Abstract:
The invention relates to a portable optical sensor module having at least one locking device disposed on an outer side of the portable optical sensor module for releaseably attaching the portable optical sensor module to a carrier platform. The at least one locking device comprises a folding handle device forming a carry handle for the portable optical sensor module in an opened locked state of the at least one locking device.

Description:
FIELD OF THE INVENTION 
     The invention relates so a portable optical sensor module having at least one looking apparatus arranged on an outer side of the portable optical sensor module for releasably mounting the portable optical sensor module on a carrier platform. 
     BACKGROUND 
     Portable optical sensor modules or optical devices, such as for example aerial picture cameras or LIDAR systems, are built into carrier platforms with passive and/or active attitude stabilization. Known optical devices with rigid carrying handles have the disadvantage that the optical device must be secured with additional elements (for example screw connections, adapter rings or the like) after it is placed into the carrier platform. Existing foldable or displaceable handles on such optical devices are frequently arranged unfavorably from an economical point of view (for example directly above the device) or do not satisfy the crash safety requirements according to DO  160 . 
     SUMMARY 
     The present invention is based on the object of improving a portable optical sensor module of the type mentioned in the beginning with respect to the releasable mounting on a carrier platform. 
     This object is achieved according to the invention by a portable optical sensor module having at least one locking apparatus, which is arranged on an outer side of the portable optical sensor module, for releasably mounting the portable optical sensor module on a carrier platform, wherein the at least one locking apparatus has a foldable handle apparatus, which, in an opened locking state of the at least one locking apparatus, forms a carrying handle for the portable optical sensor module. 
     As a result, the optical device is advantageously provided with a locking apparatus, which serves in the unlocked state as a carrying handle. The optical device or the portable optical sensor module can be mounted or locked in a few steps and without tools or other auxiliary means, in particular while observing the crash safety requirements according to DO  160 . 
     The at least one locking apparatus can have at least one locking catch, which, in the closed locking state of the at least one locking apparatus, at least partially encloses at least one receptacle of the carrier platform. 
     Furthermore, the locking apparatus can have at least one locking pawl, which, in the closed locking state of the at least one locking apparatus, at least approximately blocks the movement of the at least one locking catch. 
     Provision can furthermore be made, according to the invention, for at least one closure to be present on the at least one locking apparatus, which closure, in the closed locking state of the at least one locking apparatus, at least approximately blocks the movement of the at least one locking pawl of the at least one locking apparatus. 
     The foldable handle apparatus, at least one guide device, which is arranged in particular on the outer side of the portable optical sensor module, and at least one linear pull-out mechanism, which is guided therein and is preferably configured in two parts, can form at least one toggle lever linkage for closing the at least one locking apparatus. 
     The foldable handle apparatus can be connected to the at least one closure of the at least one locking apparatus via the at least one linear pull-out mechanism. 
     When the foldable handle apparatus is folded down, the at least one linear pull-out mechanism can be shortened and the at least one closure can be pushed down, as a result of which the at least one locking pawl is blocked in its movement. 
     In the closed locking state of the at least one locking apparatus, the foldable handle apparatus can at least approximately rest against the outer side of the portable optical sensor module. 
     The at least one locking apparatus can be closed simply by the foldable handle apparatus being folded down. 
     It is advantageous if in each case one locking apparatus is arranged on two mutually apposite outer sides of the portable optical sensor module. 
     Accordingly, the foldable handle apparatuses of the respective locking apparatuses on both sides can be used as carrying handles, in particular for a plurality of people. 
     The foldable handle apparatuses of the locking apparatuses can in addition be arranged at least approximately in one horizontal plane, that is to say the same horizontal plane. 
     The portable optical sensor module can be configured as an aerial picture camera for taking aerial pictures from planes or for example as LIDAR system or the like. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       Advantageous configurations and developments of the invention result from the dependent claims. An exemplary embodiment will be described below in principle with reference to the drawing, in which: 
         FIG. 1  shows a simplified side view of a portable optical sensor module according to the invention in the opened locking state and of a carrier platform; 
         FIG. 2  shows a simplified plan view according to the arrow I from  FIG. 1  of the portable optical sensor module according to the invention in the opened locking state; and 
         FIG. 3  shows a simplified side view of the portable optical sensor module according to the invention in the closed locking state. 
     
