JP3169760U - Medical and dental handpiece elements - Google Patents

Abstract

Disclosed is a medical / dental handpiece element comprising at least one optical semiconductor element that enables improved identification of specific tissues and / or improved diagnosis of tissue conditions. A head portion 9 is connected to the head portion 9 and includes a grip portion 2 for holding the handpiece element 1 during operation on the target area, and an illumination means 3 for illuminating the target area. The illumination means 3 has at least one optical semiconductor element. The color rendering index (CRI) of at least one optical semiconductor element at a luminous flux of 4 to 25 lumens and a color temperature of 5,000 to 6,000 K is set to> 85,> 90 or> 92. [Selection] Figure 1

Description

  The present invention relates to a medical / dental handpiece according to the preamble of claim 1.

  Such a handpiece element is known from Patent Document 1, for example. This comprises an illuminating means comprising at least one optical semiconductor element (light emitting diode) and irradiates the treatment site with light, particularly preferably visible light. The disadvantages of conventionally used light-emitting diodes and semiconductor chips that emit light within the light-emitting diodes are always possible to uniquely identify a specific tissue or to clearly diagnose the state of the tissue, such as vitality. It is not.

US Patent Application Publication No. 2008/0131835 (A1) Specification

  Accordingly, an object of the present invention is to provide a medical / dental handpiece element including at least one optical semiconductor element that enables improvement of identification of a specific tissue and / or improvement of diagnosis of a tissue state. is there.

  This problem is solved in the present invention by the medical / dental handpiece according to the preamble of claim 1. Particularly preferred embodiments are set forth in the dependent claims.

  The medical / dental handpiece element according to the present invention has a color rendering index (CRI) of at least one optical semiconductor element greater than 85 (> 85), greater than 90 (> 90) or greater than 92. (> 92). That is, since the optical semiconductor element emits a light beam that gives a clear contrast to the tissue, the user can more clearly recognize the difference in tissue and the state of the tissue.

  In the present invention, the “medical / dental handpiece element” includes a straight, curved, angled, or pistol-like handpiece. The “handpiece element” according to the present invention is composed of a plurality of parts, for example, a head part that is detachably connected to the grip part, an adapter, a coupling, a driving means, particularly an electric motor, a connector or a joint. A handpiece is also included.

  An illuminating unit according to an embodiment converts a first short-wavelength light that does not substantially include a red light component emitted by at least one optical semiconductor element into a second long-wavelength light having an increased ratio of the red light component. It has a color conversion element. It should be noted that the enhanced red light component in the second long wavelength light occupies at least 10%, preferably 15%. The enhanced red light component contributes particularly to achieving the required color rendering index (> 85,> 90 or> 92). By increasing the proportion of the red light component, it is particularly effective for diagnosing the blood circulation of the target area, for example, to see bleeding, and to distinguish necrotic tissue from healthy tissue. Can be more clearly identified. In order to increase the red light component, the color changing element preferably has red phosphorus.

  A color conversion element according to a further embodiment includes a three-band phosphor. The three-band phosphor preferably has three color conversion substances dispersed substantially uniformly in the organic matrix material. By this measure, a light beam that is close to daylight, in particular uniform, is emitted. The organic matrix material includes, for example, an organic resin and particularly preferably silicon.

  According to one embodiment, the color conversion element includes at least one color conversion material: doped silicates, in particular yellow or green silicates, garnets, in particular yellow or green garnets, Or nitride.

  In a further embodiment, the at least one optical semiconductor element is configured to irradiate a light beam having an irradiation peak in the wavelength range of about 440 to 470 nm, enabling illumination of a very energy-saving target area. Yes. Thus, it is particularly preferred that the at least one optical semiconductor element is a blue light emitting diode. At least a part of the short wavelength light emitted from the at least one blue light emitting diode is absorbed by the color conversion element or the color conversion material, and particularly preferably converted into a long wavelength light having a large red wavelength component. Irradiate the area.

