• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A telescope (1) which is constructed from modules (2, 3) which can be connected to one another, wherein the telescope (1) consists of at least one objective module (2) and one eyepiece module (3) and the objective module (2) and the eyepiece module (3 ) each having a connection interface (4,5) for connecting the modules (2,3), characterized in that in the eyepiece module (3) has an eyepiece (7) and a unit for changing the magnification and a unit (6) for image reversal Are integrated.
    公开号:AT510935A1
    申请号:T2131/2010
    申请日:2010-12-23
    公开日:2012-07-15
    发明作者:Franz Erler;Andreas Dr Zimmermann
    申请人:Swarovski Optik Kg;
    IPC主号:
    专利说明:

    16:57:33 23-12-2010 5/28 16:57:33 23-12-2010 5/28
    -1 -
    The invention relates to a telescope, which is constructed of interconnectable modules, wherein the telescope consists at least of an Ohjektivmodul and an eyepiece modui and the lens module and the Okularmodul each have a Verbindungsschnltt-point for connecting the Modute.
    From DE9408059U1 a telesystem for viewing and photographing objects in modular construction catfish has become known. The known embodiment has an objective and an image utilization unit, for example in the form of a photographic camera, which can be used instead of an eyepiece. For Schaifistellung a sharpening device is provided, wherein between the lens and the focusing part means a central unit is arranged The image processing unit is mounted with an interchangeable module unit to be sharpening device.
    A disadvantage of the known structure, especially in larger telescopes, such as those used in bird watching, that due to the design, a relatively large distance between the focusing device, which is spaced from a lens module by the central unit, and an actuating means for the zoom is given , This results in a relatively difficult handling of the telescope, since two hands are required for a change in the zoom with simultaneous adjustment of the focus. Since not always a suitable tripod or a suitable edition are available, it may be the case that a simultaneous adjustment of zoom and focus is not possible. The resulting time delay is particularly disturbing in wildlife observation, especially in bird watching, as the observed objects can often change positions within the shortest possible time. Apart from that, due to the cumbersome operation of the focus of zooming and focusing, the telescope may shake. In view of the great distances over which a wildlife observation can take place, it is already possible N2010 / 33200 23/12 2010 DO 10:56 [SE / EH NR 8070] 0005 39 «« ··· «·« ·· ·· ·· 16 : 57: 47 23-12-2010 6/28 · -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 -2 ein ein ein.
    It is therefore an object of the invention to increase the ease of use of a modular telescope and to minimize subjective interference caused by a zooming and focusing operation. In addition to be created by the invention, the possibility of a possible good dismantling of the telescope to achieve a mögüchet low pack size. Also, a simple and fastest possible replacement of lenses with different diameters and the possibility of retrofitting with eyepiece modules with different functionalities to be made possible.
    This object is achieved with a telescope of the type mentioned invention according to the fact that In the eyepiece module, an eyepiece and a unit for changing the magnification and a unit for Bfidumkehr are integrated.
    This offers the additional advantage that a telescope system can be realized, which can also be used with different lenses of fixed focal length.
    It should be noted that the terms .Zoom " and changing the magnification " or "variable magnification " used synonymously. The same applies to the use of the terms "focusing". and .Shutters " in this document
    According to an advantageous variant of the invention, the eyepiece and the unit for changing the magnification can be designed as a common unit.
    According to an advantageous embodiment of the invention, which is characterized by a very compact design, the unit for image reversal can be designed as a prism system.
    According to a further very advantageous embodiment of the invention, the unit for changing the magnification and the unit for image reversal can be designed as a common unit.
    A variant of the invention, which allows a very short design, provides that the common unit for changing the magnification and for image reversal is designed as an unsystem which images an image in a first intermediate image plane with a variable scale and vice versa into a second intermediate image plane. N2010 / 33200 23/12 2010 DO 16:56 [SE / EH NR 8076] 2) 006 39 16:58:03 23-12-2010 7/28 -3-
    According to one development of the invention, at least one intermediate plate can be arranged at least one intermediate plate at the location.
    In order to enable a simple adaptation of the optical settings, the telescope can have at least one focusing means for focusing and at least one adjusting means for changing the magnification.
    The at least one adjusting means for varying the magnification can be arranged according to an advantageous variant of the invention on the lens module or on the eyepiece module, in which case the at least one steep medium can be arranged for focusing on the lens module or on Okuiarmodul.
