• 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 interconnectable modules (2, 3), wherein the telescope (1) consists of at least one objective module (2) and an 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), wherein at least one adjusting means (6) for focusing and at least one adjusting means (7) are provided for zooming, wherein one of the adjusting means (6, 7 ) on the lens module (2) in the region of the connection interface (4) of the objective module (2) and the other of the adjusting means (6, 7) on the eyepiece module (3) in the region of the connection interface (5) of the eyepiece module (3) is arranged
    公开号:AT510937A1
    申请号:T2133/2010
    申请日:2010-12-23
    公开日:2012-07-15
    发明作者:Siegmund Ing Fischler;Patrick Kurz
    申请人:Swarovski Optik Kg;
    IPC主号:
    专利说明:

    853 ···: ···; · * ··· ·· 16:11:34 23-12-2010 5/26 ♦ · ···· -1 -
    The invention relates to a telescope, which is composed of interconnectable modules, wherein the telescope consists of at least one Objektfvmodul and an eyepiece, and the lens module and the eyepiece je each Verbindungsschnttt-stand for connecting the module, wherein at least one SteHmittel for focusing and at least one Steilmittai are provided for zooming.
    From DEB408059U1, a telesystem for viewing and photographing objects in Moduibauwelse has become known. The known AusfDhrungsform has an objective and a Bildverwertungeeinheit, for example in the form of a photo camera, which can be used instead of an eyepiece kana For Scharfetelkmg a focusing device is provided, wherein a central unit is arranged between the lens and the focusing. The image utilization unit is attached to the focusing device with an exchangeable module unit.
    A disadvantage of the known structure is especially in larger telescopes, such as those used in bird watching, that due to the design, a relatively large distance between the focusing, which is spaced van der Objektivmadul 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 corresponding tripod or a suitable edition are available, the case may occur that a simultaneous adjustment of zoom and focus is not possible. The resulting delay in the tent is very disturbing, especially in the observation of wild animals, especially in bird watching, because the observed objects can often change their position within a very short time. Apart from that, the telescope may blur due to the cumbersome operation of the steepness of zoom and focus. In view of the great distances over which animal watching can take place, N20 OS / 26600 23/12 2010 DO 16:09 [SE / EM NB 8074] @ 006 853
    ····: ···; · ** · ·. · «: * Ο.:!. · «16:11:49 23-12-2010 6/26 -2- a slight blur causes the observed object to disappear from view.
    It is therefore an object of the invention to increase the ease of use a modular telescope and to minimize subjective interference caused by a zoom and arming process. In addition to be created by the invention, the possibility of a possible good dismantling of the telescope, in order to achieve the lowest possible Packmall. 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 modular telescope of the type mentioned in the present invention that one of the adjusting means on the lens module in the region of the connection interface of the lens module and the other of Steltmittel is arranged on the eyepiece in the region of the connection interface of the eyepiece.
    It is a merit of the invention, by a spatially very close arrangement of Stellmittei and thus a one-handed operation of both the steep means for the zoom ice and the Stelimitteie to enable sharpening.
    It should be noted that the terms "zoom" and "change of magnification" or "variable" magnification "are used synonymously. The same applies to the use of the terms "focusing" and "focusing" in this document.
    In order to enable a simple adaptation of the optical settings, the telescope can have at least one adjusting means for focusing and at least one adjusting means for changing the magnification.
    The at least one adjusting means for changing 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 Steltmittel for focusing on the lens module or the eyepiece module can be arranged.
    In order to ensure very good operability, at least one of the adjusting means can be arranged in the region of one of the connection interfaces. N2008 / 28600 23/12 2010 DO 16:09 [SE / EM NO. 8074] @ 1006 16:12:05 23-12-2010 7/26 853 3
    The operability and handling of the telescope can be further improved by arranging one of the adjusting means on the lens module in the region of the connecting section of the objective module and the other of the adjusting means on the eyepiece module in the region of the connection interface of the eyepiece module.
    An embodiment of the invention, which is characterized by a particularly good operability, provides that the adjusting means are designed as adjusting rings whose end faces lie 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 Verbfridungsechnittstellen.
