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JP7692548B2 - Adhesive medical irradiator, medical device, medical system using adhesive medical irradiator, and light irradiation method using adhesive medical irradiator - Google Patents
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JP7692548B2 - Adhesive medical irradiator, medical device, medical system using adhesive medical irradiator, and light irradiation method using adhesive medical irradiator - Google Patents

Adhesive medical irradiator, medical device, medical system using adhesive medical irradiator, and light irradiation method using adhesive medical irradiator Download PDF

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JP7692548B2
JP7692548B2 JP2023197041A JP2023197041A JP7692548B2 JP 7692548 B2 JP7692548 B2 JP 7692548B2 JP 2023197041 A JP2023197041 A JP 2023197041A JP 2023197041 A JP2023197041 A JP 2023197041A JP 7692548 B2 JP7692548 B2 JP 7692548B2
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雅俊 齊藤
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Description

本発明は、身体に光を照射して治療するときに使用する接着型医療用照射器、接着型医療用照射器を含む医療機器および接着型医療用照射器を用いる医療システム、並びに、接着型医療用照射器を用いた光照射方法に関する。 The present invention relates to an adhesive medical irradiator used for treatment by irradiating the body with light, a medical device including an adhesive medical irradiator, a medical system using an adhesive medical irradiator, and a light irradiation method using an adhesive medical irradiator.

身体に光(たとえばレーザ光ビーム)を照射して治療するための医療器具が知られている。特許文献1では、レーザシステムポートアダプタであって、レーザ源と結合するための第1のポートアームであって、光の電磁スペクトルの2つの狭帯域の少なくとも一方内に含まれる波長を有するレーザ光ビームをコリメートするための光学素子を含む第1のポートアームと、照明システムと結合するための第2のポートアームと、レーザプローブの光ファイバケーブルと結合するための第3のポートアームと、前記第1のポートアーム、前記第2のポートアーム及び前記第3のポートアームが交差する多重交差領域であって、コリメートされたレーザ光ビームを前記光学素子から受け、且つレーザ光ビームのマルチスポットレーザパターンを生成するように構成される回折光学素子(DOE)と、前記光の電磁スペクトルの前記少なくとも2つの狭帯域を反射し、前記レーザ光ビームのマルチスポットパターンを受け、前記レーザ光ビームのマルチスポットレーザパターンを前記第3のポートアームに向けて反射し、前記照明システムから照明ビームを受け、且つ前記電磁スペクトルの前記少なくとも2つの狭帯域内に含まれていない前記照明ビームの一部を前記第3のポートアームに向けて透過するように構成されるビームスプリッタとを含む多重交差領域とを含み、前記第2のポートアーム及び前記第3のポートアームは、前記交差領域にわたって略同一線上にあり、前記第1のポートアームは、前記多重交差領域において前記第2のポートアーム及び前記第3のポートアームに略直交する、レーザシステムポートアダプタに関する技術を開示している。 A medical instrument for treating a body by irradiating it with light (e.g., a laser light beam) is known. Patent Document 1 discloses a laser system port adapter, comprising: a first port arm for coupling to a laser source, the first port arm including an optical element for collimating a laser light beam having a wavelength included in at least one of two narrow bands of the electromagnetic spectrum of light; a second port arm for coupling to an illumination system; a third port arm for coupling to an optical fiber cable of a laser probe; a diffractive optical element (DOE) configured to receive the collimated laser light beam from the optical element and generate a multi-spot laser pattern of the laser light beam; and a multi-spot laser pattern of the laser light beam including an optical element for collimating a laser light beam having a wavelength included in at least one of two narrow bands of the electromagnetic spectrum of light. The present invention discloses a technology relating to a laser system port adapter that includes a multiple intersection region including a beam splitter configured to reflect at least two narrow bands, receive a multi-spot pattern of the laser light beam, reflect the multi-spot laser pattern of the laser light beam toward the third port arm, receive an illumination beam from the illumination system, and transmit a portion of the illumination beam that is not included within the at least two narrow bands of the electromagnetic spectrum toward the third port arm, wherein the second port arm and the third port arm are substantially collinear across the intersection region, and the first port arm is substantially orthogonal to the second port arm and the third port arm at the multiple intersection region.

特開2023-138671号公報JP 2023-138671 A

身体に光(たとえばレーザ光ビーム)を照射して治療するときに、大型の装置で高額な医療機器が必要な場合が一般的である。操作が容易で安全性が高く、小型化され、より低額の医療機器が求められている。また、治療効果を高めるために、光を照射すると同時に、身体の表面を押圧したり、身体に熱を与えたりすることができる医療機器や方法が求められる When irradiating the body with light (e.g., a laser light beam) for treatment, large, expensive medical equipment is generally required. There is a demand for medical equipment that is easy to operate, highly safe, compact, and less expensive. There is also a demand for medical equipment and methods that can apply pressure to the surface of the body or heat to the body at the same time as irradiating light to improve the effectiveness of treatment .

特許文献1には、光を照射すると同時に、身体の表面を押圧し、身体に熱を与える方法に関する記載がない。Patent Document 1 does not disclose a method of applying heat to the body by pressing the surface of the body while irradiating it with light.

本発明は、身体に光を照射して治療するときに、操作が容易で安全性が高く、小型化され、より低額の照射器を用いることができ、かつ、光を照射すると同時に、身体の表面を押圧したり、身体に熱を与えたりすることができる接着型医療用照射器、医療機器若しくは接着型医療用照射器を用いる医療システム又は接着型医療用照射器を用いた光照射方法を提供することを目的とする。The present invention aims to provide an adhesive-type medical irradiator, a medical device or a medical system using an adhesive-type medical irradiator, or a light irradiation method using an adhesive-type medical irradiator, which is easy to operate, highly safe, compact, and inexpensive to use when irradiating light to the body for treatment, and which can press against the surface of the body or apply heat to the body while irradiating light.

