DE803846C - Headlights with automatic color change - Google Patents

Description

Headlights with automatic color change For headlights that Often used in theaters, variety theaters and the like are used for colored light special filters attached. The replacement of these filters is generally done by hand or by means of a Bowden cable. This is very cumbersome and represents a considerable operational complication represent.

The following invention shows two solutions in which the replacement the filter takes place automatically. The basic structure for both solutions is from Fig. i can be seen. Contrary to the usual designs, they have two reflectors i and incandescent lamps 2. The color filters 3 are in front of the reflectors on a shaft 4 rotatably arranged. These color filters are driven by an electric motor 5. In solution i (Fig, 2), the color filters 3 are each via a friction clutch 6 and a common tooth coupling 7 is coupled to the motor 5. In solution 2 (Fig.3) will be on the other hand, they use the common tooth couplings 8 and 9 (for axial and radial movement) coupled. How the kinematics work and the electrical control of the solution i is shown in Figs. : The following is the description of solution i.

If a certain push button is pressed, a contact closes d. A magnet F and magnet K are excited via contacts d, Q and n. The magnet K releases the toothed coupling 7 with its armature. The shaft 12 is now driven via the gears io and ii. At the same time, the excited magnet F releases the pin 3 a in the filter disk 3 with its armature. This is now carried along by the shaft 12 by the friction clutch 6. Immediately after the start of the rotation, the filter disk with its cam extension 3b lifts the drop flap 13 against the spring force 14 and releases the filter disk, which is first latched onto the drop flap with its locking lug 3c. This also rotates through the friction clutch with the shaft 12 until the pin 3d comes to rest on the armature of the magnet F again. The other filter disc, on the other hand, engages with the locking lug on the drop flap. So that the process that has been initiated when changing the color filter is not disturbed by pressing another push button and, in addition, no second color filter can be pushed in front of the reflectors with the lamps at the same time, a cam disk 15, which sits rigidly on the shaft 12, is activated immediately after the start of rotation. the contact n is open. At the same time, a second self-holding contact n closes. As long as contact n is open, no further magnet F can be excited. The already excited magnet F, on the other hand, holds itself through the winding II and its contact f. Only when the filter disc is in the latched position on the drop flap are the contacts p (double contact) opened by the pin 30 and the magnet F is thus de-energized. The magnet K, on the other hand, remains excited until the cam contact n is turned over again by the cam disk 15.

The mode of action of the kinematics of solution2 and the corresponding 3 and 5 show the circuit for the electrical control the description of solution 2.

When a certain pressure button is pressed, a contact d is also closed here. The magnet K, (for axial movement) is thus excited via the contacts d, z and n and attracts its armature. This releases the toothed coupling 8 and brings it. this engaged. The motor 5 now drives the eccentric disk 18 via the gears 16 and 17. The lever i9, which is rigidly connected to the toothed segment 2o and is pressed by the tension spring 21 against the eccentric disk, slides on this. The toothed segment is in engagement with the pinion 22, which is firmly connected to the gear 23 and meshes with the rack 24. The toothed rack slides with its smooth part 24a in the hollow shaft 25 and is moved back and forth with each revolution of the eccentric disk. During this axial movement, the contacts are switched one after the other by the washer 2e on the rack. The contact z 'opens in series with the contacts n and d and the contact z " closes in series with the contacts p and ki. The contact opens , which is in series with the actuated contact d (pushbutton), see above the magnet K, is de-energized and drops out. The armature disengages the toothed clutch 8 and the rack 24 remains in this position (for radial movement) is excited and attracts its armature. As with K, the tooth clutch 9 comes into engagement. The hollow shaft 25 is now driven via this and the gears 26 and 27. The cam disk 28, which actuates the contact n, is seated thereon, so that the pushbuttons above K can no longer interfere with the process once initiated when changing the color filter. The hollow shaft has a slot in which the pin 2417 of the rack 24 slides. The pin engages in a groove in the socket 29, which is elastically coupled to the filter disk 3 by means of a torsion spring 3o, and takes it along with the rotary movement of the hollow shaft. The filter disc cannot follow this rotary movement, since it is prevented from doing so by the pin 3 ° and the stop 31. Thus, the spring 30 is tensioned until the pin 29a rests against the stop 31 after about 180 ° rotation and pushes its locking hook 31a away from the pin 3a. Driven by the stored force of the spring 30, the filter disc rotates further by 90 ° and its locking lug 3b remains attached to the drop flap 32. Immediately after the start of the rotation, the filter disk with its cam extension 3c lifts the drop flap against the spring force 33 and releases the filter disk that was first locked on the drop flap. This also continues to rotate due to the force still stored in the spring 3o until the pin 3d comes to rest on the locking hook 3ib. In the meantime, the cam disk 28 has switched the contact n again, and after the contact p has been opened by the pin 3a on the filter disk, the switching magnet Kil is also de-energized and the replacement of the color filter is completed. The color filter for the desired color is now located in front of the reflectors with the lamps. This position or color filter disc is characterized by the latching on the drop flap 32, while the remaining color filter discs latch with their pins on the stops 31, which are movably arranged on the axis 34. The processes described are repeated each time the next pushbutton is pressed.