    In order to ensure very good operability, at least one of the adjusting means can be arranged in the region of one of the connecting cut files.
    The operability and handling of the telescope can be further improved by one of the Stellnnlttei on the Objekttvmodul In the range of connection interface of the lens module and the other is arranged adjusting means on the Okuiarmodul in the region of the connection interface of Okularmoduie
    An embodiment of the invention, which is characterized by a particularly good operability, provides that the Steflmittel are designed as collars whose end faces are in parallel to a separation / connection plane of the lens module and the eyepiece module levels. The use of mutually parallel collars allows one-handed adjustment of the telescope.
    A particularly advantageous embodiment of the invention provides that the adjusting means are at least partially in a parting plane of the connecting interface parts.
    This allows a spatially particularly close arrangement of the actuating means to each other, whereby the handling is further facilitated. If the eyepiece and Objekttvmodul are directly connected to each other, the adjusting means are in a parting plane of the connection interfaces of the eyepiece and lens module, sodasa the adjusting means according to this AusfOhrungsform can be adjacent to each other directly.
    According to an advantageous variant of the invention, a bayonet closure can each be formed by two connecting members, which interact directly with one another. This embodiment enables a particularly simple connection to the module. To N2010 / 33200 23/12 2010 DO 16:50 [SE / EM NS 8079] @ 007 I «· * + · ·· ·· 39 16:58:19 23-12-2010 8/28 • · · · · It should be noted that in the present context a bayonet closure means any type of plug / screw cap.
    According to a likewise very favorable weathering embodiment of the invention, two directly interacting connection interface can form a plug connection which can be detached from one another by axial displacement, wherein at least one holding element cooperating with at least one actuating element and connecting the connecting cut points is pushed back into a release position for releasing. This variant of the invention allows a very simple connection of the individual modules, since this only a translational movement of the connection interfaces is required.
    A further variant of the invention provides that two connection interfaces which interact directly with one another can be screwed together.
    The mechanical stability of the connection between the modules can be increased by having two directly cooperating Verbindungsschnittetellen each have a deviating from a flat shape OberftachenprofU, wherein a Verbindungsschnittetelle at least partially in the form of a male part and the other interface is at least partially ausgebldet as a female part ,
    A proper connection of the modules with each other can be monitored by at least one switch being arranged on at least one of the connecting terminals, which is actuated when the connecting section parts are correctly connected.
    According to a variant of the invention, which allows only the use of matching Orlginaiteilen, it may be provided that a plurality of switches are provided, wherein in a connected state of the Verbindungsschnltteteilen a vorgebbaren combination of the switches is actuated, wherein an electrical contact between the Lens module and the eyepiece module and / or ekle data connection between the lens module and the eyepiece module is made only when the switch in the predetermined combination.
    A special good protection of the switch can be achieved in that the switches are designed as reed-shaft contacts. In this embodiment, it is particularly advantageous that the switches do not have to be arranged on the surface of the Verbindungsschnittetellen and are therefore invisible from the outside. Together with the Shattom
    N20100320Q 23/12 2010 DO 16:50 [SE / EM NO. 807Θ] ®008 39 16:58:36 23-12-2010 9/28 · »· ·· # · * ··· ··» ···· * * · Μ β β I I I e e e e e e e e---Μ Μ Μ Μ other Verbindungsschnittetelte can be equipped with corresponding magnets, preferably permanent magnets. Thus, two directly interacting joints can form a reed relay.
    A particularly advantageous variant of the invention provides, which is characterized by a variety of applications, provides that the eyepiece is a multifunction module, which aufwelat other functionalities, in particular a Errtfemungsmess funktlon, a photo function, video or night vision function.
    According to an advantageous development of the invention, it can be provided that the further functionalities are realized using the viewing channel of the objective modules. This has the advantage, among other things, that information can also be faded into the optical beam path and displayed by the user. In addition, this solution can also achieve a very compact design.
    A further variant of the invention provides that an eyepiece optics is permanently integrated into the eyepiece module. By this variant of the invention, the structure of the eyepiece module can be simplified. For a better understanding of the invention, this will be explained in more detail with reference to the following figures.
    In each case start schematically simplified representation:
    1 shows a telescope according to the invention with a separate objective module and eyepiece module;
    2 shows a variant of a telescope according to the invention with a separate objective module and eyepiece module;
    3 shows a further variant of a telescope according to the invention with separate ObjekHvmodui and eyepiece module.
