SU901979A1 - Focal plane shutter - Google Patents

Description

{5) CENTRAL .PHOTO SHOT

one

FIELD OF THE INVENTION The invention relates to a phototechnical, nickname, in particular to central photo shutters.

A central photo lock is known, comprising a first drive element providing opening and closing of the photo shutter when moving in one direction, and a second drive element coupled with a spring with the first element and meshing with a third drive element carrying the measles of the electromagnet.

The third drive element has its spring, turning it in the direction in which the shutter is closed.

When the photo shutter is triggered, the trigger lever releases the first actuator, which rotates so that its protrusion acts on the double-arm lever, which with the help of a finger turns the actuating ring of the petals, opening the photo seal; thief. At the same time, a protrusion on the drive ring of the petals provides for closing the contacts, applying current to the electrical control circuit and to the electromagnet.

Upon further rotation, the first drive element carries the second drive element and the tooth of the last blow against the tooth of the third drive element, which is held by the electromagnet core. After a time delay, the measles is released and the third drive element is relieved by the action of its spring, acting on the second and first elements and ensuring the closure of the photo shutter ll.

The disadvantages of this valve are the complexity of the design and the high dynamic loads that occur when the drive elements collide, as a result of which the electromagnet may not hold measles, which leads to early closure of the charge: the thief. A central photo lock is known, comprising a housing, a drive ring connected to the petals, opening a drive element made in the form of two installed coaxially biased levers, one of which contains a projection interacting with the trigger lever, closing the drive element connected to the electromagnet core, and an electrical control circuit in which, when the trigger lever is rotated, one of the levers of the opening drive element, which interacts with a projection with the trigger lever, is rotated to The spring of the spring and with the aid of the stop on the drive ring of the petals opens the photo shutter. At the same time, the movable contact of the switch ensures the closure of the control circuit in which the electromagnet is connected. In this case, the capacitor is charged through the photoresistor with a speed depending on the prevailing brightness, and the electromagnet holds the measles on the closing drive element. - Upon further rotation, the first lever of the opening drive element hits the protrusion of the second lever, when the capacitor is charged to a predetermined value, the control circuit is activated, which turns off the electromagnet. The closing drive element is released, turned under the action of a spring, and through the pin-spline connection rotates the opening drive element. In this case, the protrusion of the closing drive element, in contact with the finger of the drive ring of the petals, closes the C2 photo shutter. The disadvantages of this device are the large dynamic loads arising from the collision of the drive elements transmitted to the electromagnet’s bark, which reduces reliability, as it can lead to the stripping of the core from the electromagnet and the early closing of the photogate. In addition, at the points where the petals connect to the drive ring, at the moments of opening and closing of the photo shutter, hard shocks occur, which often causes shutter failures. The purpose of the invention is to reduce the dynamic loads on the elements of the photogate and increase its reliability. work. 94 This goal is achieved by the fact that in the central photo-lock, comprising a housing, a drive ring connected to the petals, an opening drive element made in the form of two installed coaxially spring-loaded levers, one of which has a protrusion that interacts with the release lever, closing the drive element, associated with the electromagnet core, and the electrical control circuit, the first lever of the opening drive element, comprising a protrusion cooperating with the trigger lever, is provided with an additional protrusion it interacts with the closing actuator at the cocking of the shutter and with the driving ring when closing the shutter, and the second lever is provided with a protrusion interacting with the driving ring when the shutter opens, and the closing actuating element is connected with the core of the electromagnet with a grinding and spline connection . FIG. 1 shows the central photo lock, in the cocked position; Figure 2 is the same at the time of opening the light opening; on fig.Z - the same, in the deflated position. The shutter contains petals 1 connected to the drive ring 2, spring-loaded lever 3 C, mounted on an axis 5, the protrusion 6 of which in the cocked position contacts the release lever 7 mounted on an axis 8, spring-loaded 9 of which is limited by an emphasis 10. Coaxially with the levers k is mounted a lever 11, spring-loaded 3. which forms a coil around the stop 12. The spring-loaded lever 11 in contact with the finger 13 of the drive ring 2. The protrusion I of lever A, whose rotation is limited by the stop 15, when cocked ora in contact with the finger 16 of the closing drive element 17 mounted on the axis 18, spring-loaded spring 19, the finger 20 of which is included in the slot of the core 21 of the electromagnet 22. The anchor 21 is spring-loaded spring 19, forming a coil around the finger 23. The protrusion 2k of the closing drive element 17 whose rotation is limited stop 25 when closing the shutter in contact with the finger 2b drive ring 2. On the drive