    This allows a spatially particularly close arrangement of Stellmrttei each other, whereby the handling is further facilitated. If the eyepiece and lens module are connected directly to one another, the positioning means lie in a parting plane of the connection interfaces of the eyepiece and objective module, so that the adjustment means according to this embodiment can be directly adjacent to one another.
    According to an advantageous variant of the invention, a bayonet closure can each be formed by two connection interfaces which interact directly with one another. This embodiment enables a special simple connection of the modules. At this point it should be noted that in the present context, a bayonet closure is understood as any type of plug / Drehverschiuss.
    According to a likewise very favorable further embodiment of the invention, two directly cooperating connecting cut parts can form a plug-in connection, which is releasable from one another by axial displacement, wherein at least one retaining element interacting with at least one actuating element and connecting the connecting interfaces is forced back into a release pocket. 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.
    The mechanical stability of the connection between the modules can be increased by having two directly interacting connecting surfaces each having a surface profile deviating from a flat shape, where a surface profile is deviating from a flat shape, where N2Q0W2M00 23/12 2010 DO 10; 09 ISE / EM NR "074) 0) 007 16:12:22 23-12-2010 β / 26 -4-
    Verblndungsschnittstelle at least partially in the form of a male part and the other interface is at least partially formed as a female part.
    A further variant of the invention provides that two connection interfaces which interact directly with one another can be screwed together.
    Proper connection of the modules to one another can be monitored by arranging at least one switch on at least one of the connection interfaces, which is actuated when the connection interface posts are correctly connected.
    According to a variant of the invention, which only allows the use of mutually compatible original parts, it can be provided that a plurality of switches are provided, wherein in a connected state of the connection interfaces a vorgebbaren combination of the switches is actuated, wherein an electrical contact between the lens module and the eyepiece module and / or a data connection between the lens module and the eyepiece module is made only when the switch in the predetermined combination
    A particularly good protection of the switch can be achieved by the fact that the switches are designed as reed switch contacts. In this embodiment, it is particularly advantageous that the switches do not have to be arranged on the surface of the connection interfaces and are therefore invisible from the outside. With the switches cooperating mating surfaces of the other connection interface 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 uses, provides that the eyepiece is a multifunction module, which aulweist further Funktionsalttäten, in particular a removal measurement function, 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 module. This has the advantage, among other things, that information can be included in the optical path and displayed to the user. In addition, this solution can also achieve a very compact design. N200W2B600 23/12 2010 DO 16; 09 ISE / EH NR 80741 ®008 16:12:39 23-12-2010 9/26 853 16:12:39 23-12-2010 9/26 853
    ·· * · * -5-
    Elne weather variant of the invention provides that an eyepiece optics is fixedly 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
    Each shows in a highly schematically simplified representation:
    1 shows a telescope according to the invention with a separate objective module and eyepiece module;
    Fig. 2 shows a variant of a telescope according to the invention with ge separated lens module and eyepiece module;
    3 shows a further variant of a telescope according to the invention with a separate objective module and eyepiece module;
    4 shows a variant of a connecting section parts in more detail;
    Fig. 5 shows a further variant of a Verbfndungsschnittselle in more detail;
    6 shows an embodiment of a telescope according to the invention with two objectives and a binocular;
    7 shows a first variant of an optical design of a telescope according to the invention;
    8 shows a second variant of an optical construction of a telescope according to the invention;
    9 shows a third variant of an optical construction of a telescope according to the invention.
    It should be noted that in the differently described embodiments, the same parts are given the same reference numerals and the same reference numerals, and the disclosures contained in the entire description can be applied mutatis mutandis to the same parts with the same Bezugszelchen or the same component names. Also, the location information chosen in the description, such as N2G09 / 26600 23/12 2010 DO 10:09 [SE / EM NR 8074] © 009 853 853 10/26 16:12:52 23-12-2010 » s 1 ft »4 * 1 *« * · e V · • · * «• a · ψ a * es # * ·» • · · ♦ · t * a * a · * · · -θ- fig and, in the event of a change of position, they must be transferred analogously to the new situation.
