KR200162365Y1 - Lamp fixing structure of projector - Google Patents

Abstract

A lamp fixing structure of a projector is disclosed in which the arrangement is improved such that an elastic member holding the lamp is not deformed by heat generated in the lamp.

The lamp fixing structure of the projector is equipped with a reflector, the lamp is installed inside, the lamp housing having a lamp exhaust vent formed thereon; An elastic member for elastically fixing the reflector to the lamp housing; In the lamp fixing structure of the projector comprising: a lamp cover covering a reflector mounted on the lamp housing, the elastic member includes an elastic spring of the U-shaped structure to fix the reflector by three-point support, the elastic spring Both ends of the is disposed on one side of the lamp housing, the central portion of the elastic spring is disposed on the other side of the lamp housing is characterized in that it is not deformed by the heat exiting the lamp exhaust.

Description

Lamp fixing structure of the projector

The present invention relates to a lamp fixing structure of the projector, and more particularly, to a lamp fixing structure of the projector in which the arrangement is improved so that the elastic member for fixing the lamp is not deformed by the heat generated in the lamp.

In general, a projector emits an image generated in a liquid crystal panel onto a screen by light emitted from a lamp to provide an image. Compared with color cathode ray tubes, this projector has no limitation on the size of the screen and has the advantage of greatly reducing its weight and volume.

1 is a schematic perspective view showing an optical arrangement of a color liquid crystal projector capable of realizing a color image with one liquid crystal panel.

As shown, light emitted from the lamp 10 and reflected from the reflector 11 passes through an aperture 12 installed in front of the lamp 10 and has an aspect ratio corresponding to the screen 24. It becomes square light. Here, the aperture 12 has an ineffective light incident on the parabolic reflecting surface (not shown) is formed on the surface facing the lamp 10 to increase the efficiency of the light emitted from the lamp 10 Reflect to make it available. The rectangular light passing through the aperture 12 becomes uniform light while passing through the scrambler 13 of the rectangular parallelepiped, and the image mirror 14 and the hot mirror 15 that transmits infrared light and reflects the remaining light. It enters into the image generating means via. The image generating means includes a liquid crystal panel 18 coated with red, blue, green or yellow, magenta, and cyan color by pixel unit, and a pair of polarizing plates 17 formed before and after the polarizing plates 17, respectively. And first and second converging lenses 16 and 19 installed to focus incident light.

This image generating means generates an image in accordance with the operation of the liquid crystal panel 18 via the light irradiated from the lamp 10. The light generated by the image generating means passes through the projection lens 20 including the reflection mirror 21 and the plurality of lens units 22 which determine the focusing degree and the magnification ratio of the image, and then the screen 24 It is reflected from the total reflection mirror 23 disposed at an angle of inclination on the rear surface and is magnified and projected on the screen 24.

As described above, the projector provided requires heat dissipation because the optical arrangement may be changed or the optical members may be damaged by the heat generated by the lamp 10 and the ballast 9 driving the lamp 10. 2 is a schematic view showing a typical heat dissipation structure, which is installed in a housing 30 surrounding the optical members. The heat dissipation structure includes an intake port, a duct 40 including a plurality of exhaust ports, an intake fan 41 connected to the intake port of the duct 40, and an exhaust fan 43 provided in at least one of the exhaust ports. do. Preferably, the exhaust fan 43 is installed in a lamp exhaust hole formed around the lamp 10 of the duct 40. At this time, the exhaust fan 43 and the exhaust port is formed and installed in the upper portion of the housing 30 in consideration of its arrangement.

3 is a schematic perspective view showing a conventional lamp fixing structure, Figure 4 is a schematic cross-sectional view of FIG. As shown in the drawing, the lamp fixing structure includes a lamp housing 50 to which the reflector 11 installed inside the lamp is mounted, and an elastic member 53 for elastically fixing the reflector 11 to the lamp housing 50. The lamp cover 55 covers the reflector 11 mounted on the lamp housing 50. The elastic member 53 has a U-shaped structure so that the reflector 11 can be fixed by supporting three points with a normal elastic spring. The lamp housing 50 has the lamp exhaust port 51 formed on an upper surface thereof, and includes a plurality of fixing parts 52 for fixing both ends of the elastic spring 53 and a central portion thereof. do.

