JP4106922B2 - Dental light irradiator - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a small dental light irradiator used for dental treatment or aesthetics, and more particularly to a fixing structure of a lamp with a concave reflector provided inside the irradiator.
[0002]
[Prior art]
FIG. 1 shows a cross-sectional structure of a conventional small dental light irradiator.
Conventionally, with a concave reflector 3b, a concave reflector 3b is fixed to one end of a halogen lamp 3a with a rated power of 80 W inside a main body case 2 of a small dental light irradiator 1 used for dental treatment or aesthetics. A lamp is arranged as the light source 3. (Here, the concave reflecting mirror 3b has wavelength selectivity that reflects ultraviolet rays and visible rays and transmits infrared rays.)
In addition, the grip 2a of the main body case 2 is provided with a control unit 30 for controlling lighting / extinction of the halogen lamp 3a and a lighting / extinction switch 31. The control unit 30 has a power source (not shown). Connected and power required for lighting is supplied from the power source.
Further, the small dental light irradiator 1 is provided with a light guide 4, and an incident end 4 a thereof is fixed inside the main body case 2 by a fixing means (not shown). (The light guide 4 is formed by bundling, for example, about 2000 optical fibers having a diameter of 150 μm into a cylindrical shape, and a stainless tube 4c is attached to the outer edge of the incident end 4a side.)
[0003]
Then, the direct light of the halogen lamp 3a and the reflected light from the concave reflecting mirror 3b are condensed on the incident end 4a of the light guide 4 bundled with optical fibers, and the light radiated from the output end 4b of the light guide 4 is converted into teeth. Irradiation is applied to a photocurable resin (hereinafter referred to as a resin), which is a dental filler filled in the defect portion, or a tooth to be aesthetically treated, and the photocurable resin is cured or the tooth is esthetically treated.
Here, the resin is cured in response to light having a wavelength of about 400 to 515 nm, and the peak of the reaction is 475 nm. The wavelength range of light used for aesthetic purposes is 380 to 420 nm.
Therefore, depending on the application, an optical filter 5 such as a heat ray absorption filter, an ultraviolet cut filter, or a wavelength selection filter is arranged between the halogen lamp 3a and the light guide 4, and is mainly used for light that reacts with the resin or for aesthetic purposes. Only the light to be treated was guided by the light guide 4 to the tooth to be treated or esthetically treated. (In FIG. 1, the optical filter 5 is fixed by a fixing means (not shown)).
By the way, in the conventional small dental light irradiator 1, the light emitted from the light source 3 can be efficiently guided to the emission end 4 b of the light guide 4, in other words, the incident end 4 a of the light guide 4. The light source 3 is positioned and fixed with respect to the light guide 4 so that almost all of the light emitted from the light source 3 is irradiated on the entire surface.
[0004]
Next, the positioning and fixing structure of the light source 3 will be described in detail.
When the light source 3 is held inside, the light guide 4 has an opening for passing light so that almost all of the light emitted from the light source 3 is irradiated on the entire surface of the incident end 4a of the light guide 4. A cylindrical lamp cover 6 having 6a is positioned and fixed inside the main body case 2 by fixing means (not shown).
The concave reflecting mirror 3 b is covered with the lamp cover 6. (Here, as shown in FIG. 2A, four L-shaped cutout grooves each having an introduction groove 6c and a locking groove 6d are formed at the rear end of the lamp cover 6.)
Further, between the opening 6a and the concave reflecting mirror 3b, a cylindrical reflecting member 7 which has a conical shape and whose inner surface is mirror-finished is interposed, and a space between the opening 6a and the concave reflecting mirror 3b. Is covered by the reflecting member 7. (Here, one end of the reflecting member 7 is provided with an ear portion 7a (see FIG. 3)).