Claims (1)

PATENT CLAIMS: i. . Headlights, in which the filters used to filter out the desired colored light rays are automatically replaced, characterized in that the headlight is divided into two smaller headlights of half power each with two reflectors and lamps. Headlamp according to claim i, characterized in that the color filters are rotatably arranged on a shaft in front of the reflectors and are coupled to mechanical parts (rack, toothed wheels, toothed segment, eccentric disk, toothed clutches, etc.) via which the filters are driven by a motor. 3. Headlight according to claim i, characterized in that the drive of each filter disc takes place via its own friction clutch and a common toothed clutch from a motor. 4. Headlight according to claims i and 2, characterized in that the filter discs are resiliently (z. B. by means of a storage spring) with sockets which are rotatably seated on a hollow shaft, are coupled. 5. Headlight according to claims i to 4, characterized in that there is always only one of all the filter disks in the detent position in which the color filters are in front of the reflectors with the lamps, the remaining filter disks, however, in a second detent position of a common drop flap being held. 6. Headlamp according to claims 4 and 5, characterized in that the selection of the desired filter disc takes place automatically after pressing a push button by a rack in which a pin is attached, is axially displaced in a hollow shaft with a slot by means of an eccentric disc and toothed segment and then the hollow shaft with the socket, in which the pin of the rack engages, is rotated. . Headlight according to Claim 6, characterized in that during the rotary movement of the hollow shaft with the bushing, a torsion spring which elastically couples the bushing and filter disk is tensioned until a stop releases the filter disk, so that the force stored in the spring up to is moved to the next stop on the drop flap. B. headlamp according to claim 3, characterized in that the selection of the desired filter disc is done automatically after pressing a push button by energizing a switching magnet that releases the corresponding filter disc, which is then moved by a friction clutch to the next stop on the drop flap. G. Headlight according to claims 7 and 8, characterized in that when the filter disc rotates towards the stop on the drop flap, the latter is first lifted by the filter disc so that the filter disc previously latched on the drop flap is released and the force still stored in the torsion spring or . the friction force (friction clutch) is brought into the starting position. ok Headlight according to Claim 6, characterized in that the eccentric disk for the axial movement and the hollow shaft for the radial movement are coupled to the common drive motor via two separate toothed couplings, which are each engaged and disengaged by a switching magnet. i i. Headlight according to Claim 8, characterized in that the drive shaft for the friction clutches is coupled to the drive motor via a toothed clutch which is engaged and disengaged by a switching magnet. 12. Headlight according to claims i to ii, characterized in that the color filters are automatically replaced after pressing a push button by mechanical parts cooperate with electrical switching magnets, which in turn are controlled electrically via contacts and cams (see Fig. I to 5) .