• 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), characterized in that in the lens module (2) is integrated optics (10) for changing the magnification
    公开号:AT510936A1
    申请号:T2132/2010
    申请日:2010-12-23
    公开日:2012-07-15
    发明作者:Benno Dipl Ing Miller;Ludwig Dipl Ing Pernstich;Konrad A Roider
    申请人:Swarovski Optik Kg;
    IPC主号:
    专利说明:

    853 e ·································································································. • · * · ee · -1 - 16:32:20 23-12-2010 5/27
    The invention relates to a telescope which is constructed from modules which can be connected to one another, the telescope consisting at least of a lens module and an eyepiece module and the lens module and the eyepiece module having a connection interface for connecting the modules.
    From DE940B059U1 a telesystem for viewing and photographing objects in modular construction has become known. The known embodiment comprises an objective and an image utilization unit, for example in the form of a photocamera, which can be used instead of an eyepiece. For focusing, a focus-setting direction is provided, wherein a central unit is arranged between the objective and the focusing device. The image utilization unit is attached to the focusing device with a replaceable module unit
    A disadvantage of the known structure, especially in larger telescopes, as used, inter alia, in bird watching, that is given by design, a relatively large distance between the ScharfBtelleinrichtung, which is spaced from a lens module by the central unit, and an actuating means for the zoom This results in a relatively difficult handling of the telescopes, 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, it may be the case that a simultaneous adjustment of zoom and focus is not possible The resulting time delay is very disturbing from old in the wildlife observation, especially in the birdwatching, there the observed objects often change position within a short time. Apart from that, it can come as a result of the unwieldy operation of the adjusting means of zoom and focus to a shaking of the telescope. Considering the great distances over which a wildlife observation can take place, already N2010 / 33300 23/12 2010 DO 18:30 [SE / EK NO 8077J 0005 853 ·· * ... ····· ·· e · # 16:32:35 4 * 23-12-2010 6/27 • • ·. , ············································································································································································································································ disappears.
    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 zoom and focus operation. In addition to be created by the invention, the possibility of a possible good dismantling of the telescope to achieve the lowest possible 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 according to the invention with a modular telescope of the type mentioned initially in that optics for changing the magnification are integrated. According to the solution according to the invention, a zoom lens is thus used as the objective module.
    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 term "focusing *" and "focusing" in this document.
    In order to enable a simple adaptation of the optical settings, the telescope can have at least one focusing means and at least one engraver 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 adjusting means 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 connecting cut-off points.
    The visibility and handling of the telescope can be further improved by arranging one of the adjusting means on the object module in the region of the connection interface of the objective module and the other of the adjusting means on the eyepiece module kn of the connection interface of the eyepiece module. N2010 / 33300 23/12 2010 DO 16:30 (SE / EM NR 8077] ffl006 853 ··
    - 3 - ·· * · · * • · • · • * * ··· > 7.27
    An embodiment of the invention, which is characterized by particularly good operability, provides that the adjusting means are designed as adjusting collars whose stimuli lie in bees parallel to a separating / concealing plane of the objective module and the eyepiece module. 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 at least partially in a parting plane of the connection interfaces Hegen.
    This allows a spatially particularly close arrangement of the actuating means to each other, whereby the handling is further facilitated. If the eyepiece and lens module are connected directly to one another, then the adjusting means lie in a parting plane of the connection interfaces of the eyepiece and objective module, so that the slipping 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 points, which interact directly with one another. This embodiment allows a particularly simple connection of the module. It should be noted at these stalls that in the present context a bayonet closure is understood to mean any type of plug / twist closure.