    According to FIG. 1, a telescope 1 according to the invention has a lens module 2 and an eyepiece module 3. In Fig. 1, two different eyepiece modules 3 are shown, which can be connected to the lens module 2 alternatively. The objective module 2 and the eyepiece module 3 in turn each have a connection interface 4, 5 for connecting the module 2, 3. Even though the present version of the invention shows a telescope 1 with a monocular, instead of an eyepiece camera 3 with only one eyepiece, an eyepiece module 3 with a binocular can also be used. Furthermore, a prtment part and further optical components can be arranged in the eyepiece module. Thus, for example, a unit 6 for image reversal and an eyepiece 7 with variable magnification can be integrated in the eyepiece module 3. As an alternative to the arrangement of an eyepiece 7 with variable magnification in the eyepiece module 3, an optical unit or unit for changing the magnification can be integrated in the lens module 2, as shown in Fig. 3 In Flg. 3, this optic or unit is provided with the Bazugszeichen 10.
    The eyepiece 7 and the magnification changing unit 10 may be implemented as a common unit. The unit 10 can also serve for Blidumkehr and can be designed for example as a prism system.
    According to one embodiment of the invention, the magnification changing unit 10 and the blurring reversing unit 6 may also be implemented as a common unit. The common unit for changing the magnification and for reversing the blinding can also be embodied as a lens system which images an image in a first intermediate image plane 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 (see also the dargesteliten Ausführungsförmen in Figures 7 to 9). It is also possible that a reticle is arranged only at the location of an intermediate image plane.
    In the region of its connection interface 4, the objective module 2 can have a focusing means 8 for zooming and the eyepiece module 3 can have an adjusting means 9 for focusing in the region of its connection interface 5. But it is also possible that the means for zooming or focusing are arranged reversed. N2009 / 26600 23/12 2010 THU 10:08 [SE / EM NR 00741 ®010 16:13:08 23-12-2010 11/26 853 16:13:08 23-12-2010 11/26 853 e • * e 0 * ·· • Mf »• ·························································· • *
    Moreover, it is also possible that the adjusting means 8,9 are both arranged on the Okuiarmodul 2, as shown in Fig. 2 dargesteltt. This may be particularly advantageous if the eyepiece module 3 has an eyepiece for zooming and focusing.
    As shown in Fig. 3, the Stellmittei 6 and 9 but also be arranged on the lens module 2. This is an advantage over old, if in the lens module 2, an optics 10 for changing the magnification and an optics 11 are integrated for focusing or focusing. In this variant of the invention, it is of particular advantage if the eyepiece optics is permanently integrated into the Okuiarmodul 3
    The adjusting means 8, 9 may be designed as adjusting rings whose end faces lie in planes parallel to a separating / connecting plane of the objective module 2 and the eyepiece module 3. As the illustrations can further be seen, the steep means 8, 9 at least partially lie in a parting plane of the connection interfaces 4, 5. Even if the adjusting means 8 and 9 shown here are designed as adjusting rings, it should be pointed out at this point that the adjusting means 8 and 9 can also be designed as operating buttons or buttons.
    According to other embodiments of the invention, the Okuiarmodul 3 may be formed as a multifunction module and have additional functions. Thus, the Okuiarmodul 3, for example, as a video recorder, digital camera residual light amplifier, infrared lighting, rangefinder, module for optical signal recording, module for insertion of information and data in the visual beam path, module for Bfldsta-stabilization etc. be ausgeblldet. In this variant of the invention, it can thus be provided that the further functionalities are realized using the passage channel of the objective module.
    In particular, it is advantageous if the Okuiarmodul 3 is a unit 12 for displaying additional data, in particular geographical data relating to the current location is formed. Here, the Okuiarmodul 3 or the telescope 1 may have a receiver of a position detection system, for example, the GPS system. Based on the current positron data, information stored in a database can be displayed. For this purpose, value ranges of geoposition data can be assigned specific information. The database can be stored in a memory of the telescope 1 or the Okutarmoduls 3 or in a contactable via a wireless network server. If the database can be queried via a radio network, for example the GSM network, the telescope 1 or the Okuiarmodul 3 N2009 / 28600 23/12 2010 DO 16:09 [SE / EM NR 8074] @ 011 853 16:13:26 23-12-2010 12/26 • »* • eeeeeee 9 * * ♦ • e •» ♦ e * • e • • 99 «« M * »» · me · · · -8- be equipped with an appropriate 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 overlaid can also be called up by means of a menu which is inserted into a beam path or displayed on an external screen, which can be conveniently called by an externally accessible control element, such as a switch arranged on the telescope 1 or the eyepiece module 3 or a Stetlrad ,
    Further, it should 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 can be formed by two directly cooperating VerbindungsschnEttstellen 4.5 each have a bayonet closure.