Further, a presser 8 is detachably attached to the rear end of the lamp cover 6. (Here, the pressing member 8 is made of a metal rich in elasticity and heat resistance, and as shown in FIG. 2B, four pressing pieces 8b are formed from the cylindrical portion 8a toward the center. )
[0005]
Next, the procedure for positioning and fixing the light source 3 will be described.
FIG. 3 is an exploded cross-sectional view of a light source and a positioning / fixing portion of the light source of a conventional small dental light irradiator.
First, the reflecting member 7 is inserted into the lamp cover 6 until the ear 7a of the reflecting member abuts against the step 6b of the lamp cover 6.
Next, the light source 3 is inserted into the lamp cover 6 until the peripheral edge portion 3b2 of the front opening 3b1 of the reflecting mirror 3b of the light source 3 hits the ear portion 7a of the reflecting member 7.
(Thus, the peripheral edge 3b2 and the side 3b3 of the front opening 3b1 of the reflecting mirror 3b are covered with the lamp cover 6).
Then, the pressing tool 8 is attached to the lamp cover 6. Specifically, the pressing piece 8b of the pressing tool 8 is fitted into the introduction groove 6c of the lamp cover 6, and is rotated a little to lock the pressing piece 8b in the locking groove 6d. (Since the pressing piece 8b hits the back surface of the concave reflecting mirror 3b and elastically deforms and presses the concave reflecting mirror 3b with its elastic force, the peripheral edge 3b2 of the front opening 3b1 of the concave reflecting mirror 3b is the ear of the reflecting member 7. The concave reflecting mirror 3b is pressed against the portion 7a and is held in a state of being pressed between the ear portion 7a and the pressing piece 8b.
Thereby, the light source 3 is optically positioned and fixed with respect to the light guide 4.
[0006]
[Problems to be solved by the invention]
By the way, since the halogen lamp 3a becomes high temperature during lighting, the concave reflecting mirror 3b fixed to one end of the halogen lamp 3a similarly becomes high temperature. In the conventional small dental light irradiator 1, the pressing piece 8b of the pressing tool 8 is in direct contact with the concave reflecting mirror 3b.
When the concave reflecting mirror 3b has a function of reflecting ultraviolet rays and visible rays and transmitting infrared rays, the pressing piece 8b of the pressing tool 8 that receives infrared rays radiated from the back surface of the concave reflecting mirror 3b It may be heated by infrared rays and become high temperature.
The pressing piece 8b of the presser 8 has elasticity because it presses the concave reflecting mirror 3b. However, when the high temperature state continues, the elasticity deteriorates.
Therefore, the structure of the conventional small dental light irradiator 1 has a problem that the light source 3b cannot be positioned at a predetermined position.
[0007]
The present invention has been made on the basis of the above circumstances, and the object of the present invention is to provide an infrared ray and a visible ray which are reflected by the concave reflector even when the reflector is heated to a high temperature. Even if it has a function which permeate | transmits, it is providing the dental small light irradiation device which can position a light source.
[0008]
[Means for Solving the Problems]
The small dental light irradiator according to claim 1 of the present invention includes a lamp, a concave reflecting mirror fixed to the lamp, and an opening end of the concave reflecting mirror on the light emitting direction side. A reflection member having an ear portion that comes into contact with, and a cover portion that includes a stepped portion that comes into contact with the ear portion of the reflection member and includes a light shielding member that covers the concave reflecting mirror and the reflection member. In a small dental light irradiator that guides to the incident end of the light guide and emits light from the exit end of the light guide,
One end of the main body case is pivotally connected to the main body case, and the other end is connected to an elastic member fixed to the main body case. A pressing member that rotates around the one end that is
The pressing member includes a V-shaped projecting portion that is inserted into an opening provided in the cover portion by the action of the elastic member and contacts the back surface of the concave reflecting mirror to press the concave reflecting mirror.
A small dental light irradiator characterized in that a space in which the whole of the V-shaped protrusion can be moved outward of the cover is provided inside the main body case .