本発明の一の実施形態は、身体に光を照射して治療するときに使用し、患者に接触して用いられるものである接着型医療用照射器であって、前記光を発光する光源部と、前記光源部が発光した前記光を前記身体に照射する照射熱伝導部と、前記光源部を手で持ち運びや移動が容易にできる円筒の内部に配置し、かつ、前記照射熱伝導部を円錐の内部に配置し、前記円錐の先端から前記光を照射する開口を有する、前記円筒と前記円錐から成る筐体とを有し、前記光源部は、複数の照射光をそれぞれ発光する複数の発光部材と、前記発光部材が発光した複数の前記照射光を所望の方向に集光する光学素子部材と、を備え、前記照射熱伝導部は、前記光源部の前記光学素子部材が集光した前記照射光を透過して生成された前記光を前記身体に照射する押圧照射部材と、前記光学素子部材が集光した前記照射光を反射して前記押圧照射部材に投光する中空円錐体の形状の反射熱源部材と、前記押圧照射部材を照射方向に移動可能に支持する一本の発条部材と、を備え、前記押圧照射部材は、球状のレンズであり、前記発条部材は、円錐コイルばねであり、前記円錐コイルばねの円錐回転軸の方向は前記光学素子部材が集光した前記照射光の前記所望の方向と同じであり、前記所望の方向に伸縮可能であり、該発条部材の伸縮により前記押圧照射部材を照射方向に移動可能に支持し、かつ、該発条部材の押圧力により前記押圧照射部材を回転可能に保持し、前記身体に前記光を照射するときに、前記押圧照射部材を該身体に押さえ付けて、前記発条部材を用いて該押圧照射部材を該身体の表面で回転させながら、該光を照射し、前記反射熱源部材は、人工鉱石であり、該反射熱源部材の中空円錐体内面の曲面で前記照射光を反射し、前記反射熱源部材は、前記照射光を反射する際に該照射光により発熱し、前記発条部材は、前記反射熱源部材が発する熱を前記押圧照射部材に伝達し、前記押圧照射部材は、前記発条部材が伝達した前記熱を前記身体に伝える、ことを特徴とする接着型医療用照射器を提供する。 One embodiment of the present invention is an adhesive medical irradiator that is used when irradiating a body with light for treatment and is used in contact with a patient, the adhesive medical irradiator having a light source unit that emits the light, an irradiation heat conductive unit that irradiates the light emitted by the light source unit to the body, and a housing made of the cylinder and the cone, in which the light source unit is disposed inside a cylinder that can be easily carried and moved by hand, the irradiation heat conductive unit is disposed inside a cone, and the light is irradiated from the tip of the cone. The light source unit includes a plurality of light emitting members that respectively emit a plurality of irradiation lights, and an optical element member that collects the plurality of irradiation lights emitted by the light emitting members in a desired direction. The irradiation heat conductive unit includes a pressure irradiation member that irradiates the body with the light generated by transmitting the irradiation light collected by the optical element member of the light source unit, a reflective heat source member in the shape of a hollow cone that reflects the irradiation light collected by the optical element member and projects it onto the pressure irradiation member, and a single spring member that supports the pressure irradiation member so as to be movable in the irradiation direction. The pressure irradiation member is a spherical lens, the spring member is a conical coil spring, the direction of the conical rotation axis of the conical coil spring is the same as the desired direction of the irradiation light collected by the optical element member, and the spring member is expandable and contractable in the desired direction, the pressure irradiation member is supported so as to be movable in the irradiation direction by the expansion and contraction of the spring member, and the pressure irradiation member is rotatably held by the pressing force of the spring member, and when the light is irradiated to the body, the pressure irradiation member is pressed against the body. the light is irradiated while the pressure irradiating member is rotated on the surface of the body using the spring member, the reflective heat source member is an artificial mineral and reflects the irradiated light by a curved surface inside the hollow cone of the reflective heat source member, the reflective heat source member generates heat due to the irradiated light when reflecting it, the spring member transmits the heat generated by the reflective heat source member to the pressure irradiating member, and the pressure irradiating member transfers the heat transmitted by the spring member to the body .

また、本発明の他の実施形態は、上記の前記接着型医療用照射器であって、複数の前記発光部材は、複数のLEDであり、円板の基板の両面に複数個、配置される、ことを特徴とする接着型医療用照射器であってもよい。 Another embodiment of the present invention may be an adhesive-type medical irradiator as described above, characterized in that the multiple light-emitting members are multiple LEDs, and multiple LEDs are arranged on both sides of a circular substrate .

本発明に係る接着型医療用照射器、医療機器若しくは接着型医療用照射器を用いる医療システム又は接着型医療用照射器を用いた光照射方法によれば、身体に光を照射して治療するときに、操作が容易で安全性が高く、小型化され、より低額の照射器を用いることができ、かつ、光を照射すると同時に、身体の表面を押圧したり、身体に熱を与えたりすることができる。 The adhesive medical irradiator, medical device, or medical system using an adhesive medical irradiator, or the light irradiation method using an adhesive medical irradiator according to the present invention makes it possible to use an irradiator that is easy to operate, highly safe, compact, and less expensive when irradiating the body with light for treatment, and can also apply pressure to the surface of the body or heat to the body at the same time as irradiating the light.

本発明の実施形態に係る接着型医療用照射器を用いる医療システム、医療機器(接着型医療用照射器を用いた医療機器)および接着型医療用照射器の一例を説明する説明図である。FIG. 1 is an explanatory diagram illustrating an example of a medical system using an adhesive-type medical irradiator according to an embodiment of the present invention, a medical device (a medical device using an adhesive-type medical irradiator), and an adhesive-type medical irradiator. 本発明の実施形態に係る接着型医療用照射器を用いる医療システム、医療機器(接着型医療用照射器を用いた医療機器)および接着型医療用照射器の一例を説明する概略断面図である。1 is a schematic cross-sectional view illustrating an example of a medical system using an adhesive-type medical irradiator according to an embodiment of the present invention, a medical device (a medical device using an adhesive-type medical irradiator), and an adhesive-type medical irradiator. 本発明の実施形態に係る発光部材の一例を説明する説明図である。FIG. 2 is an explanatory diagram illustrating an example of a light-emitting member according to an embodiment of the present invention. 本発明の実施形態に係る接着型医療用照射器を用いる医療システム、医療機器(接着型医療用照射器を用いた医療機器)および接着型医療用照射器の光の光路の例を説明する説明図である。FIG. 1 is an explanatory diagram illustrating an example of a medical system using an adhesive-type medical irradiator according to an embodiment of the present invention, a medical device (a medical device using an adhesive-type medical irradiator), and an optical path of light from the adhesive-type medical irradiator. 本発明の実施形態に係る接着型医療用照射器を用いた光照射方法の一例を説明するフローチャート図である。FIG. 2 is a flow chart illustrating an example of a light irradiation method using an adhesive-type medical irradiator according to an embodiment of the present invention.

実施形態に係る接着型医療用照射器、医療機器若しくは接着型医療用照射器を用いる医療システム又は接着型医療用照射器を用いた光照射方法の一例を用いて、本発明を説明する。なお、本発明は、以後に説明する接着型医療用照射器等以外でも、身体に光を照射して治療するときに使用するもの(器具、装置、部品、システムなど)であれば、いずれのものにも用いることができる。なお、光を照射して治療する疾病や怪我、外傷などは、特に限定されない。 The present invention will be described using an example of an adhesive medical irradiator, a medical device, or a medical system using an adhesive medical irradiator, or a light irradiation method using an adhesive medical irradiator according to the embodiment. Note that the present invention can be used for anything (instruments, devices, parts, systems, etc.) that is used to irradiate light to the body for treatment, other than the adhesive medical irradiators described below. Note that there is no particular limitation on the diseases, injuries, trauma, etc. that can be treated by irradiating light.

