DE3148270C2 - Lens carrier - Google Patents

Abstract

Both a first objective (1) with a circumferential spiral groove (3) on its outer surface (2) and a second objective (4) with an axially extending rack (6) on its outer surface (5) are through the for both lenses Compatible construction of a single lens carrier (10) can be used in a projector.

Description

The invention relates to an objective carrier with an at the top of the rear end of an objective associated first fixed bearing part and one of the underside of the protruding from the lens carrier front end of a lens associated second fixed bearing point and the bearing points opposite spring-elastic counter bearings.

A lens carrier of this type for storing lenses with smooth-walled tubes is from DE-GM 80 24 223 became known.

There are also known projectors equipped with an objective carrier Sür screw-in objectives are. These lenses have a spiral groove on their outer surface into which an im Lens carrier located pin or the like protrudes

There are also known projectors for use with lenses, the jacket surface with an axially extending rack are provided and their movement in the lens carrier in the axial direction by means a gear drive takes place.

DE-GM 80 33 771 discloses a device for coarse and fine focusing of projection lenses become known by means of manual or motorized drive, the lens in a mount and the Socket are arranged on a lens carrier. The frame with the lens is used for coarse focusing manually displaceable independently of the lens carrier on a guide of the lens carrier by a output shaft mounted transversely to the optical axis in the lens mount, which is connected to the mount with a pinion gear rack attached to the lens engages, is rotated. The lens mounts are used for fine focusing can be displaced along the optical axis together with the mount by means of an electric motor.

This device is used as a bearing part for the Lens mount for a short focal length lens with a smooth-walled tube intended.

The invention is based on the object of using simple means to provide an objective carrier of the type mentioned at the beginning Art to further develop and improve, both screw-in lenses and by means of a Gear drive adjustable lenses as well as slidable ones equipped with a tube with a smooth outer surface Lenses can be used and in addition a high stability of the storage of long focal lengths Lenses of these different lens systems is guaranteed.

According to the invention, the object is achieved by that the resilient counter-bearing assigned to the first fixed bearing point when using a one the circumferential groove having the circumferential spiral groove engages in this groove and that the resilient counter-bearing when using an axially extending rack on the lateral surface having the second lens is supported on the lateral surface of the same and that the second Resilient counter-bearing assigned to a fixed bearing point is designed as a spring-loaded gearwheel is and is in play-free engagement with the rack of the second lens and when using the first Lens rests resiliently on the lateral surface of the same and that when using a smooth jacket Objectively, both the resilient counter-bearing and the spring-loaded gear are on the outer surface and hold the lens against the corresponding fixed bearing points.

Further features and advantages emerge from the subclaims and the description of one in Drawing shown; Exemplary embodiment of the invention.

It shows

F i g. 1 shows a first objective with a spiral groove running around its circumferential surface in a side view;

F i g. 2 a second objective with a toothed rack extending axially on its lateral surface in one Top view;

3 with the lens carrier according to the invention introduced first objective in longitudinal section;

F i g. 4 the lens carrier according to FIG. 3 in section along the line I-I;

5 shows the lens carrier with the second inserted Objective as well as with smooth-coated third objectives shown in dash-dotted lines of different Lengths in longitudinal section:

F i g. 6 the lens carrier according to FIG. 3 in an enlarged partial illustration in section;

F i g. 7 the lens carrier according to FIG. 5 in an enlarged illustration in section;

8 which can be displaced in a projector housing side arranged lens carrier, as well as a gear drive for the second lens in perspective Opinion;

9 shows a further embodiment of the lens carrier according to FIG. 7 in a perspective view and

10 the slidably mounted in the bearing bracket Lens carrier according to FIG. 8 in side view.

In the F i g. 1 and 2 are two different in structure Lenses shown, which, however, have essentially the same tube diameter. While the first objective 1 has a spiral groove 3 on the outer surface 2 of the tube the second objective 4 is provided on the lateral surface 5 of the tube with an axially extending toothed rack 6. Each tube of the two objectives 1 and 4 has a handle 2a or 5a larger at its front end Diameter, each of which can be provided with a knurl.

