DE1117906B - Magazine still projector - Google Patents

Description

Magazine-Standbüdprojektor The invention relates to a magazine-freeze projector with horizontal feed and return of the slides and is intended to solve the problem of projecting two different slide formats, for example 7-7 cm and 5 - 5 cm slides, if desired.

For this purpose, according to the invention, the projector is with both sides Magazine guides are provided which are permanently assigned to the two different slide formats are.

They are actually magazine projectors with two magazine guides on the side known. One magazine served as a delivery magazine and the other as a receiving magazine for the same slide format. Such orders have not prevailed; Rather, today the slides are listed in the same magazine after they have been projected their original position so that the stack of slides is always in the same magazine container remains and is kept in the same order. This procedure enables also to start or stop the projection at any frame number.

According to the invention, separate image stages are preferably provided for the two magazine guides, which are offset from one another in the optical axis. This results in a particularly advantageous solution for the picture change drive in such a way that a separate change slide is provided for each picture stage and both change slides are driven jointly and synchronously. For this purpose, a double-armed crank rocker is preferably used between the two platforms, which is coupled by levers to the interchangeable slides that are guided perpendicular to the optical axis. In this case, the crankshaft swing shaft is expediently driven by means of an eccentric from a slide via a rack and a toothed wheel. Instead of an eccentric, a curved triangle can also be used, whereby the fast movement intervals can be assigned to the actual alternating movement; In addition, such a curved triangle gear has the advantage that the transitions from one direction of movement to the other are not very critical, i.e. H. result in a standstill for a larger angle of rotation of the shaft, so that the stopping device need not be very sensitive for the standstill. A special safeguard against simultaneous loading of the projector with two slide images from the two magazines is not required in the arrangement according to the invention, since the slides of the two magazines cannot collide with one another due to the separate magazines and the separate image stages. As such, it is easy to safeguard against "optical" collision, i.e. against simultaneous insertion of both magazines, by locking the other magazine guide when inserting a magazine into its guide by displacing a pin, lever or plunger, and vice versa.

In the drawing is an embodiment. 1 shows a front view of the new projector with the two lateral magazine guides, FIG. 2 a diagrammatic representation of the projector from one side, FIG. 3 a likewise diagrammatic representation from the other side, FIG. 4 a Partial representation of the slide gripper, FIG. 5 a rear view of the projector, FIG. 6 a diagrammatic representation of the image change gear with curved triangle, FIG. 7 a representation of the magazine feed gear and FIG. 8 a circuit diagram of the electrical system.

The projector consists of a trough-shaped lower part on which the housing2 is placed. This housing 2 carries the lens guide 4 with the lens 5 on the front wall. 3. In the middle part of the housing 2, the two image stages 6 and 7 are offset one behind the other in the optical axis, and the rear part of the housing 2 houses the lighting system which consists in a known manner of lamp, mirror and condenser. The lamp housing 2 is formed continuously by the lower part 1 and the rear part of the housing 2. The tub lower part 1 contains in. the rest of the drive parts, such as the motor, fan and engine. The housing 2 is closed at the top by a roof-like housing 8 , which is accessible from above through a double flap 9, 10. The lighting system is located under the flap 9 and the engine, which is shown in FIG. 6 in its essential parts, is located under the front flap 10. Through the tub lower part 1, the central housing 2 and the roof-like upper part 8 two lateral magazine guides 11 and 12 are formed on both sides of the central housing 2, which are assigned to two different magazine sizes or diagram sizes in their cross-sectional design. The magazines are guided by lower guide rails 13, 14 and side rails 15, 16 in such a way that the connecting line of the diamonds goes through the optical axis so that the slides can be pushed out of the magazines into the image guides 6 or 7 from the side.

