DE2451233C3 - Camera shutter with groups of lamellas - Google Patents

Description

The invention relates to a camera shutter with a front lamella group and a Lamella group, each having a slot-forming and several adjacent lamellae and for opening and closing an exposure opening can be pivoted on one side of the opening.

A camera shutter of this type is known from US-PS 36 28 438, and its basic arrangement is schematically in FIGS. 1 and 2 shown. F i g. 1 shows the closure in the tensioned state, while FIG. 2 the shutter state after which represents exposure. In both figures, the front lamella group is in Solid lines and the rear group of lamellae shown in dashed lines. The arrangement and operation of the two groups of lamellas are essentially the same, with the exception that the spreading and Closing movements of the two groups of lamellae take place in opposite directions. The following Description therefore mainly refers to the front louvre group, while the description the rear group of lamellas is unnecessary.

To explain the problem addressed by the invention, the known camera shutter is first described with reference to FIGS. The front lamella group has a slot-forming lamella 8 that determines the exposure and its adjacent lamellae 9, 10, 11 and 12, in which holes 8a ... 12a and guide or control slots 86 ... 126 are formed. The slot 86 and the holes 9a... 12a have cross-sectional dimensions adapted to a pin 6, the pin 6 being fastened to a base plate 1. A crank arm 2 is pivotably mounted on the rear side of the base plate 1 via a pin 3 and is moved out of the position according to FIG. 1 into the in F i g. 2 pivoted position when the shutter is released. If the crank arm 2 is in the in F i g. Position shown pivots 2, all the slats 8 ... 12 respectively pivot in the counterclockwise direction from the positions shown in FIG. 1 in which they η cover an opening formed in the base plate 1 Belichtungsöffp.ung, in the in F i g. 2 positions shown and give the exposure opening 7 free. Thereafter, the rear group of lamellae is pivoted from the position according to FIG. 1 to that according to FIG. 2 when the crank arm is released with a delay of a preset time so that the rear group of lamellae closes the exposure opening and the exposure operation is terminated. When the shutter is tensioned, the front and rear groups of lamellae are simultaneously pivoted clockwise and from the position shown in FIG. 2 brought the position shown in FIG. 1 without opening the exposure aperture. The known types of closure of this type operate in the manner previously described. In each group of lamellas, only the slat-forming lamella on the bottom (the lamella 8 ίο of the front lamella group) actually serves for exposure or exposure measurement, while the other lamellae only serve to cover the exposure opening 7. Therefore, when the shutter is actuated, the pivot angle of the upper slat layers is smaller because of the spatial limitation and mutual overlap of the slats. As can be seen particularly clearly from FIGS. 3 and 4 results, as a result of this, the slots 126, 116 etc. in the uppermost and next following lamellae 12, 11 etc. necessarily run close to the movement curve of the pin 4. The design of these closure designs requires that the moment of inertia of each of the lamellae is greater than the moment of inertia of the crank arm is. On the other hand, the force components effective for pivoting the slats when pivoting the crank arm 2, in particular for the outer slats 11, 12 etc., are small due to the course of the associated slots. If, therefore, the slats 11 and 12 are to be moved in the counterclockwise direction by pressure against the walls of the slots 116 and 126 when the shutter is released by the pin 4, there is a reaction force acting on the pin 4, which is transmitted to the crank arm 2, and the Movement of the front fin group becomes unstable as a whole. Although the same phenomenon occurs in principle also with the rear group of lamellas, it is more critical with the front lamella group, since the distance between the pin 4 and the pin 6 in the tensioned locking state is smaller in the front lamella group than in the rear lamella group. In practice, the phenomenon described above manifests itself in inaccuracies in the speed of the lamellae and causes malfunctions in the shutter. In addition, this known locking design has the disadvantage that the pin 4 strikes the end walls of the guide slots 96 ... 126 and threatens to tear the slats if the slats 9 ... 12 are suddenly stopped.

The invention is therefore based on the object of increasing the force components effective for pivoting the slats as far as possible with the camera shutter of the type specified at the beginning, without thereby changing the pivot angle required for the respective slats. This is intended to eliminate the disadvantages described above.
Starting from a camera shutter of the type specified above, the invention proposes to solve this problem that the swivel drive for at least one of the adjacent slats and / or

iie slot-forming lamella of each lamella group from inside the crank arm directly and for one or more of the remaining slats is formed via an intermediate member.

In the following the invention is explained in more detail with reference to the drawing. It shows

F i g. 1 is a plan view of the main part of the known type of latch in its cocked state;

F i g. 2 a top view of the in FIG. 1 shown Shutter part after the end of the exposure,

Fig. 3 to 7 plan views of the individual lamellae Front lamella group in their positions according to FIG. 1 (cover position),

F i g. 8 is a plan view of part of the front lamella group of an embodiment of the invention Fastener in its cocked state,

F i g. 9 is a top view of the closure according to FIG. 8th in its position after the end of the exposure,

Fig. 10 is a plan view of the front lamella group of another embodiment of the invention Fastener in its cocked state, and

Fig. 11 is a top plan view of the type of shutter shown in Fig. 10 after exposure.