    According to another Ausfühoingsform the two directly cooperating Verblndungsschnittstellen 4, 5 alternatively be screwed together to form a bayonet lock with each other, the connection interfaces in this case may have mutually corresponding screw thread.
    As shown in Figure 4, two directly cooperating connection interfaces 13,14 can also form a plug-in connection, which can be solved by axial displacement. To release the Verbindungsschnlttstelien 13,14 one or more cooperating with one or more corresponding actuators 15 holding elements 16 can be pushed back into a release position. The holding elements 16 may be ausgebUdet 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 actuators are not activated, the holding elements are moved by the spring force in the direction of the connection interface 13. The holding elements 16 may be arranged on the outer connection interface 14. With holding elements 16 released, i. with activated actuators
    N2OO0 / 2B6QO 23/12 2010 DO 16:09 [SE / EN NR 8074] @ 012 ···· · «4 · 16:13:44 23-12-2010 13/26 - 9 -15, the connection parts 13 , 14 are moved in the axial direction against each other. The displacement direction is indicated in Fig. 4 by a double arrow. It should be pointed out at this point, however, that there are numerous other solutions not explicitly mentioned here, which allow a coupling of the connection interfaces 13, 14 by axial displacement.
    Furthermore, the connection interfaces 13 and 14 can each have a different from a flat shape end-face surface profile. In this case, a connection interface 13 in sections in the form of a male part and the other connection interface 14 sections as female Tel) be geditdet.
    As shown in Fig. 6, one or more switches 17 may be arranged at one of the connection interfaces 4, 5 which are actuated when the connection interfaces 4, 5 are correctly connected. In this way, a control signal can be generated, which signals on an output unit, for example, an LED, a correct connection of Verbindungsschnlttsteilen 4 and 5.
    However, it is also possible to provide a plurality of switches 17, wherein in a connected state of the connection interfaces 4 and 5, a predeterminable combination of the switches 17 is actuated. An electrical contact between the lens module 2 and the eyepiece module 3 or the production of a data connection between the lens module 2 and the eyepiece module 3 may depend on whether the switches 17 are actuated in the predetermined combination. In this way, can create a coding that dusts only the use of original parts The switches 17 are preferably designed as reed switch contacts, in this case can be arranged at the cooperating with the switches 17 points of the connecting parts 4.5 magnets 18. 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 switching 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 shown in Fig. 6, the Okularmodui 18 may 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, as shown in FIG. 7, it is also possible to use a binocular 22 having a single lens module 23. N2009 / ZB600 23/12 2010 TODAY 10:09 tSE / EM NR 8074] © 013 853 14/26 16:14:01 23-12-2010 ·· ♦ ···· · φ «» «* · ι • ♦ * * * * * «* * · F ·······················································································«
    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 interfaces in the parting plane e. The objective module 24 may comprise an adjustable lens 28 which serves for focusing and may be actuated by a focusing means for focusing, for example one of the above-mentioned adjusting means for focusing.
    At the ends facing each other, the obfective 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 connection interfaces, for example, the bayonet closure forming connection interfaces between the two glass covers 27 may be arranged.
    The telescope according to the invention can 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 straight.
    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, the prism 29 can realize different optical functions, such as, for example, camera, distance measurement, after-sight etc., in the direction of the objective. The input or output direction of the lens is designated in FIG. 7 by the reference symbol I. Via the prism 29 it is also possible to connect or uncouple different in the direction of the eyepiece 30. The input or output coupling of the lens is indicated in Fig. 7 by the reference li. Thus, e.g. the display of a screen, a target, etc. are displayed in the eyepiece beam path. Further, a deflection prism 31 may be provided to redirect the beam emerging from the prism 2Θ in the direction of the eyepiece 30. The coupling and decoupling can of course also take place in the same way in the case of the second prism 31 or also in the case of both prisms 28 and 31.
