JPH1069992A - Movable cylinder for coil inductance fine adjustment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a movable cylinder for coil inductance fine adjustment by which inductance adjustment can be easily carried out for a coil for lighting for an electrodeless discharge lamp. SOLUTION: A coil 2 for lighting comprises an upper part coil 2a and a lower part coil 2b and a metal cylinder part 3 is constituted of a an upper part cylinder 4 and a lower part cylinder 5. The upper part coil 2a and a lower part coil 2b are respectively fixed in the upper part cylinder 4 and the lower part cylinder 5 through silicon rubber 6. The upper part cylinder 4 is fixed in a bulb 1 of an electrodeless discharge lamp through the silicon rubber 6 and the metal cylinder part 3 holds the bulb 1 and the coil 2 for lighting. When the upper part cylinder 4 and the lower part cylinder 5 are rotated, screw parts 4a, 5a are screwed in and the gap between the upper part coil 2a and the lower part coil 2b changes and the inductance of the coil 2 for lighting can be adjusted.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a movable cylinder for fine adjustment of coil inductance for finely adjusting the inductance of a lighting coil of an electrodeless discharge lamp.

[0002]

2. Description of the Related Art Conventionally, an electrodeless discharge lamp utilizing high frequency discharge has been provided with a lighting circuit for lighting the electrodeless discharge lamp at high frequency. This lighting circuit has an impedance matching circuit. Usually, the impedance matching circuit
It had a certain range of impedance variation. Therefore, to turn on the electrodeless discharge lamp normally,
It is necessary to fine-tune this variation in impedance, and the impedance has been fine-tuned using a variable capacitor.

[0003]

In the electrodeless discharge lamp having the above-mentioned structure, a variable capacitor is used to finely adjust the variation in impedance. However, the variable capacitor is relatively large in weight and size, and the unit price is high. There was a problem. The present invention has been made in view of the above problems, and the invention of claims 1 to 10 is a coil inductance capable of finely adjusting the impedance of a lighting coil by a simple operation without using a variable capacitor. It is an object to provide a movable cylinder for fine adjustment.

[0004]

According to the first aspect of the present invention, in order to achieve the above object, a bulb of an electrodeless discharge lamp and a lighting coil are held and a bulb is generated from a high-frequency electric field generated by the lighting coil. It consists of a metal cylinder that shields the phosphor layer, and a part of the metal cylinder is formed to be freely movable in the axial direction to fine-tune the inductance of the lighting coil. Is movable in the axial direction, the inductance of the lighting coil can be easily adjusted.

According to a second aspect of the present invention, in the first aspect of the present invention, the metal cylinder portion includes first and second cylinders.
The first and second cylinders are formed in the axial direction by forming a screw portion on each of the cylinders, screwing the screw portions together, connecting the first and second cylinders, and screwing the screw portions. , The first and second cylinders can be easily moved in the axial direction by screwing the first and second cylinders.

According to a fourth aspect of the present invention, in the third aspect of the present invention, the lighting coil wound in the metal cylinder portion includes two coils in which electric wires are densely wound,
In the invention of claim 5, one coil is fixed to the first cylinder, and the other coil is fixed to the second cylinder. In the invention of claim 6, the first and second cylinders are rotated. By doing, the interval between both coils changes,
Since the inductance of the lighting coil is changed, the distance between the coils can be easily adjusted by screwing the first and second cylinders.

According to a seventh aspect of the present invention, in the third aspect of the present invention, the first and second cylinders are provided with an opening whose overlapping area changes as the first and second cylinders move in the rotation direction. In the invention of claim 8, since the first and second cylinders are rotated, the overlapping area of the openings changes, and the inductance of the lighting coil changes. By screwing the second cylinder, the overlapping area of the openings can be easily adjusted.

According to a ninth aspect of the present invention, in the third aspect of the present invention, the opening area of one of the first and second cylinders is increased by the axial movement of the first and second cylinders. In the invention according to claim 10, the first and second cylinders are formed by rotating a cylinder on which the slit is not formed, of the first and second cylinders. It moves in the axial direction, the opening area of the slit changes, and the inductance of the lighting coil changes, so that the opening area of the slit can be easily adjusted by screwing the first and second cylinders. can do.