下記に示す順序で、本発明を説明する。
1.接着型医療用照射器の構成
2.医療機器の構成
3.接着型医療用照射器を用いる医療システム
4.接着型医療用照射器を用いた光照射方法
The present invention will be described in the following order.
1. Structure of adhesive medical irradiator 2. Structure of medical device 3. Medical system using adhesive medical irradiator 4. Light irradiation method using adhesive medical irradiator

(1.接着型医療用照射器の構成)
図1乃至図4を用いて、本発明の実施形態に係る接着型医療用照射器の構成を説明する。ここで、図1は、本発明の実施形態に係る接着型医療用照射器100を用いる医療システム100S、医療機器100M(接着型医療用照射器100を用いた医療機器)および接着型医療用照射器100の一例を説明する説明図である。図2は、本発明の実施形態に係る接着型医療用照射器100の一例を説明する概略断面図(発条部材は断面ではない)である。図3は、本発明の実施形態に係る発光部材11Aの一例を説明する拡大説明図である。図4(a)は、本発明の実施形態に係る接着型医療用照射器100の光の光路の例(発光ステップ)を説明する説明図である。図4(b)は、本発明の実施形態に係る接着型医療用照射器100の光の光路の例(集光ステップ・投光ステップ)を説明する説明図である。図4(c)は、本発明の実施形態に係る接着型医療用照射器100の光の光路の例(照射ステップ)を説明する説明図である。なお、図1等に示す接着型医療用照射器の構成等は一例であり、本発明は図1等に示す接着型医療用照射器等に限定されるものではない。
(1. Configuration of adhesive-type medical irradiator)
The configuration of the adhesive medical irradiator according to the embodiment of the present invention will be described with reference to Figs. 1 to 4. Here, Fig. 1 is an explanatory diagram for explaining an example of a medical system 100S using an adhesive medical irradiator 100 according to the embodiment of the present invention, a medical device 100M (medical device using an adhesive medical irradiator 100), and an adhesive medical irradiator 100. Fig. 2 is a schematic cross-sectional view (a spring member is not a cross-section) for explaining an example of an adhesive medical irradiator 100 according to the embodiment of the present invention. Fig. 3 is an enlarged explanatory diagram for explaining an example of a light emitting member 11A according to the embodiment of the present invention. Fig. 4(a) is an explanatory diagram for explaining an example of an optical path of light (light emission step) of the adhesive medical irradiator 100 according to the embodiment of the present invention. Fig. 4(b) is an explanatory diagram for explaining an example of an optical path of light (light collection step/light projection step) of the adhesive medical irradiator 100 according to the embodiment of the present invention. Fig. 4(c) is an explanatory diagram for explaining an example of an optical path of light (irradiation step) of the adhesive medical irradiator 100 according to the embodiment of the present invention. It should be noted that the configuration of the adhesive-type medical irradiation device shown in FIG. 1 etc. is merely an example, and the present invention is not limited to the adhesive-type medical irradiation device shown in FIG. 1 etc.

図1乃至図4に示すように、本発明に係る接着型医療用照射器100は、身体に光を照射して治療するときに使用するものである。接着型医療用照射器100は、本実施形態では、図1および図2に示すように、身体に照射する光を発光する光源部11と、光源部11が発光した光を身体に照射する照射熱伝導部12と、を有する。接着型医療用照射器100は、本実施形態では、図1および図2に示すように、光源部11は手で持ち運びや移動が容易にできる略円筒形状の内部に配置し、照射熱伝導部12は略円錐形状の内部に配置し、先端(後述する球状の押圧照射部材12A)から光を照射する(後述する図4のLB)。なお、筐体の形状は、設計、実験、計算などで予め定められる形状とすることができる。 As shown in Figs. 1 to 4, the adhesive medical irradiator 100 according to the present invention is used when irradiating light to the body for treatment. In this embodiment, as shown in Figs. 1 and 2, the adhesive medical irradiator 100 has a light source unit 11 that emits light to be irradiated to the body, and an irradiation heat conductive unit 12 that irradiates the body with the light emitted by the light source unit 11. In this embodiment, as shown in Figs. 1 and 2, the adhesive medical irradiator 100 has a light source unit 11 arranged inside a substantially cylindrical shape that can be easily carried and moved by hand, and an irradiation heat conductive unit 12 arranged inside a substantially conical shape, and irradiates light from the tip (a spherical pressing irradiation member 12A described later) (LB in Fig. 4 described later). The shape of the housing can be a shape that is predetermined by design, experiment, calculation, etc.

光源部11は、図1および図2に示すように、複数の照射光をそれぞれ発光する複数の発光部材11Aと、発光部材11Aが発光した複数の照射光を所望の方向に集光する光学素子部材11Bと、複数の照射光を反射する複数の反射面部材13と、を備える。 As shown in Figs. 1 and 2, the light source unit 11 includes a plurality of light-emitting members 11A that each emit a plurality of beams of irradiation light, an optical element member 11B that focuses the beams of irradiation light emitted by the light-emitting members 11A in a desired direction, and a plurality of reflective surface members 13 that reflect the beams of irradiation light.

図2および図3に示すように、複数の発光部材11Aは、複数の照射光をそれぞれ発光するものである。複数の発光部材11Aは、図2および図3に示すように、取付部材11ASで取り付けられた制御基板(略円板の基板)の両面に配置される構成であってもよい。複数の発光部材11A(制御基板)は、図2に示すように、照射方向(光軸方向)にスライドして移動可能な取り付けであってもよい。本発明に係る発光部材は、1つ又は2つ以上であってもよい。これにより、本発明に係る光源部11は、より多くの光源をコンパクトに配置することができ、集光した光(照射する光)の強度を向上することができる。また、複数の発光部材11Aは、図3に示すように、複数のLEDを用いてもよい。また、複数の発光部材11Aは、図3に示すように、LEDを配置してもよい。これにより、本発明に係る光源部11は、より多くの光源をコンパクトに配置することができ、消費電力を低減することができ、集光した光(照射する光)の強度を向上することができる。なお、本発明において、発光部材11A(光源部11)については特に限定されるものではなく、公知の技術を用いることができる。また、発光部材11Aの形状や配置、材質は、設計、実験、計算などで予め定められる形状、配置および材質とすることができる。 2 and 3, the plurality of light emitting members 11A each emit a plurality of irradiation lights. As shown in FIG. 2 and FIG. 3, the plurality of light emitting members 11A may be arranged on both sides of a control board (substrate of a substantially circular plate) attached by an attachment member 11AS. As shown in FIG. 2, the plurality of light emitting members 11A (control board) may be attached so as to be slidable and movable in the irradiation direction (optical axis direction). The light emitting members according to the present invention may be one or more. As a result, the light source unit 11 according to the present invention can compactly arrange more light sources, and the intensity of the concentrated light (light to be irradiated) can be improved. In addition, the plurality of light emitting members 11A may use a plurality of LEDs as shown in FIG. 3. In addition, the plurality of light emitting members 11A may be arranged with LEDs as shown in FIG. 3. As a result, the light source unit 11 according to the present invention can compactly arrange more light sources, reduce power consumption, and improve the intensity of the concentrated light (light to be irradiated). In addition, in the present invention, the light emitting member 11A (light source unit 11) is not particularly limited, and known techniques can be used. Furthermore, the shape, arrangement, and material of the light-emitting member 11A can be determined in advance through design, experiment, calculation, etc.

