KR850001194B1 - The artificial optical source apparatus - Google Patents

Abstract

The apparatus integrates a light from an artificial light source using a lens system, and thus introduces effectively an integrated light to the optical cable. This enables the optical cable to tansmit the integrated light to where illumination is needed. The features of the apparatus are the first light body, which receives the artificial light source; the lens system, which integrates light from the artificial light source; and the second light body, which has a focus of the lens system in itself.

Description

Artificial light source device

1 is a schematic overall configuration diagram showing one embodiment of an artificial light source device according to the present invention;

Fig. 2 is a view of the connector 4 taken away from the II-II line in Fig. 1;

3 is a cross-sectional view taken along the line III-III of FIG.

4 is an enlarged cross-sectional view of the connector 4 shown in FIG.

FIG. 5 is a view from the line V-V in FIG. 4; FIG.

6 is a view for explaining a state when the connector 4 is mounted on the support member 10. As shown in FIG.

* Explanation of symbols for main parts of the drawings

DESCRIPTION OF SYMBOLS 1 The optical body of an artificial light source part 4: Connector

2: Body of lens unit 5: Optical conductor cable

3: focusing body 6: window

10: support member

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an artificial light source device, and in particular, to connect light in an artificial light source by a lens system, thereby effectively bringing the focused light into an optical conductor cable, and to provide a place where illumination is required through the optical conductor cable. An artificial light source device capable of transmitting.

The technical idea of connecting sunlight or artificial light by using a lens system to introduce them into an optical conductor cable and transmitting them to a location requiring illumination through the optical conductor cable is already known.

In reality, however, it is very difficult to efficiently introduce light focused by a lens system into an optical cable having a small diameter, and the present inventors specifically refer to efficiently introducing light focused by a lens system into a small optical cable. Several types of proposals were made.

The present invention is also a part thereof, and the present invention relates in particular to a specific apparatus for effectively introducing light from artificial light into an optical conductor cable.

FIG. 1 is a schematic overall configuration diagram showing an embodiment of an artificial light source device according to the present invention, in which (1) is a light housing accommodating an artificial light source, and (2) is for focusing light from an artificial light source. The cylindrical body of the lens system, (3) is a housing in which the focus of the lens system is located, (4) is an optical conductor cable connector, (5) is an optical conductor cable, (6) is installed on a part of the side wall of the housing (3) It is a window, and through the window 6, the vicinity of the focal position of the lens system can be seen.

The artificial light source device focuses in the light body 2 through the lens system from the light source in the light body 1, and accurately positions the light-receiving cross section of the light conductor cable 5 at the focal position, thereby basically man-made. The lens system for focusing the light from the light source and the artificial light source and the fixing member for fixing the light receiving shortening of the optical conductor cable for transmitting the light focused by the lens system are integrally formed to determine the focus position of the lens system and simultaneously focus. The light-receiving end face of the optical conductor cable can be accurately positioned with respect to the position. More specifically, the light-receiving cross section of the optical conductor cable is used as an adjustment material with respect to the focal position of the lens system, and at the same time, the focus of the lens system is being adjusted. This makes the adjustment easier by making the position visible.

FIG. 2 is a view for explaining an embodiment of the optical conductor cable light receiving end support member used in the embodiment of the present invention, and is an enlarged view of the connector 4 taken away from the direction II-II in FIG.

In Fig. 2, reference numeral 10 denotes a supporting member for supporting and fixing the light receiving end side of the optical conductor cable 5, and the supporting member 10 has a hole 11 having a key 11a. The optical conductor cable connector 4 is inserted and supported as described later through the hole 11.

In addition, both end sides of the supporting member 10 are formed by cylindrical portions 12a and 12b, and bolts 13a and 13b are inserted into these cylindrical portions 12a and 12b, respectively, and each bolt 13a Nuts 14a ₁ , 14a ₂ : 14b ₁ , and 14b ₂ are interposed between the cylinders 12a and 12b with the cylindrical portions 12a and 12b respectively.

Therefore, the holding member 10 can move in the direction of arrow X by slowing down these nuts, and can be fixed to a desired position by clamping these nuts.