The lens carrier designated by 10 is tubular. It is provided at its front end with a cylindrical extension 23 of larger diameter. Furthermore, it has on its cylindrical inner wall a first fixed bearing point, assigned to the top of the rear end of the lens 1 or 4 and designed as webs 10a and 10b with a small height, and a bottom of the front end of the lens 1 or lens protruding from the lens carrier 10. 4 assigned, designed as webs 10c and 10c / with a low height, second fixed bearing point.
A spring arm 13 is formed in the underside of the lens support wall opposite the first bearing point 10a and 10b. A guide cam 14 and two slide cams 15 and 18 are integrally formed on this. The guide cam 14 and the first slide cam 15 are arranged at a distance from one another by a pitch of the spiral groove 3 of the first objective 1 (FIGS. 3 and 6). The side walls of the guide cam 14 lying one behind the other in the axial direction run trapezoidally in the radial direction and form a sliding guide with the side walls of the groove 3.

Between the guide cam 14 and the first slide cam 15, the one rising and in the direction of insertion of the second objective 4 has incline 17, the second slide cam 18 is arranged This is designed lower than the first sliding cam 15 and is supported on the casing surface 2 of the inserted first lens 1 (Fig. * and 6).

A region 21 of the lens support wall opposite the spring arm 13 is shaped outwards and has a groove-shaped recess 22 on its inside. The side walls 22a and 22b of this groove-shaped recess 22 form a sliding guide with the side walls 6a and 6b of a toothed rack 6 formed on the upper side of the second objective 4 (FIGS. 2 and 4).

That of the second fixed bearing point 10c and 10c / assigned Resilient counter-bearing is designed as a spring-loaded gear 52, which by a Opening 24 protrudes adjacent to the cylindrical extension 23 in the outwardly shaped area 21 of the lens carrier wall is incorporated. The gear 52 is part of a gear arrangement 50. This has a drive wheel 51 protruding over the top of the projector housing 60, from dsm over a gear ratio the gear 52 is driven. This sits on an axis that can be moved in benivw'hbart to the opening 24 upstanding U-shaped bearing points 25 and supported by a Spring 53 is acted upon in the direction of the tube of the objective 1 or 4. For holding the gear assembly A bearing plate that can be screwed onto the lens carrier 10 is used 57 (Fig. 8).

The lens carrier 10 is slidably mounted on two guide rods 40 and 4i. Like in particular from the F i g. 3, 4 and 8, it has four downwardly projecting projections, two of which are projections 26 on one long side and two projections 27 on the opposite long side of the lens mount 10 are arranged. These projections 26 and 27 each have holes aligned with one another 28 and 29 through which the guide rods 40 and 41 protrude. Both guide rods are bent up in four and the projections 26 and 27 of the lens carrier 10 associated tongues 34 of a projector housing side mounted bearing bracket 30 firmly held (Fig. 8 and 10). This bearing bracket 30 has on the one side has two bends 31 and 32 and on the opposite side one bend 33, by means of which it is fastened in the projector housing 60.

A focusing motor connected to a flange-mounted gear block 46 is also located on the lens mount 10 45 provided. This is arranged in such a way that, when the lens carrier 10 is mounted in the bearing bracket 30, it is

essentially comes to lie in the middle between the two angled portions 31 and 32 of the bearing bracket 30. Here an eccentric pin 47 arranged on a gear wheel protrudes into an elongated hole 36 located in the bearing bracket 30.

The mode of operation is as follows: If the one on the lateral surface 2 has a spiral-shaped circumferential groove 3 When the first objective 1 is used, the first sliding cam comes first when it is screwed in 15 of the spring arm 13, which is resiliently pretensioned into the interior of the lens carrier 10, engages in the screwing-in direction of the lens located first gear of the spiral-shaped circumferential groove 4 (Fig. 3 and 6). After about one revolution of the lens, the guide cam 14 engages in the groove 3 and takes over Guide. At the beginning of the rotational movement of the lens, the lateral surface 2 also comes with the sliding surface 19 of the low second sliding cam 18 to the plant. This is supported by the resilient preload of the spring arm 13 on the lateral surface 2 and presses the first lens as a resilient counter-bearing 1 against the webs 10a and 106 of the first fixed bearing. The spring-loaded gear 52, too comes into contact with the lateral surface 2 and, as a resilient counter-bearing, presses the lens 1 against the Bars 10c and 10c / of the second fixed bearing point.

