CS207779B2 - Central shutter mainly for the technical and scientific photography - Google Patents

Abstract

Sector plates (3, 3', 3'') with arcuate openings (4, 4', 4'') are arranged on pins (2, 2', 2''), which are mounted on a plate (1) provided with an opening (5). Running synchronously with the sector plates (3, 3', 3'') are gear wheels (6, 6', 6'') which interact with a gear ring (7). Running synchronously with the sector plates (3, 3', 3'') are guide discs (8), which are in communication with a drive spring housing. Each sector plate (3, 3', 3'') is provided with an arcuate opening (4), which are closed off with in each case a half circle. The diameter of the half circles corresponds to the diameter of the opening (5) of the base plate (1). The arcuate opening extends about a central angle alpha @ 180 DEG . <IMAGE>

Description

(54) Central accounts, in particular for technical and scientific photography

The invention relates to a central shutter, in particular for technical and scientific photography, which can be used for photographing moving phenomena using lenses with high aperture and longer focal length by short exposure time.

Cameras have so far used dual central shutters, both segment shutters and rotary shutters. In segment shutters, the light transmission through the lens is interrupted by two, or more expensive, three segments, which are centrally located and, when released by the synchronizing ring, move to the center and partially overlap. The segments move alternately and have a dead point position during the opening time. A certain measurable time is required to accelerate or inhibit the movement of the segments, so that the shutter characteristic has one oblique opening section, a horizontal equilibrium section and a sloping closing section. Thus, the effective exposure time when the shutter is opened is equal to the mean value of the area below the functional curve for one cycle, which is a variable proportion of the nominal exposure time.

The slowest exposure time and hence the fastest shutter speed is determined by the shutter size and thus the inertia of the shutter mass,

Which are moving when closing. This lowest exposure time is then the time that corresponds to the functional curve whose horizontal section has fallen, i.e. the closure section immediately follows the opening section. In this case, the functional curve along with the base has a triangular shape as opposed to an ideal · · quadrilateral, so that the effective exposure time · is equal to half its nominal value. With such a central shutter, exposure times of up to 1/300 or 1/500 s can be achieved with known photographic devices. For larger focal lengths of 180 to 250 mm and a maximum aperture of F = 1: 4.5, it is possible to achieve the lowest Exposure times are not sufficient for technical and scientific photorgaphia.

In the case of the rotary central shutters, the rotating disc in which the aperture of a predetermined size is formed, or the aperture can be radially expanded in the corresponding angular position, the disc rotating before the objective aperture. The inertia of this disc shutter is considerably less than that of the segment shutter. In this case, the opening of the lens opening takes place not away from the optical; center, so that when the lens is opened slightly and the images are finished, the shutter function curve changes and each part of the illuminated material is illuminated at a different point in time, as is the case with the slit shutters.

Recently, many experiments and research have been carried out to improve the design of the rotary shutter. Some of these solutions are described in more detail in the German Patents Nos. 1,215,509 and 1,291,987, but even these solutions cannot solve the central opening and closing of the shutter and the related problems.

In photography for 'technical and scientific purposes' it is often necessary to take pictures using lenses with a larger focal length and with a larger opening of the lens, especially when taking pictures of moving objects or phenomena. The size of the lens can only be increased to the extent permitted by the shutter construction, which must have a special construction. With existing shutters, an exposure time of 1/30 or 1/50 s can be achieved, which is insufficient to achieve a sharp image of a moving subject. · Because the illumination of the individual areas of the negative does not take place simultaneously, the acquired images are distorted and the objects are distorted, so that for these types of images it is not possible to use the slit shutters for the most part. Currently shooting is moving. objects · bulky · lenses unsolved problem.

SUMMARY OF THE INVENTION The object of the present invention is to eliminate the drawbacks of the prior art closures.

This object is solved by a central shutter for technical and scientific photography, according to the invention, whose essence lies in. It consists of sector plates mounted rotatably on axes and provided with arcuate elongated holes, the axes being fixed on a plate provided with a central hole. On the 'axes' are mounted synchronously rotating gears rotating in accordance with the sector plates and engaging the gear ring, synchronously with the sector plates or with one of the sector sectors. At least one guide disc and a bushing with drive springs are provided in the plates.