[0009]

Embodiments of the present invention will be described with reference to the drawings. (Embodiment 1) A movable cylinder for fine adjustment of coil inductance according to the present embodiment will be described with reference to the sectional view of FIG. The bulb 1 of the electrodeless discharge lamp has a discharge gas sealed therein and a phosphor layer formed on the inner peripheral surface. A metal cylinder portion 3 is disposed in a coil insertion recess 1a formed by recessing the bottom of the bulb 1 inward, and the metal cylinder portion 3 is illuminated in the metal cylinder portion 3. The fluorescent layer of the bulb 1 is shielded from the high-frequency electric field generated by the use coil 2.

The metal cylinder 3 is composed of an upper cylinder 4
And a lower cylinder 5 having a smaller diameter than the upper cylinder 4. The upper cylinder 4 and the lower cylinder 5 are formed of aluminum. The upper cylinder 4 is fixed to the valve 1 using silicone rubber 6, and the metal cylinder section 3 holds the valve 1. Screw portions 4a, 5a are formed on the inner peripheral side surface of the upper cylinder 4 and the outer peripheral side surface of the lower cylinder 5, respectively, and the upper cylinder 4 and the lower cylinder 5 are screwed together. Are movably connected in the axial direction.

The lighting coil 2 is composed of two upper coils 2a and lower coils 2b in which electric wires are densely wound. The upper coil 2a is fixed to the upper cylinder 4 and the lower coil 2b is fixed to the lower cylinder 5 using silicon rubber 6, and the metal cylinder section 3 holds the lighting coil 2. Here, when the entire valve 1 is rotated, the upper cylinder 4 is rotated with respect to the lower cylinder 5, and the upper coil 2 is rotated by the rotation of the screw portions 4a and 5a.
The distance between a and the lower coil 2b changes. Therefore,
Since the inductance of the lighting coil 2 changes, the inductance of the lighting coil 2 can be finely adjusted by a simple operation by rotating the bulb 1. Further, as compared with the case where the inductance is adjusted using a conventional variable capacitor, the structure is simple, the size and weight can be reduced, and the manufacturing cost can be reduced.

In the present embodiment, the upper cylinder 4 and the lower cylinder 5 are made of aluminum. However, the material of the upper cylinder 4 and the lower cylinder 5 is not limited to aluminum. And the like. (Embodiment 2) A movable cylinder for fine adjustment of the coil inductance according to this embodiment will be described with reference to the sectional view of FIG.

The metal cylinder section 3 includes an upper cylinder 4
And a lower cylinder 5 having a diameter larger than that of the upper cylinder 4.
The lower cylinder 5 is made of heat-resistant plastic and the lower cylinder 5 is made of aluminum. The lower cylinder 5 is fixed to the valve 1 using a silicone rubber 6, and the metal cylinder section 3 holds the valve 1. On the outer peripheral side of the upper cylinder 4 and the inner peripheral side of the lower cylinder 5,
Screw portions 4a and 5a are formed, respectively, and the upper cylinder 4 and the lower cylinder 5 are movably connected in the axial direction by screwing the screw portions 4a and 5a together.

The lighting coil 2 is composed of two parts, an upper coil 2a and a lower coil 2b, on which electric wires are densely wound, and the upper coil 2a is fixed to the upper cylinder 4. Further, the lower cylinder 5 has a stepped portion 5b which is in contact with the upper end surface of the lower coil 2b,
Since the diameter of the screw portion 5a is smaller than the diameter of the lower coil 2b, the lower coil 2b is positioned by bringing the upper end surface of the lower coil 2b into contact with the stepped portion 5b. By rotating the valve 1, the lower cylinder 5 rotates with respect to the upper cylinder 4, and the screw 4
a and 5a are screwed into the upper coil 2a and the lower coil 2b.
And the interval changes. Therefore, the inductance of the lighting coil 2 can be adjusted by a simple operation.

In this embodiment, the upper cylinder 4 is made of heat-resistant plastic, and the lower cylinder 5 is made of aluminum. However, the material of the two cylinders is not limited, and the upper cylinder 4 is made of metal such as copper. It may be formed. Further, the configuration other than the lighting coil 2 and the metal cylinder unit 3 is the same as that of the first embodiment, and thus the description thereof is omitted. (Embodiment 3) A movable cylinder for fine adjustment of coil inductance according to this embodiment will be described with reference to FIGS.

