DD231862A1 - ELECTROMAGNETIC CLOSURE - Google Patents

Abstract

In an electromagnetic drive in photographic fasteners, wherein the relative to the fixed part (stator) of a rotary instrument rotatable part (rotor) of the rotary coil instrument is drivingly connected as a drive member with the shutter blades are on a said parts (4, 5) of the rotary coil instrument of magnetically conductive Material existing stop arms (9, 10) and on the other part (5, 4) of the rotary coil instrument with the stop arms (9, 10) arranged in pairs corresponding Anschlagflaechen through which taking place upon activation of the Drehspulinstrumentes rotation of the rotatable member (rotor) with respect to the fixed Part (stator) can be limited by in this limit position, the stop arms (9, 10) by bridging the air gaps between the two parts (4, 5) of the rotary coil instrument can be applied to the Anschlagflaechen. Fig. 1

Description

The mode of operation of the arrangement is as follows:

At rest, the parts of the shutter mechanism take the positions shown in FIG. In this case, the light passage opening 2 is covered by the opening blade 15. The closing blade 7 is held by the return spring 8 in the light passage opening 2 releasing position. The return spring 14 holds the flywheel 12 in the catching position, in which the catching slot 14 is ready for the entry of the catching arm 11. The activation switch 20 is open.

For the purpose of taking a photographic shot of the trigger plunger 27 is guided downwards. In this case, the opening blade 15 is rotated counterclockwise about the pin 16, so that the light passage opening 2 is released. With the depression of the trigger plunger 17, the activation switch 20 is closed via the flap 19.

In accordance with the exposure time determined by the time-forming device 21, the electromagnetic stator 4 is energized, so that at the poles 4a and 4b and the stop arms 9 and 10, an N-S polarity is formed.

As a result, the rotor 5 is caused to rotate about the pin 6 in a clockwise direction. Together with the rotor 5, the closing blade 7 is pivoted. In the closed position of the closing blade 7, the rotor 5 reaches the stops 9 and 10. The resulting magnetic bridge between the poles 4a and 4b counteracts the tendency of the closing blade 7 to release by bouncing the light passage opening 2 at least partially undesirable. To assist in preventing bouncing, especially at high blade speeds, the catching arm 11 enters the catching slot 13 of the flywheel 12 and flings the flywheel 12 counterclockwise against the return spring 14. After stopping the closing blade 7, it turns through the stops 9 and 10 the flywheel 12 continues due to its inertia by the amount a and reaches with the other slot edge the catch arm 11 at a time when the bounce of the closing blade 7 is about the largest.

According to another embodiment (FIG. 3), the stops 9 and 10 according to the invention are provided on the rotor 5 and, in the activated position of the rotor 5, reach the poles 4a and 4b in order to produce the magnetic bridge between the poles 4a and 4b which acts as a backup.

Claims (4)

