing ring member 568 Recessed member 569 Recessed member member for opening / closing recessed portion 6 Chip tip member 61 Connection base portion 62 Light emitting member 62aa Light emitting end 7, 7A, 7B, 7C connection means
Claims (10)
該ハンドピースのヘッド部に着脱自在に装着されるチップ基部材の先側部に着脱自在に連結する為の連結基部と、該連結基部に一体保持された出光部材とよりなり、
該出光部材は、先端に上記出光端を備え、該連結基部をしてチップ基部材に連結された時には、該チップ基部材内のレーザ導光部材と光学的に接続されて出光端より該レーザ光の照射がなし得るよう構成されていることを特徴とする医療用レーザ照射チップのチップ先端部材。 A laser beam from the laser generator is detachably attached to a head part of a handpiece that is guided through a light guide, receives the laser beam guided to the handpiece, and receives a target part from the light output end. A chip tip member constituting a laser irradiation chip for irradiating with laser light,
A connecting base for detachably connecting to the tip side of a chip base member detachably attached to the head part of the handpiece, and a light output member integrally held by the connecting base,
The light emitting member is provided with the light emitting end at the tip, and when the light emitting member is connected to the chip base member with the connecting base portion, the light emitting member is optically connected to the laser light guide member in the chip base member and the laser is emitted from the light emitting end. A chip tip member of a medical laser irradiation chip, characterized in that it can be irradiated with light.
該チップ先端部材の前記連結基部と、該チップ基部材の前記先側部とには連結手段が設けられ、該連結手段を介して、チップ先端部材がチップ基部材に対して着脱自在に連結可能とされ、
該連結手段による連結状態では、前記ハンドピースに導光されたレーザ光を、チップ基部材内の前記レーザ導光部材及びチップ先端部材に保持された前記出光部材を介して前記出光端より目的部位に照射し得るよう構成されていることを特徴とする医療用レーザ照射チップ。 A medical laser irradiation chip comprising the tip end member according to claim 1 and the tip base member according to claim 1,
A connecting means is provided on the connecting base portion of the tip end member and the tip side portion of the tip base member, and the tip end member can be detachably connected to the tip base member via the connecting means. And
In the connected state by the connecting means, the laser light guided to the handpiece is transmitted from the light output end to the target site via the laser light guide member in the chip base member and the light output member held by the tip end member. A medical laser irradiation chip characterized by being configured to irradiate a laser beam.
前記チップ基部材の先側部には、前記チップ先端部材の連結基部をレーザ光の導光方向に沿って嵌受し得る凹部が設けられ、
該凹部及び該連結基部によって前記連結手段が構成されることを特徴とする医療用レーザ照射チップ。 The medical laser irradiation chip according to claim 2,
On the front side portion of the chip base member, there is provided a recess capable of receiving the coupling base portion of the chip tip member along the light guide direction of the laser beam,
The medical laser irradiation chip, wherein the coupling means is constituted by the recess and the coupling base.
前記チップ先端部材の連結基部には、前記チップ基部材の先側部をレーザ光の導光方向に沿って嵌受し得る凹部が設けられ、
該凹部及び該先側部によって前記連結手段が構成されることを特徴とする医療用レーザ照射チップ。 The medical laser irradiation chip according to claim 2,
The connecting base portion of the tip end member is provided with a recess capable of receiving the tip side portion of the tip base member along the light guide direction of the laser beam,
The medical laser irradiation chip, wherein the connecting means is constituted by the concave portion and the tip side portion.
前記チップ基部材の先側部には、前記チップ先端部材の連結基部をレーザ光の導光方向に直交する方向に沿って嵌受し得る凹部が設けられ、且つ、この凹部の開口幅と略同幅の開環部を有する凹部開閉用リング部材が該先側部の周体に回転可能に環装され、
該凹部、該連結基部及び該凹部開閉用リング部材によって前記連結手段が構成されることを特徴とする医療用レーザ照射チップ。 The medical laser irradiation chip according to claim 2,
The front side portion of the chip base member is provided with a recess capable of receiving the connection base portion of the chip tip member along a direction orthogonal to the light guide direction of the laser beam, and approximately the opening width of the recess. A ring member for opening and closing a recess having an opening portion of the same width is rotatably mounted on the periphery of the front side portion,
The medical laser irradiation chip, wherein the connection means is constituted by the recess, the connection base, and the recess opening / closing ring member.