Moreover, the small dental light irradiator according to claim 2 of the present invention is characterized in that a cooling means for cooling the elastic member is provided.
[0009]
[Action]
According to the dental miniature light irradiator according to claim 1 of the present invention, a pressing member that presses the concave reflecting mirror is provided inside the main body case, and the first portion of the pressing member is pivoted. One end of the elastic member is fixed to the second portion of the pressing member, the other end of the elastic member is fixed, and the back surface of the concave reflecting mirror covered by the cover portion is attached to the pressing member by the pressing member. Since the pressing is performed by the elastic member, the elastic member provided on the pressing member does not come into contact with the concave reflecting mirror.
According to the dental miniature light irradiator according to claim 2 of the present invention, since the cooling means for cooling the elastic member is provided, the elastic member is cooled by the cooling means.
Further, according to the small dental light irradiator according to claim 3 of the present invention, since the cover part is formed of a light shielding member, the concave reflecting mirror has a function of reflecting ultraviolet rays and visible rays and transmitting infrared rays. Even if it has, the transmitted infrared rays are shielded by the light shielding member and are not irradiated to the elastic member.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
The configuration of the dental miniature light irradiator according to the embodiment of the present invention has almost the same configuration as that shown in FIG. 1, and specifically, there is a difference in the structure for fixing and positioning the light source.
FIG. 4 shows a cross-sectional structure of a small dental light irradiator according to an embodiment of the present invention.
In the small dental light irradiator 10 according to the embodiment of the present invention, a halogen lamp 3a having a rated power of 80 W and having a concave reflecting mirror 3b fixed to one end thereof is disposed as a light source 3 inside a main body case 20. . (Here, the concave reflecting mirror 3b has wavelength selectivity that reflects ultraviolet rays and visible rays and transmits infrared rays.)
Further, the gripping portion 20a of the main body case 20 is provided with a control unit 30 for controlling lighting / extinguishing of the halogen lamp 3a and a lighting / extinguishing switch 31. The control unit 30 has a power source (not shown). Connected and power required for lighting is supplied from the power source.
Further, the light guide 4 is provided in the small dental light irradiator 10, and the incident end 4 a is fixed inside the main body case 20 by a fixing means (not shown). (The light guide 4 is formed by bundling, for example, about 2000 optical fibers having a diameter of 150 μm into a cylindrical shape, and a stainless tube 4c is attached to the outer edge of the incident end 4a side.)
Further, an optical filter 5 such as a heat ray absorption filter, an ultraviolet cut filter, or a wavelength selection filter is disposed between the halogen lamp 3a and the light guide 4 depending on the application.
In addition, the body case 20 is provided with an intake port 20b and an exhaust port 20c, and a blower fan 90 is disposed in the vicinity of the intake port 20b. (Here, the air taken into the main body case 20 through the air inlet 20b by the blower fan 90 is blown to the elastic member 70 (described later) and exhausted from the exhaust port 20c (the main body case 20). The arrow inside shows the direction of air flow.))
Then, the direct light of the halogen lamp 3 a and the reflected light from the concave reflecting mirror 3 b are collected at the incident end 4 a of the light guide 4 and radiated from the emission end 4 b of the light guide 4.
[0011]
Next, the positioning and fixing structure of the light source 3 will be described.
When the light source 3 is held inside, the light guide 4 has an opening for passing light so that almost all of the light emitted from the light source 3 is irradiated on the entire surface of the incident end 4a of the light guide 4. A cylindrical lamp cover 60 having 60a is positioned and fixed to a portion 20d of the main body case 20 by fixing means (not shown).
The concave reflecting mirror 3b is covered with the lamp cover 60. (Here, as shown in FIG. 6, an opening 60a2 into which a vertex 80c1 of a projection 80c of a pressing member 80, which will be described later, can be inserted is formed in the side of the lamp cover 60.)