    
    
     DETAILED DESCRIPTION 
     The upper region of  FIG. 1  shows a portable optical sensor module  1  according to the invention which is configured as an aerial picture camera for taking aerial pictures. In other exemplary embodiments (not illustrated), the portable optical sensor module could also be a LIDAR system for determining physical or chemical parameters of the atmosphere or the like. 
     In each case one locking apparatus  2  for releasably mounting the portable optical sensor module  1  on a carrier platform  3  is arranged on two mutually opposite outer sides  1   a ,  1   b  of the portable optical sensor module  1 . The locking apparatuses  2  have in each case a foldable handle apparatus  4 , which handle apparatuses form, in the opened locking state of the locking apparatuses  2  shown in  FIG. 1 , carrying handles  4   a  for the portable optical sensor module  1 . The two foldable handle apparatuses  2  are located in a common horizontal plane. 
     In order to mount the two foldable handle apparatuses  4  on the two mutually opposite outer sides  1   a ,  1   b  of the portable optical sensor module  1 , in each case one bearing  5  is provided such that the two foldable handle apparatuses  4  can be folded downwardly towards the portable optical sensor module  1  and can also be moved upwardly into the described horizontal plane. The respective foldable handle apparatus  4 , in each case a guide device  6 , which is arranged, on the outer side  1   a ,  1   b  of the portable optical sensor module  1 , and in each case a linear pull-out mechanism  7 , which is guided therein and is preferably configured in two parts, in each case form a toggle lever linkage  8  for closing the at least one locking apparatus  2 . In the opened locking state shown in  FIG. 1 , the lower ends  7   a  of the linear pull-out mechanisms  7  are located in each case in the upper region of the guide devices  6 . The linear pull-out mechanisms  7  also form the connecting elements to the further elements of the locking apparatuses  2 , which are arranged on the two outer sides  1   a ,  1   b  of the portable optical sensor module  1  in each case below the foldable handle apparatuses  1 . The locking apparatuses  2  in each case have a locking catch  9 , which, in the closed locking state, at least partially encloses at least one receptacle  3   a  of the carrier platform  3 . Furthermore, the respective locking apparatus  2  has a locking pawl  10 , which, in the closed locking state of the respective locking apparatus  2 , blocks the movement of the at least one locking catch  9 . Moreover, a closure  11  is present on the respective locking apparatus  2 , which closure in the closed locking state, blocks the movement of the locking pawl  10 . 
     The locking apparatuses  2  thus enclose in each case a locking pawl  10 , a locking catch  9 , and a closure  11 . For use of the portable optical sensor module  1 , it may be necessary for it to be connected fixedly to the carrier platform  3 . In the present exemplary embodiment, in each case two receptacles  3   a  are present on both ends of the carrier platform  3 , such that the carrier platform  3  has a total of four receptacles  3   a . The receptacles  3   a  serve, as mentioned above, for receiving the locking catches  9  of the two locking apparatuses  2 , after the portable optical sensor module  1  has been placed on the carrier platform  3 . The carrier platform  3  can also have passive and/or active attitude stabilization for operating the portable optical sensor module  1  during a flight. 
       FIG. 2  shows a plan view of the portable optical sensor module  1  according to the arrow I from  FIG. 1 , wherein the opened locking state is again illustrated. Shown here is in particular the possibility of the portable optical sensor module  1  being transported comparatively easily from one place to another using the foldable handle apparatuses  4  or the carrying handles  4   a.    
       FIG. 3  shows the portable optical sensor module  1  and the carrier platform  3  in a side view comparable to the view in  FIG. 1 . The portable optical sensor module  1  in this case was previously placed onto the carrier platform  3 . Here, the two locking catches  9  in each case enclose the receptacle  3   a  of the carrier platform  3 . The two foldable handle apparatuses  4  are folded to rest against the portable optical sensor module  1 , and the locking apparatuses  2  are closed or in the closed locking state. The locking apparatuses  3  are closed by the foldable handle apparatuses  4 , which are located on the respective outer side  1   a ,  1   b , being folded. In this process, the linear pull-out mechanism  7 , which is connected at the upper end to the foldable handle apparatus  4  and is guided at the lower end in the guide device  6 , is moved downwardly. The linear pull-out mechanism  7  is in two parts and connected such that the linear pull-out mechanism  7  shortens when the foldable handle apparatus  4  is folded down. In this case, the closure  11  is also pushed down, such that ultimately the locking pawl  10  blocks the locking catch  9  in its movement. In the present exemplary embodiment, if both foldable handle apparatuses  4  are folded so rest against she portable optical sensor module  1 , the portable optical sensor module  1  and the carrier platform  3  are fixedly connected to one another until the locking apparatus  2  is released. Release is in this case effected in reverse order of the closing of the locking apparatuses  2 . In the closed locking state, the foldable handle apparatuses  4  at least approximately rest against the outer sides  1   a ,  1   b.