    According to a likewise very favorable further embodiment of the invention, two directly interacting connection interface can form a plug connection which can be detached from one another by axial displacement, at least one covering element cooperating with at least one actuating element and connecting the connection interfaces being forced back into a release position for release. This variant of the invention allows a very simple connection of the individual modules, since this only a Tranelatlonsbewegung 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 interacting facing interfaces each having a surface force deviating from a flat shape, one connecting interface at least partially in the form of a male part and the other interface at least in sections as a female part. is trained. N2010 / 33300 23/12 2010 DO 16:30 [SE / EM NO. 8077] ®007 4- 653 16:33:06 23-12-2010 8/27 »·« ··· < • · ·
    Proper joining of the modules to one another can be monitored by arranging at least one switch on at least one of the connecting cutting rollers, which is actuated when the connecting section bars are correctly connected
    According to a variant of the invention, which allows only the use of mutually matching original parts, it may be provided that a plurality of switches are provided, wherein in a connected state of the Verbindungsschnittetellen a vorgebbaren combination of the switches is actuated, wherein an electrical contact between the Lens module and the Ökularmodu! and / or a data connection between the lens module and the eyepiece module is only produced when the switch is actuated in the predetermined combination.
    A particularly good protection of the switch can be achieved 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 connecting cut-off points and consequently are invisible from the outside. With the switches cooperating mating surfaces of the other VerglndungsschnltteteUe 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 multi-function module, which aufetat other functionalities, in particular a distance measuring function, a photo function, video or night vision function.
    According to an advantageous embodiment of the invention, it may be provided that the further functionalities are realized using the viewing channel of the Objekttvmoduls. This has the advantage, among other things, that information can also be faded into the optical stratification and displayed to 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 integrated into the eyepiece module in a fixed manner. By this variant of the invention, the structure of the eyepiece module can be simplified.
    Furthermore, that can be integrated into the eyepiece module, a unit for image reversal. N2010 / 33300 23/12 2010 DO 16:30 [SE / EM NO. 8077] @ 008 853 16:33:24 23-12-2010 9/27 853 16:33:24 23-12-2010 9/27
    -5-
    For a better understanding of the invention, this will be explained in more detail with reference to the following figures.
    In each case, in highly schematically simplified illustration:
    Flg. 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 a separate objective module and eyepiece module;
    4 shows a variant of a connecting link in more detail;
    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 lenses and a binocular,
    7 shows a first variant of an optical design of a telescope according to the invention;
    6 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;
    By way of introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals or the same component designations, wherein the disclosures contained in the entire description can be mutatis mutandis to the same parts with the same reference numerals or component names. Also, the descriptions chosen according to the description are, for example. top, bottom, side, etc. related to the immediately described as well as-edged figure and are mutatis mutandis transferred to the new situation in a change in position. N2010 / 33300 23/12 2010 DO 10:30 [SE / EM NO 3077] 0009 853 16:33:36 23-12-2010 10/27 «· ·« · ·· -6-
    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 modules 2, 3. Even if the variant of the invention shown here shows a telescope 1 with a monocular, however, an eyepiece module 3 with a binocular can be used instead of an eyepiece module 3 with only one eyepiece. Furthermore, a prism portion and further optical components can be arranged in the eyepiece module. Thus, for example, a unit Θ for image reversal and an eyepiece 7 with a variable magnification can be integrated in the eyepiece module 3. As an alternative to the arrangement of an eyepiece 7 with a variable magnification in the eyepiece module 3, optical unit or unit for changing the magnification can be integrated in the objective module 2, as shown in FIG. In Flg. 3, this optics or unit is provided with the reference numeral 10.
    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.
    According to one embodiment of the invention, the magnification changing unit 10 and the BHD reversing unit 6 may also be implemented as a common unit. The common unit for changing the magnification and the BHdumkehr can also be designed as a system of information, which images a picture in a first intermediate image plane with a variable scale and vice versa in a second intermediate image plane at the locations of the intermediate image planes can ever be arranged a reticle (see also the in Figures 7 to 9 illustrated embodiments). It is also possible that only at the location of a Zwischenbfldebene a reticle is arranged.
    In the region of its connection interface 4, the objective module 2 can have an adjusting means 8 for zooming and the eyepiece module 3 can have an adjusting means 9 for focusing in the region of its veneering interface 5. But it is also possible that the means for zooming or focusing are arranged reversed.
