DE3943675C2 - Cam arrangement for a zoom lens - Google Patents

Abstract

The cam mechanism has a cam ring (20) rotatably fitted in the stationary barrel. A front lens group, L1, frame is movable in the optical axis direction in the cam ring. A rear lens group is supported in the cam ring so as to move in the optical axis direction. The cam ring is provided with front lens group cam grooves (20a) and rear lens group cam grooves (20b) so that, when the cam ring rotates, the front lens group, L1, and the rear lens group, L2, are moved in the optical axis direction. The number of the front lens group cam grooves may be larger than that of the rear lens group cam grooves. The cam ring may have at least one straight guide groove in which some of and not all pins on the lens group frames are fitted. A shutter unit may be on the front lens frame and be connected to a flexible board.

Description

The invention relates to a cam arrangement according to the Preamble of claim 1, which is known from DE 31 12 828 A1. It prevents one Tilt or change the position of a lens barrel rela tiv to an optical axis when adjusting the Varifocal lenses, especially in a camera with a shutter built into the zoom lens.  

With a zoom lens of the type mentioned Kind become a front and a back Lens group held in a front or rear object tube, the parallel to the optical axis by rotating one Cam ring can be moved. The cam ring is with Provide cam tracks for the front lens group and for the rear Lens group are determined. Pins on the lens tubes the front and rear lens groups run in the cam tracks and also in a straight guide path, which is connected to the camera body stationary tube is arranged.  

The front lens barrel has at least a pin through the cam track assigned to it for the front lens group into the straight one Guideway protrudes. Furthermore, at least one pin is in the cam track assigned to the front lens group led, but does not protrude from this.  

From JP 60-59311 it is known on the outside of a lens attach a code plate to the with a contact brush different rotational positions of a lens ring detected can be. The associated lens construction leads to an extension of the lens through which Verkan lines of the individual lens parts against each other can cause optical errors. This is particularly the case with Compact cameras undesirable in which zoom lenses with right Objectively movable lens parts are provided.

It is an object of the invention to provide the cam arrangement for a Va to realize rio objective so that even when using a Code plate a compact lens structure is possible.

The invention solves this problem with a cam arrangement initially mentioned type by the characteristic features of the Claim 1. Advantageous further developments are in the Subclaims specified.

The invention is based on the knowledge that at the beginning known cam arrangement space for a code plate is available on the cam ring where one in one Cam track guided pin not beyond the cam track protrudes and is therefore not guided in the straight guideway. The code plate is placed on the cam ring at this point orders, this does not lead to an extension of the Va rio lens.  

An embodiment of the invention is as follows described with reference to the figures. In it show:

Fig. 1 and 2 longitudinal sections of the main part of a camera with zoom lens and central shutter in different operating positions and Be

Fig. 3 is a developed view of a cam ring of the camera shown in Fig. 1 and 2.

The figures show a camera with a central shutter and a zoom lens with variable magnification, which has a front lens group L1 and a rear lens group L2. The front lens group L1 also serves as a focus adjuster. A camera housing 10 and a stationary tube 14 at its front side are the stationary elements of the camera. The Kamerage housing 10 has a guide 12 which protrudes into the stationary tube 14 , and an inner and an outer rail 10 a and 10 b, which are net angeord behind the guide 12 and lead the film, not shown. The camera housing 10 and the stationary tube 14 are covered by an outer housing 16 .

A cam ring 20 is rotatably arranged on the inner circumference of the stationary tube 14 . The cam ring 20 has three cam tracks 20 a, along which the front lens group L1 can be moved in the direction of the optical axis, and a cam track 20 b, along which the rear lens group L2 can be moved in the direction of the optical axis ( Fig. 3). The three cam tracks 20 a preferably have the same angular distance from one another.

A front tube 21 for the front lens group L1 is held movably in the direction of the optical axis in the cam ring 20 . A shielding plate 22 is attached to the rear end of the front tube 21 . At least two parallel guide rails 23 are arranged immovably in the front tube 21 . These are attached with their front end to a flange part 21 a, which projects inwards from the front end of the front tube 21 . Their rear ends are connected to the shield plate 22 . A rear tube 24 for the rear lens group L2 is mounted on the guide rails 23 and can be moved in the direction of the optical axis.

As already stated, the cam ring 20 has three guide tracks 20 a for the front lens group and a guide track 20 b for the rear lens group, in which the front lens group L1 and the rear lens group L2 can be guided along predetermined lines that pass through the profiles of the cam tracks are determined. The front tube 21 has three pins 21 b, which run in the cam tracks 20 a for the front lens group L1.