    Between the two prisms 29 and 31, a lens 32 may be provided for image correction. However, the lens 32 is not necessarily required even in the embodiment shown. N2009 / 2B600 23/12 2010 THU 16:09 [SE / EM NR 6074] @ 1014 853 16:14:18 23-12-2010 15/26
    ··· ·· * · -11-
    In addition, the telescope according to the invention can have a reverse-circulation system 33. For example, the inversion system 33 may comprise two movable lens groups 34 and 35, shown in FIG. 7 in two different zoom positions. The movable subgroups 34 and 35 may be operated via a scroller for zooming, for example, one of the above-mentioned zooming control means.
    Before and after the reverse rotation system there are intermediate bond levels. In this intermediate image planes, reticles 36 and 37 may be arranged.
    At this stela it should be mentioned that the illustrated lens 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. 6, the telescope according to the invention can also have a straight construction. In this case, coupling or uncoupling of optical objects, for example information in the form of images, or electromagnetic waves, for example from the infrared range, etc., in the direction of the objective 24 or the eyepiece 30 can also take place by means of a single prism 36.
    If no coupling or decoupling of optical variables or objects is required, the construction without prism shown in FIG. 9 can also be used.
    The embodiments show only possible embodiments of the telescope according to the invention, it being noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but rather various combinations of the individual embodiments are possible with each other and this possibility of variation due to the teaching of technical action representational invention in the skill of those skilled in this technical field.
    For the sake of order, it should finally be pointed out that, for a better understanding of the construction of the telescope, this or its components have been shown partly in an unequal size and / or enlarged and / or reduced in size.
    N2009 / 2B60E 23/12 2010 DO 16:09 [SE / EH NR 8074] @ 015 853 • * • »» * · eee »« * • e • ♦ e «• e · # i · • e • • · ♦ * • • • * * e * * ** eee «» * ee «eee 16:15:06 23-12-2010 19/26
    al
    Reference Designation 1 Telescope 2 Lens module 3 Eyepiece module 4 Connection interface 5 Connection interface 6 Image conversion unit 7 Eyepiece 8 Adjusting means 9 Adjusting means 10 Optics for magnification 11 Optics for focusing 12 Unit for insertion of data 13 Connection interface 14 Connection interface 15 Actuation element 16 Cover element 17 Switch 18 Magnet 1Θ Eyepiece module 20 Lens module 21 Lens module 22 Eyepiece module 23 Lens module 24 Lens module 25 Eyepiece module 26 Glass cover 27 Glass cover 28 Lens 29 Prism 30 Eyepiece 31 Prism 32 Lens 33 Lens reversing system 34 Lens group 35 Lens group 36 Reticule 37 Reticule 38 Prism
    N20O9 / 26B0O 23/12 2010 DO 16:09 [SE / EM NR 8074] ®019
    权利要求:
    Claims (14)
    [1]
    853 853 16/26

    16:14:32 23-12-2010 • t * * ·· * ·· # 8t t * • «« 4 * tt «4» * »· 4 # ·« · M · «· · · 8 t · 1. Teleskop (1), which is constructed 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 objective module (2, 20, 21, 23) and the eyepiece module (3, 19, 22) each have a connecting interface (4, 5) to the Connecting the modules (2, 3, 19, 20, 21 22, 23), wherein at least one control center (9) for focusing and at least one adjusting means (8) for changing the magnification are provided, characterized in that one of the adjusting means (8, 9) on the object module (2, 20, 21, 23) in the region of the connection section parts (4) of the objective module (2, 20, 21, 23) and the other of the adjustment means (8, 9) on the eyepiece module (3, 19, 22) is arranged in the region of the connection interface (5) of the eyepiece module (3, 19, 22).
    [2]
    2. Telescope according to claim 1, characterized in that the at least one adjusting means (Θ) for changing the magnification on the lens module (2, 20, 21, 23) or on the eyepiece module (3, 19, 22) is arranged.