    In addition, it is also possible that the adjusting means 8, 9 are both arranged on the eyepiece module 2, as shown in FIG. 2. This can be particularly advantageous when the eyepiece module 3 has an eyepiece for zooming and focusing. N201 (V33300 23/12 2010 DO 18:30 [SE / EM NR 80771 8) 010 -7- 653 16:33:53 23-12-2010 11/27
    Wte In Flg. In this way, d) e adjusting means 8 and 8 can also be arranged on the lens 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 sharpening or focusing are integrated. Bef this variant of the invention, it is particularly advantageous if the eyepiece is integrated into the Okutarmodul 3 fix
    The adjusting means 8,9 may be formed as adjusting rings whose end faces lie in a separation / connection plane of the object ivmoduls 2 and the eyepiece 3 parallel planes. 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. Although the adjusting means 8 and 9 shown here are designed as SteNringe, so it should be noted at this point that the adjusting means 8 and 9 can also be designed as operation buttons or buttons.
    According to other embodiments of the invention, the Okutarmodul 3 may be formed as a multifunction module and have additional functions. Thus, the eyepiece module 3, for example, as Videoaulzeichnungsgerät, digital digital camera residual light amplifier, infrared lighting, rangefinder, module for optical signal recording, module for insertion of information and data in the visuelen beam path, module for image stabilization, etc. be formed. In this variant of the invention, it can thus be provided that the further functionalities are realized using the viewing channel of the lens module.
    In particular, it is advantageous if the Okutarmodul 3 a unit 12 for insertion of additional data, in particular geographic data relating to the current location, abgetkfet is Here, the eyepiece module 3 or the telescope 1, a receiver of a position detection system, for example, the GPS system exhibit. Based on the current position data, information stored in a database can be displayed. For this purpose, value tables of geoposition data can be assigned specific information. The database can be swept in a memory of the telescope 1 or of the eyepiece module 3 or in a server which can be contacted via a radio network. If the database can be queried via a radio network, for example the GSM network, the telescope 1 or the Okutarmodul 3 can be equipped with a corresponding KommunRcatfonsmodul. In addition, in the telescope 1 or in the Okutarmodul 3 may be arranged an electronic compass. On the basis of the data of the electronic compass it can be determined, in which Rfch-N2010 / 33300 23/12 2010 DO 10:30 [SE / EM NR 8077] 0011 853 16:34:11 23-12-2010 12/27 * ·· * · ♦♦ · · · · · · · tion of the telescope 1 lens. 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 invoked by means of a MenQs displayed in a beam path or displayed on an external screen, which can be conveniently called by an externally accessible actuating element, such as a switch arranged on the telescope 1 or the eyepiece module 3 or a setting wheel ,
    Weather be warned 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 mutually cooperating connecting interface parts 4.5 each a bayonet closure.
    According to another Ausfqhmngsförm the two mutually directly zusammenwtrkenden connection interfaces may be screwed together as an alternative to be formed as a bayonet fitting with each other, wherein the connection interface parts 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 connection, which can be solved by axial displacement. In order to release the connecting points 13, 14, one or more locking elements 16 cooperating with one or more corresponding actuating elements 15 can be pushed back into a release position. The holding elements 16 can be ausgebüdet as spring-loaded locking lugs. By pressing the actuating elements 15, which may be formed from extensions of the holding elements 16, the holding elements 16 can be brought out of engagement with corresponding recesses of the Verschneiterungsschntttetel-le 13. If the actuators are not activated, the holding elements are moved in the direction of the connection interface 13 by the spring force. The holding elements 16 may be arranged on the outer connecting cut edge 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 direction of displacement is indicated in Fig. 4 by a double arrow It should be noted at this point, however, that there are many others here N2010 / 33300 23/12 2010 DO 10:30 [SE / EM NR 8077] 0012 -9- 8S3 16 : 34: 29 23-12-2010 13/27 • · * ·· · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · • · ,
    Further, the connection interface bars 13 and 14 may each have a flat surface-side profile deviating from a flat shape. In this case, a connection interface 13 may be partially formed in the form of a male Tete and the other connection interface 14 sections as a female part.