The central shutter according to the invention is similar to the existing segmental central shutter and similarly opens the lens from the center, from the optical axis of the lens assembly, with the rotating central shutters It has in common that it does not perform opposing movement of the shut-off elements, so that there are no acceleration and braking targets and deceleration of movement related to the inertia masses of the moving · With part; in this solution, the closure elements also do not occupy any rest position during the exposure time. The central shutter of ¹ according to the invention makes it possible to achieve very short shutter speeds, even at relatively large dimensions, the lens construction and shutter speed, and the exposure time for which the negative is illuminated. Close to nominal exposure time.

The central shutter according to the invention is essentially a rotary shutter, in which a single 'structural' element ensures the synchronous movement of the individual sector plates. The &quot; sector &quot; plates rotate effectively under the action of springs. central angles depending on the objective diameter, the elongated arcuate cutouts correspond to the diameter of the objective and are terminated at both ends by a semicircle the size of which corresponds to the size of the objective and are terminated at both ends. lens aperture; that is, the acceleration and braking intervals of the movement of the sector plates are fully separated from the actual exposure time and do not fall within it. This achieves · sufficiently steep opening and closing sections · of the functional curve. The semicircular intersection lines located on the sector plates ensure that the shutter opens at the optical axis of the lens and closes at the optical center.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT The central shutter according to the invention is shown in the drawings, in which: FIG. 1 is a view of the overall shutter arrangement with closing and operating elements; FIG. 1, FIG. 2 is a view of the central shutter sector plate of FIG. 1, FIG. 3 is a view of the guide disc with a latch, FIG. 4 is a view of the progress of opening the lens until fully opened, and FIG. shutter curves.

The central shutter according to the invention is provided in the exemplary embodiment with three sector plates '3', 3 '' which are mounted rotatably on axes 2, 2 ', 2' mounted on the base plate 1. These three sector plates 3, 3 ', 3 ”are evenly distributed around the lens in a known manner. On each sector plate '3, 3', '3', one elongated arc bore 4, '4', 4 'is formed. On the 'lugs' 2, '2', 2 'sector plates' 3, '' 3 ',' 3 '', there are · non-rotatably mounted gear wheels β, · 6 ', -ИВ', '' which · are engaged with In the illustrated embodiment, the toothed ring 7 is provided with internal toothing, however, the toothed ring 7 may also be associated with the toothed wheels 6, 6, 6 -6. from the inner side, in which case it is provided with an external toothing. 'On the axes 2, 2', -2 'of the sector plates 3, 3', '3' - are also fixed with the guide discs. 8. 'To the axes' 2, '' 2 ',' 2 '- or just' attached to a 'one' of these axes 2 by a &quot; transparent &quot; housing 6 by drive springs not shown in the drawings.

A circumferential recess is formed on the guide disk 8 with a tooth behind which the latch 9 is latched. The shutter is surrounded by a housing whose construction is essentially 'conventional' and not shown in the drawings. .

The lens of the instrument is placed against the hole '5' in the base plate 1.

Sector Boards · 3, -3 ', 3 ”- are' made 'of thin but' very 'rigid planar material - for example' bronze '- to achieve' low 'own weight and thus' lower inertial' masses , 'titanium, etc.' 'Elongated' arc holes 4, 4 ', 4 ”' on · 'sector plates' 3,

3 ', - 3 ”- have a radial width equal to the bore 20777V of hole 5 in the base plate 1. The arc holes 4, 4', 4” are terminated at both ends with semicircles whose radius is equal to the hole radius 5 in the base plate 1. The center angle α, which corresponds to the bores 4, 4 ', 4 ", is less than or equal to 180 °.

The shutter release according to the invention is effected by a force action on the latch 9 or on the latches 9, if there are more. As the latch 9 or latches 19 release the guide disc 8 by the release force 11, the sector plates 3, 3 '' begin to rotate in the direction of the arrow 12 by the action of the springs. The control line of the opening 5 in the base plate 1. Once they have reached this line, the sector plates 3, 3 ', 3' have already reached their maximum rotational frequency. Simultaneously with the gradual intersection of the projections of the overlapping semicircles at the ends of the arc openings 4, 4 ', 4' sectoral plates 3, 3 ', 3', the formation of the image transmission hole 13 begins to take place. Obviously, the aperture 13 begins to form from the center, and if the image is not formed when the shutter is fully opened, the exposure remains central.