Further, between the opening 60a and the concave reflecting mirror 3b, a cylindrical reflecting member 7 which has a conical shape and whose inner surface is mirror-finished is interposed, and a space between the opening 60a and the concave reflecting mirror 3b. Is covered by the reflecting member 7. (Here, an ear 7a is provided at one end of the reflecting member 7 (see FIG. 5)).
Furthermore, one end 80a of a pressing member 80 that presses the back surface of the concave reflecting mirror 3b is pivotally provided in the main body case 20 so as to be rotatable. (Here, the pressing member 80 is formed of a metal, for example, stainless steel (SUS), a wire made of iron (Fe) that has been subjected to an anti-oxidation treatment by plating or the like, and its central portion is V-shaped as shown in FIG. It is bent into a shape.
In addition, one end 70 a of the elastic member 70 is fixed to the other end 80 b of the pressing member 80. (Here, the elastic member 70 is made of, for example, a metal spring, and the other end 70b of the elastic member 70 is fixed to the main body case 20.)
Then, the pressing member 80 is arranged to press the back surface of the concave reflecting mirror 3 b covered by the lamp cover 60 with the elastic member 70.
[0012]
Next, the procedure for positioning and fixing the light source 3 will be described.
FIG. 5 is an exploded cross-sectional view of the light source and the positioning portion of the light source of the small dental light irradiator according to the embodiment of the present invention.
First, the reflecting member 7 is inserted into the lamp cover 60 until the ear portion 7 a of the reflecting member 7 abuts against the step portion 60 b of the lamp cover 60.
Next, the light source 3 is inserted into the lamp cover 60 until the peripheral edge 3b2 of the front opening 3b1 of the reflecting mirror 3b of the light source 3 hits the ear 7a of the reflecting member 7.
(Thus, the peripheral portion 3b2 and the side portion 3b3 of the front opening 3b1 of the reflecting mirror 3b are covered with the lamp cover 60.)
And the pressing member 80 which presses the back surface of the concave reflective mirror 3b of the said light source 3 is attached. Specifically, one end 80a of the pressing member 80 pivoted is rotated about an axis, and the protrusion 80c, that is, a portion bent into a V shape is inserted into the lamp cover 60 through the opening 60a2, and the protrusion The apex 80c1 of the portion 80c is abutted against the back surface of the concave reflecting mirror 3b. (The elastic member 70 provided at the other end 80b of the pressing member 80 causes the pressing member 80 to press the back surface of the concave reflecting mirror 3b toward the front opening 3b1 (arrow B direction) of the concave reflecting mirror 3b. The peripheral edge portion 3b2 of the front opening 3b1 of 3b is pressed against the ear portion 7a of the reflecting member 7, and the concave reflecting mirror 3b is held in a state of being pinched by the ear portion 7a and the apex 80c1 of the protruding portion 80c of the pressing member 80. .)
Thereby, the light source 3 is optically positioned and fixed with respect to the light guide 4.
Further, when the pressing member 80 is rotated so that the elastic member 70 extends, the pressing on the back surface of the concave reflecting mirror 3b is released.
[0013]
Next, the operation and effect of the embodiment of the present invention will be described.
Using the above-mentioned small dental light irradiator 10, the light radiated from the exit end 4b of the light guide 4 is applied to a resin filled in a tooth defect portion or a tooth for aesthetic treatment, and the photocurable resin. However, since the halogen lamp 3a becomes hot during lighting, as in the conventional small dental light irradiator 1, the concave surface fixed to one end of the halogen lamp 3a. Similarly, the reflecting mirror 3b becomes high temperature.
However, according to the small dental light irradiator 10 according to the embodiment of the present invention, the pressing member 80 for pressing the back surface of the concave reflecting mirror 3b is provided inside the main body case 20, and one end 80a of the pressing member 80 is connected to the main body. A concave surface that is pivotally connected to the case 20, one end 70 a of the elastic member 70 is fixed to the other end 80 b of the pressing member 80, and the other end 70 b of the elastic member 70 is fixed to the main body case 20, and is covered by the lamp cover 60. Since the pressing member 80 presses the back surface of the reflecting mirror 3b with the elastic member 70, the elastic member 70 provided on the pressing member 80 does not come into contact with the concave reflecting mirror 3b. Therefore, since the elastic member 70 is not thermally deteriorated, the concave reflecting mirror 3b can be positioned over a long period of time.