In the following, reference is made to the embodiment according to FIGS. 8 and 9, in which the same parts with the same reference numerals as in FIGS. 1 to 7 are designated. A journal 13 on the the holes 11a and 12a of the slats 11 and 12 are matched, is attached to the base plate 1. The Reference numeral 14 denotes an intermediate member in the form of a thin plate which is pivotable on the pin 6 is stored. The intermediate member 14 has guide or control slots 14a, 146 and 14c. The slot 14a has the same shape as the slot 10b of the lamella 10. The Pin 4 of the crank arm 2 is fitted into the slot 14a. A pin lic is attached to the lamella 11 and in the Slot 146 fitted. A pin 12c is on the lamella 12 and fitted into slot 14c. The slots 146 and 14c are dimensioned in terms of shape and course so that that the slats 11 and 12 are pivoted counterclockwise by the required angle can when the intermediate member 14 is pivoted by the pin 4 in the counterclockwise direction.

With this type of lock, a sufficient drive force component is created in the course of the release of the lock exerted on the intermediate member 14 as well as on the lamella 10 by the crank arm 2, and that Intermediate member 14 is pivoted smoothly, that is, smoothly, in a counterclockwise direction. Since the slots 146 and 14c with respect to the trajectory dtr pins lic and 12c are strongly inclined, become sufficiently large Force components transmitted via the intermediate member 14 to the pins lic and 12c. Be that way also the slats ti and 12 swiveled smoothly in the counterclockwise direction by the required angle, and this occurs without damaging peak loads on the crank arm 2. As can be seen from the preceding Explanation shows, slots corresponding to slots 146 and 14c, instead of on the intermediate member 14, can also be formed directly on the lamella 10. The pin lic is designed as a flange pin to prevent pin 12c from disengaging from slot 14c. For this reason, the pen can 12c are designed as a flange pin. The circular extension of the left end 14c / of the contactor i46 enables the flange pin lic to be pushed through the slot 146 during assembly. A A correspondingly widened section is provided in the slot 14c when the pin 12c is used as a flange pin is trained.

In the embodiment described above, the measures taken according to the invention are provided between the lamella 10 and the lamellae 11 and 12 of the front lamella group, of which It is assumed that the slats 8, 9 and 10 perform a smooth, seamless pivoting movement. If necessary, the invention in the

ίο same way also between elements of the other thin slats and also for the rear group of slats.

Figs. 10 and 11 illustrate another one Embodiment of the closure according to the invention. In this embodiment, too, are Reference symbols from the previous embodiments are retained as far as possible. In which Embodiment according to FIGS. 10 and 11 is a Intermediate member 15 is pivotably mounted on a pin 16 fastened to the base plate 1. By doing Intermediate member 15 are guide or control slots 15a, 156, 15c, 15c / and 15e. Pins 9c or 10c /, which are attached to the slats 9 and 10, respectively, are fitted into the slots 15a and 156; one on the lamella 11 fixed pin lic is fitted in the slot 15c; an on pin 12c attached to lamella 12 engages slot 15d; and the pin 4 engages in the slot 15e. When the crank arm 2 is pivoted counterclockwise from the position shown in FIG. 10, pivots the intermediate member 15 around the pin 16 in a clockwise direction. At the same time take the guide slots 15a to 15c / of the intermediate link 15, the pins 9c, 10c /, lic and 12cin Fi g. 10 down with. This will be the slats 9 ... 12 carried along with the slat 8 counterclockwise, while the intermediate member 15 pivots, and they reach that shown in FIG. 11th positions shown. In this embodiment, the slots 96-126 are shaped so that they Do not interfere with the movement of the pin or pin 4; the slats 10, 11 and 12 each have such Recesses 10c, Uc / and 12c / that the movement of the Pins lic, 10c / and 9c is not affected.

As described above, the pins serving as drive pins for the slats 9 to 12 are also pins 9c, 10c /, 11c and 12c in the embodiment according to Fig. 10 and 11 sufficiently far from that as Pivot serving pin 6 is arranged. The journal 16 of the intermediate member 15 is from the pin 4 even further away. The directions of the guide slots 15a to 15c / are all among relatively large Angles inclined with respect to the directions of movement of the pins 9c, 10c /, 11c and 12c. That way will the torque of the crank arm 2 is transmitted to the lamellae 9 to 12 with high efficiency, and a correspondingly soft and stable pivoting movement of the slats is guaranteed. Because the guide slots 15a to 15c / are significantly shorter than the belt slots 96 to 126 of known closures, the frictional force between the pins and the slots is also comparatively low and the impact at The movement is slowed down so that wear or breakage of the lamellae is prevented or can be reduced comparatively. The arrangement described above can only be used, for example the slats 10 to 12 or only for the slats 11 and 12 are provided, and it can also be used in the use the rear slat group.

In addition 6 sheets of drawings

Claims (3)

Patent claims: 1. Camera shutter with a front slat group and a rear group of lamellas, each one forming a slot and several adjacent to it Have lamellae and to open and close an exposure opening each on one side of the opening are pivoted, characterized in that the pivot drive for at least one (9) of the adjacent lamellae (9 ... 12) and / or the slot-forming lamella (8) each Slat group from a crank arm (2) directly and for one or more of the remaining slats (10, 11, 12) formed via an intermediate member (14, 15) is. 2. Camera shutter according to claim 1, characterized in that the intermediate member (14, 15) on the one hand with the crank arm (2) and on the other hand with the remaining lamellae (10 ... 12) via pin-slot couplings (4-14a, lic -146, 12c- 14c; 4-15e, i0d- \ 5b, lic-15c, 12c- \ 2d) . 3. Camera shutter according to claim 2, characterized in that the pin-slot coupling is unsecured by a flange pin (which fits into the slot (14ty.