DE2041603C3 - Bracket for an observation and measuring stand with optronic devices suspended in a vehicle - Google Patents

Description

The invention relates to a holder for one in a vehicle, in particular an armored one Vehicle, suspended observation and measuring stand with optronic devices for observation or Measurement of targets from the interior of the vehicle when the vehicle is somehow inclined, whereby the optronic device is fastened in an inner socket, which is axially immovable via bearings, but by the The longitudinal axis of the device is rotatably connected to an outer socket.

Such brackets must have precise leveling and azimuth adjustment of the vehicle suspended optronic device when the vehicle is somehow inclined to ensure that the to enable the desired, as exact as possible, determination of the destination. This means the demand for Zero backlash and ease of use under the aggravating condition that the bracket that heavy optronic device including accessories and usually also the seat attached to it with the one on it located observer must be worn.

To meet this requirement, a bracket of the type mentioned above has already been proposed been (DT-PS 20 40 284), in which the outer socket is mounted in a gimbal ring in such a way that it is on the one hand relative to the cardan ring tiltable about a horizontal axis and on the other hand with this relative to a Vehicle-mounted, annular support member is tiltable about a horizontal axis perpendicular to the former, wherein the outer bushing by means of two pins in one horizontal axis in bearings in the cardan ring is suspended and the cardan ring in turn also via two lying in the other horizontal axis Pin is suspended in bearings of the vehicle-fixed, annular support member.

A disadvantage of the proposed embodiment is one due to the two perpendicular to each other Pins lying on the horizontal axes and the two associated cardan rings, which are nested in one another, are conditional large construction volume and a large number of storage locations.

Furthermore, DT-PS 4 74 890 provides a bracket for a platform that is on a swaying platform Rifle telescope known in which the housing receiving the optical members is gimbaled to one on one Base plate arranged support body is suspended apart from the fact that this is also a cardanic suspension with several bearings, this type of construction requires a large amount of space, which is not the case in an armored vehicle anyway, because the space available there is limited.

The invention is based on the object of improving the holder of the type mentioned at the outset in such a way that that it takes up little space in the vehicle with a few storage locations and its operation in the Hori ^ ontierung of the optronic device and the subsequent observation or measurement of the Target as quickly as possible.

According to the invention, this object is achieved in that the outer bushing is by means of pins attached to it and associated bearings can be tilted about a horizontal axis relative to an inner ring of an azimuth bearing and by means of mounting the inner ring via the bearing in the outer ring fixed to the vehicle around a vehicle-related vertical axis is rotatable so that the pivot axis formed by the pin in any inclined position Vehicle is horizontally adjustable.

In a further embodiment of the invention, the rotating or pivoting movements around the vehicle are vehicle-related vertical axis and the vertically adjustable axes and the horizontally adjustable axes Axis can be carried out by means of adjusting devices.

A preferred embodiment is seen in the fact that the outer sleeve at its upper end a has partially spherical cover which, in conjunction with a sealing ring fixed to the tub, provides a liquid and / or forms gas seal.

The advantages achieved by the invention are in particular that due to the special training and arrangement of the holder, in which the pivot axis formed by the pin by rotating the Azimuth bearing inner ring is horizontally adjustable, both greater rigidity and space-saving Construction compared to a cardanic suspension is achieved.

An exemplary embodiment that explains the invention is shown schematically in the drawing and is described in more detail below. It shows
F i g. 1 the bracket, partially in section,
F i g. 2 shows a view of the holder offset by 90 ° to FIG. 1,

F i g. 3 is a view of the holder in the direction of the vertical axis of FIG. I or 2 seen,

4 and 5 each have a view of the holder, each with a variant of a pre-stressed position

tion in the upper and lower half of the picture,

6 shows a longitudinal section. h a backlash-free Adjustment mechanism.

An optronic device 1 is arranged in an inner socket 2, which via bearings 3 ', 3 "and 3'» axially immovably, but rotatably connected to an outer socket 4 about the longitudinal axis of the device. the outer bush 4 has at its upper end in two opposing eyes 5 pins 6, which in Bearings 9 supported in a rotatable inner ring 8 of an azimuth bearing 10 and so movable with it these-n are connected.

The rotatable inner ring 8 of the azimuth bearing 10 is here on bearing bodies, which are not designated in any more detail an outer ring 11 fastened in a vehicle pan 12 is supported. Thus, the outer sleeve 4 is means pin 6 fastened to it and associated bearing 0 relative to rotatable inner ring 8 of azimuth bearing 10 pivotable about a horizontal axis and by means of the inner ring 8 in the outer ring 11 fixed to the vehicle by one vehicle-related vertical axis rotatable so that the pivot axis formed by the pin 6 in the Somehow inclined standing vehicle is horizontally adjustable Pin 6 and bearing 9 formed horizontally adjustable axis is carried out by means of an adjusting device. This adjusting device consists essentially of a spindle, which on the one hand on one on the outer Bush 4 attached abutment 13 acts and on the other hand engages an arm 14 which is attached to an on Inner ring 8 of the azimuth bearing 10 is located:> en flange ring 15 is attached. This flange ring simultaneously protects the azimuth bearing 10 against penetration of dust. Water and foreign bodies.