    As shown in FIG. 6, one or more switches 17 may be arranged on one of the connecting cut parts 4, 5, which are actuated when the connecting cut-off points 4, 5 are correctly located. On this catfish, a control signal can be generated, which signals on an output unit such as an LED, a correct connection of the connecting interface 4 and 5.
    However, it is also possible for a plurality of switches 17 to be provided, wherein in a connected state of the connecting cut parts 4 and 5 a prescribable combination of the switches 17 is actuated (st) an electrical contact between the objective module 2 and the eyepiece module 3 or the production of a data connection between the objective module 2 and the eyepiece module 3 may depend on whether the switches 17 are actuated in the given combination, thus enabling a coding which allows only the use of original cells By way of example, magnets 18 can be arranged at locations of the connection interfaces 4, 5 cooperating with the switches 17. The switches 17 can be closed by the action of the magnetic fields by connecting the connection section parts 4 and 5. The switches 17 can be used as reed switching contacts , even under the upper surface of the respective connection interface 4 or 5 be arranged so that they are not visible from the outside,
    As shown in FIG. 3, the eyepiece module 19 can also be designed as a binocular. In this case, to enable a stereoscopic vision, two object 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.
    FIG. 7 shows by way of example ainan optical structure of a telescope according to the invention. The objective module 24 and the Okuiarmodul 25 can be separated from each other in a parting plane e or are via live connection interface parts in the separation N2010 / 33300 23/12 2010 DO 16:30 [SE / EM NR 6077] 0013 853 16:34:46 23-12-2010 14/27
    -10- · * ·· * ·· *
    level e interconnected. The lens module 24 may comprise an adjustable lens 26, which serves for focusing and may be actuated by means of an adjusting means for focusing, for example one of the above-mentioned adjusting means for focusing.
    At the ends facing each other, the lens module 24 and the eyepiece module 25 can handle glass deposits 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 may have an offset as shown in FIG. Of course, it is also possible for the telescope according to the invention, as shown in FIGS. 6 and 9, to be 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 via the prism 29 in the direction of the lens different optical functions, such as camera, distance measurement, night vision, etc. realize. 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 input or output direction of the lens is designated in FIG. 7 by the reference symbol II. Thus, e.g. 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. 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 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 necessarily required even in the illustrated embodiment.
    In addition, the telescope according to the invention may have a lens reversing system 33. For example, the lens inverting system 33 may include two movable lens groups 34 and 35, shown in two different zoom positions in FIG. 7. N2010 / 33300 23/12 2010 DO 16:30 [SE / EM NO. S077] 0014 -11-16: 35: 02 23-12-2010 15/27 -11 - 16:35:02 23-12-2010 15/27
    ···· ···· are. The movable subgroups 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 lens reversal system are Zwischenblldebenen. In this interleaving plane, reticles 36 and 37 may be arranged.
    It should be noted at this point that the lens groups shown are only examples and only one of several possible Ausfführungfomnen daratei. Plane mirrors could be used instead of the belts.
    According to Flg, 6, the telescope according to the invention can also have a straight structure. 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 38.
    If no coupling or decoupling of optical quantities or objects is required, the In Flg. 9 can be used without a prism.