前記凹部開閉用リング部材が、更に、前記先側部の周体に対して、前記導光方向に沿って摺動可能とされていることを特徴とする医療用レーザ照射チップ。 The medical laser irradiation chip according to claim 5,
The medical laser irradiation chip, wherein the recess opening / closing ring member is further slidable along the light guide direction with respect to the peripheral body of the front side portion.
前記チップ基部材の先側部には、前記チップ先端部材の連結基部をレーザ光の導光方向に直交する方向に沿って嵌受し得る凹部が設けられ、且つ、凹部開閉用リング部材が該先側部の周体に該導光方向に沿って摺動可能に環装され、
該凹部、該連結基部及び該凹部開閉用リング部材によって前記連結手段が構成されることを特徴とする医療用レーザ照射チップ。 The medical laser irradiation chip according to claim 2,
The tip side of the tip base member is provided with a recess capable of receiving the connecting base of the tip tip member along a direction perpendicular to the laser light guide direction, and the recess opening / closing ring member is It is attached to the periphery of the front side part so as to be slidable along the light guide direction,
The medical laser irradiation chip, wherein the connection means is constituted by the recess, the connection base, and the recess opening / closing ring member.
前記チップ基部材をして前記ハンドピースに接続された時には、該ハンドピースに内蔵される水及びエア管路の少なくとも一つに連通して、水及びエアの少なくとも一つを目的部位に向け送出し得るよう構成された管路を更に備えていることを特徴とする医療用レーザ照射チップ。 The medical laser irradiation chip according to any one of claims 2 to 7,
When the tip base member is connected to the handpiece, it communicates with at least one of the water and air pipes built in the handpiece and delivers at least one of water and air toward the target site. A medical laser irradiation chip, further comprising a conduit configured to be able to.
該導光体との接続基部からヘッド部の先端部に臨むレーザ光の導光路を内蔵し、該ヘッド部には請求項2乃至8のいずれかに記載の医療用レーザ照射チップが着脱自在に装着され、
該導光体、該導光路、前記チップ基部材内のレーザ導光部材及びチップ先端部材の出光部材を経て前記出光端より目的部位にレーザ光を照射し得るよう構成されていることを特徴とする医療用レーザハンドピース。 A medical laser handpiece connected to a laser generator via a laser light guide,
A laser light guide path facing the distal end of the head portion from a connection base with the light guide body is built in, and the medical laser irradiation chip according to any one of claims 2 to 8 is detachably attached to the head portion. Installed,
It is configured to be able to irradiate the target part with laser light from the light exit end through the light guide, the light guide path, the laser light guide member in the chip base member, and the light exit member of the tip end member. Medical laser handpiece.
A laser generator, a light guide for guiding laser light generated by the laser generator, and the medical laser handpiece according to claim 9 connected to a tip of the light guide. A medical laser device.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2009114078A JP5111433B2 (en) | 2008-07-24 | 2009-05-11 | Chip tip member, medical laser irradiation chip, medical laser handpiece, and medical laser device |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2008191102 | 2008-07-24 | ||
JP2008191102 | 2008-07-24 | ||
JP2009114078A JP5111433B2 (en) | 2008-07-24 | 2009-05-11 | Chip tip member, medical laser irradiation chip, medical laser handpiece, and medical laser device |
Publications (2)
Publication Number | Publication Date |
---|---|
JP2010046474A true JP2010046474A (en) | 2010-03-04 |
JP5111433B2 JP5111433B2 (en) | 2013-01-09 |
Family
ID=42064073
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP2009114078A Active JP5111433B2 (en) | 2008-07-24 | 2009-05-11 | Chip tip member, medical laser irradiation chip, medical laser handpiece, and medical laser device |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP5111433B2 (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2013226274A (en) * | 2012-04-26 | 2013-11-07 | Morita Mfg Co Ltd | Laser irradiation tip, laser irradiation handpiece, laser treatment apparatus, and laser irradiation tip end member |