Further, since the pressing of the pressing member 80 can be released simply by rotating the pressing member 80 in the direction in which the elastic member 70 extends, the light source 3 (the lamp 3a and the concave reflecting mirror 3b) can be easily replaced. Can be done.
In addition, the body case 20 is provided with an intake port 20b and an exhaust port 20c, and a blower fan 90 is disposed in the vicinity of the intake port 20b. Then, the air taken into the main body case 20 through the intake port 20b by the blower fan 90 is blown to the elastic member 70 and exhausted from the exhaust port 20c.
Therefore, even if heat is transferred to the elastic member 70 via the pressing member 80, the elastic member 70 is cooled by the air blown by the blower fan 90. Therefore, the elastic member 70 is not thermally deteriorated, and the concave reflecting mirror 3b can be positioned for a long period of time.
[0014]
Next, another structure of the small dental light irradiator according to the embodiment of the present invention will be described.
FIG. 7 is a cross-sectional view showing another structure of the small dental light irradiator according to the embodiment of the present invention. In the figure, the same components as those shown in FIG. In order to facilitate understanding, the lamp cover 60 is shown as a partial cross-sectional view.
In another structure of the small dental light irradiator 10 according to the embodiment of the present invention, one end 70a of the elastic member 70 is fixed to a portion 80d between the one end 80a of the pressing member 80 and the protrusion 80c. ing. (Here, the other end 70b of the elastic member 70 is fixed to the part 20e of the main body case 20).
Then, the pressing member 80 is arranged to press the back surface of the concave reflecting mirror 3 b covered by the lamp cover 60 with the elastic member 70.
The concave reflecting mirror 3b has a wavelength selectivity that reflects ultraviolet rays and visible rays and transmits infrared rays, and the concave reflecting mirror 3b emits infrared rays from the back surface thereof.
Further, the lamp cover 60 is formed of a light shielding member that shields the infrared rays, for example, a metal plate such as aluminum or an alloy plate.
[0015]
Next, the operation and effect of the embodiment of the present invention will be described.
The concave reflecting mirror 3b has a wavelength selectivity for reflecting ultraviolet rays and visible rays and transmitting infrared rays, and the concave reflecting mirror 3b emits infrared rays from the back surface thereof, so that it is emitted from the back surface of the concave reflecting mirror 3b. The member that receives infrared rays may be heated by the infrared rays.
In the above configuration, since the lamp cover 70 is formed by the light shielding member that shields the infrared light, even if the infrared light is radiated from the back surface of the concave reflecting mirror 3b, the infrared light is shielded by the lamp cover 60, and the elastic member 70. Will not be irradiated.
Therefore, the elastic member 70 is not thermally deteriorated, and the concave reflecting mirror 3b can be positioned for a long period of time.
[0016]
【The invention's effect】
According to the dental miniature light irradiator according to claim 1 of the present invention, the pressing member for pressing the concave reflecting mirror is provided inside the main body case, the first portion of the pressing member is pivoted, and the pressing member Since one end of the elastic member is fixed to the second portion of the first member, the other end of the elastic member is fixed, and the back surface of the concave reflecting mirror covered with the cover portion is pressed by the elastic member. The elastic member provided in the member does not contact the concave reflecting mirror. Therefore, since the elastic member does not thermally deteriorate, the concave reflecting mirror can be positioned over a long period of time.
Further, since the pressing of the pressing member can be released simply by rotating the pressing member so that the elastic member extends, the light source (lamp and concave reflecting mirror) can be easily replaced.