  In one embodiment, the illuminating means comprises a heat-resistant capsule that takes at least one optical semiconductor element and preferably a color conversion element into a space sealed to the outside. Is configured to withstand a temperature difference of at least 80 ° C. under repeated temperature changes without damaging the space sealed to the outside. The capsule is preferably hermetically sealed against steam, and particularly preferably configured to withstand positive pressures up to about 5 bar (0.5 MPa). Thereby, the merit which can maintain a medical and dental handpiece element by the washing | cleaning method accompanying a temperature change, for example, a sterilization method, especially a steam sterilization method is acquired.

  According to this embodiment, the capsule is preferably made of a non-conductive material, in particular plastic. According to an alternative embodiment, the capsule is composed of one or more metal parts and a glass window through which light can pass.

  In order to supply electrical energy to at least one optical semiconductor element, in one embodiment, a conductor connected to the at least one optical semiconductor element is provided, the conductor penetrating the heat-resistant capsule. ing.

  In one embodiment, the handpiece element is equipped with a head part connected to a grip part including connection means for a treatment instrument acting on the target area, in which case the at least one optical semiconductor The element is disposed in the head portion or a grip portion that is in contact with the head portion. This makes it possible to illuminate the target area very brightly.

  According to a further embodiment, the medical / dental handpiece element is equipped with drivable connection means for the treatment instrument acting on the target area.

  In another embodiment, a color conversion element is provided on the at least one optical semiconductor element or on a chip comprising the at least one optical semiconductor element, or the color conversion element comprises the at least one optical conversion element. It is preferable that the optical semiconductor element is disposed on the inner wall of the capsule, particularly, the capsule that takes the optical semiconductor element into a space sealed from the outside. All the above methods make it possible to provide the color conversion element in a capsule. The color conversion element is preferably provided inside a light transmission window that is a part of the capsule.

The method according to the invention is preferably characterized by at least one of the following features:
The color conversion element that converts the first short wavelength light that does not substantially contain the red light component, which is emitted from at least one optical semiconductor element, into the second long wavelength light in which the proportion of the red light component is increased. And particularly preferably, the enhanced red light component comprises at least 10% to at least 15% of the second long wavelength light;
The color conversion element includes a three-band phosphor;
The three-band phosphor has three color conversion materials substantially uniformly dispersed in an organic matrix material;
The color conversion element has red phosphorus;
The color conversion element comprises at least one of the following color conversion substances: doped silicates, in particular yellow or green silicates, garnets, in particular yellow or green garnets, or nitrides Such;
At least one optical semiconductor element that irradiates light having an irradiation peak in the wavelength range of about 440 to 470 nm;
The illumination means comprises a heat-resistant capsule that takes at least one optical semiconductor element and preferably a color conversion element into a space sealed against the outside, the capsule being repeated It is configured to withstand a temperature difference of at least 80 ° C. in a temperature change without damaging the space sealed to the outside.

1 is a cross-sectional view of a medical / dental handpiece element according to the present invention equipped with an optical semiconductor element having a color rendering index (CRI) of at least> 85. FIG. FIG. 3 is a diagram showing an optical semiconductor element having a color rendering index (CRI) of at least> 85 as a part of a light emitting diode incorporated in a capsule.

  Hereinafter, the present invention will be described in detail based on preferred embodiments and drawings.

  The medical / dental handpiece element 1 acting on the target area shown in FIG. 1 for treatment or diagnosis purposes is formed in a so-called elbow shape, and has the handpiece element 1 acting on the target area. And a head portion 9 connected thereto. The head portion 9 is provided with a side opening 10 for a treatment instrument or tool that acts on a target area on the side, and the tool or the like is connected to the grip portion 2 or the vertical axis in the head portion. It is configured to be attached obliquely to 14.