KR101537855B1 (en) * | 2013-10-17 | 2015-07-22 | 원텍 주식회사 | Articulated arm method medical laser device |
JP2016067493A (en) * | 2014-09-29 | 2016-05-09 | Meiji Seikaファルマ株式会社 | Light irradiator and photodynamic therapy apparatus for uterine neck |
JP2017023504A (en) * | 2015-07-24 | 2017-02-02 | 株式会社吉田製作所 | Laser handpiece |
CN106880907A (en) * | 2017-04-10 | 2017-06-23 | 山东省交通医院 | A kind of dept. of radiology's radiotheraphy device |
CN106964077A (en) * | 2017-04-10 | 2017-07-21 | 闫化存 | A kind of insertion type radiotheraphy device |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6272351A (en) * | 1985-09-26 | 1987-04-02 | 富士写真光機株式会社 | Structure of laser irradiation part |
JPS63109115U (en) * | 1987-12-19 | 1988-07-13 | ||
JPH0329902A (en) * | 1989-06-09 | 1991-02-07 | Pfizer Hospital Prod Group Inc | Optical instrument |
JPH10211210A (en) * | 1997-01-30 | 1998-08-11 | Olympus Optical Co Ltd | Laser probe |
JP2001309926A (en) * | 2000-04-28 | 2001-11-06 | Morita Mfg Co Ltd | Laser probe, handpiece and laser therapeutic instrument |
JP2003135483A (en) * | 2001-11-07 | 2003-05-13 | Morita Mfg Co Ltd | Laser probe |
JP2005177150A (en) * | 2003-12-19 | 2005-07-07 | Morita Mfg Co Ltd | Medical laser apparatus and medical laser irradiation chip |
-
2009
- 2009-05-11 JP JP2009114078A patent/JP5111433B2/en active Active
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6272351A (en) * | 1985-09-26 | 1987-04-02 | 富士写真光機株式会社 | Structure of laser irradiation part |
JPS63109115U (en) * | 1987-12-19 | 1988-07-13 | ||
JPH0329902A (en) * | 1989-06-09 | 1991-02-07 | Pfizer Hospital Prod Group Inc | Optical instrument |
JPH10211210A (en) * | 1997-01-30 | 1998-08-11 | Olympus Optical Co Ltd | Laser probe |
JP2001309926A (en) * | 2000-04-28 | 2001-11-06 | Morita Mfg Co Ltd | Laser probe, handpiece and laser therapeutic instrument |
JP2003135483A (en) * | 2001-11-07 | 2003-05-13 | Morita Mfg Co Ltd | Laser probe |
JP2005177150A (en) * | 2003-12-19 | 2005-07-07 | Morita Mfg Co Ltd | Medical laser apparatus and medical laser irradiation chip |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2013226274A (en) * | 2012-04-26 | 2013-11-07 | Morita Mfg Co Ltd | Laser irradiation tip, laser irradiation handpiece, laser treatment apparatus, and laser irradiation tip end member |
US9539057B2 (en) | 2012-04-26 | 2017-01-10 | J. Morita Manufacturing Corporation | Laser irradiation tip, laser irradiation handpiece, laser treatment apparatus, and laser irradiation tip end member |
DE102013007210B4 (en) | 2012-04-26 | 2022-07-14 | J. Morita Manufacturing Corporation | Laser irradiation tip, laser irradiation handpiece, laser treatment device and laser irradiation end element |
KR101537855B1 (en) * | 2013-10-17 | 2015-07-22 | 원텍 주식회사 | Articulated arm method medical laser device |
JP2016067493A (en) * | 2014-09-29 | 2016-05-09 | Meiji Seikaファルマ株式会社 | Light irradiator and photodynamic therapy apparatus for uterine neck |
JP2017023504A (en) * | 2015-07-24 | 2017-02-02 | 株式会社吉田製作所 | Laser handpiece |
CN106880907A (en) * | 2017-04-10 | 2017-06-23 | 山东省交通医院 | A kind of dept. of radiology's radiotheraphy device |
CN106964077A (en) * | 2017-04-10 | 2017-07-21 | 闫化存 | A kind of insertion type radiotheraphy device |
CN106880907B (en) * | 2017-04-10 | 2019-04-05 | 山东省交通医院 | A kind of dept. of radiology's radiotheraphy device |
CN106964077B (en) * | 2017-04-10 | 2020-05-05 | 山东省肿瘤防治研究院(山东省肿瘤医院) | Interventional radiotherapy device |
Also Published As
Publication number | Publication date |
---|---|
JP5111433B2 (en) | 2013-01-09 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