図2および図4に示すように、光学素子部材11Bは、発光部材11Aが発光した複数の照射光を所望の方向に集光するものである。光学素子部材11Bは、図2および図4に示すように、複数の照射光を所望の方向に集光するために、光路(照射方向)を中心軸(光軸)に配置される。光学素子部材11Bは、光学レンズなどを用いることができる。具体的には、光学素子部材11Bは、先ず図4(a)に示すように発光部材11Aが発光した複数の照射光L1を反射面部材13で反射し、次に図4(b)に示すように反射光L2を制御基板と筐体内壁の間から通過させ、反射光L2および照射光L1を透過して集光し、次いで図4(c)に示すように集光した照射光を照射熱伝導部12(後述する押圧照射部材12A)に投光して、照射方向LBに光を照射する。これにより、本発明に係る光学素子部材11Bは、複数の光源から集光した光(照射する光)の強度を向上し、身体に照射することができる。なお、本発明において、光学素子部材11B(光源部11)については特に限定されるものではなく、光学素子部材11Bの形状や配置、材質は、設計、実験、計算などで予め定められる形状、配置および材質とすることができる。 2 and 4, the optical element member 11B focuses the multiple irradiation lights emitted by the light emitting member 11A in a desired direction. As shown in FIG. 2 and 4, the optical element member 11B is arranged with the optical path (irradiation direction) as the central axis (optical axis) in order to focus the multiple irradiation lights in a desired direction. The optical element member 11B can be an optical lens or the like. Specifically, the optical element member 11B first reflects the multiple irradiation lights L1 emitted by the light emitting member 11A with the reflecting surface member 13 as shown in FIG. 4(a), then passes the reflected light L2 between the control board and the inner wall of the housing as shown in FIG. 4(b), transmits and focuses the reflected light L2 and the irradiation light L1, and then projects the focused irradiation light onto the irradiation heat conductive portion 12 (the pressing irradiation member 12A described later) as shown in FIG. 4(c) to irradiate the light in the irradiation direction LB. As a result, the optical element member 11B according to the present invention can improve the intensity of the light (illuminated light) collected from multiple light sources and irradiate it onto the body. Note that in the present invention, the optical element member 11B (light source unit 11) is not particularly limited, and the shape, arrangement, and material of the optical element member 11B can be a shape, arrangement, and material that are predetermined by design, experiment, calculation, etc.

照射熱伝導部12は、図1および図2に示すように、光源部11が発光した光を身体に照射するものである。照射熱伝導部12は、光源部11の光学素子部材11Bが集光した照射光を透過して生成された光を身体に照射する押圧照射部材12Aと、光学素子部材11Bが集光した照射光を反射して押圧照射部材12Aに投光する反射熱源部材12Bと、押圧照射部材12Aを照射方向に移動可能に支持する発条部材12Cと、を備える。 As shown in Fig. 1 and Fig. 2, the irradiation heat conduction unit 12 irradiates the body with light emitted by the light source unit 11. The irradiation heat conduction unit 12 includes a pressure irradiation member 12A that irradiates the body with light generated by transmitting the irradiation light focused by the optical element member 11B of the light source unit 11, a reflection heat source member 12B that reflects the irradiation light focused by the optical element member 11B and projects it onto the pressure irradiation member 12A, and a spring member 12C that supports the pressure irradiation member 12A so that it can move in the irradiation direction.

図2に示すように、押圧照射部材12Aは、球状のレンズである。押圧照射部材12Aは、身体に光を照射するときに、身体に押さえ付けられて、発条部材12Cの伸縮により照射方向(光軸方向)に移動可能に支持され、かつ、発条部材12Cの押圧力(伸長力、復元力)により回転可能に保持される。これにより、押圧照射部材12Aは、身体に光を照射しているときに、押圧照射部材12Aを身体に押さえ付けて、かつ、押圧照射部材12Aを身体の表面で回転させながら、光を照射することができる。なお、本発明において、押圧照射部材12A(照射熱伝導部12)については特に限定されるものではなく、押圧照射部材12Aの形状や配置、材質は、設計、実験、計算などで予め定められる形状、配置および材質とすることができる。 2, the pressure irradiation member 12A is a spherical lens. When the body is irradiated with light, the pressure irradiation member 12A is pressed against the body and supported so as to be movable in the irradiation direction (optical axis direction) by the expansion and contraction of the spring member 12C, and is rotatably held by the pressing force (extension force, restoring force) of the spring member 12C. As a result, when the body is irradiated with light, the pressure irradiation member 12A can irradiate light while pressing the pressure irradiation member 12A against the body and rotating the pressure irradiation member 12A on the surface of the body. Note that in the present invention, the pressure irradiation member 12A (irradiation heat conductive part 12) is not particularly limited, and the shape, arrangement, and material of the pressure irradiation member 12A can be predetermined by design, experiment, calculation, etc.

図2に示すように、反射熱源部材12Bは、光学素子部材11Bが集光した照射光を反射して押圧照射部材12Aに投光するものである。反射熱源部材11Bの表面は、中空円錐体内面の曲面であり、照射光を反射する。反射熱源部材12Bは、人工鉱石を用いることができる。また、反射熱源部材12Bは、テラヘルツ鉱石を用いることができる。これにより、反射熱源部材12B (照射熱伝導部12)は、照射光を反射する際に、鉱石の発熱作用により照射光で発熱することができる。なお、本発明において、反射熱源部材12B (照射熱伝導部12)については特に限定されるものではなく、反射熱源部材12Bの形状や配置、材質は、設計、実験、計算などで予め定められる形状、配置および材質とすることができる。 As shown in FIG. 2, the reflective heat source member 12B reflects the irradiation light collected by the optical element member 11B and projects it onto the pressing irradiation member 12A. The surface of the reflective heat source member 11B is a curved surface inside the hollow cone and reflects the irradiation light . The reflective heat source member 12B can be made of artificial ore. Also, the reflective heat source member 12B can be made of terahertz ore. This allows the reflective heat source member 12B (irradiation heat conductive portion 12) to generate heat from the irradiation light due to the heat generating effect of the ore when reflecting the irradiation light. In the present invention, the reflective heat source member 12B (irradiation heat conductive portion 12) is not particularly limited, and the shape, arrangement, and material of the reflective heat source member 12B can be a shape, arrangement, and material that are predetermined by design, experiment, calculation, or the like.