Again, cylinders 15a and 15b are fitted to the respective ends of the bolts 13a and 13b, and bolts 16a and 16b are inserted into the cylinders 15a and 15b, respectively, and each bolt 16a and 16b. Nuts 17a ₁ , 17a ₂ : 17b ₁ , and 17b ₂ are attached to each other with the bodies 15a and 15b interposed therebetween.

Therefore, the supporting member 10 is movable in the Y direction by slowing down these nuts, and can also be fixed to a desired position by clamping these nuts.

Further, the grooves 18a ₁ , 18a ₂ , 18b ₁ , and 18b ₂ are notched at the rear end of the upper body a ₁ and the lower plate 3b, and the grooves 18a ₁ , (18b ₁₎ to the bolt (16a) it has also grooves _{(18a 2), (18b 2} ) to the bolt (16b) is a third diagram in each of the places of insertion, and in the direction of arrow a as shown, nut shown in (19a ₁ ), (19'a ₁ ): (19'a ₂ ), (19a ₂ ),: (19b ₁ ), (19'b ₁ ): and (19b ₂ ), (19'b ₂ ) It is to be fixed.

In addition, by tightening the nuts (19a ₂ ), (19'a ₂ ), and (19b ₂ ), (19'b ₂ ), (19a ₁ ), (19'a ₁ ) and (19b ₁ ), (19 ' When b ₁ ) is delayed, the support member 10 rotates around the bolt 16b and, conversely, the nuts 19a ₁ , 19'a ₁ , and 19b ₁ , 19'b ₁ . And (19a ₂ ), (19'a ₂ ), and (19b ₂ ), (19'b ₂ ) are rotated around the bolt 16a to form a rotating material, which will be described later. Adjustment to the Z direction becomes easy.

4 is an enlarged side cross-sectional view of the connector 4, and FIG. 5 is a view seen from the direction of the arrow VV line in FIG. 4, and the connector 4 is cylindrical in shape as shown in the drawing, and the outer screw 4a and the key groove 4b are shown in FIG. ), The key 11a and the key groove 4b of the hole 11 are engaged and inserted into the hole 11 of the support member 10 shown in FIG.

FIG. 6 is a partial side cross-sectional view illustrating the state when the connector 4 is attached to the support member 10. The nut 20 is engaged with the outer thread 4a of the first connector 4, and then. The key 11a of the hole 11 of the support member 10 and the key groove 4a of the connector 4 are engaged to insert the connector 4 into the hole 11, and then the nut 21 is inserted into the connector ( When the nuts 20 and 21 are tightened by engaging the outer screws of 4), the connector 4 can be fixed to the support member 10, and the nuts 20 and 21 are delayed. Position adjustment in the Z direction can be made. The optical body cable 5 is fixed in the connector 4, and this optical conductor cable 5 is exposed in the connector 4, the core part 5a is exposed, and the tip part 5b is carried out as mentioned above. The light focused by the lens system is introduced.

As described above, the focal point of the lens system is fixed at a specific position of the optical body 3, and when the light receiving end surface 5a of the optical conductor cable 5 is correctly positioned at the focal position, the light from the artificial light source is moved to the optical conductor. It is clear that the cable can be efficiently introduced into the cable, and as shown in the present invention, a part of the side wall of the housing 3 is provided with a window for visually seeing the vicinity of the focal position of the lens system, and the optical conductor is observed through this window. By adjusting the light receiving end surface of the cable 5 in the X, Y, and Z directions as described above, the light receiving end surface 5a of the light conductor 5 can be accurately positioned at the focal point of the lens system, so that light from the artificial light source It can be efficiently introduced into the conductor cable.

Claims (1)

The first housing housing the artificial light source, the lens system focusing the light from the artificial light source, and the second housing having the focal point of the lens system therein are integrally formed. It is equipped with a mechanism which can adjust the light-receiving unit value of a conductor cable in each direction of three axes orthogonal, and has a window which can direct the focus position to a part of the side wall of this 2nd conductor. Artificial light source device.

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