In the two image stages 6 and 7 are each a claw-like Wechselschieber17 RDnet and 18 for moving the slides out of the magazines out in the image stages and back into the magazine back ANCR 0 Ce. These slides 17 and 18 slide according to FIG. 6 on guides 19, 20 and are driven synchronously. The drive shaft 21 is perpendicular to the optical axis and protrudes from the lower part 1 of the housing, from where it is driven, upwards, where it carries a curved triangle or an eccentric 22 and ends in a manual rotary knob 23. At the bottom, the shaft 21 also carries a drive cam 24, from which the magazine transport is derived, as shown in FIG. 7 . By means of the knob 23 , the shaft 21 can be rotated by hand. The curved triangle 22 slides in a guide 2Z of the carriage 25, which is guided parallel to the guides 19, 20 and via a rack 25 ' drives a pinion 26 which is seated on a shaft X. A double-arm lever 27 is attached to this which actuates the grippers 17 and 18 by means of push rods 28 and 29. A control cam 30 (see FIG. 7) is also arranged on the shaft 21, which controls the switching on and off of the drive in the limit positions of the slides 17 and 18 by switching on and off a magnetic coupling 35 of the drive motor. The drive motor is shown in FIG. 7 by its windings 31 and its field magnet 32 . The switch 49 is used to switch the voltage in order to adapt it to the mains voltage. An auxiliary winding 33 is arranged on the field magnet of the motor, which allows a low voltage to be drawn off, which is rectified by the rectifier 34. A voltage doubling circuit according to Graetz with four rectifiers is provided as a rectifier, which is also designed as a full-wave rectifier with a center tap of the winding33, so that in addition to the higher voltage that is used to control the switching magnets35 and 36 of the device, half the voltage to drive one Motors37 is used, which drives the focus of the lens. The parallel resistor 38 and the series resistor 39 of the motor 37 are used to start the motor with a delay or to slow it down when the current through the resistor 38 is switched off. The change process is initiated by the button 40, namely by engaging a magnetic coupling 35 between the continuously running motor shaft and the shaft 21. The cam disk 30 is rotated so that now the contact 41 is closed by leaving the recess 42 and the excitation of the coupling magnet 35 is maintained even when the button 40 is released. The shaft 21 now executes a full revolution until the circuit is interrupted again by the switch 41 falling into the cam 42 of the disk 30 and the shaft 21 comes to a standstill. The changeover switch 43 serves to switch on the second switch 44 in the circuit, which is offset by 1801 in the circumference of the disk 30 in relation to the switch 41 in the circumference of the disk 30, instead of the switch 41. If the switch 43 is brought into the switching position opposite to FIG. 7 , the shaft 21 remains in a position offset by 18011. These two positions are necessary because in normal projection after the image change, the two grippers 17 and 18 remain outside the image stage, and thus in the area of the magazines, while both grippers 17 and 18 are retracted into the image stage when inserting and removing the magazines must be stopped to allow unhindered attachment and removal of the magazines. In FIG. 7 , a ratchet mechanism is shown in which the forward and backward switching of the magazine transport is carried out by a switching magnet 36 . When this magnet 36 is excited, the ratchet mechanism is switched over so that the magazine switching direction is reversed, i.e. H. goes into a reverse circuit. The engagement of this reverse solenoid takes place by a second button 45, which initially only energizes the Schaltniagneten 36 , which in turn closes a contact 46, and this contact now in turn switches on the clutch magnet 35 and bridges the contact 41 together with the contact 45 Button 45, the contact 41 is kept closed during the rotation of the shaft 21, so that both the clutch magnet 35 and the reverse switching magnet 36 remain energized until the contact 41 is opened again by falling into the recess 42. The arrangement shown also makes it possible to carry out this circuit as a remote control in a simple manner. The corresponding contacts 47 are brought out accordingly in the drawing. The actuation of the motor 37 of the lens focusing is effected by the switch 48, with the aid of which the polarity of the motor can be reversed, i.e. it can be connected to the power supply in two different directions.

The switching mechanism for the forward and backward transport of the magazine is illustrated in Fig. 7. As already mentioned, there is a cam disk 56 on the drive shaft which, like the control cam disk 30 for the electrical contacts 41, 44, executes one rotation with each revolution of the drive shaft.

Parallel to the rack 52 of the magazine 51 , a slide 53 is guided by means of the slots 54 on pins 55 on the housing. This slide 53 is driven back and forth by the cam 56. The curve 57 has a kink 58, the radial height of which corresponds to the pitch of the toothed rack 52 , so that the Y-link carrier 53 is thereby moved back and forth by one pitch of the toothed rack 52. On the slide 53 , a second slide 59 is guided by means of the slots 60 on pins 61, likewise parallel to the rack 52 , which is held in the left limit position by a spring 62. On the slide 53 , the switching pawls 64 and 66 are mounted on pins 63 and 65 , which are forced into engagement with the rack 52 by springs 67 and 68. However, between the stop pins 69 and 70 of these pawls there is an extension 71 of the slide 59, so that the pawls 64, 66 can only alternately engage the rack 52 when this extension 71 releases the corresponding pawl. The arrangement of this approach 71 and the limitation of the slide 59 are chosen so that in the left position, the pawl 64 is lifted and only the pawl 66 is released for resilient engagement in the rack. In the opposite limit position according to FIG. 7 , however, the pawl 64 is released and the pawl 66 is lifted out. The armature 73 of the lifting magnet 36 acts on a pin 72 and is actuated by the electric slide changing device. When this magnet 36 is excited, the slide 59 is forced into the illustrated right limit position, so that the pawl 64 is in the working position and the magazine 51 switches against the direction of arrow A , while when the electromagnet 36 is not excited, the spring 62 pulls the slide 59 to the left , whereby the circuit takes place in the direction of arrow A. It is obvious that, instead of the slides 53, 59 , levers mounted in a swinging manner can also be provided. Also, it is readily apparent that is held in place an arrangement in which a pawl 64 is not energized electromagnet 36 itself operates in engagement with the toothing 52 and the pawl is lifted only for excitation of the electromagnet 36, while simultaneously turning the pawl 66 Arrangement can also be made so that a further electromagnet can be attached, so that when the two magnets are not energized, both pawls 64 and 66 are lifted out of the toothing 52 of the magazine 51 , which makes it much easier to insert and remove the magazine. In this case, a circuit variant must be made in that the magnet 36 and the magnet required further are excited alternately in both the forward switching position and in the reverse switching position.

Claims (2)

PATENT CLAIMS: 1. Magazine still image projector with horizontal image feed and return, characterized by magazine guides (11, 12) on both sides that are permanently assigned to two different slide formats. 2. Magazine stand projector according to claim 1, characterized by separate image stages (6, 7) for the two magazine guides (11, 12) which are offset from one another in the optical axis. 3. Magazine still image projector according to claim 1 or 2, characterized in that the interchangeable slides (17, 18) of the two image stages (6, 7) are driven synchronously. 4. Magazine still image projector according to Claim 3, characterized by a double-armed crank arm (27) between the two stages, which is coupled to the interchangeable slides (17, 18) guided perpendicular to the optical axis by tie rods (28, 29). 5. Magazine still image projector according to spoke 3 or 4, characterized in that the crankshaft shaft (26) is driven by a slide (25) driven by an eccentric (22) via a rack (25 ') and a gear (26) . 6. Magazine still image projector according to claim 3 or 4, characterized in that the crankshaft shaft (26) is driven by a carriage (25) driven by means of an arc triangle (22) via a rack (25 ') and a toothed wheel (26) .