    4 shows a variant of a connection interface in the closer Detafl.
    5 shows a further variant of a connection section in more detail;
    6 shows an embodiment of a telescope according to the invention with two objectives and a binocular; N201W332Q0 23/12 2010 DO 16:56 [SE / EM NO. 8079] 8) 009 39 16:58:50 23-12-3010 10/28 ·· e • φ + 9 ·· * ··· · * • · * ♦ ♦ * * · · · · · · «* · · · ♦ • #» * φ »· ·
    Flg. 7 shows a first variant of an optical design of a telescope according to the invention;
    8 shows a second variant of an optical structure of a telescope according to the invention;
    9 shows a third variant of an optical construction of a telescope according to the invention.
    By way of introduction, it should be noted that in the differently described Ausführungsfor-men same parts are provided with the same Bezugszelchen or the same component names, the revelations contained in the entire description can be mutatis mutandis transferred to the same Telle with the same reference numerals or identical component names. Also, the location information selected in the description, such as ζ, Β. top, bottom, side, etc. related to the immediately described and illustrated figure and are to be transferred to the new situation mutatis mutandis when a change in position.
    According to FIG. 1, a telescope 1 according to the invention has an objective module 2 and an eyepiece module 3. In Fig. 1, two different Okuiarmodule 3 are shown, which can be connected to the lens module 2 alternatively. The lens module 2 and the Okuiarmodul 3 in turn each have a Verbindungsschnlttstelle 4.5 for connecting the module 2.3. Although the variant of the invention shown here shows a telescope 1 with a monocular, so tonn instead of an eyepiece module 3 with only one eyepiece and a Okuiarmodul 3 come with a binocular used. Furthermore, a prism portion and further optical components can be arranged in the Okuiarmodul. Thus, in the Okuiarmodul 3, for example, a unit 6 for image reversal and an eyepiece 7 are integrated with variable magnification. Alternatively to the arrangement of an eyepiece 7 with variable magnification in the Okuiarmodul 3 may be integrated into the lens module 2, an optics or unit for changing the magnification, as shown in Fig. 3, in Fig. 3, this optics or unit with the reference numeral 10 provided.
    The eyepiece 7 and the magnification changing unit 10 may be implemented as a common unit. The unit 10 can also serve for image reversal and can be designed, for example, as a prism system. N2010 / 33200 23/12 2010 DO 1β: 5β [SE / EM NO S079] @ 010 39 16:59:05 23-12-2010 11/28 · * * m ·· # 9 ft · «· ·· • 9 · · 9 · ft · · · # ft · · «* • ft · ft« 99 -7-
    According to an embodiment of the invention, the magnification changing unit 10 and the image reversing unit 6 may also be implemented as a common unit. The common unit for changing the magnification and for reversing the image can also be embodied as a lens system which images an image in a first intermediate level with a variable scale and vice versa into a second intermediate image plane. At the locations of the intermediate image planes can each be arranged a reticle. It is also possible for a reticle to be arranged only at the location of an intermediate image plane (see also the embodiments illustrated in FIGS. 7 to 9).
    In the region of its connection interface 4, the objective module 2 can have an adjusting means 8 for zooming and the Okuiarmodul 3 in the region of its connection interface 5 have a Stelimittel Θ for focusing. But it is also possible that the means for zooming or focusing are arranged reversed.
    Moreover, it is also possible that the adjusting means 8,9 are both arranged on the eyepiece module 2, as shown in FIG. This can be particularly advantageous when the eyepiece module 3 has an eyepiece for zooming and focusing
    As shown in FIG. 3, however, the adjusting means 8 and 9 can also be arranged on the objective module 2. This is particularly advantageous if, in the lens module 2, an optical system 10 for changing the magnification and an optical system 11 for focusing or focusing are integrated. In this variant of the invention, it is particularly advantageous if the eyepiece optics is integrated into the Okuiarmodul 3 fix
    The adjusting means 8,9 may be formed as adjusting rings whose end faces are in parallel to a separation / Verbindurtgsebene of the lens module 2 and the eyepiece module 3 levels. As can be seen from the illustrations, the adjusting means 8, 9 can lie at least in sections in a parting plane of the connection interfaces 4, 5. Even if the adjusting means 8 and 9 shown here are designed as setting rings, it should be pointed out at this point that the steep means 8 and 9 can also be designed as operating buttons or keys.
