DE336591C - Gun aiming device with independent target line - Google Patents

Description

Gun aiming device with independent aiming line. With guns to combat air targets makes it noticeable that the side shift is given at the target facility in. or near- in the target line plane, while the, gun in the lateral direction around the vertical pivot pin, so in the horizontal plane.

So far, the aiming device had a swinging pivot for. the side shift. The difference in angle between the fixed pivot of the gun -and the swinging pivot of the aiming device can be used with anti-aircraft guns be about 7o to 8ö ° depending on the target position. This occurs with larger lateral shifts on the aiming device with regard to the gun barrel position.

According to the invention, therefore, the side shift at the target device Taken in the horizontal plane as with the gun. Both pivots are perpendicular and thus at the same time parallel to each other.

Guns with independent line of sight have become known at which visor and gun had parallel side pivots, however this swinging pivot mounted on an upper carriage, so no fixed perpendicular lasting as with the subject matter of the invention. Swinging pivots that remain parallel of gun and sight that join the gun terrain angular movement However, a major drawback is, for example, the sighting device's side shift granted, and are the swinging pivots inclined below 60 °, for example, so the gun barrel receives an alignment error when setting the line of sight on the target, which is equivalent to the one caused by the inclined wheelbase of the gun. Thinks in the extreme case, the gun barrel would be opposite the line of sight Swiveled x8o ° to the side, the mouth of the tube points to the ground, i.e. -6o ° instead of--. 6o °. So here you have a pure altitude error. In the intermediate layers of o up to 18o 'lateral twisting you have a height and lateral error. When turning horizontally of the gun and the sighting device, this error is completely eliminated. From this it emerges that when guns are to be used against aircraft, both the direction angle (terrain angle side) as well as the lateral shift (weft angle side) must be given in a horizontal plane. So if with such guns the pivot is set vertically, as is the case with anti-aircraft guns with a special one Setup happens, so there is no longer a source of error, since the inclined wheelbase is balanced once and for all. However, this does not apply to guns swinging pivot. There should be the device for eliminating the crooked wheelbase be connected to the sighting device so that the tube tilting by the swinging Pivot can be compensated by allowing the wheelbase level to be brought in. Aggravating there is also the fact that this correction cannot be made all at once, because The line of sight is diverted from the target by the introduction of the dragonfly; by Turning on. -the The side straightener has to open the line of sight again be brought to the goal. But since the pipe moves in an inclined plane, the line of sight is gradually opened by repeating the process several times brought the target to the level of the dragonfly. Judging takes a lot more time in claim. Any gunner who worked on swinging pivot guns knows how difficult the straightening work is due to the pipe canting and the required constant elimination of the lopsided wheelbase or the inclined trunnion inclination is.

FIG. Z shows a side view and FIG. A shows a view from the rear an embodiment of the gun with fixed (remaining perpendicular) pivots for sights and guns.

Fig. 3 shows a side view and Fig. Q. a rear view a second embodiment.

5 shows a section through the zx-xx axis of the second embodiment.

6 shows a section through the y-y axis of the second embodiment.

The gun with an independent line of sight is known to have two leveling machines, a shot angle and a terrain angle straightening machine.

According to the first embodiment, the weft angle straightening machine A operated from the left side of the gun by the handwheel a1. The size of the angle of fire is read on the scale drum a2, the terrain angle straightening machine B is operated by handwheel b1 from the right side of the gun. When turning the weft angle straightener the tube is only adjusted while the line of sight remains. When moving of the terrain angle straightening machine, pipe and sight line go together.

The aiming device C is also on the right side of the gun like the drive wheel for the terrain angle. It's on a gun part (the pivot fork) attached, according to the height neither from the terrain angle nor from the weft angle straightening machine being affected. An ordinary aiming device would be with this attachment be pointless at the pivot fork. Therefore, according to the invention, the line of sight becomes adjusted by a compulsory connection with the terrain angle straightening machine B so that that when turning the terrain angle straightener tube and line of sight around the same Angular amount can be adjusted in parallel.