図2に示すように、発条部材12Cは、押圧照射部材12Aを照射方向に移動可能に支持するものである。発条部材12Cは、本実施形態では、略ばね形状である。発条部材12Cは、発条部材12Cの伸縮により押圧照射部材12Aを照射方向に移動可能に支持し、かつ、発条部材12Cの押圧力(伸長力、復元力)により押圧照射部材12Aを回転可能に保持する。これにより、発条部材12C(照射熱伝導部12)は、身体に光を照射するときに、押圧照射部材12Aを身体に押さえ付けて、押圧照射部材12Aを身体の表面で(摩擦により)回転させながら、光を照射することができる。また、発条部材12Cは、球状の押圧照射部材12Aを全方向に回転させることができるのでより強い圧を身体表面にかけることもでき、指圧での痛みや刺激を軽減することができる。また、発条部材12Cは、反射熱源部材12Bが発する熱および光源部11(発光部材11A、光学素子部材11B)が発する熱を押圧照射部材12Aに伝達する。これにより、押圧照射部材12A(照射熱伝導部12)は、発条部材12Cが伝達した熱を身体に伝えることができるので、身体に光を照射して治療するときに、操作が容易で安全性が高く、小型化され、かつ、光を照射すると同時に、身体の表面を押圧したり、身体に熱を与えたりすることができ、治療効果を向上することができる。なお、本発明において、発条部材12C(照射熱伝導部12)については特に限定されるものではなく、発条部材12Cの形状や配置、材質は、設計、実験、計算などで予め定められる形状、配置および材質とすることができる。 2, the spring member 12C supports the pressure irradiation member 12A so that it can move in the irradiation direction. In this embodiment, the spring member 12C is substantially spring-shaped. The spring member 12C supports the pressure irradiation member 12A so that it can move in the irradiation direction by the expansion and contraction of the spring member 12C, and holds the pressure irradiation member 12A rotatably by the pressing force (extension force, restoring force) of the spring member 12C. As a result, when irradiating light to the body, the spring member 12C (irradiation heat conductive part 12) can irradiate light while pressing the pressure irradiation member 12A against the body and rotating the pressure irradiation member 12A on the surface of the body (by friction). In addition, the spring member 12C can rotate the spherical pressure irradiation member 12A in all directions, so that it can apply stronger pressure to the body surface, reducing pain and irritation caused by finger pressure. In addition, the spring member 12C transmits the heat generated by the reflective heat source member 12B and the heat generated by the light source unit 11 (light emitting member 11A, optical element member 11B) to the pressure irradiation member 12A. As a result, the pressure irradiation member 12A (irradiation heat conducting unit 12) can transmit the heat transmitted by the spring member 12C to the body, so that when the body is irradiated with light for treatment, the operation is easy, safe, and compact, and the surface of the body can be pressed and heat can be applied to the body at the same time as the light is irradiated, improving the treatment effect. Note that in the present invention, the spring member 12C (irradiation heat conducting unit 12) is not particularly limited, and the shape, arrangement, and material of the spring member 12C can be predetermined by design, experiment, calculation, etc.

以上のとおり、本発明に係る接着型医療用照射器100によれば、身体に光を照射して治療するときに、操作が容易で安全性が高く、小型化され、より低額の照射器を用いることができ、かつ、光を照射すると同時に、身体の表面を押圧したり、身体に熱を与えたりすることができ、治療効果を向上することができる。 As described above, the adhesive medical irradiator 100 according to the present invention allows for the use of an irradiator that is easy to operate, highly safe, compact, and less expensive when irradiating the body with light for treatment, and can also apply pressure to the surface of the body or heat to the body while irradiating the light, improving the effectiveness of treatment.

(2.医療機器の構成)
図1を用いて、本発明の実施形態に係る医療機器100Mの構成を説明する。なお、図1に示す医療機器100M等は一例であり、本発明は図1に示す医療機器100M等に限定されるものではない。図1に示すように、本発明に係る医療機器100Mは、上記の(1.接着型医療用照射器の構成)の接着型医療用照射器100を含むものである。このため、以下の説明では、(1.接着型医療用照射器の構成)と異なる部分を主に説明する。
(2. Configuration of medical equipment)
The configuration of a medical device 100M according to an embodiment of the present invention will be described with reference to Fig. 1. The medical device 100M shown in Fig. 1 is an example, and the present invention is not limited to the medical device 100M shown in Fig. 1. As shown in Fig. 1, the medical device 100M according to the present invention includes the adhesive medical irradiator 100 described above in (1. Configuration of adhesive medical irradiator). Therefore, in the following description, the parts different from (1. Configuration of adhesive medical irradiator) will be mainly described.

図1に示すように、本発明の実施形態に係る医療機器100Mは、上記の(1.接着型医療用照射器の構成)に記載の接着型医療用照射器100と、光源部11および照射熱伝導部12をそれぞれ駆動する駆動手段21と、照射熱伝導部12を身体に押圧する押圧手段22と、駆動手段21及び押圧手段22を制御する治療制御部20と、を備える。ここで、駆動手段21は、光源部11の発光動作(点灯等)を制御し、照射熱伝導部12の位置(光を照射する位置等)を制御する。なお、治療制御部20は、例えばCPU及びメモリで構成される演算装置を用いることができる。 As shown in FIG. 1, the medical device 100M according to an embodiment of the present invention includes the adhesive medical irradiator 100 described above in (1. Configuration of adhesive medical irradiator), a driving means 21 for driving the light source unit 11 and the irradiation heat conductive unit 12, respectively, a pressing means 22 for pressing the irradiation heat conductive unit 12 against the body, and a treatment control unit 20 for controlling the driving means 21 and the pressing means 22. Here, the driving means 21 controls the light emission operation (lighting, etc.) of the light source unit 11, and controls the position of the irradiation heat conductive unit 12 (position to irradiate light, etc.). The treatment control unit 20 can be, for example, a calculation device composed of a CPU and a memory.

駆動手段21は、光源部11および照射熱伝導部12をそれぞれ駆動するものである。なお、本発明において、駆動手段21については特に限定されるものではなく、公知の技術を用いることができる。また、駆動手段21の制御方法や配置は、設計、実験、計算などで予め定められる方法および配置とすることができる。 The driving means 21 drives the light source unit 11 and the irradiation heat conduction unit 12. In the present invention, the driving means 21 is not particularly limited, and known technology can be used. In addition, the control method and arrangement of the driving means 21 can be a method and arrangement that are predetermined by design, experiment, calculation, etc.

押圧手段22は、照射熱伝導部12を身体に押圧するものである。なお、本発明において、押圧手段22については特に限定されるものではなく、公知の技術を用いることができる。また、押圧手段22の制御方法や配置は、設計、実験、計算などで予め定められる方法および配置とすることができる。 The pressing means 22 presses the irradiating heat conductive section 12 against the body. Note that in the present invention, the pressing means 22 is not particularly limited, and known technology can be used. In addition, the control method and arrangement of the pressing means 22 can be a method and arrangement that are predetermined by design, experiment, calculation, etc.

以上のとおり、本発明に係る医療機器100Mは、前記(1.接着型医療用照射器の構成)の接着型医療用照射器100(図1乃至図4)と同様の効果を得ることができる。また、本発明に係る医療機器100Mは、手作業による実行者の技術の差によるばらつきを低減し、治療ミスを防止することができる。 As described above, the medical device 100M according to the present invention can achieve the same effects as the adhesive-type medical irradiator 100 (FIGS. 1 to 4) described above in (1. Configuration of the adhesive-type medical irradiator). In addition, the medical device 100M according to the present invention can reduce variability due to differences in the skill of the practitioner in manual work, and prevent treatment errors.