Two pins 21 b protrude through the respective cam track 20 a of the front lens group L1 and sit in straight guide tracks 14 a, which run in the direction of the optical axis and are provided in the stationary tube 14 . The third pin 21 b is arranged in the cam track 20 a assigned to it so that it does not protrude through it. Therefore, the front tube 21 can only be moved in the direction of the optical axis without rotation, because the first two pins 21 b run in the rectilinear guideways 14 a. The number of cam tracks 20 a for the front lens group L1 is greater than that of the cam tracks 20 b on the cam ring 20 for the rear lens group L2. Furthermore, the three pins 21 b sit on the front tube 21 and one of these pins 21 b does not protrude beyond the cam track 20 a of the front lens group L1 assigned to it.

The rear tube 24 has a pin 24 a, which projects through an opening 21 c of the front tube 21 and sits in the cam track 20 b of the rear lens group L2 on the cam ring 20 . The pin 24 a is shown for better clarity in the same sectional plane as the pin 21 b, but actually they are in different planes, so that this sectional view does not correspond to reality.

The cam ring 20 is rotated with a drive motor, not shown, via a transmission, also not shown. As it rotates, the front tube 21 is moved with the front lens group L1 in the direction of the optical axis, the cam tracks 20 a and the linear guideways 14 a having an effect, so that the rear tube 24 , which is guided by the guide rails 23 can not be rotated, and thus the rear lens group L2 likewise be moved in the optical axis direction by the function of the cam track 20 b. The front lens group L1 and the rear lens group L2 are moved together, and at the same time their spatial distance from one another is adjusted in order to achieve the change in focal length.

The flange part 21 a of the front tube 21 carries a closure unit 25 , which is connected on its inner circumference via threads 25 a and 26 a to a retaining ring 26 for the front lens group L1, so that it is stuck to the retaining ring 26 .

The shutter unit 25 rotates a drive pin 25 b through an angle that corresponds to an object distance.

This is determined with a distance measuring device (not shown). The drive pin 25 b opens and closes a shutter sector 25 c of the shutter unit 25 corresponding to a light measurement signal emitted with a photometer, not shown. The drive pin 25 b is continuously acted upon by an arm 26 b, which is seated on the retaining ring 26 , so that when the drive pin 25 b is rotated, the retaining ring 26 is moved in the direction of the optical axis in accordance with the angular adjustment of the arm 26 b and a focusing is achieved . A cylindrical cover 27 is attached to the outer periphery of the closure unit 25 .

The rear tube 24 is continuously pressed into its rearmost position by helical springs 34 on the guide rails 23 .

A rear adjusting mechanism is arranged between the cam ring 20 and the stationary tube 14 , the main element having a thrust element 30 which is fastened to the outer circumference of the tube 14 and moves in the direction of the optical axis. This creates a slight movement of the cam ring 20 in the thrust direction. The front end 30 a of the thrust element 30 facing the camera housing 10 projects through a circumferential opening 14 b of the stationary tube 14 and sits in a circumferential path 20 c of the cam ring 20 .

The thrust element 30 has two parallel guide openings 30 b, which lie in the direction of the optical axis, and an opening 30 c lying in the circumferential direction. In each guide opening 30 b, an adjusting screw 31 is arranged, which is screwed into the stationary tube 14 . An eccentric pin 32 , which is rotatable on the stationary tube 14 , is seated in the opening 30 c in the circumferential direction. The thrust element 30 is b thus at the guide openings 30 with the screws 31 in the optical axis direction performed. It can be fixed in a desired position by tightening the set screws 31 . Furthermore, it can be adjusted in the direction of the optical axis with the opening 30 c lying in the circumferential direction and the eccentric pin 32 , so that the rotation of the eccentric pin 32 causes a movement of the thrust element 30 and the cam ring 20 in the direction of the optical axis. As a result, the front lens group L1 and the rear lens group L2 are moved together in the direction of the optical axis in order to effect the rear adjustment (image plane). The interaction between the thrust element 30 and the cam ring 20 can also be realized through the openings provided on the thrust element 30 and through projections of the cam ring 20 guided therein.

On the outer periphery of the cam ring 20 , a code plate 35 for determining the focal length is BEFE Stigt. It lies only over the cam track 20 a, from which the pin 21 b does not protrude. The two other cam tracks 20 a and 20 b are therefore not covered by the code plate 35 .

The code plate 35 has an insulating base 35 a and an elongated conductor 35 b formed thereon. This has four band-like sections in the direction of the optical axis, each of which forms delimited conductor sections which have a predetermined circumferential distance from one another. As a result, several codes are realized, each lying in the direction of the optical axis and having a predetermined circumferential distance from one another. Each code generates a signal that indicates a discontinuous (step-wise limited) focal length of the zoom lens.