JP5111433B2 (en) | Chip tip member, medical laser irradiation chip, medical laser handpiece, and medical laser device | |
EP2823785B1 (en) | Handheld laser device for medical purposes | |
US5570445A (en) | Reusable optical fiber connector adapter with plurality of optical barriers for all fiber delivery laser sources | |
EP2911604B1 (en) | Handpiece assembly for laser treatment device | |
US6270342B1 (en) | Dental laser treatment hand-piece and system | |
US8023795B2 (en) | Fiber tip fluid output device | |
JP2008544809A (en) | Handpiece for sending light and system using the handpiece | |
US20080219629A1 (en) | Modified-output fiber optic tips | |
US20080102416A1 (en) | Adaptable device for detecting and treating dental pathologies | |
EP1845884B1 (en) | Dental handpiece | |
US20100086892A1 (en) | Modified-output fiber optic tips | |
US20110318701A1 (en) | Dental probe | |
US7704247B2 (en) | Dual fiber-optic surgical apparatus | |
US6325794B1 (en) | Laser handpiece | |
US9539057B2 (en) | Laser irradiation tip, laser irradiation handpiece, laser treatment apparatus, and laser irradiation tip end member | |
EP2126466B1 (en) | Target-close electromagnetic energy emitting device | |
US20170042639A1 (en) | Medical instrument element, medical instrument, medical instrument component, medical handpiece, method for producing medical instrument element, and medical cutting device | |
EP4069168A1 (en) | Optical fiber for transmitting both an illumination light and a laser light beam | |
JPH0614936A (en) | Laser probe and handpiece and manual apparatus and device having the same | |
JPH05220171A (en) | Laser treating device | |
US6438305B1 (en) | Laser transmitting system and hand instrument having such system for use with laser device | |
US20100099055A1 (en) | Dental Laser Treatment Instrument Comprising an Optical Extraction Element | |
JP3581740B2 (en) | Laser therapy equipment | |
JP2007068718A (en) | Laser apparatus | |
EP1711849B1 (en) | Modified-output fiber optic tips |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
A621 | Written request for application examination |
Free format text: JAPANESE INTERMEDIATE CODE: A621 Effective date: 20120315 |
|
A871 | Explanation of circumstances concerning accelerated examination |
Free format text: JAPANESE INTERMEDIATE CODE: A871 Effective date: 20120315 |
|
A975 | Report on accelerated examination |
Free format text: JAPANESE INTERMEDIATE CODE: A971005 Effective date: 20120423 |
|
A131 | Notification of reasons for refusal |
Free format text: JAPANESE INTERMEDIATE CODE: A131 Effective date: 20120611 |
|
A521 | Written amendment |
Free format text: JAPANESE INTERMEDIATE CODE: A523 Effective date: 20120802 |
|
RD02 | Notification of acceptance of power of attorney |
Free format text: JAPANESE INTERMEDIATE CODE: A7422 Effective date: 20120802 |
|
TRDD | Decision of grant or rejection written | ||
A01 | Written decision to grant a patent or to grant a registration (utility model) |
Free format text: JAPANESE INTERMEDIATE CODE: A01 Effective date: 20120911 |
|
A01 | Written decision to grant a patent or to grant a registration (utility model) |
Free format text: JAPANESE INTERMEDIATE CODE: A01 |
|
A61 | First payment of annual fees (during grant procedure) |
Free format text: JAPANESE INTERMEDIATE CODE: A61 Effective date: 20121009 |
|
FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20151019 Year of fee payment: 3 |
|
R150 | Certificate of patent or registration of utility model |
Ref document number: 5111433 Country of ref document: JP Free format text: JAPANESE INTERMEDIATE CODE: R150 Free format text: JAPANESE INTERMEDIATE CODE: R150 |
|
R250 | Receipt of annual fees |
Free format text: JAPANESE INTERMEDIATE CODE: R250 |