(3.接着型医療用照射器を用いる医療システム)
図1を用いて、本発明の実施形態に係る医療システム100Sの構成を説明する。なお、図1に示す医療システム100S等は一例であり、本発明は図1に示す医療システム100S等に限定されるものではない。図1に示すように、本発明に係る医療システム100Sは、上記の(2.医療機器の構成)の医療機器100Mを含むものである。このため、以下の説明では、(2.医療機器の構成)と異なる部分を主に説明する。
(3. Medical system using adhesive type medical irradiator)
The configuration of a medical system 100S according to an embodiment of the present invention will be described with reference to Fig. 1. The medical system 100S shown in Fig. 1 is an example, and the present invention is not limited to the medical system 100S shown in Fig. 1. As shown in Fig. 1, the medical system 100S according to the present invention includes the medical device 100M described in (2. Configuration of medical device). Therefore, in the following description, the differences from (2. Configuration of medical device) will be mainly described.

図1に示すように、本発明に係る医療システム100Sは、医療機器100Mと、通信回線を介して医療機器100Mと接続された情報端末30と、各構成に動作を制御する制御手段10と、を含むシステムである。ここで、制御手段10は、各構成に動作を指示し、その動作を制御する手段である。制御手段10は、例えばCPU及びメモリで構成される演算装置を用いることができる。また、制御手段10は、各構成に予め搭載されている演算装置、コントローラ又はその他制御手段を利用する構成であってもよい。なお、本発明に係る医療システム100Sは、他の機能や手段を含むシステムであってもよい。 As shown in FIG. 1, the medical system 100S according to the present invention is a system including a medical device 100M, an information terminal 30 connected to the medical device 100M via a communication line, and a control means 10 that controls the operation of each component. Here, the control means 10 is a means for instructing each component to operate and controlling that operation. The control means 10 may be, for example, a calculation device configured with a CPU and a memory. The control means 10 may also be configured to utilize a calculation device, controller, or other control means that is pre-installed in each component. The medical system 100S according to the present invention may also be a system that includes other functions and means.

情報端末30は、本実施形態では、少なくとも操作に関する情報を含む入力情報を入力される入力手段31と、医療機器100Mから出力された少なくとも治療に関する情報を含む出力情報を出力する出力手段32と、少なくとも入力情報および出力情報を記録する記録通信手段33と、を備える。情報端末30は、たとえば通信手段(LAN、無線LAN、インターネットなど)を介して、情報の入出力を行う端末であってもよい。情報端末30は、例えばタブレット、スマートフォン、携帯端末、ノートPC、PCなどであってもよい。 In this embodiment, the information terminal 30 includes an input means 31 for receiving input information including at least information related to an operation, an output means 32 for outputting output information including at least information related to treatment output from the medical device 100M, and a recording and communication means 33 for recording at least the input information and the output information. The information terminal 30 may be a terminal that inputs and outputs information via, for example, a communication means (LAN, wireless LAN, the Internet, etc.). The information terminal 30 may be, for example, a tablet, a smartphone, a mobile terminal, a notebook PC, a PC, etc.

入力手段31は、医療システム100S外部から情報を入力される手段である。入力手段31は、記録通信手段33を介して、少なくとも操作に関する情報を入力される。なお、入力手段31は、情報端末(タブレットなど)に予め搭載されている機能(タッチパネル、キーボード、マウスなど)を利用する構成であってもよい。 The input means 31 is a means for inputting information from outside the medical system 100S. At least information related to the operation is input to the input means 31 via the recording and communication means 33. The input means 31 may be configured to utilize functions (such as a touch panel, keyboard, mouse, etc.) that are pre-installed on an information terminal (such as a tablet).

出力手段32は、医療システム100S外部に情報を出力する手段である。出力手段32は、記録通信手段33を介して、医療機器100Mから出力された少なくとも治療に関する情報を含む出力情報を出力する。なお、出力手段32は、情報端末(タブレットなど)に予め搭載されている機能(無線通信機能、有線通信機能など)を利用する構成であってもよい。また、出力手段32は、情報端末(タブレットなど)に予め搭載されている機能(液晶、有機EL、タッチパネルなど)を利用して、出力情報を表示するものであってもよい。 The output means 32 is a means for outputting information to the outside of the medical system 100S. The output means 32 outputs output information including at least information related to treatment output from the medical device 100M via the recording and communication means 33. The output means 32 may be configured to utilize a function (wireless communication function, wired communication function, etc.) pre-installed in the information terminal (tablet, etc.). The output means 32 may also display the output information using a function (liquid crystal, organic electroluminescence, touch panel, etc.) pre-installed in the information terminal (tablet, etc.).

以上のとおり、本発明に係る医療システム100Sによれば、上記の(2.医療機器の構成)と同様の効果を得ることができる。 As described above, the medical system 100S according to the present invention can provide the same effects as those described above in (2. Configuration of medical equipment).

(4.接着型医療用照射器を用いた光照射方法)
図1および図5を用いて、本発明に係る接着型医療用照射器100を用いた光照射方法を説明する。ここで、図5は、本発明の実施形態に係る接着型医療用照射器を用いた光照射方法の一例を説明するフローチャート図である。なお、図5に示す接着型医療用照射器を用いた光照射方法は一例であり、本発明は図5に示す接着型医療用照射器を用いた光照射方法に限定されるものではない。本発明に係る接着型医療用照射器100を用いた光照射方法は、上記の(1.接着型医療用照射器の構成)の接着型医療用照射器100を含むものである。このため、以下の説明では、(1.接着型医療用照射器の構成)と異なる部分を主に説明する。
(4. Light irradiation method using adhesive type medical irradiator)
A light irradiation method using an adhesive medical irradiator 100 according to the present invention will be described with reference to Figs. 1 and 5. Here, Fig. 5 is a flow chart for explaining an example of a light irradiation method using an adhesive medical irradiator according to an embodiment of the present invention. Note that the light irradiation method using the adhesive medical irradiator shown in Fig. 5 is an example, and the present invention is not limited to the light irradiation method using the adhesive medical irradiator shown in Fig. 5. The light irradiation method using the adhesive medical irradiator 100 according to the present invention includes the adhesive medical irradiator 100 described above in (1. Configuration of the adhesive medical irradiator). Therefore, in the following description, the parts different from (1. Configuration of the adhesive medical irradiator) will be mainly described.

図5に示すように、本発明の実施形態に係る接着型医療用照射器を用いた光照射方法は、ステップS501において、先ず、光を照射する動作を開始する。本発明に係る光照射方法は、例えば使用者の都合のよいタイミングで、光を照射する動作を開始することができる。その後、本発明に係る接着型医療用照射器を用いた光照射方法は、ステップS502に進む。 As shown in FIG. 5, the light irradiation method using an adhesive-type medical irradiator according to an embodiment of the present invention first starts the operation of irradiating light in step S501. The light irradiation method according to the present invention can start the operation of irradiating light at a time convenient for the user, for example. Thereafter, the light irradiation method using an adhesive-type medical irradiator according to the present invention proceeds to step S502.

次に、本発明に係る接着型医療用照射器を用いた光照射方法は、ステップS502において、例えば使用者によって、複数の発光部材11Aを用いて、複数の照射光をそれぞれ発光する(発光ステップ)(たとえば図4(a))。その後、本発明に係る接着型医療用照射器を用いた光照射方法は、ステップS503に進む。 Next, in step S502, the light irradiation method using the adhesive medical irradiator of the present invention has a user, for example, use a plurality of light emitting members 11A to emit a plurality of irradiation lights (light emitting step) (e.g., FIG. 4(a)). After that, the light irradiation method using the adhesive medical irradiator of the present invention proceeds to step S503.