The metal cylinder section 3 made of a metal such as aluminum or copper is composed of an upper cylinder 4 and a lower cylinder 5 having a smaller diameter than the upper cylinder 4. In the upper cylinder 4 and the lower cylinder 5,
Screw portions 4a and 5a are formed, respectively.
By screwing a and 5a together, the upper cylinder 4 and the lower cylinder 5 are connected movably in the axial direction.

The lighting coil 2 is fixed to the upper cylinder 4. A slit 4 b is formed in the upper cylinder 4 in the axial direction, and an opening of the slit 4 b is partially closed by the lower cylinder 5. Here, when one of the upper cylinder 4 and the lower cylinder 5 is rotated, the screw portions 4a and 5a screw into each other, and the upper cylinder 4 or the lower cylinder 5 moves in the axial direction. Accordingly, since the opening area of the slit 4b partially closed by the lower cylinder 5 changes, the impedance of the lighting coil 2 can be adjusted by a simple operation.

The structure other than the lighting coil 2 and the metal cylinder 3 is the same as that of the first or second embodiment.
The description is omitted. (Embodiment 4) A movable cylinder for fine adjustment of the coil inductance according to the present embodiment will be described with reference to FIGS.

The metal cylinder section 3 made of a metal such as aluminum or copper is composed of an upper cylinder 4 and a lower cylinder 5 having a smaller diameter than the upper cylinder 4. In the upper cylinder 4 and the lower cylinder 5,
Screw portions 4a and 5a are formed, respectively.
By screwing a and 5a together, the upper cylinder 4 and the lower cylinder 5 are connected movably in the axial direction.

The lighting coil 2 is fixed to the upper cylinder 4. Further, slits 4b and 5c are formed in the upper cylinder 4 and the lower cylinder 5 in the axial direction, and a substantially circular opening 4 is formed at an end of each of the slits 4b and 5c.
c and 5d are formed respectively. Here, when one of the upper cylinder 4 and the lower cylinder 5 is rotated, the screw portions 4a, 5a screw into each other, and the openings 4c,
The area of the portion where 5d overlaps gradually changes. Therefore, the opening areas of the openings 4c and 5d change, and the impedance of the lighting coil 2 can be adjusted by a simple operation.

In this embodiment, the shapes of the openings 4c and 5d are substantially circular. However, the shape of the openings 4c and 5d is not limited to a substantially circular shape. Needless to say, it is good. Also,
The configuration other than the lighting coil 2 and the metal cylinder unit 3 is as follows.
Since it is the same as the first, second or third embodiment, the description is omitted.

[0022]

According to the first aspect of the present invention, as described above, the bulb of the electrodeless discharge lamp and the lighting coil are held, and the phosphor layer of the bulb is shielded from the high-frequency electric field generated by the lighting coil. It consists of a metal cylinder part, and in order to fine-tune the inductance of the lighting coil, a part of the metal cylinder part is formed movably in the axial direction,
By moving the metal cylinder part in the axial direction,
There is an effect that the inductance of the lighting coil can be finely adjusted by a simple operation.

According to a second aspect of the present invention, the metal cylinder portion is composed of first and second cylinders.
According to the invention, the first and second cylinders are each formed with a threaded portion, and the threaded portions are screwed together to connect the first and second cylinders, and the threaded portions are screwed in. Since the first and second cylinders are moving in the axial direction, the first and second cylinders can be easily moved in the axial direction by screwing the first and second cylinders. There is. In addition, since the actuator is moved in the axial direction by the screwing operation, there is an effect that the positions of the first and second cylinders can be finely adjusted.

According to a fourth aspect of the present invention, the lighting coil wound in the metal cylinder portion includes two coils in which electric wires are densely wound. The first coil is fixed to the first cylinder, and the other coil is fixed to the second cylinder. According to the invention of claim 6, by rotating the first and second cylinders, the distance between the two coils changes. Since the inductance of the lighting coil is changed, the distance between the coils can be easily adjusted by screwing the first and second cylinders, so that the inductance can be easily adjusted. . Further, since the interval between the coils is adjusted by the screwing operation, the interval between the coils can be changed little by little, and there is an effect that the fine adjustment of the inductance can be easily performed.