    According to other embodiments of the invention, the Okuiarmodul 3 can be ausgegsblldet as a multifunction module and aufc / elses additional functions. For example, the Okuiarmodul 3 as Videoaulzeichnungsgerät, digital camera residual light amplifier, infrared lighting, rangefinder, module for optical signal pickup, module for EJrt- N2010 / 33200 23/12 2010 DO 10:56 fSE / EM NR 8079] 0011 39 16:59:22 23-12-2010 12/28 39 16:59:22 23-12-2010 12/28 4 days 4 * 44 4 * 4 4 ·· ♦ a 4 4 4 · See 44 4 4 e 4 e 4 4 4 m • eee 4 e • 4 4 · # e s • 4 * · -8- glare of information and data in the visual beam path, module for BU stabilization etc. may be designed in this variant of the invention, it can thus be provided be that the other functionalities are realized using the viewing channel of the lens module.
    In particular, it is advantageous if the eyepiece module 3 has a unit 12 stubbornly inserting additional data, in particular geographical data relating to the current location. Here, the eyepiece module 3 or the telescope 1 may have a receiver of a Posltlonsermittlungssystems example of the GPS systems. Based on the current position data stored in a database information can be displayed. For this purpose, value bits of geopo-site data can be assigned specific information. The database can be stored in a memory of the telescope 1 or of the eyepiece module 3 or in a server that can be contacted via a radio network. If the database can be launched via a radio network, for example the GSM network, the telescope 1 or the eyepiece module 3 can be equipped with a corresponding communication module. In addition, an electronic compass can be arranged in the telescope 1 or in the eyepiece module 3. Based on the data of the electronic compass can be determined in which direction the lens of the telescope 1 is held. The determined geographical location of the telescope 1 and the viewing direction of the telescope 1 can then be used as selection criteria for the insertion of data. For example, names of mountains or other geographical objects can be displayed.
    A selection of the information to be displayed can also be called up on the basis of a menu displayed in an optical path or displayed on an external screen, which can be accessed by an externally accessible actuating element, such as a switch or a setting wheel arranged on the telescope 1 or the eyepiece module 3.
    It should also be noted that the telescope 1 may have an extension for insertion into a corresponding shoe of a tripod.
    According to a variant of the invention, a bayonet closure can be formed by two connecting grooves 4, 5, which cooperate directly with one another.
    According to another embodiment, the two mutually directly interacting connecting cut points 4, 5 may alternatively be designed to be bayonet-type 13/28 t • ••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• In the case, the connecting cut-off points in the case may have mutually corresponding screw threads.
    As shown in Figure 4, two directly zusammenwlrkende connection interfaces 13,14 can also form a connector that can be solved by axial displacement. To release the connecting points 13, 14, one or more holding elements 16 cooperating with one or more corresponding actuating elements 15 can be pushed back into a release position. The holding elements 16 may be formed as spring-loaded locking lugs. By pressing the actuating elements 15, which may be formed as extensions of the holding elements 16, the holding elements 16 can be brought out of engagement with corresponding recesses of the connection interface 13. If the activation elements are not activated, the holding elements are moved by the spring force in the direction of the connection interface 13. The sheath elements 16 can be arranged on the outer connection interface 14. With the retaining elements 16 loosened, i. when activated actuators 15, the connection interfaces 13,14 can be moved in the axial direction against each other. The Verechleberichtung is in Flg. 4 indicated by a double arrow. It should be noted at this point, however, that there are many other solutions not explicitly mentioned here, which allow a coupling of the connecting cut points 13,14 by axial displacement.
    Furthermore, the Verflndungsschnlttstellen 13 and 14 may each have a deviating from a flat shape end-face surface profile. Here, a connection interface 13 in sections in the form of a male part and the other connec tion cut parts 14 sections as a female part be formed.