A contact brush 36 is provided on the stationary tube 14 and is opposite the code plate 35 for code evaluation. In this way, the respective focal length of the zoom lens can be determined at different angular positions of the cam ring 20 with the code plate 35 and the contact brush 36 .

The function of the Vario lens described above is explained below with reference to FIGS. 1 and 2.

At the shortest focal length at which the front and rear lens groups L1 and L2 take their rearmost positions, so that the cover 27 is retracted furthest into the outer housing 16 , as shown in Fig. 1, the cover 27 and the front tube 21 the cam ring 20 over a reaching length. Therefore, tilting of the cover 27 and the front lens group L1 relative to the optical axis is not possible, so that the position of the two lens groups L1 and L2 is not falsified.

If the lens is adjusted, the cam ring 20 is rotated, whereby the front tube 21 and the rear tube 24 are moved in the forward direction via the pins 21 b in the cam tracks 20 a and the pin 24 in the cam track 20 b. The front lens group L1 and the rear lens group L2 are moved forward, while their spatial distance from each other is changed according to the profiles of the cam tracks 20 a and 20 b. This gives it the variation in focal length.

Since the shutter unit 25 moves forward together with the one in front of its tube 21 , it moves away from the camera housing 10 .

FIG. 2 shows the greatest possible lens length, with the front tube 21 in its foremost position and the cover 27 protruding the furthest. The Abdec kung 27 is in front of the cam ring 20 , and only the front tube 21 is held by the cam ring 20 . But since two of three pins 21 b of the front tube 21 are guided in the corresponding cam tracks 20 a of the cam ring 20 and in the straight guide track 40 a of the stationary tube 14 , the possibility of an undesirable displacement or inclination of the front tube 21 relative to the optical axis very low. As a result, the inclination of the cover 27 can also be prevented, and distortion of the optical axis of the front and rear lens groups L1 and L2 is no longer possible.

Since one of the pins 21 b of the front tube 21 does not protrude beyond the cam track 20 a of the cam ring 20 assigned to it, the code plate 35 can also be provided on the outer circumference of the cam ring 20 if three cam tracks 20 a are present for the front lens group L1 are. This enables effective use of space and the realization of a compact and small camera.

Since the rear tube 24 is constantly pushed back with the springs 34 , no change in position of the rear tube 24 can occur when adjusting the lens. No lost motion is possible even when the lens adjustment is reversed.

The pens described above are in the Cam tracks guided carriers. These items can also roles etc. his.

It is also possible to provide more than three cam tracks 20 a on the cam ring 20 . In this case there is at least one pin 21 b which does not protrude beyond the cam track 20 a assigned to it.

The invention can also be applied to a zoom lens det, the differently constructed or more lens group pen than that described above.

As the description above shows, the number is of the cam tracks for the front lens group on the Cam ring larger than that for the rear lenses group. Furthermore, more than are on the stationary tube a straight track is provided so that the front Tube pins can have the appropriate ones Protrude cam tracks and in the straight guide are guided. At least one pen in a cam track for the front lens group but does not protrude beyond this cam track. Therefore, an inclination or tilt of the front can occur Tube against the optical axis prevented or at least be reduced so that adulteration the optical axis even in the longest configuration of the zoom lens is prevented. Since at least one Pen does not have the cam track assigned to it for the protrudes from the front tube at this point  Code plate to indicate the focal length, which covers the cam track provided here. This too contributes to the realization of a compact and small Zoom lenses and a correspondingly small camera at.

Claims (4)

1. Cam arrangement for a zoom lens of a photographic camera, with a rotatable cam ring in a stationary tube, in which a front tube can be moved in the direction of the optical axis, with a movable rear tube in the direction of the optical axis, and with on the tubes provided pins which are guided in cam tracks of the cam ring, at least one straight guideway being provided in the stationary tube, in which part of the pins is guided which project through the cam tracks of the cam ring for this purpose, characterized in that the cam ring ( 20 ) on its outer circumference carries a code plate ( 35 ) which is arranged above a cam track ( 20 a) in which a pin ( 21 b) which does not protrude into the straight guide track ( 14 a) of the stationary tube ( 14 ) is guided. 2. Cam arrangement according to claim 1, characterized in that a with the code plate ( 35 ) in contact with the compact brush ( 36 ) is arranged on the inner circumference of the stationary tube ( 14 ). 3. cam arrangement according to claim 1 or 2, characterized in that the cam ring ( 20 ) for the front tube ( 21 ) has three cam tracks ( 20 a) and for the rear tube ( 24 ) has a cam track ( 20 b), and that two straight guide tracks ( 14 a) are provided in the stationary tube ( 14 ). 4. cam arrangement according to claim 3, characterized in that the three cam tracks ( 20 a) for the front tube ( 21 ) have matching angular distances from each other.