DE87195C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

CLASS 42: Instruments.

The subject of the present invention is an instrument by means of which the changes in shape occurring in iron bridges can be measured faster than this was previously possible.

This instrument is shown in Figure 1 in the front view, in Figure 2 in the side view, and in two _; Sections shown. It consists of an optical and a mechanical part.

The optical part of the instrument is arranged in a tube m and consists of: first, the objectives n ¹ and ra ² located at both ends of the tube m , which can be adjusted in the axial direction of the tube by means of toothed racks and drives, and second, the one containing the ocular r Tube socket m ^{1 in the} middle of the length of the tube m; furthermore from the two crossed mirrors or prisms o ¹ and o ² located opposite the tube attachment m ¹ in the tube (see Fig. 3), and finally the mirror ρ attached in an inclined position opposite the ocular (Fig. 3). .

The whole is represented as a double telescope, in which the bundles of rays entering through the objectives n ¹ and m ^{2 on} both sides are deflected by the mirrors 0 ¹ O ^ and ρ towards the ocular in such a way that the images of the in the two fields of view of the Telescope's standing object become visible at the same time.

The mechanical part of the instrument is as follows:

The tube m is rotatably mounted in the carrier /. This is connected to a slide d , which can be adjusted vertically in a guide t in the direction of the arrow D by means of drive f and rack f ^l. A measuring stick attached to the slide d is used to measure the displacement of the part d with respect to the guide ί · provided for this purpose with a pointer line.

The guide t is rotatably mounted with a pin in a sleeve b and can be adjusted freely and micrometrically by the screw g after the screw h has been released. The sleeve b is horizontally adjustable in a block c by drives e and rack e ¹ in the direction of the arrow E; a ruler attached to b is used to measure the size of this adjustment.

The block c is rotatably connected to a plate α. For this purpose, core tips c ¹ are arranged in tabs on the back of the block c , which engage in the plate a from above and below in the direction of the punctured AA . The lower core forms the tip of a screw and can be adjusted through this. The Kerner screw is surrounding on the block c a pin formed on the c an arm ² is rotatably aufgepafst, which by means of a pressure screw is tightened i (s. Section along YY). At the end of the arm c ' ² a screw k is arranged, by means of which the clamp c rotating between the cores can be adjusted micrometrically for the purpose of adjusting the telescope in the horizontal plane. For larger deviations, the block c is moved freely after the pressure screw i has been released.

Two screw clamps a ¹ and a ² seated on the plate α serve to fasten the instrument to the part of the construction to be observed. So that the instrument always returns to exactly the same place

of the construction part comes to sit, pins a ^s and α * are attached to the plate α, which exactly fit into holes drilled for this purpose on the relevant part W.

By means of the above-described instrument, deformations on bridges are as follows Measured way.

Should z. If, for example, the behavior of the supporting walls of a bridge with truncated parabolic girders, as in FIG. 4, can be observed from the completion to after the equipment , a straight line is made before the equipment on each girder by adding marks F and G to the ends To mark out FG.

The instrument is then first attached to one of the central, vertical structural parts of the support so that the axis of the telescope comes approximately to lie in the straight line FG. An exact coincidence of the telescope axis with the straight line is then brought about by means of the mechanical devices of the instrument described above.

In this position the height of the telescope is read from the ruler on the slide d and noted; the position of the telescope in the horizontal plane is indicated by the ruler on the sleeve b.

The instrument is operated in the same way at all verticals that are considered for observing the wearer, and a number of points lying in the straight line FG are thereby determined on these.

After equipping or after the bridge has been loaded or used for a long time, the instrument is reattached to the relevant verticals and the telescope is aligned in the straight line FG. If it turns out that at one point on the wearer it is necessary to adjust the telescope higher than its previously determined position, then it follows that there has been a decrease in the relevant structural part; the magnitude of this reduction results from the difference between the present level of the scale on slide d and that previously noted. The magnitude of a deviation of the observed point in the horizontal direction is indicated by the ruler on the sleeve, b .

With this instrument it can be determined quickly and with great accuracy which one Deviations at a number of points on a bridge girder after equipping it respectively Stress or prolonged use have occurred, and this gives a clear picture of gain the behavior of every single girder as well as the whole bridge.

In the drawing, another embodiment of the instrument extending to the optical part is shown in FIGS. 5 to 9.

Here, the mirror or prism cross 0 ¹ O ² and the mirror ρ are arranged in front of a telescope. In order to be able to set two objects at different distances, in the case previously imagined here, the marks F and G, at the same time in the image plane, the new arrangement is made here, that each of the two objectives consists of only half a lens, each of which in a special pipe socket x ² respectively. x ³ grasped and by means of a handle v ¹ respectively. v ^{2 is} independently adjustable in the tube x ^1.

The use of this embodiment of the instrument is the same as that of the previous one described.

Claims (3)

Patent Claims: ι. An instrument for measuring permanent and temporary deformations of iron bridges, characterized by a tube fm) with adjustable objectives fn ¹ and K ² J arranged at both ends, the mirrors or prisms fo ¹ and 0 located in the middle of the tube fm), which deflect the incident light rays ² J, to the mirror fp) which receives the deflected light rays and, after an ocular fr ) sitting with it in a tube attachment fm ¹ ) on the tube fm) , to visualize the points to be observed lying in a straight line (FG) , which tube in all Direction is adjustable, the devices used to adjust the tube in the vertical and horizontal planes being provided with measuring rods for the purpose of measuring the deviations that have occurred. 2. On the instrument marked under 1., the other embodiment of the optical part, according to which the two crossed mirrors or prisms fo ¹ and o ' ² ) which deflect the light rays, as well as the mirror (p) serving the same purpose are arranged in front of a telescope . 3. In the embodiment of the optical part of the instrument marked under 2., the device that the objectives fs ¹ and s' ² ) consist of half a lens each, each of which is in a special pipe socket fx that is independently adjustable in the tube fx ^l ) ' ² resp. x ³ ) for the purpose of being able to set objects (brands Fund G) evenly in the picture surface at different distances, but in one direction from the eye. 1 sheet of drawings.