The right aiming device consists of the carrier cl, the side shifting device c2 with guide piece c3, the height bend c4 with telescope sleeve, the telescopic sight c "and your inevitable drive D from the terrain angle straightening machine B to the Line of sight (height arc c4).

This drive D consists of the bevel gear pair dl of the collapsible Ball joint shaft dz, the pair of bevel gears d3 and the worm d4. The bevel gear pair dl indicates the movement of the terrain angle straightening machine through the ball joint shaft the pair of gears d3 and to the worm drive d4. For this purpose is a conical Wheel of the pair of wheels dl attached to the drive shaft for the terrain angle. the Side shifting device c2 is attached to the carrier cl and therefore remains unchanged in height as well as the gun pivot axis. Sideshift rotation axis and gun lateral direction axis always remain parallel to each other, which is why the side angles transmitted to the gun by the side straightener are the same as the angles at which the finish line is in the horizontal plane is pivoted. This has not been the case before because of the side shifting device had a swinging pivot. At the directional circle of the panoramic telescope c, so becomes the page shift is no longer set. The ball joint shaft d2 @ must be collapsible because the upper pair of wheels during the lateral shift at the tin direction c2 d3 moves to the side.

The second embodiment according to FIGS. 3, 4, 5 and 6 avoids a special one Transmission from the terrain angle straightening machine to the aiming device. It works directly from the trunnion of the terrain angle straightening machine. The prerequisite for this is that the four axes, trunnion axis w-w, axis for the visor side shift x-x, the terrain angle axis y-y of the sight and the target line rotation axis z-x itself cut in one point.

The aiming device E consists of the one attached to the pivot fork Carrier e1, the lateral displacement device e2 arranged on this carrier with laterally rotatable ring e3, the guide piece e4 (which around the ring it grips) with sighting terrain angle axis y-y, the telescope carrier es with it Y-y axis bearings and the bearing es. The warehouse for the telescope carrier is on The trunnion of the terrain angle leveling machine is permanently provided and forms the Bearing for the target line rotation axis z-z.

The parts remain with the gun's terrain angle setting e1, e2 and e3 are unchanged, while the parts e4, it with telescope and it the Participate in terrain angular movement. The guide piece e4 is through the in Fig. 3, 5 and 6 illustrated joint piece e5 with the carrier it and thus with your trunnion tied together. Through this Connection is made possible that the sighting telescope can then also be rotated around its axis by means of the lateral shift e2, when this axis is inclined to the x-x axis.

When taking the side shift on the device e2 move parts e3, e4, e6 plus telescope. The visor side shift takes place here - Also as in the first embodiment, about an axis parallel to the gun pivot axis remaining axis of rotation, while the line of sight the terrain angular movement of the pipe participate.

Version 2 can also be used outside the center point of the trunnion use if a special bearing point is provided for this on the pivot fork and a parallelogram connection between the terrain angle shield spigot and the visor shield spigot is attached. The bearing then sits on this visor shield pin.

Instead of the parallelogram connection, any one can of course also be used Gearboxes are provided.

In the exemplary embodiments, there is only one telescope with a lateral view drawn. It goes without saying that also a telescope with a straight view Can apply.

Claims (2)

PATENT CLAIMS: _. Gun aiming device with independent line of sight, where the axis of rotation for the lateral adjustment of the gun barrel and the axis of rotation for the lateral shift of the aiming device when setting the overall elevation of the pipe remain parallel to each other, characterized in that both axes of rotation are arranged on the mount in such a way that their vertical position is determined by the angular movement of the terrain the gun barrel and the aiming device is not changed. 2. Gun aiming device according to claim i, characterized in that the finish line is simultaneous with the Gun barrel from the terrain angle adjuster (B) of the gun through a compulsory connection is adjusted to the angle of the terrain.