When a second objective lens is obtained, which has an axially extending toothed rack 6 on the lateral surface 5 4 for use, when it is pushed into the lens mount 10, the bevel of its slides rear end face 7 over the inclined surface 17 of the first slide cam 15 (F i g. 5 and 7). Here the Spring arm 13 resiliently from, the guide cam 14 and the slide cam 18 from the area of Get outer surface 6 of the second lens. Only the first sliding cam 15 is supported on the lateral surface 5 and, as a resilient counter-bearing, presses the second objective 4 against the webs 10a and 106 of the first permanent storage location. When the second lens 4 is pushed in, the spring-loaded one also comes Gear 52 meshes with the rack 6 without play and, as a resilient counter-bearing, presses the second Objective 4 against the webs 10c and 10d of the second fixed bearing point.

By turning the first lens 1 on the knurled handle 2a or by turning the drive wheel 51 the coarse focusing takes place. By means of the focusing motor 45, which is switched on by control means (not shown) is, for fine focusing of the objectives 1 or 4, the objective carrier 10 is moved slightly back and forth on the two guide rods 40 and 41. bar.

As in FIG. 5 is shown in dash-dotted lines, is also provided with a smooth tube and an objective having essentially the same tube diameter as the first two objectives 1 and 4 9 usable. In this case, the sliding cam 15 of the spring arm 13 and the spring-loaded one are also supported Gear 52 on the smooth lateral surface. It is also easily conceivable to use all lenses to use without handle 2a or 5a of larger diameter. In this case, a ring 43 (Fig. 9) in the cylindrical extension 23 of the lens mount 10 can be used. As in FIG. 5 further dash-dotted lines is shown, the lenses can be of different lengths according to their focal length.

In addition 5 sheets of drawings

Claims (9)

Patent claims: 1. Lens carrier with one of the top of the rear end of an objective associated first fixed Bearing point and one of the underside of the front end protruding from the lens mount of a lens associated second fixed bearing point and the bearing points opposite Resilient counter-bearing, characterized in that that of the first fixed bearing point (10a, 106) associated spring-elastic counter bearings (13) when using a groove (3) which runs around the circumferential surface (2) in a spiral shape first lens (1) engages in this groove (3) because the J5 resilient counter bearing (13) when using a on the lateral surface (5) an axially extending toothed rack (6) having a second lens (4) is supported on the lateral surface (5) of the same that that of the second fixed bearing point (10c, 10c /) assigned resilient counter bearings as a federfaaufschiagtes toothed wheel (52) and with the toothed rack (6) of the second lens (4) is engaged without play and, when using the first lens (1), resiliently on the lateral surface (2) the same is applied and that when using a smooth lens (9) both the resilient one The counter bearing (13) and the spring-loaded gearwheel (52) are supported on the outer surface and hold the objective (9) against the corresponding fixed bearing points (10a, 106 or 10c; 10c /). 2. Lens carrier according to claim 1, characterized in that dss only? The resilient counter-bearing is designed as a spring arm (-3 ) arranged in the wall of the lens mount (10), one of the guide cams (14) and sliding cams (15, loj oüi WCiSt. 3. Lens carrier according to Claims 1 and 2, characterized in that the guide cam (14) and the first slide cam (15) at a distance of a slope of the spiral groove (3) of the first lens (1) are arranged from each other. 4. Lens carrier according to Claims 1 to 3, characterized in that the in the axial direction one behind the other side walls of the guide cam (14) trapezoidal in the radial direction run and form a sliding guide with the side walls of the groove (3). 5. Lens carrier according to Claims 1 and 2, characterized in that between the guide cam (14) and the first slide cam (15) the second slide cam (18) is arranged, which is lower is designed as the first sliding cam (15) and is located on the lateral surface (2) of the inserted first lens (1) is supported. 6. Lens carrier according to Claims 1 and 2, characterized in that the first slide cam (15) has a slope (17) that rises and extends in the insertion direction of the second objective (4), and that when the second objective (4) is inserted via its incline (17) it is at the lateral surface before (5) supports it. 7. Lens carrier according to claim I, characterized in that it is essentially as a tubular body is formed and that the spring arm (13) is formed by part of the wall is. 8. Lens carrier according to claim 1, characterized in that indicates that the area of the lens carrier wall opposite the spring arm (13) has a groove-shaped recess (22) and that the side walls (22a, 22b) of the recess (22) with the side walls (6a, 6b) of the top of the second lens ( 4) formed rack (6) form a sliding guide. 9. Lens carrier according to one or more of the preceding claims 1 to 8, characterized in that that in the wall of the lens carrier (10) an opening (24) for the drive gear (52) is incorporated and that the side of the opening (24) U-shaped bearing points (23) for a spring-loaded axle of a gear arrangement (50) carrying the gearwheel (52) are.