KR200304586Y1 - Integrating sphere - Google Patents

Abstract

Disclosed is a light beam. The present invention provides a first opening for injecting external light rays into the interior, a second opening for emitting light therein to face the first opening, and a photo for converting the incident light incident on the second opening into an electrical quantity. Photocell, an auxiliary lamp selectively formed through the first opening to irradiate light on the inner surface of the sphere, a part of the sphere to penetrate the auxiliary lamp through the inside, and fastening the insert can be fixed to the first opening It characterized in that it comprises a binding piece having a means, a lamp fixing hole capable of opening and closing the lamp fixing jig for fixing the lamp inwardly.

According to the present invention, there is an advantage in that the center lamp measurement and the side method lamp measurement can be measured with one light beam.

Description

Integrating sphere

The present invention relates to a light bulb, and more particularly to a light bulb that can share the center method and the side method when measuring the light of the lamp.

The integrating sphere is a spherical type part of the sphere photometer, and the diameter of the sphere photometer varies depending on the size and type of the light source.It is 30cm for small bulbs, 60cm for automotive bulbs, and 1.0 to 1.5m for incandescent bulbs for general lighting. And the fluorescent discharge tube is 2 m or more.

The interior is coated with barium sulfate (BaSo ₄ ) and can be opened and closed to allow illuminance measurements to be made with a photometer in a narrow area of the inner surface of the sphere. In addition, a screen installed inside the sphere ensures that the viewing area does not receive direct radiation from the light source, while the photometahead is a light sensitive detector and device for spectral evaluation or light dispersion. It consists of. It also includes devices for directional evaluation of light, and light-sensitive detectors convert incident light into electrical quantities.

The measurement of the light source in the above-described light beam sphere adopts a center method which is usually measured by placing it in the center of the sphere of the light bulb, and a site method of forming a hole penetrating through one side of the light bulb sphere and injecting light of the light source from the hole.

However, this is not done in a single device, but by using different devices, the manufacturing cost or the time required for the installation process of the device is inconvenient because it is long.

Therefore, an object of the present invention is to form an opening on one side so as to share the center method and the side method when measuring the light of the lamp, and configured to selectively attach the auxiliary lamp and the light source to a part of the spherical surface corresponding to the opening It is to provide a light bulb that is fixed to the opening formed in the spherical surface.

1 is a view showing the center measurement beats according to an embodiment of the present invention.

2 is a view showing a side measurement method according to an embodiment of the present invention.

3 is a view briefly showing a measuring means according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: light beam port 2: first opening

3: 2nd opening part 4: Lamp (light source)

5: lamp fixing jig 6: first light-shielding plate

7: second light shielding plate 8: auxiliary lamp

9: photocell 10: binding piece

11 lamp fixing hole 12 DC power supply

13 power analyzer 14 AC power supply

15 control computer 16 spectrophotometer

17 pico ammeter

In order to achieve the object of the present invention described above, a light beam sphere includes a first opening portion 2 for injecting external light rays into the outer wall on one side thereof, and an inner light exiting from the first opening portion 2 so as to face the first opening portion 2. Two openings 3, a photo cell 9 for converting incident light incident on the second openings 3 into electrical quantities, and a light source radiated from the inside of the second openings 3, Secondary light blocking plate (7) for covering the light directly radiated from the light source paper to the photocell (9) and the auxiliary lamp for selectively irradiating light to the inner surface of the sphere through the first opening (2) ( 8) and a binding piece 10 having a fastening means for inserting and fixing the auxiliary lamp 8 therein as a part of a spherical surface and inserting and fixing the first opening 2 into the auxiliary lamp 8; The first light blocking plate 6 and the inner side of the first light blocking plate 6 which are selectively formed to prevent direct illumination of the incident light source. And a lamp fixing hole 11 capable of opening and closing the lamp fixing jig 5 for fixing the furnace lamp, wherein the binding means includes an outer circumferential surface of the binding piece 10 and a first opening ( It is preferable that the inner circumferential surface of 2) is screwed, and a spectrophotometer for measuring one of the specular reflection, the diffuse reflectance, and the diffuse transmittance of the lamp, and the measuring means for measuring the luminous intensity of the lamp with respect to the light diffusely reflected from the spherical surface. It is characterized by further formed.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