The rotation of the outer sleeve 4 with the inner sleeve 2 and the optronic located therein Device 1 around the vehicle-related vertical axis formed by the azimuth bearing 10 takes place via a through a handwheel 16 via a planetary gear 17 actuated pinion 18, which is in an internal ring gear 19 of the Vehicle-fixed outer ring 11 of the azimuth bracket 10 engages. After the leveling of the optronic Device is completed, nothing is done on the adjustment devices used for leveling more changed, they are rather blocked. The latching mechanism and the blocking are here not particularly shown.

With a worm drive for the rotation of the outer bushing 4 relative to the inner bushing 2 and thus the optronics 1 about the earth-related vertically adjustable axis formed ^{by the bearings 3 ', 3 ", and 3 m is designated.}

The observation and especially the measurement of the target requires the determination of the elevation angle of the target in relation to a horizontal plane (horizon plane). Therefore, the optronic device must be leveled before the measuring process, ie its vertical axis of rotation by rotating the inner ring 8 of the azimuth bearing 10 and pivoting about the axis formed by the pin 6 or bearing 9 in the manner described above be set up exactly perpendicular. ^{After the optronic device has been leveled, the azimuth angle ft} 5 of the target can be set by rotating the device together with the inner socket 2 relative to the outer socket 4 around the aligned vertical axis and by tilting the viewing mirror of the optronic device about one located in it horizontal axis of the elevation angle of the target can be measured, the latter - as already mentioned - being determined in relation to the horizon plane in order to ensure the correct alignment of artillery weapons somewhere else in the area on the measured target.

In the embodiment described, the two azimuth axes are somehow inclined Vehicles are not identical to each other, but rather lie in the bearings 9 because of the possibility of inclination inclined to one another, therefore, two are fundamentally different and at different times Activities to be carried out, namely leveling the optronic device and measuring the Target with reference to the plumb line.

The in F i g. 4 and 5, each shown in the lower and upper halves, four design variants of prestressed Bearings represent bearings made backlash-free by means of resilient mechanical links, wherein Bearing 9 in FIG. 4 shows a tapered roller bearing, in FIG. 5 above a shoulder ball bearing and in F i g. 5 below a Angular contact ball bearing is in each case in the upper halves of the picture siid the bearings between the eyes 5 of the outer ones Bushing 4 and the inner ring 8 of the azimuth bearing 10 over Pin 6, cover 33 and ring nut 34 firmly clamped, the preload resulting from the spring properties of the inner ring 8 results. In each case in the lower halves of the picture is between the bearing 9 and the cover 33 a spring ring or a plate spring 35 inserted through which the preload is effected The conical surfaces the force effect in the bearings are shown in FIG. 4 and 5 denoted by 36.

The in F i g. 6 shown, acting on the abutment 13 and arm 14 adjusting device consists of one of a handwheel 21 operable planetary spindle with spindle nut 22, which in an enlarged part 23 of a Sleeve 24 is attached by ring nut 25, and formed as an extension of the planetary spindle Push rod 26, which is guided in the sleeve 24. The sleeve 24 is in a manner known per se via a as Conical nut 27 formed Einklinkvorrichtung by means of a conical socket with a plastic-coated ball 29 integrally connected. This ball 29 is mounted in the arm 14 and by a Inner ring 30 clamped without play. The push rod 26 is supported in the abutment 13 via a joint ball 31 and held free of play by a clamping ring 32. Due to the releasable.i actuators, the disengaged state, a quick coarse adjustment of the leveling and the azimuth rotation direct action of hand or foot forces guaranteed, whereas the actuators then for the latched state can be interpreted as Fcinsielltriebe. The adjusting elements for leveling can also be designed to be blockable in order to prevent unwanted adjustments to prevent leveling during the observation or measuring activity.

At the upper end of the outer socket 4, a partially spherical cover 7 is attached to protect the storage, which, in conjunction with a correspondingly designed pan-fixed sealing ring 37, a liquid and / or forms gas seal

For this purpose 3 sheets of drawings

Claims (3)

Patent claims: 1. Bracket for a suspended in a vehicle, in particular an armored vehicle Observation and measuring stand with optronic devices for observation and measurement of targets from the interior of the vehicle when the vehicle is somehow inclined, wherein the optronic device is fastened in an inner socket which cannot be moved axially via bearings, however, it is rotatably connected to an outer socket about the longitudinal axis of the device, thereby characterized in that the outer sleeve (4) by means of pins (6) and associated Bearing (9) relative to an inner ring (8) of an azimuth bearing (10) about a horizontal axis tiltable and by means of mounting the inner ring (8) via the bearing (10) in the outer ring (11) fixed to the vehicle a vehicle-related vertical axis is rotatable so that the pivot axis formed by the pin (6) can be adjusted horizontally in a vehicle that is somehow inclined. 2. Holder according to claim 1, characterized in that the rotary or pivoting movements about the vehicle-related vertical axis (bearing 10) and the earth-related vertically adjustable axis (bearings 3 ¹ , 3 ", 3 ¹ ") and the horizontally adjustable axis ( Bearing 9) can be carried out by means of adjusting devices (16 to 19 or 20 or 13, 14, 24). 3. Holder according to claim 1 and 2, characterized in that the outer socket (4) on inrem the upper end has a partially spherical cover (7) which, in conjunction with a tub-fixed Sealing ring (37) forms a liquid and / or gas seal.