    As shown in Fig. 6, one or more switches 17 may be disposed on one of the concavity points 4,5, which are actuated upon proper connection of the connection interfaces 4,5. In this way, a Korrtrollslgnal can be generated, which signals on an output unit, for example, an LED, a correct connection of the Verbindungsschnlttstellen 4 and 5
    But it can also be provided a plurality of switches 17, wherein in a connected state of the connection interfaces 4 and 5 a predetermined combination of the switch 17 is actuated An electrical contact between the lens module 2 and the eyepiece module 3 and the production of a data connection between the lens module 2 and the eyepiece module 3 may depend on whether the switches 17 in the given N2010 / 33200 23/12 2010 DO 16:50 [SE / EM NR 8079] 0013 39 16:59:58 23-12-2010 14/28
    4 4 -10-
    Komblnation are actuated. On this catfish can create a coding that allows only the use of original parts, the switch 17 are preferably designed as reed switch contacts. In this case, magnets 18 may be arranged at positions of the connection interfaces 4, 5 cooperating with the switches 17. By connecting the connection interfaces 4 and 5, the switches 17 can be closed by the action of the magnetic fields. If they are designed as reed switch contacts, the switches 17 can also be arranged below the surface of the respective connection interface 4 or 5 so that they are not visible from the outside.
    As in Flg. 6, the Okuiarmodul 19 may also be formed as a binocular. In order to enable stereoscopic vision, in this case two objective modules 20, 21 or a lens module with two objectives can also be used. However, it is, as in Flg. 7, it is also possible to use a binocular 22 with a single objective module 23.
    Fig. 7 shows an example of a first optical structure of a telescope according to the invention. The lens module 24 and the eyepiece module 25 can be separated from one another in a parting plane e or are connected to one another via their connection points in the parting plane e. The lens module 24 may comprise a Verstefibare lens 28, which is used for focusing and upper an adjusting means for focusing, for example, one of the above-mentioned steep center! for focusing, can be operated.
    At the ends facing each other, the objective module 24 and the eyepiece module 25 can have glass covers 26, 27. The separation of the two modules takes place between the two glass covers 27, wherein the Verflndungsschnfttstelten, for example, the bayonet closure forming Abländungsschntttstelfen between the two glass covers 27 may be arranged.
    The telescope according to the invention may have an offset as shown in FIG. Of course, it is also possible that the telescope according to the invention, as shown in Figures 8 and 9, is currently being formed.
    The eyepiece module can have a prism 29, with which information or other optical objects, such as infrared rays etc., can be coupled in or out in the direction of the objective. Thus, by appropriate optical input or output via the prism 2Θ in the direction of the lens, different optical functions, such as at N2010 / 33200 23/12 2010 DO 10; 56 [SE / EH NR 80791 (2) 014 39 17:00 : 14 23-12-2010 15/28 Μ $ «·· * ··· * Μ *« * * * · · e * ♦ · · ♦ · * * ♦ «· *« ** t · * * · » »• · · * · · > For example, you can realize the camera, distance measurement, night vision, etc. - for example. The input or output coupling of the objective is denoted by the reference symbol I in FIG. Via the prism 29 it is also possible to connect or uncouple different in the direction of the eyepiece 30. The coupling-in or out-coupling direction of the objective is denoted by the reference symbol II in FIG. the display of a screen, a target, etc. are displayed in the eyepiece beam path. Furthermore, a deflection prism 31 may be provided in order to deflect the beam emerging from the prism 29 in the direction of the eyepiece 30. The coupling and decoupling can of course also be carried out in the same way in the case of the second prism 31 or also in the case of both prongs 29 and 31.
    Between the two prisms 29 and 31, a lens 32 may be provided for image correction. However, the lens 32 is not absolutely necessary in the embodiment shown.
    In addition, the inventive telescope may include a lens reversing system 33. The reversing system 33 may include, for example, two movable groups of pins 34 and 35 shown in FIG. 7 in two different zooming positions. The movable lens groups 34 and 35 may be actuated by an adjusting means for zooming, for example, one of the above-mentioned adjusting means for zooming.
    Before and after the reverse-of-conversion system are intermediate image planes. In this intermediate image plane, reticles 36 and 37 may be arranged.
    It should be noted at this point that the illustrated group of groups are only examples and represent only one of several possible embodiments. Planar mirrors could also be used instead of the prisms.
    According to FIG. 8, the telescope according to the invention can also aultoef-sen a straight structure. In this case, a coupling or decoupling of optical objects, for example, information in BUdform, or electromagnetic waves, for example, from the infrared range, etc., In the direction of the lens 24 or the eyepiece 30 also by means of a single prism 38 "follow. If no coupling or decoupling of optical variables or objects is required, the construction without a prism shown in FIG. 9 can also be used. N20HV33200
    23/12 2010 DO 16; SO [SE / EM NE 8079] QOIS 38 16/28 17:00:30 23-12-2010 ··
    ·· φ · · · I · * · I · · · · -12-
    Dfe Ausführungsbelspiele show only possible AuefQhrungsvarlanten the telescope invention wherein it should be noted at this point, the invention is not limited to the specially dargesteliten Ausführungsvarlanten the same, but also various combinations of the individual variants are possible with each other and this possibility of variation due to the teaching of technical action The present invention belongs to the skill of the person skilled in this technical field.