Invention claim: 1. Electromagnetic actuator in phtographic closures, wherein the relative to the fixed part (stator) of a rotary coil instrument rotatable part (rotor) of the rotary coil instrument is drivingly connected as a drive member with the shutter blades, characterized in that on a said parts (4,5,) of the Drehspulinstrumentes of magnetically conductive material existing stop arms (9,10) and the other part (5,4) of the rotary coil instrument with the stop arms (9,10) are arranged in pairs corresponding abutment surfaces through which takes place upon activation of the rotary coil instrument rotation of the rotatable member ( Rotor) relative to the fixed part (stator) can be limited by the stop arms (9,10) can be applied to the stop surfaces in this limit position, bridging the air gaps between the two parts (4,5) of the rotary coil instrument. 2. Electromagnetic actuator according to item 1, characterized in that the fixed part (4) the deflection of the rotatable member (5) directly limiting stop arms (9,10). 3. Electromagnetic actuator according to point ^ characterized in that the rotatable part (5) limiting its deflection • aind applicable to the fixed part stop arms (9,10). 4. Electromagnetic actuator according to item 1 or 2, characterized in that a with the rotatable member (5) connected shutter blade (7) has a catch arm (11) and about a stationary pin rotatable a flywheel (12) with a catch slot (13) is mounted in the direction of movement of the catching arm (11) by an amount (a) is greater than the tentacle (11) and the tentacle (11) of the end position running shutter blade (7) against a return spring (14) by entrainment in this end position is slingable. For this 2 pages drawings Field of application of the invention The invention relates to an electromagnetic drive in photographic fasteners, wherein the relative to the fixed part (stator) of a rotary coil instrument rotatable part (rotor) of the rotary coil instrument is drivingly connected as a drive member with the shutter blades. Characteristic of the known technical solutions When driving photographic fasteners, efforts are made to achieve high speeds of the shutter blades. The fast moving shutter blades are to stop when reaching their final position as possible bounce. Rigid or slightly resilient attacks (DE-PS 711 644) have been found to be inadequate solutions. For bounce-free stopping the spring-bolted shutter blades catching and friction brakes have also been developed, however, which burden the respective subsequent movement of the shutter blades in the opposite direction. It has also been proposed to suppress the bouncing of Verschiußlamellen by a stationary mounted rocker arm (WP G 03 B / 251 601); However, this arrangement requires a very accurate adjustment. Purpose of the invention The aim of the invention is an effort-saving prevention of the bounce of electromagnetically driven shutter blades. Essence of the invention The object of the invention is a device for preventing the bouncing of the shutter blades, which are electromagnetically driven. According to the invention this is achieved in that on one of said parts of the rotary coil instrument of magnetically conductive material existing stop arms and the other part of the Drehspulinstrumentes with the stop arms in pairs corresponding stop surfaces are arranged, through which takes place upon activation of the Drehspulinstrumentes rotation of the rotatable member (rotor) the fixed part (stator) can be limited by the stop arms can be applied to the stop surfaces under bridging the air gaps between the two parts of the rotary coil instrument in this limit position. Suitably, the fixed part on the rash of the rotatable part immediately limiting stop arms. According to another preferred embodiment, the movable part has its deflection limiting and engageable with abutment surfaces of the fixed part Anschiagarme. According to a particularly advantageous embodiment, a shutter blade connected to the rotatable part on a tentacle and is rotatable about a stationary pin a flywheel with a catching slot formed in the direction of movement of the tentacle by an "amount (a) is greater than the tentacle, and is from the tentacle of the current in the Endsteliung shutter blade against a weak return spring by entrainment in this end position schleuderbar. Ausführungsbeispiei of the invention The invention is illustrated on hand illustrated and described embodiments. FIG. 1 shows a closing mechanism, at rest,
Fig. 2: the electrically activated closure mechanism and
3 shows another embodiment. On a base plate 1 provided with the light passage opening 2, the electromagnetic stator 4 is fastened by means of the screws 3. Between the poles 4a and 4b of the stator 4, the rotor 5 made of magnet material is rotatably supported around the pin 6 in air supply to them. With the rotor 5, the closing blade 7 is rigidly connected. The closing blade 7 is sought to be held by the return spring 8 in the open position. At the poles 4a and 4b are made of magnetic material Anschiagarme 9 and 10 are fixed, ^vel the rotation of the rotor 5 according to the closed position of the closing blade 7 limit. The closing blade 7 is provided with a catching arm 11, in whose drainage path a flywheel 12 is rotatably arranged, which has a catching slot 13. The catch slot 13 is formed larger by the amount a than the tentacle 11. The flywheel 12 is a weak return spring 14 attached, which seeks to keep the flywheel 12 in the catch position. Further, an opening blade 15 is provided, which is rotatably connected to the pin 16 and geared to the release plunger 17. By the return spring 18, the release plunger 17 is held according to the closed position of the opening blade 15. With the lobes 19 of the trigger plunger 17 of the Aktivierungsschaiter 20 can be actuated. The timing of activation of the electromagnetic stator 4 is determined by the time-forming device 21, which is controllable by either a resisting resistor 22 or a photoresistor 23. To Stromversoruna the battery 24 is used.