    The only examples of possible embodiments of the telescope according to the invention are those in which the invention is not restricted to the specifically illustrated embodiments of the same, but rather various combinations of the individual embodiments are possible with one another and this possibility of variation is based on the teaching on 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 construction of the telescope, this or its components were partially rendered out of proportion and / or enlarged and / or reduced in size. N201IV33300 23/12 2010 DO 10:30 [SE / EM NO 8077] Q015 16:35:56 23-12-2010 20/27 16:35:56 23-12-2010 20/27 ·· I · + *
    «» «· * T« M 4 I
    Bezugszelchenaufsteflung
    telescope
    Objektfvmodul
    eyepiece
    Connection interface
    VerblndungsschnittsteJIe
    Image reversal unit
    eyepiece
    actuating means
    Parking center)
    Optics to enlarge
    Optics for focusing
    Unit for the insertion of data
    Verblndungsechnittstelle
    Verblndungsschnittstelle
    actuator
    retaining element
    switch
    magnet
    eyepiece
    Objektfvmodul
    lens module
    eyepiece
    lens module
    lens module
    eyepiece
    Giasabdeckung
    glass cover
    lens
    prism
    eyepiece
    prism
    lens
    Lens inversion system
    Lfnsengruppe
    lens group
    reticle
    reticle
    Prisma N2010 / 33300 23/12 2010 DO 16:30 [SE / EM NR 8077] 0020
    权利要求:
    Claims (18)
    [1]
    -1 - 853 16:35:15 23-12-2010 16/27 Claims 1. Telescope (1) which is constructed from modules (2, 3, 9, 20, 21, 22, 23, 24) which can be connected to one another, wherein the telescope (1) consists of at least one objective module (2, 20, 21, 23, 24) and one eyepiece module (3, 19, 22, 25) and the objective module (2, 20, 21, 23) and the eyepiece module (11) 3,19,22,25) each having a connection interface (4,5) for connecting the modules (2,3,19,20,21, 22,23,24, 25), characterized in that in the lens module (2 , 20, 21, 23, 24) has an optics (10) for modifying the magnification.
    [2]
    2. Telescope according to claim 1, characterized in that it comprises at least one adjusting means (9) for focusing and at least one adjusting means (8) for varying the magnification.
    [3]
    -3-
    3. Telescope according to claim 1 or 2, characterized in that the at least one adjusting means (8) for changing the magnification on the lens module (2, 20, 21, 23, 24) or on the eyepiece module (3,19,22, 25) is.
    [4]
    4. Telescope according to one of claims 1 to 3, characterized in that the at least one adjusting means (9) for focusing on the lens module (2,20,21,23,24) or arranged on the eyepiece module (3,19,22,25) is.
    [5]
    5. Telescope according to one of claims 1 to 4, characterized in that at least one of the adjusting means (8, 9) in the region of one of the connection interfaces (4, 5) is arranged.
    [6]
    6. Telescope according to one of claims 1 to 5, characterized in that one of the adjusting means (8) on the lens module (2,20, 21,23,24) in the region of the connection interface (4) of the Objsktjvmoduls (2,20,21 , 23,24) and the other of the N2010 / 33300 23/12 2010 DO 16:30 [SE / EM NR 8077J 0016 2 853 2 853 17/27 18:35:27 23-12-2010 tel (9) is arranged on the eyepiece module (3, 19, 22, 25) in the region of the connection interface (5) of the eyepiece module (3, 19, 22, 25)
    [7]
    7. Telescope according to one of claims 1 to 6, characterized in that the StellmitteJ (8, 9) are abgeJtdet as adjusting rings whose end faces in to a separation / Verblndungsebene the Objektivmoduts (2,20,21,23,24) and the Eyepiece module (3,19, 22, 25) parallel planes Hegen.
    [8]
    8. Telescope according to one of claims 1 to 7, characterized in that the adjusting means (8, 9) at least in sections in a parting plane of the connecting cut parts (4, 5) sword.
    [9]
    9. Telescope according to one of claims 1 to 6, characterized in that dae by two directly cooperating VerblndungBschnlttstellen (4,5,) depending on a bayonet closure is formed.
    [10]
    10. Telescope according to one of claims 1 to 9, characterized in that two directly cooperating VerbindungsschnittsteUen (13,14) form a plug connection, which is releasable by axial displacement, wherein at least one at least one Betetigungsetemsnt (15) zusammenwirkendee and the Verbln-tion Schneittstelien (13,14) interconnecting HaHelement (16) is pushed back into a release position.