    For the sake of order, it should finally be pointed out that, for better understanding of the structure of the telescope, this or its components have been shown partially unevenly and / or enlarged and / or reduced in size. N2010 / 33200 23/12 2010 DO 16:60 [SE / EM NR 6079] @ 016 17:01:22 23-12-2010 21/28
    il
    REFERENCE NUMBERS
    telescope
    lens module
    Okulamnodul
    Connecting cuts Telle
    Vorbindungsschnittetelle
    Unit for Btidumkehr
    eyepiece
    actuating means
    steep means
    Optics to enlarge
    Optics for focusing
    Unit for the insertion of data
    Connection interface
    Connection interface
    actuator
    retaining element
    switch
    magnet
    eyepiece
    lens module
    lens module
    eyepiece
    lens module
    lens module
    eyepiece
    glass cover
    glass cover
    lens
    prism
    eyepiece
    prism
    lens
    Lens inversion system
    lens group
    lens group
    reticle
    reticle
    Prisma N2010 / 33200 23/12 2010 DO 18:58 [SE / EM NR 8070] ®021
    权利要求:
    Claims (23)
    [1]
    3θ 17:00:37 23-12-2010 17/28 · «I ····································································································································································································

    1 - claim 1. Telescope (1) t which is composed of interconnectable modules (2,3,19,20, 21, 22,23), wherein the telescope (1) at least from a lens module (2, 20, 21, 23) and an eyepiece module (3, 19, 22), and the lens module (2, 20, 21, 23) and the eyepiece module (3, 19, 22) each have a connection interface (4, 5) for connecting the modules (2, 2,3,19,20, 21,22,23), characterized in that in the eyepiece module (3,19,22) an eyepiece (7) and a unit for changing the magnification and a unit (Θ, 33) are integrated for image reversal.
    [2]
    2. Telescope according to claim 1, characterized in that the eyepiece (7) and the unit (6,33) are designed to change the magnification as a common unit.
    [3]
    3. Telescope according to claim 1 or 2, characterized in that the unit (6) is designed for image reversal as a prism system
    [4]
    4. A telescope according to claim 1, characterized in that the unit (6) for changing the magnification and the unit for image reversal are designed as a common unit.
    [5]
    5. A telescope according to claim 4, characterized in that the common unit for changing the magnification and the BHdumkehr as Unsensystem (33) is executed, which abbiklet an image in a first intermediate image plane with a variable scale and vice versa in a second intermediate image plane.
    [6]
    6. Telescope according to claim 3, characterized in that at least one intermediate plate at least one reticle (38,37) is arranged at the location of N2010 / 33200 23/12 2010 DO 10:60 [SE / EM NR 8079] 0017 39 17:00:48 23-12-2010 18/28 I ··· * ·· i • fi * ► · · i 2-
    [7]
    7. Telescope according to one of claims 1 to 6, characterized in that it at least one adjusting means (9) for focusing and at least one adjusting means (B) for changing the magnification wests
    [8]
    8. Telescope according to one of claims 1 to 7, characterized in that the at least one adjusting means (6) for changing the magnification on the lens module (2, 20, 21, 23) or on the eyepiece module (3, 19, 22) is arranged,
    [9]
    9. Telescope according to one of claims 1 to 8, characterized in that the at least one adjusting means (9) for focusing on Objektlvmodul (2,20,21, 23) or on the eyepiece module (3,19,22) is arranged
    [10]
    10. Telescope according to one of claims 1 to 9, characterized in that at least one of the Stellmitlel (8,9) in the region of one of the connection interfaces (4, 5) is arranged
    [11]
    11. Telescope according to one of claims 1 to 10, characterized in that one of the Steltmittel (8) on the Objektlvmodul (2,20,21,23) In the region of the Verbfn-Dungsschnittstelle (4) of the lens module (2,20,21, 23) and the other of the control means (Θ) on the eyepiece module (3, 19, 22) is located in the region of the veneering interface (5) of the eyepiece module (3, 19, 22)
    [12]
    12. A telescope according to any one of claims 1 to 11, characterized in that the adjusting means (8,9) are formed as collars whose end faces in to a separation / connection plane of the lens module <2,20,21,23) and the Okularmoduis (3, 19, 22) are parallel planes.