次いで、本発明に係る接着型医療用照射器を用いた光照射方法は、ステップS503において、光学素子部材11Bを用いて、発光部材11Aが発光した複数の照射光を所望の方向に集光する(集光ステップ)(たとえば図4(b))。その後、本発明に係る接着型医療用照射器を用いた光照射方法は、ステップS504に進む。 Next, in step S503, the light irradiation method using the adhesive medical irradiator according to the present invention uses the optical element member 11B to focus the multiple irradiation lights emitted by the light emitting member 11A in a desired direction (light focusing step) (e.g., FIG. 4(b)). After that, the light irradiation method using the adhesive medical irradiator according to the present invention proceeds to step S504.

ステップS504において、本発明に係る接着型医療用照射器を用いた光照射方法は、反射熱源部材12Bを用いて、光学素子部材11Bが集光した照射光を反射して押圧照射部材12Aに投光する(投光ステップ)(たとえば図4(c))。その後、本発明に係る接着型医療用照射器を用いた光照射方法は、ステップS505に進む。ここで、本発明に係る接着型医療用照射器を用いた光照射方法は、反射熱源部材12Bが照射光を反射する際に照射光により発熱し、発条部材12Cを用いて反射熱源部材12Bが発する熱を押圧照射部材12Aに伝達してもよい。 In step S504, the light irradiation method using the adhesive medical irradiator of the present invention uses the reflective heat source member 12B to reflect the irradiation light focused by the optical element member 11B and project it onto the pressing irradiation member 12A (light projection step) (for example, FIG. 4(c)). After that, the light irradiation method using the adhesive medical irradiator of the present invention proceeds to step S505. Here, the light irradiation method using the adhesive medical irradiator of the present invention may involve the reflective heat source member 12B generating heat due to the irradiation light when reflecting it, and the heat generated by the reflective heat source member 12B being transferred to the pressing irradiation member 12A using the spring member 12C.

ステップS505において、接着型医療用照射器を用いた光照射方法は、押圧照射部材12Aを用いて、反射熱源部材12Bから投光された照射光を透過して生成される光を身体に照射する(照射ステップ)(たとえば図4(c))。その後、本発明に係る接着型医療用照射器を用いた光照射方法は、ステップS506に進む。ここで、本発明に係る接着型医療用照射器を用いた光照射方法は、治療効果を向上するために、発条部材12Cから伝達された熱を身体に伝達して、治療に利用してもよい。 In step S505, the light irradiation method using an adhesive-type medical irradiator uses a pressurized irradiation member 12A to irradiate the body with light generated by transmitting the irradiation light projected from the reflective heat source member 12B (irradiation step) (for example, FIG. 4(c)). After that, the light irradiation method using an adhesive-type medical irradiator according to the present invention proceeds to step S506. Here, in order to improve the treatment effect, the light irradiation method using an adhesive-type medical irradiator according to the present invention may transfer heat transferred from the spring member 12C to the body and use it for treatment.

ステップS506において、接着型医療用照射器を用いた光照射方法は、発条部材12Cを用いて、身体に光を照射しているときに、押圧照射部材12Aを身体に押さえ付けて、かつ、押圧照射部材12Aを身体の表面で回転させながら、光を照射する(押圧ステップ)。その後、本発明に係る接着型医療用照射器を用いた光照射方法は、ステップS507に進む。ここで、本発明に係る接着型医療用照射器を用いた光照射方法は、治療効果を向上するために、発条部材12Cから伝達された熱を身体に伝達して、治療に利用してもよい。 In step S506, the light irradiation method using the adhesive medical irradiator uses the spring member 12C to irradiate the body with light, while pressing the pressing irradiation member 12A against the body and rotating the pressing irradiation member 12A on the surface of the body to irradiate light (pressing step). After that, the light irradiation method using the adhesive medical irradiator of the present invention proceeds to step S507. Here, in order to improve the treatment effect, the light irradiation method using the adhesive medical irradiator of the present invention may transfer heat transferred from the spring member 12C to the body and use it for treatment.

ステップS507において、本発明に係る接着型医療用照射器を用いた光照射方法は、光を照射する動作を繰り返すか否かを判断する。これにより、本発明に係る接着型医療用照射器を用いた光照射方法は、所望の時間の間で光を照射することができる。その後、光を照射する動作を繰り返すと判断した場合には、本発明に係る細胞播種方法は、ステップS502に戻る。光を照射する動作を終了すると判断した場合には、本発明に係る接着型医療用照射器を用いた光照射方法は、図中の「END」に進み、動作を終了する。 In step S507, the light irradiation method using an adhesive type medical irradiator according to the present invention determines whether or not to repeat the operation of irradiating light. This allows the light irradiation method using an adhesive type medical irradiator according to the present invention to irradiate light for a desired period of time. If it is determined that the operation of irradiating light is to be repeated, the cell seeding method according to the present invention then returns to step S502. If it is determined that the operation of irradiating light is to be ended, the light irradiation method using an adhesive type medical irradiator according to the present invention proceeds to "END" in the figure and ends the operation.

以上のとおり、本発明に係る細胞提供方法によれば、前記(1.接着型医療用照射器の構成)の接着型医療用照射器100と同様の効果を得ることができる。 As described above, the cell provision method according to the present invention can provide the same effects as the adhesive medical irradiator 100 described above (1. Configuration of the adhesive medical irradiator).

本発明に係る細胞提供方法のプログラムは、図5のステップ501からステップ507の方法を実行する。上記のプログラムによれば、前記(1.接着型医療用照射器の構成)と同等の効果が得られる。また、本発明は、上記のプログラムを記録したコンピュータによって読み取り可能な記録媒体としてもよい。記録媒体には、フレキシブルディスク、CD-ROM、DVD、及び、メモリーカード等、コンピュータ読み取り可能な媒体を利用することができる。更に、本発明は、プログラムをインターネット等のネットワークを介して送信することが可能な伝送可能媒体であってもよい。上記の記録媒体によれば、前記(1.接着型医療用照射器の構成)と同等の効果が得られる。 The program for the cell provision method according to the present invention executes the method of steps 501 to 507 in FIG. 5. According to the above program, the same effect as that of the above (1. Configuration of adhesive-type medical irradiator) can be obtained. Furthermore, the present invention may be a computer-readable recording medium on which the above program is recorded. The recording medium may be a computer-readable medium such as a flexible disk, CD-ROM, DVD, or memory card. Furthermore, the present invention may be a transmittable medium capable of transmitting the program via a network such as the Internet. According to the above recording medium, the same effect as that of the above (1. Configuration of adhesive-type medical irradiator) can be obtained.

本発明は、身体に光を照射して治療するときに利用することができる。本発明は、光を照射することを利活用する遺伝子治療、免疫療法、再生医療、抗体医薬生産、美容分野(化粧品など)、食品分野などにおいて好適に利用することが可能である。 The present invention can be used when irradiating the body with light for treatment. The present invention can be suitably used in gene therapy, immunotherapy, regenerative medicine, antibody drug production, the beauty field (cosmetics, etc.), the food field, and other fields that utilize light irradiation.