1 is a view showing the center measurement pulse according to an embodiment of the present invention. Referring to FIG. 1, the hollow spherical shape is coated with barium sulfate, and a first opening 2 is formed at one outer wall to allow external light to enter therein, and the first opening 2 The second opening 3 is formed to face the light inside, and a photo cell 9 is formed to convert the incident light incident on the second opening 3 into an electrical quantity. And a second light blocking plate 7 for covering light directly radiated from the light source paper of the light source radiated from the inside of the second opening 3 to the photocell 9, wherein the first opening 2 is formed. An auxiliary lamp (8) is selectively formed through the inner surface to irradiate light, and the auxiliary lamp (8) penetrates the inside of the sphere as a part of the sphere and is inserted into and fixed to the first opening (2). A binding piece 10 is formed with possible binding means. At this time, since the binding piece 10 is the inner circumferential surface of the first opening, that is, the thickness of the light beam, it is preferable to form the outer circumferential surface of the binding piece and the inner circumferential surface of the first opening so as to be screwed together. It will be apparent that the outer surface may be directly bolted to the spherical surface, and the auxiliary lamp is inserted into the inside of the binding piece so as to face the inside of the spherical surface when the fixing lamp is inserted into the first opening. .

On the other hand, the first light blocking plate (6) is formed to prevent direct illumination of the light source incident to the auxiliary lamp (8), the lamp which can be opened and closed to insert the lamp fixing jig 5 for fixing the lamp on the bottom A fixing hole 11 is formed, including the lamp fixing hole 11, the light beam sphere 1 is separated to open and close two.

2 is a view showing a side measurement method according to an embodiment of the present invention. Referring to FIG. 2, a first opening 2 is formed at one outer wall to allow an external light beam to enter therein, and a second opening (2) through which the internal light is emitted to face the first opening 2 ( 3) is formed, a photo cell (9) for converting the incident light incident on the second opening (3) into an electrical amount is formed, the light source radiated from the inside of the second opening (3) A second light shielding plate 7 is formed to cover the light directly radiated from the light source paper to the photocell 9, and a light source, that is, a lamp, is penetrated through the inside of the spherical surface, and the first opening 2 is formed. A binding piece 10 having a fastening means that can be inserted into and fixed to the formed portion is formed. At this time, since the binding piece 10 is the inner circumferential surface of the first opening, that is, the thickness of the light beam, it is preferable to form the outer circumferential surface of the binding piece and the inner circumferential surface of the first opening so as to be screwed together. It will be apparent that the outer surface may be directly bolted to the spherical surface, and the auxiliary lamp is inserted into the inside of the binding piece so as to face the inside of the spherical surface when the fixing lamp is inserted into the first opening. .

On the other hand, the lamp fixing jig for fixing the lamp formed on the binding piece to the corresponding position of the light beam will be laid, which will be apparent that the center lamp fixing jig shown in FIG.

As described above with reference to FIGS. 1 and 2, it is possible to selectively replace and insert the auxiliary lamp and the light source (lamp) through the first opening.

3 is a view briefly showing a measuring means according to an embodiment of the present invention. Referring to FIG. 3, a measuring means for detecting light generated in the light beam sphere and processing the corresponding data therein includes an AC power supply unit 14 for supplying power to a light source and the auxiliary lamp 8. DC power supply unit 12 for supplying power, pico ammeter 17 for supplying current to the photocell 3, and the signal generated from the spectrophotometer 16 is applied to transfer the corresponding measurement data signal It is preferable to include a power analyzer 13 and a control computer 15 that receives the measurement data signal generated by the power analyzer 13 to calculate the corresponding measurement value, and calculates data such as luminous flux of the light source.

As described above, the light beam according to the present invention can perform the center lamp measurement and the side method lamp measurement with one light beam, and thus there is an advantage of reducing the manufacturing cost or the time required for the installation process. .

The present invention is not limited to the above-described embodiment, and it will be apparent that many modifications are possible by those skilled in the art within the technical idea of the present invention.

Claims (3)

A first opening part 2 for injecting an external light ray into one outer wall; A second opening 3 for emitting light therein, facing the first opening 2; A photo cell 9 for converting incident light incident to the second opening 3 into an electrical quantity; A second light shielding plate (7) for covering light directly radiated from the light source paper of the light source radiated inside the second opening (3) to the photocell (9); An auxiliary lamp (8) selectively formed through the first opening (2) for irradiating light to the inner surface of the sphere; A binding piece (10) having a binding means which allows the auxiliary lamp (8) to penetrate therein as a part of a spherical surface and which can be inserted and fixed in the first opening (2); A first light shielding plate (6) selectively formed to prevent direct illumination of the light source incident on the auxiliary lamp (8); And And a lamp fixing hole (11) capable of opening and closing the lamp fixing jig (5) for fixing the lamp inwardly. The method of claim 1, The binding means is a light beam, characterized in that the outer peripheral surface of the binding piece (10) and the inner peripheral surface of the first opening (2) is screwed. The method of claim 1, And a spectrophotometer for measuring one of the specular reflectance, the diffuse reflectance, and the diffuse transmittance of the lamp, and measuring means for measuring the luminous intensity of the lamp with respect to the light diffusely reflected from the spherical surface.