SU1458853A1 - Slide film projector - Google Patents

Abstract

This invention relates to the field of optical instrumentation, in particular to projection technology. The aim of the invention is to increase the cooling efficiency of the overhead projector while simplifying the design. With a simple construction and compactness, the overhead projector allows the projected material to be cooled in a personnel window to a temperature of 55-65 ° C with a light flux of 900-1300 lm, since the air flow cooling the frame f3 16 h § (L sd 00 cd c cpu .i

Description

The new window and the lighting chamber 10 are not mixed, and both fans 2, 9 are installed on both sides of the electric motor 1 and immediately near the projection and optical systems. When the overhead projector is turned on, the pressure fan 2, located on the same shaft with the electric motor 1, draws air from the outside through the grilles 14 in the side wall of the overhead projector 13, directs it to the personnel window and leaves the grille 16 in the upper part of the housing. Warm air from the lighting system 10 is exhausted by the fan 9 and discharged to the outside through the grilles 12 in the upper part of the housing 13. The exhaust fan 9 is located directly next to the lighting system and connected through the pulleys 6, 8 and the belt drive 7 with the electric motor 1. 1 C .l. f-ly, 2 ill.

one

The invention relates to a projection technique, in particular to cooling systems for overhead projectors with high luminous flux,

The purpose of the invention is to improve the cooling efficiency by separating the air flows of the injection and exhaust fans with a simultaneous simplification of the design.

Figure 1 shows the projector, rear view; on fgg, 2 - view A in figure 1.

The overhead projector contains an electric motor 1, on the shaft of which, on the one hand, a pressure fan 2 is fixed, the outlet opening 3 (figure 2) of which is directed directly to the personnel window 4, fixed on the separation board 5. On the other side of the electric motor 1, a pulley 6 is fixed on its shaft which, by means of a belt drive 7 (rubber rubber), is connected to the pulley 8 of the exhaust fan 9, which by means of a hole in the separation board 5 mates with the lighting system 10. The exhaust fan 9 is installed so that About its outlet 11 is located directly at the grid 12 in the upper part of the housing 13 of the overhead projector. The blower fan 2 mates with the grille 14 in the housing 13 of the overhead projector by means of a conical diffuser 15. Directly above the personnel window 4 there is a grid (for air outlet, it is guided by the fan 2 to cool the personnel window 4. At the bottom

parts of the overhead projector housing 13 are made of gratings 17 for taking in air directed to cool all the heating elements and the lighting system 10.

The area of the grids made in the overhead projector housing is significantly larger than the area of the inlet and outlet openings of the fans, which also eliminates the throttling of air as it passes through these grids.

The diameter of the pulley 6 fixed on the shaft of the electric motor 1 is larger than the diameter of the pulley 8 fixed to the axis of the exhaust fan 9, which significantly improves the performance of the exhaust fan 9 when using an electric motor with a speed of 4 W and small dimensions .

The projector operates as follows.

When the electric motor 1 is turned on, cold air is drawn in by the injection fan 2 through the grids 14 in the side wall of the housing 13 of the overhead projector and through the outlet 3 of the pressure fan 2 directly to the personnel window 4, and from there passes the grids 16 in the upper part of the housing 13 of the overhead projector is thrown out. Since during its movement the air flow, blowing a personnel window 4, n has obstacles, its movement is frizzy and it maintains the speed almost the same as at the exit of the fan, i.e. the efficiency of the fan is fully utilized and the most optimal conditions are created for the cooling of the personnel window.

The pulley 6 fixed on the other side of the electric motor 1 transmits rotation through the belt drive 7 to the pulley 8 of the exhaust fan 9.

Due to the vacuum created by the Q inlet opening of the exhaust fan by the exhaust fan 9, cold air is sucked in through the grids 17 in the bottom wall of the overhead projector housing. The cold air during its movement inside the overhead projector cools them and then enters the lighting system 10, due to which there is an intensive cooling of all the elements of the lighting system. Warm air from the lighting system 10 is sucked off by an exhaust fan 9 and discharged outside through the grilles 12 in the upper part of the housing 13 of the overhead projector)

The proposed design of the cooling system of the overhead projector not only allowed the overhead window of the overhead projector to be cooled with a luminous flux of 600 lm per mm or 1000-1300 lm per mm frame, but also sharply reduce the temperature of the lighting system elements, which, in turn, reduced the overhead projector dimensions due to the approach of the casing walls of the overhead projector to the walls of the lighting system.

Claims (2)

1. An overhead projector containing illumination torus, characterized in that, in order to increase the cooling efficiency due to the separation of the air streams of the injection and exhaust fans with the simultaneous forgiveness of the structure, a separation plate, two pulleys, a diffuser and additional grids in the lower and upper part of the core 20 are introduced into it while pumping and the exhaust fans are installed on different sides of the board, the discharge fan is interfaced on one side with a personnel window, over which a grating is made in the corpus of the overhead projector, and on the other side its inlet with a small diffuser diameter, whose large diameter is connected to the grid in the overhead projector housing 30 on the other side of the board, on the motor shaft, there is a pulley connected by a belt drive to a second pulley located on the same shaft with the exhaust fan matched with the lighting system located on the other side of the board through an opening in the board. 2. The overhead projector according to claim 1, characterized in that, for the purpose of 40 increase the productivity of the exhaust fan, the pulleys are made of different diameters. 853 system and personnel window, electric two fans, while gatel, The blower fan is mounted on the same shaft with the electric motor and opposite the grille in the overhead projector housing, and the exhaust fan is in conjunction with the lighting system and the grille in the overhead projector cabinet, characterized in that, in order to increase the cooling efficiency by separating the discharge air flows and exhaust fans, while simultaneously with the forgiveness of the structure, a dividing board, two pulleys, a diffuser, and additional grids in the lower and upper part of the body are inserted into it, while corpulent and the exhaust fans are installed on different sides of the board, the pressure fan is interfaced on one side with a personnel window, on which a grating is made in the overhead casing, and on the other side - its inlet with a small diffuser diameter, the large diameter of which is connected to the grating in overhead projector housing On the other side of the board, on the motor shaft, there is a pulley connected by a belt drive to a second pulley located on the same shaft with the exhaust fan connected with the lighting system located on the other side of the board through the hole in the board. 2. The overhead projector according to claim 1, characterized in that, for the purpose of increase in productivity of exhaust fan; pulleys are made of different diameters. Bt / ffA FI.2