  In the head portion 9 or in the inside thereof, a connecting means 8 for a drivable tool and at least a part of a driving means for driving the connecting means 8 are provided particularly preferably. The connecting means 8 can be operated by, for example, an operating means 11 that is supported by a rolling bearing and is movable and arranged on the top of the head portion 9. The drive means includes, for example, a turbine 12 connected to connection means 8 driven by compressed gas. As an alternative, the drive means includes a drive shaft connected to the connection means 8 and arranged on the upper part of the grip portion 2 or a gear rotated by a transmission.

  In the grip portion 2, a drive compressed gas media tube 13 for the turbine 12, preferably further, for example, other media tubes for water, air shower, drive compressed gas return, etc., illumination means to be described in detail later 3 and its associated supply and / or operation means, sensors, memory means for storing identification and operating data, transponders, etc.

  The illuminating means 3 includes at least one light emitting diode with at least one optical semiconductor element 4, which is a blue light emitting diode having an irradiation peak in the wavelength range of about 440 to 470 nm. Preferably there is. The at least one optical semiconductor element 4 shown in FIG. 2 has, for example, a color rendering index (CRI) of> 85,> 90 or> 92 at a luminous flux of 4 to 8 lumens and a color temperature of 5,000 to 6,000 K. It is configured. The illuminating means 3 includes the color conversion element 5, and in particular, it is preferable that the at least one optical semiconductor element 4 is at least partially surrounded by the color conversion element 5. Preferably, the color conversion element 5 directly covers at least one optical semiconductor element 4 or a chip comprising the at least one optical semiconductor element 4. The color conversion element 5 converts the first short-wavelength light that does not substantially contain the red light component emitted from at least one optical semiconductor element into the second long-wavelength light in which the proportion of the red light component is increased.

  The illumination means 3 includes a heat-resistant capsule 6 that takes the at least one optical semiconductor element 4 and the color conversion element 5 into a space sealed with respect to the outside. Can withstand positive pressure water vapor up to about 5 bar (0.5 MPa) and withstand temperature differences of at least 80 ° C without damage to the externally sealed space under repeated temperature changes It is configured. The capsule 6 includes at least one socket 15 and a cover 16 that support at least one optical semiconductor element 4. At least a part of the capsule 6, in particular, the cover 16 transmits electromagnetic waves or light rays, or is made of a material that can transmit electromagnetic waves or light rays, for example, glass or plastic, and the electromagnetic waves pass through the capsule 6, or It is emitted from the capsule 6 and irradiated in the direction of the target area.

  In one embodiment, the cover 16 and / or socket 15 is made of metal, in particular steel. In another embodiment, the cover 16 and / or socket 15 is made of plastic, in particular thermoplastic. Cover 16 and socket 15 (depending on the material from which they are manufactured) to form an externally sealed space for at least one optical semiconductor element 4 and color conversion element 5 They are connected to each other by welding, ultrasonic welding, bonding, crimping and / or sealed by sealing. In a further embodiment, the capsule 6 covers at least one optical semiconductor element 4 and the color conversion element 5 which are integrally formed (as opposed to a two-part or multi-part arrangement such as the cover 16 and the socket 15). For example, at least one optical semiconductor element 4 and the color conversion element 5 are molded by plastic such as thermoplastic.

  Two electrical conductors 7A, 7B pass through the capsule 6, for example its socket 15, the at least one optical semiconductor element 4, and preferably a power source built in the handpiece element 1, for example a battery or storage battery, It is connected to a generator built in the handpiece element 1 or a commercial power source (mains).

  According to the embodiment shown in FIG. 1, the power supply to the illuminating means 3 is made by an electrical lead 17 from the illuminating means 3 through the grip 2 to the connecting element 18 of the handpiece element 1. ing. In the vicinity of the connecting element 18, the electric conducting wire 17 terminates in an electric terminal 17 A that can be detachably connected to connecting means (not shown) that forms a pair with the electric conducting wire 17. The ends of the electrical conducting wires 17 on the illumination means 3 side are connected to electrical terminals 7A and 7B, or themselves penetrate the capsule.