As described above, the conventional lamp fixing structure configured is arranged so that a part of the spring is positioned in the vertical direction, that is, the part where the exhaust port is formed, without considering thermal deformation. Therefore, when the lamp is operated, the elastic spring may be easily thermally deformed because the elastic spring is disposed in a traveling path of heat that is heated by the lamp and discharged through the exhaust fan. This thermal deformation is a major factor for lowering the accuracy of the optical arrangement of the lamp and the reflector.

The present invention has been made to solve the above-mentioned point, to provide a lamp fixing structure of the projector that can be repositioned the elastic spring constituting the lamp fixing structure to prevent the elastic spring is thermally deformed by heat radiation. The purpose is.

1 is a schematic perspective view showing an optical arrangement of a color liquid crystal projector capable of realizing a color image with one liquid crystal panel;

Figure 2 is a schematic view showing a heat dissipation structure of a conventional projector.

Figure 3 is a schematic perspective view showing a lamp fixing structure of a conventional projector.

4 is a schematic cross-sectional view of FIG.

Figure 5 is a schematic perspective view showing a lamp fixing structure of the projector according to the present invention.

6 is a schematic cross-sectional view of FIG.

<Explanation of symbols for main parts of drawing>

10 Lamp 11 Reflector 40 Duct

41 Intake fan 43 Exhaust fan 60 Lamp housing

61 Lamp exhaust 62 Fixed high 63 Elastic member

65 ... lamp cover

In order to achieve the above object, the present invention is a lamp housing which is equipped with a reflector installed inside the lamp, and a lamp exhaust hole formed thereon; An elastic member for elastically fixing the reflector to the lamp housing; And a lamp cover covering a reflector mounted on the lamp housing, wherein the elastic member comprises an elastic spring having a U-shaped structure to fix the reflector by three-point support. Both ends of the elastic spring is disposed on one side of the lamp housing, the central portion of the elastic spring is disposed on the other side of the lamp housing is characterized in that it is not deformed by the heat exiting the lamp exhaust.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the lamp fixing structure of the projector according to the present invention in detail.

5 is a schematic exploded perspective view showing an embodiment of a lamp fixing structure of the projector according to the present invention, Figure 6 is a schematic cross-sectional view of FIG.

As shown, the lamp fixing structure covers the lamp housing 60 to which the reflector 11 is mounted, an elastic member 63 for elastically fixing the reflector to the lamp housing 60, and the reflector 11. The main body is composed of a lamp cover 65. A lamp is installed inside the reflector 11. On top of the lamp housing 60, a lamp exhaust 61 is formed for dissipating heat caused by the lamp. This lamp exhaust port 61 is provided with an exhaust fan (43 in FIG. 2) as described above. The lamp cover 65 is fastened to the lamp housing 60 by conventional fastening means to protect the lamp and the reflector 11. The elastic member 63 is made of an elastic spring having a U-shaped structure to fix the reflector 11 by three-point support. Both ends of the elastic spring are disposed on one side of the lamp housing 60. That is, the lamp exhaust port 61 is not formed on the inner surface of the lamp housing 60 formed. In addition, the central portion of the elastic spring is disposed on the other side of the lamp housing (60). Here, each of both ends and the center of the elastic spring is fixed to the fixing portion 62 formed inside the lamp housing (60).

As described above, the lamp fixing structure of the projector according to the present invention by placing the elastic spring in the lateral direction of the lamp housing, it is possible to prevent the elastic spring from being deformed by the heat emitted through the lamp exhaust vent Therefore, the optical arrangement of the reflector can be minimized.

Claims (1)

A lamp housing in which a lamp is mounted on an inside thereof, and a lamp exhaust port is formed on the lamp housing; An elastic member for elastically fixing the reflector to the lamp housing; In the lamp fixing structure of the projector comprising a; lamp cover for covering the reflector mounted on the lamp housing, The elastic member includes a U-shaped elastic spring to fix the reflector by three-point support, both ends of the elastic spring is disposed on one side of the lamp housing, the central portion of the elastic spring of the lamp housing The lamp fixing structure of the projector, which is disposed on the other side so as not to be deformed by the heat exiting the lamp exhaust.