DE2119609C3 - Electromagnetic blade drive on photographic lens shutters - Google Patents

Description

The invention relates to a lamella drive on photographic lens shutters with a pot magnet and a cylinder coil, which is immersed in this and is coupled to the lamellae, according to the patent 20 31 565.

This moving coil start results in the main patent due to the constant drive force over the entire stroke, high drive accelerations and accordingly short opening and closing times of the closures. The shortest possible exposure times however largely depend on how fast the reversal of movement from the open position of the Slats in the closing movement can be done. Due to the electromagnetic braking of the slats or moving coil at the end of the opening movement, the kinetic energy of the slats can be voSI catch, and it can also be a high re-acceleration in the closing direction on electromagnetic Achieve ways. Certain time delays caused by hysteresis cannot be ruled out, At least the electrical energy expenditure is higher, the faster this movement reversal, d. H. this braking and re-acceleration of the slats must take place.

The invention is therefore based on the object in a diaphragm drive of the type mentioned for the rapid reversal of movement of the diaphragm blades, the electrical energy required is essential to reduce.

This object is achieved according to the invention by the adjustment path of the slats or the slat drive fixed, elastic, mechanical buffers, which are arranged such that they are fully open Closure takes effect immediately during the direction of movement reversal by the kinetic Absorb energy and release it back to the slats or the slat drive in the closing direction.

DE-PS 9 39 665 can be a mechanical lamella drive on photographic lens shutters remove. In order to enable small total opening times with low driving forces, is under among other things, a buffer that can be swiveled into the adjustment path of the lamellar drive is provided in order to accelerate again to let the slats take place more quickly. A comparable mechanical lamella drive DE-PS 9 30911 discloses in which the resilient reversing stop consists of a spring-loaded lever consists.

Also buffers to slow down focal plane locks

are known. In a known camera, for example, the buffer consists of a fire brake mechanism and

ίο a coil spring cooperating with this (see DE-PS 10 90 508). However, these buffers only serve to reduce the discharge impact of the shutter curtain to absorb a rebound of the curtain and thus a double exposure of the edge area of the

Prevent image. The kinetic energy of the The shutter curtain is destroyed.

In contrast, in the buffers according to the present invention, the kinetic energy of the opening shutter slats are not destroyed, but for the subsequent closing movement of the V'erschiuQiameiien stored and this made usable again.

In an advantageous embodiment of the invention, buffers acting in parallel are both for the plunger coil as well as for the lamellar drive ring or the lamellas themselves. This is the inventive Goal achieved particularly completely.

The invention is closer to the first embodiment of the main patent in the drawing explained.

In the pot magnets 1, 2 and 6, 7, the cylinder coils 3, 4, which form a common component, are axially movably guided. The flange ring 8 located in the middle carries a fork 9 on the closure side which encompasses the pin 10 of the lamellar drive ring 11. A lamella 12 with the groove 13 slides on this pin 10. The lamella 12 can be rotated about the pin 14 of the frame. The remaining lamellas can accordingly be rotated about pins on the frame and must be coupled to the friction ring 11. In this way, the lamellar system is opened when the coil system 3, 4 is moved to the left in the direction of arrow "B" and is closed when the coil system 3, 4 is moved in the direction of arrow "A". A spring arm 15 protrudes into the flange ring 8 in such a way that it comes into contact with the flange 16 when the lamellae 12 have just fully released the lens opening. Since the lamellae 12 have reached their greatest speed at this moment, the flange 16 collides with the arm 15 and this gives way until the lamellae or the lamella drive ring U have come to rest and then their direction of movement under the influence of the spring 15 reverse stored kinetic energy. This kinetic energy stored in the spring 15 accelerates the lamellae 12 so far that they re-enter the lens opening at the previous exit speed. Until then, the electromagnetic drive is fully effective again in the closing direction. In this way, the actually undesirable bouncing of the drive is used to regain the full kinetic energy of the opening movement for the closing movement. In this way it is possible to achieve ^{exposure times of less than [} h seconds. To further strengthen or support this effect according to the invention, springs 17 can also be provided which have projections 18 de «. Drive ring 11 cooperate in an analogous manner as the spring 15 with the coils 3, 4, and the

kinetic energy of the lamellar drive ring 11 take over directly, save and immediately release in the closing direction.

The buffers are of course dimensioned so that the highest storage and spring efficiency at Vuiler Opening speed of the shutter drive for Effect comes, while at slower opening speeds, So with longer exposure times, only become effective as stops that prevent hard bouncing according to their own suspension. Of course, the spring force and the driving force of the plunger coils must be adapted to the mass forces of the Closure and the slats must be matched.

In this way, it is possible to achieve very short exposure times without a significant additional expenditure of electrical energy or opening times of the closure

reach. This is above all ic «HiVIrOiL ': um" die CriiTiMisionierung and accommodation of the AntncfasDai-Trim νο · ι meaning.

In the main patent there are some further exemplary embodiments cited by plunger-operated closures. The embodiment of the present Zusauannieldung relates to the embodiment shown in Fig. I and 2 of the main patent. It is on It is clear that the principle according to the invention can also be applied to other variants of the main paienis is. All that needs to be done is resilient stops on the moving elements of the locking mechanism attack that they immediately after releasing the lens opening during the reversal of movement Lamellae take effect.

1 sheet of drawings

Claims (2)

Patent claims: 1. Electromagnetic blade drive on photographic lens shutters with a pot magnet and a cylinder coil, which is immersed in this and is coupled to the lamellas, according to the patent 2031 565, characterized by in ■ itiMiweg dc. · Slats (12) or the slat drive fixed, elastic, mechanical buffers (15, 17) which are arranged in such a way that they are at full open shutter immediately take effect during the reversal of the direction of movement by they absorb the kinetic energy and in the closing direction again to the slats (12) or release the lamellar drive. 2. Elektrouiagneiibi-hir? shaft drive on photographic Lens shutter according to Claim 1, characterized in that buffers acting in parallel (15,17) «» probably for the moving coil (2,7) directly as also for the Lameüen drive ring (ti) or the Lamellae (12) are provided themselves.