    [3]
    3. Telescope according to one of claim 1 or 2, characterized in that the at least one adjusting means (9) for focusing on the lens module (2,20, 21, 23) or on Okularmodul {3,19, 22) is arranged
    [4]
    4. Telescope according to one of claims 1 to 3, characterized in that the adjusting means (8,9) are ausgeblldet as adjusting rings 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.
    [5]
    5. Telescope according to one of claims 1 to 4, characterized in that the adjusting means (8,9) are at least partially in a parting plane of the connection interfaces (4, 5). N2008 / 2B600 23/12 2010 DO 16:09 fSE / EM NR 8074] © 016 16:14:45 23-12-2010 17/26 853 · »* ·» ** ···· »·» »* · ·····································································.
    [6]
    6. Telescope according to one of claims 1 to 5, characterized in that by two directly cooperating Verblndungsschnlttstellen (4,5) Depending on a bayonet closure is formed.
    [7]
    7. Telescope according to one of claims 1 to 6, characterized in that two directly cooperating connection interfaces (13,14) form a plug-in connection, which is releasable by axial displacement, wherein for releasing at least one with at least one actuating element (15) cooperating and the Connection interface (13,14) interconnecting holding element (16) is pushed back into a release position. Θ. Telescope according to one of claims 1 to 7, characterized in that two directly cooperating connection interfaces (13,14) each have a deviating from a flat shape surface profile, 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 is.
    [8]
    9. Telescope according to one of claims 1 to 8, characterized in that at least one of the Verbindungsschnittstelien (4,5) at least one switch (17) is arranged, which is actuated with correct connection of the connection interfaces (4, 5).
    [9]
    10. A telescope according to claim 9, 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, 19, 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 are actuated (17) hargestelit in the given combination.
    [10]
    11. Telescope according to claim 10, characterized in that the switches (17) are designed as reed switching contacts. N2009 / 28600 23/12 2010 GQ 16:09 [SE / EM NO • ·· · kl ··· • * 9 9999 -3-
    [11]
    12. A telescope according to one of claims 1 to 11, characterized in that the eyepiece module (3, 19, 22) is a multi-function module, which has further functionalities, in particular a distance measurement point, a photo-cut, video or night-vision function.
    [12]
    13. A telescope according to claim 14, characterized in that the further functionalities using the visual channel of the Opjektivmoduls (2, 20, 21, 23) are realized.
    [13]
    14. Telescope according to one of claims 1 to 13, characterized in that an eyepiece optics in the Okulanmodul (3,19,22) is fixedly integrated.
    [14]
    15. Telescope according to one of claims 1 to 14, characterized in that two mutually directly cooperating connection interfaces (4,5) are screwed together. Swarovski-Optik KG. by AnwättCTffirger & Partner Attorney at Law N200B / Z8600 23/12 2010 DO 16:08 ISE / EM NR 8074] ®018 16:14:58 23-12-2010 18/26

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    同族专利:
    公开号 | 公开日
    EP2469321A1|2012-06-27|
    EP2469321B1|2018-04-25|
    CN102566038A|2012-07-11|
    US9383571B2|2016-07-05|
    AT510937B1|2021-02-15|
    US20120162759A1|2012-06-28|
    DE102011056741A1|2012-06-28|
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    AT510937B1|2010-12-23|2021-02-15|Swarovski Optik Kg|MODULAR TELESCOPE|
    AT510935B1|2010-12-23|2021-02-15|Swarovski Optik Kg|TELESCOPE WITH LENS AND EYEPIECE MODULE|AT510936B1|2010-12-23|2021-02-15|Swarovski Optik Kg|TELESCOPE WITH CONNECTABLE MODULES|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA2133/2010A|AT510937B1|2010-12-23|2010-12-23|MODULAR TELESCOPE|ATA2133/2010A| AT510937B1|2010-12-23|2010-12-23|MODULAR TELESCOPE|
    DE102011056741A| DE102011056741A1|2010-12-23|2011-12-21|Modular telescope|
    US13/336,156| US9383571B2|2010-12-23|2011-12-23|Modular telescope|
    CN201110436745.9A| CN102566038B|2010-12-23|2011-12-23|Modular telescope|
    EP11195483.0A| EP2469321B1|2010-12-23|2011-12-23|Modular telescope|
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