    [13]
    13. Telescope according to one of claims 1 to 12, characterized in that the actuating means (8, 9) lie at least in sections in a parting plane of the connection interfaces (4, 5). N2010 / 33200 23/12 2010 DO 16:56 [SE / EM NR 6070] 0018 17:01:00 23-12 -2010 19/28 39 Μ I ··· ** ··· · ♦ * «· * · ··· * • f ·············································································
    [14]
    14. Telescope according to one of the addresses 1 to 13, characterized in that by two directly cooperating Verbindungsschnittstelien (4,5,) Depending a bayonet closure is formed.
    [15]
    15. Telescope according to one of claims 1 to 14, characterized in that two directly cooperating Verblndungeschnittatellen (13,14) a plug &quot; Form connection, which is solvable by axial displacement, wherein for releasing at least one with at least one actuating element (15} cooperating and the connection interfaces (13,14) interconnecting retaining element (15) is pushed back into a release position.
    [16]
    16. A telescope according to any one of claims 1 to 15, characterized in that two directly cooperating connection interfaces (13,14) each aufeteen from a flat shape Oberflächenprofli aufeteen, wherein a connection interface (13,14) at least partially in the form of a male part and the other interface is at least partially formed as a female part
    [17]
    17. Telescope according to one of claims 1 to 16, characterized in that at least one of the Verbindungsschnittstelien (4,5) at least one switch (17) is arranged, which is actuated when correctly connecting the Verbindungsschnittstelien (4.5)
    [18]
    18. A telescope according to claim 17, characterized in that a plurality of switches (17) are provided, wherein in a connected state of the connection interfaces (4,5) a predeterminable combination of the switch (17) is actuated, wherein an electrical contact between the lens module ( 2, 20, 21, 23) and the eyepiece module (3, 10, 22) and / or a data connection between the objective module (2, 20, 21, 23) and the eyepiece module (3, 19, 22) only when the switches ( 17) Made in the given combination.
    [19]
    19. A telescope according to claim 18, characterized in that the switches (17) are made up of reed switch contacts. N2010 / 33200 23/12 2010 DO 16:50 ISE / EM NR 8079] 0019 17:01:14 23-12-2010 20/28
    [20]
    20. A telescope according to any one of claims 1 to 19, characterized in that the eyepiece module (3, 19, 22) is a multifunctional module, which functions further! ' In particular, it has a distance measuring function, a photofunction, video or night vision function.
    [21]
    21. A telescope according to claim 20, characterized in that the further functionalities are realized by using the visual channel of the Objektlvmodiis (2, 20,21, 23).
    [22]
    22. Telescope according to one of claims 1 to 16, characterized in that an eyepiece optics in the eyepiece module (3,19,22) is fixedly integrated.
    [23]
    23. Telescope according to one of claims 1 to 22, characterized in that two directly cooperating Verbindungsschnfttstellen (4,5) are screwed together. Swarovski-Optik KG. by

    Right «9 9» 999 99 * · 9 9 e e 9 9 9 9 9 9 m 9 9 9 • 9 9 9 9 99 9 9 9 9 9 9 9 9 9 99 999 ·· 9 9 9 -4- eng &amp; Partner iltGmbH N2QKV332O0 23/12 2010 DO 16:50 ISE / EM NR 8079] Qi 020
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    US20120162758A1|2012-06-28|
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    CN102566037A|2012-07-11|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA2131/2010A|AT510935B1|2010-12-23|2010-12-23|TELESCOPE WITH LENS AND EYEPIECE MODULE|ATA2131/2010A| AT510935B1|2010-12-23|2010-12-23|TELESCOPE WITH LENS AND EYEPIECE MODULE|
    DE102011056757A| DE102011056757A1|2010-12-23|2011-12-21|Telescope with lens and eyepiece module|
    EP11195243.8A| EP2469317B1|2010-12-23|2011-12-22|Telescope with lens and ocular module|
    US13/336,148| US10365469B2|2010-12-23|2011-12-23|Telescope with lens and eyepiece module|
    CN201110436742.5A| CN102566037B|2010-12-23|2011-12-23|Telescope with object lens and eyepiece module|
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