  Furthermore, in the grip part 2, an electrical lead wire 17 and an electrical supply electronic device 19 connected to the electrical terminal 17A, preferably encapsulated or molded, are provided, which is mainly at least one. Electric energy for the optical semiconductor element 4 is supplied. The electric supply electronic device 19 converts an alternating voltage supplied from a generator into a direct current, or transforms the voltage to a voltage required by the at least one optical semiconductor element 4.

  The present invention is not limited to the described embodiments, but encompasses all embodiments that apply or encompass the principles and conceptual functional principles of the present invention. Furthermore, all described features and all described embodiments can be used in combination with each other.

Claims (14)

A grip part (2) for holding the handpiece element (1) during operation on the target area, and an illuminating means (3) for illuminating the target area, the illuminating means (3) comprising at least one A medical / dental handpiece element (1) having an optical semiconductor element (4) and acting on a target area for treatment or diagnostic purposes,
The color rendering index (CRI) at a light flux of 4 to 25 lumens and a color temperature of 5,000 to 6,000 K of the at least one optical semiconductor element (4) is>85,> 90 or> 92・ Handpiece element for dentistry (1). The illuminating means (3) emits at least one optical semiconductor element (4), the first short wavelength light that does not substantially contain the red light component, into the second long wavelength light having an increased ratio of the red light component. The medical / dental handpiece element (1) according to claim 1, further comprising a color conversion element (5) for conversion. 3. The medical / dental handpiece element (1) according to claim 2, characterized in that the enhanced red light component accounts for at least 10%, preferably 15% of the second long wavelength light. 4. The medical / dental handpiece element (1) according to any one of claims 2 to 3, wherein the color conversion element (5) includes a three-band phosphor. 5. The medical / dental medical handpiece element (1) according to claim 4, wherein the three-band phosphor has three color conversion substances substantially uniformly dispersed in an organic matrix material. . The medical / dental handpiece element (1) according to one of claims 2 to 5, wherein the color conversion element (5) has red phosphorus. The color conversion element (5) comprises at least one of color conversion materials such as doped silicates, in particular yellow or green silicates, garnets, in particular yellow or green garnets, or nitrides. The medical / dental handpiece element (1) according to any one of claims 2 to 6, wherein the handpiece element (1) is for medical use. The at least one optical semiconductor element (4) is configured to irradiate a light beam having an irradiation peak in a wavelength range of about 440 to 470 nm. The medical / dental handpiece element as described (1). The illumination means (3) has a heat-resistant capsule (6) for taking at least one optical semiconductor element (4) and preferably a color conversion element (5) into a space sealed against the outside. The capsule (6) is configured to withstand a temperature difference of at least 80 ° C. without being damaged in a repeated temperature change without damaging the space sealed to the outside. A medical / dental handpiece element (1) according to any one of claims 1 to 8. An electric conductor (7A, 7B) is connected to the at least one optical semiconductor element (4) for supplying electric energy to the at least one optical semiconductor element (4). 10. The medical / dental medical handpiece element (1) according to claim 9, wherein (7A, 7B) penetrates a heat-resistant capsule. 11. The capsule (6) according to any one of claims 9 to 10, characterized in that it is composed of at least one metal part and a glass window irradiated with light, or made of a non-conductive material, in particular plastic. The medical / dental handpiece element according to claim 9. The handpiece element (1) is equipped with a head portion (9) connected to a grip portion (2) including connection means (8) for treatment instruments acting on a target area, and the at least one The one optical semiconductor element (4) is disposed in the head part (9) or the grip part (2) in contact with the head part (9). Medical and dental handpiece elements (9). 13.Medical / dental handpiece element (1) according to one of claims 1 to 12, characterized in that it has movable connection means (8) for treatment instruments acting on the target area. ). The color conversion element (5) is provided on the at least one optical semiconductor element (4) or on a chip comprising the at least one optical semiconductor element (4), or the color conversion element is 14. Medical / dental medicine according to one of claims 2 to 13, characterized in that the at least one optical semiconductor element is arranged in a capsule (6) for taking it into a space sealed from the outside. Handpiece element (1).