DE693200C - Angle measuring device, especially sextant - Google Patents

Description

Angle measuring device, especially sextant In angle measuring devices, it is known the telescope and the other optical elements, e.g. B. a rotatable for measurement Double prism, between two parallel, spaced apart frame plates to store.

The invention relates to such devices and aims to `at. A compact structure of the device enables a quick and accurate reading of the prism setting to enable.

It is common practice with such measuring devices to have one with a fine reading division provided handle wheel geared with: one bearing the coarse division, depending on the to connect dividing discs that are more or less widely subdivided according to the available space, however, these known designs are not very handy and reading is frequent uncomfortable.

In the case of the invention, these demands are met. That in your one of the two cylindrical and: coaxial to the axis of rotation of the double prism arranged handles, which forms a hollow cylinder, the dividing disk for the rough reading of the prism setting 'and the gear for driving this with The dividing disk coupled to the double prism is replaced by a graduation that supports the fine reading Handle wheel are stored, and .that the outer surface of this handle is a window with reading mark for reading the. Having adjustment of the graduation disk. The dividing disk for the rough reading it can simply be coupled with the rotating prism be. Although this prism sometimes only rotates slightly, it can the rough reading is still flawless, d. H. done quickly and accurately because the Graduating disk as a result of its placement in a handle of the device ; can be made large without disturbing the structure because the handle is a pretty big one anyway in adaptation to the human hand Must have diameter.

The invention is illustrated in the drawing.

Fig. I shows - a top view of a sextant, partly in section, Fig.2 is a side view, also partially cut.

On the frame plates 5, 6, which are connected by the spacers 7, 8, 9, there are two handles io, ii, which optionally with the plates 5, 6 - consist of .einem piece. The handle ii is hollow and closed by a cover 12. - Between the plates 5 and 6 is a. fixed prism 13 and a rotatable prism 1q., of which the former represents the horizon prism and the latter represents the adjustment prism. The shaft 16 of the rotatable prism 1q. carries a worm gear 1 5, which is mounted by a socket 1 8 within the handle ii. The worm wheel is rotated by a worm i9 on the shaft 2o which, led out of the handle ii, carries a handle wheel 22 at its end. From Fig. 2 it can be seen that if the user grasps the handle ii with his right hand, he can turn the handle wheel 22 very comfortably with his thumb.

The worm wheel 15 directly carries a dividing disk 24, whose Scale through a window 25 in the cover 12 of the handle i i is visible to in Connection with the marking line 26 to make the rough reading. The fine reading takes place on the handle wheel 22, which is a scale in the lower part. 27 (vernier), whose Reading in connection with the marking line 28 is made.

The optical elements of the device consist of a telescope 29 with Objective 30, a reflection prism 32 (see Fig. 2), a dragonfly 33, another Reflection prism 34 and an eyepiece 35, which is seated in a cylindrical socket 36, who wears the eyeshade 37. The socket 36 is in the holder 38 for adjustment the prism 34 who; slidable and lockable. The dragonfly 33, consisting of, one liquid-filled chamber and the air bladder 45 is known in the art incorporated into the beam path of the telescope.

The lens 3o can be adjusted so that: it alone in front of the Adjusting prism 14 is. It can also be moved so that @es, .the horizon prism 13 and the setting prism 14 each partially covered, depending on whether observations to be done at night or during the day. The whole telescope is used for this purpose displaceable between the frame plates 5 and 6 with the aid of a transverse holder 47.

The mode of operation of the device results from the above description. During the day the telescope is adjusted so that the objective 3o is both the horizon prism 13 as well as the adjusting prism 14 is detected. By covering the prism 13 can a reference line, e.g. B. the horizon of the sea can be observed. The adjusting prism is rotated by the grip wheel 22 so as to reach the targeted point, e.g. B. the sun, in correspondence with the image of the reference line seen through the prism 13 bring. For observations at night, the telescope is shifted so that it is is only in front of the setting prism 14. The targeted point will be with the air bubble brought into line.

The settings of the setting prism 14 are through the window 25 (Coarse setting) and easy to read on the knob 22 (fine setting). Despite the In some cases only slight rotations of the setting prism can be used for the coarse setting can be read easily on the graduation disk 24 because this disk has a fairly has a large diameter. Nevertheless, this disc disturbs the handiness of the device not because they are together with the worm wheel 15 in .dem handle i i of the device is housed, with consideration for a - handy touch anyway - one must have a certain larger diameter.

Claims (2)

PATENT CLAIMS: i. Angle measuring device, especially sextant, in the the telescope and the other; optical members, in particular one that can be rotated for measurement Double prism, between two parallel, spaced apart frame plates are stored, characterized in that in one of the two cylindrical and handles coaxially to the axis of rotation of the double prism - (14) (i o, i i-), the: one. Hollow cylinder (11,12) forms the dividing disk (24) for the rough reading of the prism setting and the gear (15, I g, 20) for the drive this with, the double prism (14) coupled dividing disk (24) through a Fine reading division (27) carrying handle wheel (22) are mounted, and that the outer surface (12) of this handle a window (25) with a reading mark (26) for reading the setting the graduated disk (24). 2. Apparatus according to claim i with one in the beam path of the telescope integrated dragonfly, characterized in that the Ferarohrokuhr (35) attached to the housing frame (5, 6) such that it can be moved and is expediently transversely displaceable is that in one position the telescope is on two on a common axis stored prisms (13, 14) is directed at the same time, of which .das a prism fixed for horizon observation and the other (14) rotatably arranged for target setting is, and in the other, position the telescope only on the rotatable prism (14) and the level (43 to 45) is set.