Moreover, according to the dental small light irradiator according to claim 2 of the present invention, since the cooling means for cooling the elastic member is provided, even if the heat is transferred to the elastic member through the pressing member, the elastic member is elastic. The member is cooled by cooling means. Therefore, since the elastic member does not thermally deteriorate, the concave reflecting mirror can be positioned over a long period of time.
Therefore, it is possible to provide a small dental light irradiator capable of positioning the reflecting mirror even when the reflecting mirror is heated to a high temperature.
Further, according to the small dental light irradiator according to claim 3 of the present invention, since the cover portion is formed of the light shielding member, the concave reflecting mirror has a function of reflecting ultraviolet rays and visible rays and transmitting infrared rays. Even if it is, the transmitted infrared rays are shielded by the light shielding member and are not irradiated to the elastic member. Therefore, the elastic member is not thermally deteriorated, and the concave reflecting mirror can be positioned over a long period of time.
Therefore, even if the reflecting mirror has a function of reflecting ultraviolet rays and visible rays and transmitting infrared rays, a small dental light irradiator capable of positioning the reflecting mirror can be provided.
[Brief description of the drawings]
FIG. 1 is a view showing a cross-sectional structure of a conventional small dental light irradiator.
FIG. 2 is a sectional view of a lamp cover and a perspective view of a presser of a conventional small dental light irradiator.
FIG. 3 is an exploded cross-sectional view of a light source and a positioning / fixing portion of the light source of a conventional small dental light irradiator.
FIG. 4 is a view showing a cross-sectional structure of a small dental light irradiator according to an embodiment of the present invention.
FIG. 5 is an exploded cross-sectional view of a light source and a positioning portion of the light source in the small dental light irradiator according to the embodiment of the present invention.
FIG. 6 is a view showing a structure of a pressing member of a small dental light irradiator according to an embodiment of the present invention.
FIG. 7 is a cross-sectional view showing another structure of the small dental light irradiator according to the embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1,10 Small dental light irradiator 2,20 Main body case 2a, 20a Grasping part 2b Intake port 2c Exhaust port 20d, 20e Main part 3 Light source 3a Halogen lamp 3b Concave reflector 3b1 Opening 3b2 Peripheral part 3b3 Side part 4 Light guide 4a Incident end 4b Emission end 5 Optical filter 6, 60 Lamp cover 6a, 60a1, 60a2 Opening 6b, 60b Step portion 6c Introducing groove 6d Locking groove 7 Reflecting member 7a Ear portion 8 Presser 8a Cylindrical portion 8b Pressing piece 30 Control unit 31 ON / OFF switch 70 Elastic member 70a Elastic member one end 70b Elastic member other end 80 Pressing member 80a Pressing member one end 80b Pressing member other end 80c Pressing member protrusion 80c1 Pressing member protrusion 80d A portion 90 between one end of the pressing member and the protrusion 90

Claims (2)

Inside the main body case, a lamp, a concave reflecting mirror fixed to the lamp, a reflecting member having an ear portion with which an opening end portion on the light emitting direction side of the concave reflecting mirror abuts, and an ear portion of the reflecting member And a cover part made of a light shielding member covering the concave reflecting mirror and the reflecting member, and guiding the light from the lamp to the incident end of the light guide, and from the emitting end of the light guide In a small dental light irradiator that emits light,
One end of the main body case is pivotally connected to the main body case, and the other end is connected to an elastic member fixed to the main body case. A pressing member that rotates around the one end that is
The pressing member includes a V-shaped projecting portion that is inserted into an opening provided in the cover portion by the action of the elastic member and contacts the back surface of the concave reflecting mirror to press the concave reflecting mirror.
A small dental light irradiator characterized in that a space in which the whole of the V-shaped protrusion can be moved outward of the cover is provided inside the main body case .   The small dental light irradiator according to claim 1, further comprising cooling means for cooling the elastic member.

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