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The ring 2 has a finger 21, which closes and opens the contacts 28, 29 and 30 of the switch 31.

The shutter works as follows

When the trigger lever 7 is turned, the lever k is released and, under the action of the spring 3, turns against the hour hand. In this case, the lever 11, which abuts against the stop 12, is in contact with the finger 13, rotates the drive ring 2 in a clockwise direction, and the petals 1 open the light opening of the photo shutter. At the same time, the contact 29 of the switch 31 presses against the contact 28, ensuring the closure of an electric control circuit (not shown) in which the electromagnet 22 is connected. When current is applied to the winding of the electromagnet 22, it holds the switch 21 and the closing drive element 1 for a time dependent on the brightness of the subject and determined by the electric control circuit. Upon further rotation of the lever k, its protrusion 6 abuts against the stop 15 11 disengages from the pin 13 and the protrusion 1 is set in the direction of movement of the finger 13-: At the end of the opening of the light opening of the shutter, the finger 26 hits the protrusion 2k of the closing drive element 17 and the spring 19 damps the blow of the drive ring 2, stopping it. Damping becomes possible due to the finger-spline connection of the closing drive element 17 with the core 21, which allows the closing of the drive element 17 to rotate at a certain angle counterclockwise at the moment when the finger 26 strikes the protrusion 2.

After a certain period of time, depending on the brightness of the subject, the electrical control circuit is activated, which turns off the electromagnet 22. The closing drive element 17 is released and, under the action of the spring 19, is turned clockwise. When efoh protrusion 2k, in contact with the finger 26, turns the drive ring 2 counterclockwise, closing the photo shutter and transferring the movable contact 29 of the switch 31 to the contact 30 times the electrical circuit. At the end of the light hole closure by the petals 1, the closing drive element 17 rests on the abutment 25 and the finger 13 hits the protrusion 1 of the fish.

Chaga t-, while the spring 3 dampens the impact of the drive ring 2, photo-photo lowered.

When cocking the photo shutter lever k

rotates clockwise, while the lever 11 is pressed from the stop 21 by the finger 13 and under the action of the spring 3 drops over it. The protrusion 14, in contact with the finger 16 of the closing drive element 17, rotates the latter counterclockwise, the arrows, while the measles 21 are exhausted to the electromagnet 22. At the end of the platoon, the protrusion 6 extends beyond the trigger lever 7, which locks the fish; chug k, resting against the anvil 10, When turning the lever k and the closing drive element 17, the springs 3 and 19 accumulate energy. The shutter is cocked.

Due to the fact that in the proposed photo-lock, during its operation, the dynamic loads of the electromagnet do not act, they are reliably held by the electromagnet in

flow of the required period of time. Impacts of the driving ring are damped, which reduces the dynamic loads at the points where the petals connect to the driving ring and to the casing of the shutter and increases the reliability of the shutter.

Claims (1)

Image formula A central photo shutter, comprising a housing, a drive ring, connected to the petals, opening the drive element. Made in the form of two coaxially spring-loaded levers, one of which contains a protrusion, an interacting co-actuating lever, covering the drive element, connected with the electromagnet core, and an electrical control circuit, characterized in that, in order to reduce dynamic loads and increase reliability, the first lever of the opening drive element, comprising a protrusion cooperating with the trigger lever, is provided with an additional protrusion cooperating with the closure drive. element when cocking the gate and with the drive ring when closing the gate, and the second lever is equipped with a protrusion that interacts with the drive ring when the shutter is closed, and