During the rotation of the sector plates 3, 3 ', 3', the entire surface of the opening 5 in the base plate 1 will be opened for a certain period of time. As the apertures 5, 4 ', 4', 4 'of the sector plates 3, 3', 3 'approach the aperture 5, a closing aperture begins to form which corresponds in the opposite course of the opening aperture 13. Then the release force 11 ceases to act on the aperture. 3. The guide disk 8 is locked again after one full revolution, at which point the closing of the bore 5 is also finished. stopping of the guide disc 8 no longer affects the exposure time and the actual exposure of the image.

From the functional curve of the central shutter according to the invention, it can be seen that beside the horizontal section 14 corresponding to the full opening of the lens at F = 1.0 and the second horizontal section 17 corresponding to the half opening of the lens (0.5) is the opening section 15. and the closing section 16, which are very steep due to the high rotational frequency of the sector plates 3, 3 '' when opening the lens. In any case, the function curve has a horizontal section. Triangular diagrams that correspond to the time t1 at half-opening of the lens (0.5) or the time t2 at full opening of the lens (1.0), and which generally occur at the shortest exposure times using central shutters, are excluded here.

Therefore, it should be remembered that the degree of effectiveness of the shutter according to the invention substantially exceeds that of the prior art central shutter. The term 'efficiency' refers to the following functions:

ti f to (f) dt

F. (ie - t ₀ )

If the shutter according to the invention is used to complete technical and scientific images using large diameter lenses, it is highly expedient to ensure the synchronized movement of all sector plates 3, 3 ', 3 ”so that each axis 2, 2', 2” sector plates 3, 3 ', 3 ”connects one spring drive mechanism in the housing and a guide plate 8 is associated with each sector plate 3, 3', 3”. Then it is possible to provide synchronized lowering by means of latches 9. In this case, the toothed ring is 7 is preferably provided with an internal toothing which engages in the gears 6 located inside the ring gear 7 and having circumferential toothing.

For lenses that are used for general photographic purposes, it is possible to use spring boxes and a gear ring with external teeth, which is assigned to the inside of the gears. If a plurality of drive springs are used, they can be stretched one at a time and separately and also used separately, or this operation can be carried out by means of a toothed ring 7 or a separate toothed ring 7 of known construction.

In order to be able to use the exposure time-determining bodies, it is possible to provide a known and used for central shutters a clock drive mechanism with toothed rims, pneumatic rims or electronic controllers.

The shutter is preferably connected to a synchronous lightning connection.

With the shutter according to the invention, it is possible for lenses with F = 1: 3.5 to achieve such a movement speed of the shutter elements to achieve an exposure time of 1/300 s and for a lens with an aperture of F = 1: 2.8 and a focal length of 50 mm If the elongated arc holes 4, 4 ', 4 ”formed on the sector plates 3, 3', 3” have a central angle α equal to 180 °, then the efficiency degree μ = 86% and if the central angle α will be less than 180 °, the efficiency degree μ = = 80 ° / o. It should be emphasized here that the degree of efficiency μ in the known central shutters is about 50 ° / o.

Claims (5)

I will invent the subject A central shutter, in particular for technical and scientific photography, characterized in that it consists of sector plates (3,3 ', 3 ") with elongated arch holes (4, 4', 4") mounted rotatably on axes (2 , 2 ', 2 ”), which are mounted on the base plate (1) with the hole (5), and the gears (6, 6', 6”) rotatable synchronously with the sector plates (3, 3 ', 3 ”)] and engaging in the ring gear (7), wherein at least one sector plate (3) is associated with at least one synchronously rotatable guide disk (8) and a housing with drive springs. Central shutter according to claim 1, characterized in that the ring gear (7) is provided with internal toothing. Central shutter according to claim 1, characterized in that the ring gear (7) is provided with an external toothing. The central shutter according to claims 1 to 3, characterized in that the elongated arcuate apertures (4, 4 ', 4 ”) of the sector plates (3, 3', 3”) are terminated at both ends with semi-circles whose radius is at both ends. the ends are equal and equal to the radius of the central opening (5) of the base plate (1), the center angle (α) of the arched openings (4,4 ', 4 ") being at most 180 °. 5. The central shutter according to claim 1, characterized in that it is connected to a synchronized lightning connection and is provided with toothed rims, a pneumatic braking system and electronic controllers.