    [11]
    11. Telescope according to one of claims 1 to 10, characterized in that two directly together zusammenwlrende connection interfaces (13,14) each have a deviating from a flat shape Oberftflehenprofil, 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.
    [12]
    12. A telescope according to one of claims 1 to 11, characterized in that at least one of the connection interfaces (4,5) at least one switch (17) is arranged, which is actuated with correct connection of the connection interfaces (4, 5). N2010 / 33300 23/12 2010 THU 18:30 [SE / EM NR 6077J 0017 15:35:41 23-12-2010 18/27 853 »· + ψψ · ·» · *



    [13]
    13. A telescope according to claim 12, characterized in that a plurality of switches (17) are provided, wherein in a connected state of the Verbindungsschntttstel-th (4,5) a predetermined 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, 22,25) and / or a data connection between the lens module (2, 20, 21, 23, 24) and the eyepiece module (3,19,22 , 25) is produced only when the switch (17) is actuated in the predetermined combination.
    [14]
    14. A telescope according to claim 13, characterized in that the switches (17) are ausgebHdet as reed shadow contacts.
    [15]
    15. Telescope according to one of claims 1 to 14, characterized in that the Okufarmodul (3,19,22) is a multifunction module, which has further Funktionsalttäten, in particular a Entfemungsmessfunktion, a photo function, video or night vision function.
    [16]
    16. A telescope according to claim 15, characterized in that the further functionalities using the visual channel of the Objektfvmodule (2,20,21,23, 24) are realized.
    [17]
    17. Telescope according to one of claims 1 to 16, characterized in that an eyepiece optics is integrated into the eyepiece module (3, 19, 22, 25)
    [18]
    18. Telescope according to one of claims 1 to 17, characterized in that two mutually directly cooperating connection interfaces (4,5) are screwed together. N2010 / 33300 23/12 2010 DO 16:30 [SE / EM NR 80771 ®018 «# V * * * * * 16:35:51 23-12-2010 19/27 853 -4- 10. Telescope following one of the Claims 1 to 16, characterized in that in the eyepiece module (3, 19, 22, 25) a unit (6, 33) for image reversal is integrated. Swarovski-Optik KG. by lawyers

    | he & Partner Attorney at Law N2010 / 33300 23/12 2010 PO 16:30 ISE / EM NR 8077) © 010
    类似技术:
    公开号 | 公开日 | 专利标题
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    同族专利:
    公开号 | 公开日
    DE102011056740A1|2012-06-28|
    US9703088B2|2017-07-11|
    EP2469318A3|2012-08-29|
    US9411147B2|2016-08-09|
    AT510936B1|2021-02-15|
    DE102011056740A8|2012-11-08|
    EP2469318A2|2012-06-27|
    DE102011056740B4|2022-02-24|
    CN102540450B|2017-03-29|
    CN102540450A|2012-07-04|
    US20120162757A1|2012-06-28|
    US20160291310A1|2016-10-06|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA2132/2010A|AT510936B1|2010-12-23|2010-12-23|TELESCOPE WITH CONNECTABLE MODULES|ATA2132/2010A| AT510936B1|2010-12-23|2010-12-23|TELESCOPE WITH CONNECTABLE MODULES|
    DE102011056740.2A| DE102011056740B4|2010-12-23|2011-12-21|Telescope with connectable modules|
    EP11195356A| EP2469318A3|2010-12-23|2011-12-22|Telescope with modules that can be connected to each other|
    US13/336,139| US9411147B2|2010-12-23|2011-12-23|Telescope with mutually connectable modules|
    CN201110436882.2A| CN102540450B|2010-12-23|2011-12-23|Telescope with the module that can be connected with each other|
    US15/177,613| US9703088B2|2010-12-23|2016-06-09|Telescope with mutually connectable modules|
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