以上のとおり、本発明に係る実施形態について説明したが、本発明は上記の実施形態に限定されるものではない。すなわち、本発明は、請求の範囲に記載の内容に基づいて、様々に変形、変更又はその他任意に改変され得る。 Although the embodiments of the present invention have been described above, the present invention is not limited to the above-mentioned embodiments. In other words, the present invention can be modified, changed, or otherwise arbitrarily altered in various ways based on the contents described in the claims.

100 : 接着型医療用照射器
100M: 医療機器(接着型医療用照射器を用いた医療機器)
100S: 接着型医療用照射器を用いる医療システム
10 : 制御手段
11 : 光源部
11A: 発光部材
11AS:取付部材
11B: 光学素子部材
12 : 照射熱伝導部
12A: 押圧照射部材
12B: 反射熱源部材
12C: 発条部材
13 : 反射面部材
20 : 治療制御部
21 : 駆動手段
22 : 押圧手段
30 : 情報端末
31 : 入力手段
32 : 出力手段
33 : 記録通信手段
L1,L2,L3: 光の屈折方向(進行方向)
LB : 照射光
MS : 可動方向
100: Adhesive medical irradiator 100M: Medical device (medical device using adhesive medical irradiator)
100S: Medical system using adhesive type medical irradiator 10: Control means 11: Light source section 11A: Light emitting member 11AS: Mounting member 11B: Optical element member 12: Irradiation heat conducting section 12A: Pressing irradiation member 12B: Reflecting heat source member 12C: Spring member 13: Reflecting surface member 20: Treatment control section 21: Driving means 22: Pressing means 30: Information terminal 31: Input means 32: Output means 33: Recording and communication means L1, L2, L3: Refraction direction (travel direction) of light
LB: Irradiation light MS: Moving direction

Claims (2)

身体に光を照射して治療するときに使用し、患者に接触して用いられるものである接着型医療用照射器であって、
前記光を発光する光源部と、
前記光源部が発光した前記光を前記身体に照射する照射熱伝導部と、
前記光源部を手で持ち運びや移動が容易にできる円筒の内部に配置し、かつ、前記照射熱伝導部を円錐の内部に配置し、前記円錐の先端から前記光を照射する開口を有する、前記円筒と前記円錐から成る筐体と
を有し、
前記光源部は、複数の照射光をそれぞれ発光する複数の発光部材と、前記発光部材が発光した複数の前記照射光を所望の方向に集光する光学素子部材と、を備え、
前記照射熱伝導部は、前記光源部の前記光学素子部材が集光した前記照射光を透過して生成された前記光を前記身体に照射する押圧照射部材と、前記光学素子部材が集光した前記照射光を反射して前記押圧照射部材に投光する中空円錐体の形状の反射熱源部材と、前記押圧照射部材を照射方向に移動可能に支持する一本の発条部材と、を備え、
前記押圧照射部材は、球状のレンズであり、
前記発条部材は、円錐コイルばねであり、前記円錐コイルばねの円錐回転軸の方向は前記光学素子部材が集光した前記照射光の前記所望の方向と同じであり、前記所望の方向に伸縮可能であり、該発条部材の伸縮により前記押圧照射部材を照射方向に移動可能に支持し、かつ、該発条部材の押圧力により前記押圧照射部材を回転可能に保持し、
前記身体に前記光を照射するときに、前記押圧照射部材を該身体に押さえ付けて、前記発条部材を用いて該押圧照射部材を該身体の表面で回転させながら、該光を照射
前記反射熱源部材は、人工鉱石であり、該反射熱源部材の中空円錐体内面の曲面で前記照射光を反射
前記反射熱源部材は、前記照射光を反射する際に該照射光により発熱し、
前記発条部材は、前記反射熱源部材が発する熱を前記押圧照射部材に伝達し、
前記押圧照射部材は、前記発条部材が伝達した前記熱を前記身体に伝える、
ことを特徴とする接着型医療用照射器。
An adhesive medical irradiator that is used to irradiate light to the body for treatment and is used in contact with a patient ,
A light source unit that emits the light;
an irradiation heat conduction unit that irradiates the body with the light emitted by the light source unit;
a housing including the cylinder and the cone, the light source unit being disposed inside a cylinder that can be easily carried and moved by hand, the radiation heat conductive unit being disposed inside a cone, and an opening for radiating the light from a tip of the cone;
having
The light source unit includes a plurality of light emitting members each emitting a plurality of irradiation lights, and an optical element member that collects the plurality of irradiation lights emitted by the light emitting members in a desired direction;
The irradiation heat conduction unit includes a pressure irradiation member that irradiates the body with the light generated by transmitting the irradiation light collected by the optical element member of the light source unit, a reflective heat source member in the shape of a hollow cone that reflects the irradiation light collected by the optical element member and projects it onto the pressure irradiation member, and a spring member that supports the pressure irradiation member movably in the irradiation direction,
The pressure irradiation member is a spherical lens,
the spring member is a conical coil spring, the direction of the conical rotation axis of the conical coil spring is the same as the desired direction of the irradiation light focused by the optical element member, the spring member is expandable and contractable in the desired direction , the spring member supports the pressure irradiation member so as to be movable in the irradiation direction by the expansion and contraction of the spring member, and the spring member rotatably holds the pressure irradiation member by the pressing force of the spring member;
When irradiating the body with the light, the pressure irradiation member is pressed against the body, and the light is irradiated while the pressure irradiation member is rotated on the surface of the body using the spring member;
The reflective heat source member is an artificial mineral , and the irradiated light is reflected by a curved surface inside a hollow cone of the reflective heat source member;
the reflective heat source member generates heat due to the irradiated light when reflecting the irradiated light,
The spring member transmits the heat generated by the reflective heat source member to the pressure irradiation member,
The pressure irradiating member transmits the heat transmitted by the spring member to the body.
An adhesive type medical irradiation device characterized by the above.
複数の前記発光部材は、複数のLEDであり、
板の基板の両面に複数個、配置される、
ことを特徴とする、請求項1に記載の接着型医療用照射器。
The plurality of light emitting members are a plurality of LEDs,
A plurality of such elements are arranged on both sides of the disk substrate.
2. The adhesive medical irradiator according to claim 1 .
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JP2017522935A (en) 2014-06-16 2017-08-17 インデルム Applicator and cartridge for this applicator
CN212395612U (en) 2018-04-28 2021-01-26 佛山科学技术学院 An instrument that combines light therapy and spa

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JP2001112844A (en) 1999-10-15 2001-04-24 Mori Kazuo Tool for medical treatment
JP2017512583A (en) 2014-04-01 2017-05-25 コーニンクレッカ フィリップス エヌ ヴェKoninklijke Philips N.V. Skin treatment device for treating skin locally
JP2017522935A (en) 2014-06-16 2017-08-17 インデルム Applicator and cartridge for this applicator
CN212395612U (en) 2018-04-28 2021-01-26 佛山科学技术学院 An instrument that combines light therapy and spa

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