According to a seventh aspect of the present invention, the first and second cylinders are provided with openings whose overlapping area changes as the first and second cylinders move in the rotation direction. In the invention of the eighth aspect, by rotating the first and second cylinders, the overlapping area of the openings changes, and the inductance of the lighting coil changes, so that the first and second cylinders are screwed. Thereby, there is an effect that the overlapping area of the openings can be easily adjusted, and the inductance can be easily adjusted. Further, since the overlapping area of the openings is adjusted by the screwing operation, the area can be changed little by little, and there is an effect that the inductance can be easily finely adjusted.

According to a ninth aspect of the present invention, one of the first and second cylinders is provided with the first and second cylinders.
The slit of which opening area is changed by the axial movement of the cylinder is formed.
By rotating one of the second cylinders on which the slit is not formed, the first and second cylinders move in the axial direction, and the opening area of the slit changes, and the lighting coil Since the inductance is changed, screwing the first and second cylinders has an effect that the opening area of the slit can be easily adjusted, and the inductance can be easily adjusted. Also,
Since the opening area of the slit is adjusted by the screwing operation, the opening area can be changed little by little, and there is an effect that the fine adjustment of the inductance can be easily performed.

[Brief description of the drawings]

FIG. 1 is a sectional view showing a movable cylinder for fine adjustment of a coil inductance according to a first embodiment.

FIG. 2 is a sectional view showing a movable cylinder for fine adjustment of a coil inductance according to a second embodiment.

3A and 3B show a movable cylinder for fine adjustment of a coil inductance according to a third embodiment, in which FIG.
(B) is an external perspective view.

4A and 4B show a movable cylinder for fine adjustment of coil inductance according to a fourth embodiment, in which FIG.
(B) is an external perspective view.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Valve 2 Lighting coil 2a Upper coil 2b Lower coil 3 Metal cylinder part 4 Upper cylinder 5 Lower cylinder 4a, 5a Screw part 6 Silicon rubber

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Koji Hiramatsu 1048 Kadoma Kadoma, Kadoma City, Osaka Pref. 72) Inventor Kenji Kawano 1048 Kadoma, Kadoma, Osaka Prefecture Inside Matsushita Electric Works, Ltd.

Claims (10)

[Claims] The lighting coil comprises a metal cylinder portion that holds a bulb and a lighting coil of the electrodeless discharge lamp and shields a fluorescent layer of the bulb from a high-frequency electric field generated by the lighting coil. A movable cylinder for fine adjustment of coil inductance, wherein a part of the metal cylinder portion is formed to be movable in an axial direction in order to finely adjust the inductance of the coil. 2. The movable cylinder for fine adjustment of coil inductance according to claim 1, wherein said metal cylinder portion comprises first and second cylinders moving in an axial direction. 3. The first and second cylinders are each provided with a thread portion, and the thread portions are screwed together to form the first cylinder.
3. The coil inductance according to claim 2, wherein the first and second cylinders are moved in the axial direction by connecting the first and second cylinders and screwing the screw portion. Movable cylinder. 4. The movable coil for fine-adjustment of coil inductance according to claim 3, wherein said lighting coil wound in said metal cylinder portion is composed of two coils whose electric wires are densely wound. cylinder. 5. The movable cylinder for fine adjustment of coil inductance according to claim 4, wherein one of said coils is fixed to said first cylinder, and said other coil is fixed to said second cylinder. . 6. The coil according to claim 5, wherein by rotating the first and second cylinders, the distance between the two coils changes, and the inductance of the lighting coil changes. Movable cylinder for fine adjustment of inductance. 7. An apparatus according to claim 1, wherein said first and second cylinders are provided with openings whose overlapping area changes as said first and second cylinders move in the direction of rotation. Item 3. A movable cylinder for fine adjustment of coil inductance according to item 3. 8. An apparatus according to claim 7, wherein by rotating said first and second cylinders, the overlapping area of said openings changes, and the inductance of said lighting coil changes. A movable cylinder for fine adjustment of coil inductance. 9. A method according to claim 1, wherein one of said first and second cylinders is provided with a slit whose opening area is changed by axial movement of said first and second cylinders. The movable cylinder for fine adjustment of coil inductance according to claim 3. 10. The first and second cylinders are axially moved by rotating a cylinder on the side where the slit is not formed, of the first and second cylinders, so that the first and second cylinders move in the axial direction. The opening area of the slit changes,
The movable cylinder for fine adjustment of coil inductance according to claim 9, wherein the inductance of the lighting coil changes.