DE555864C - Measuring machine for pairs of measuring images - Google Patents

Description

Measuring machine for pairs of measuring images It is well known that the curvature of the earth and the refraction of rays (atmospheric refraction) have an influence on oblique sightings. In the case of measurement images from aircraft, errors occur in particular in the case of oblique recordings, but also with the outer parts of vertical recordings, especially when it comes to Weitwinketaufnabmen acts. Curve guides are therefore already used in measuring machines suggested that these errors be corrected automatically, especially in the height setting, depending on the distance of the target point in question effect from the recording location.

Since the curvature of the earth at the poles is different from that at the equator and also the refraction of rays differs according to the local atmospheric conditions is, so different cam guides would have to be provided to at different Locations on earth: to achieve precise measurement and application results. Also would have to the curves must be adapted to the different drawing time scales.

The aim of the invention is to make the necessary settings without replacement the curve and the device under a wide variety of conditions to be able to use. This is achieved according to the invention that in front of or behind the curve guidance an adjusting gear is switched on, which is both the desired Drawing scale as well as the sizes determined by the local conditions can be adjusted for the curvature of the earth and the refraction of rays.

Is it a machine in which the spatial direction of the Aiming rays on a horizontal ruler representing the horizontal projection and is transferred to a height ruler, according to the invention this device can be as follows be taken: With the horizontal carriage, for example, by a tension member is a Cam disk is essentially connected. This cam acts on a rod, by means of the setting gear with a second rod guided parallel to it connected is. The second rod can be geared with a planetary gear system be connected, which on the one hand can experience an adjustment by a handwheel and that on the other hand is geared to the vertical slide. Means of The handwheel can adjust the height required for a layer line to be drawn Hand of a classification are given. If this is established, so 'will result the curve guidance depending on the distance of the target point in question from the recording location the height setting corrects automatically.

Is it a machine in which in the horizontal plane the Side slide x and the depth slide y are particularly moved, so is at Steep shots to take into account that the target distance mostly through both components (Lateral and depth position) is determined. In this case, the invention is a Curve guidance provided for both the side and the depth slide. Both cam guides act together on a gear through which the true target distance for the setting of the further differential gear becomes effective. The drawing Fig. i shows a schematic representation of the effect of earth's curvature and refraction, Fig.2 a first embodiment of the subject of the invention and Fig.3 a Schematic representation of the device with two curved guides.

In Fig. I, S denotes the recording location, L its plumb point, h the distance between these two points and A the target point. The line drawn from the recording location S to the target point is a curve due to the atmospheric refraction. The angle z measured in measuring machines is that formed by the tangent placed on this curve through the recording location S with the vertical.

As is well known, in geodetic leveling, the difference in height between two points is calculated using the formula dN = K cotg z + qK2. Here, K denotes the horizontal distance between the target point A and the recording location S, c the zenith height of the target point and q a correction factor that simultaneously takes into account the curvature of the earth and the atmospheric refraction of rays (see Fig. I). The expression qK2 is called the correction of the apparent height.

This formula can be used for measurement images that are taken from the air using terrestrial or oblique photographs. In the known measuring machines for pairs of measured images, the expression K cotg z, which represents the height la of the target point above the horizontal zero plane on which the recording is based, is supplied directly by the machine; qK2, which is the correction value that has to be added to the read position in order to obtain the true position, is usually provided by tables. In the case of aerial photographs with an almost vertical recording direction (vertical photographs), the formula dN = h + q (K2 + lag) must be used, which can be used for large differences in height at small heights. The correction value is generally small enough that it can be neglected when plotting the contour lines.

The numerical value A "by which one must move the height carriage on its guide rail in the known measuring machines for measuring image pairs in the first case is given by the formula A = q12E. Q is the known coefficient associated with the area where the recordings were made is variable, l is the numerical value of the horizontal distance K from the target point to the recording location, reduced to the scale As stated above, the aim of the arrangement which forms the invention is to carry out this correction of the measurement error automatically, regardless of the size of the scale and the size of the value of the coefficient q. It allows you to read off the exact position of the target point on graduations that are connected to the measuring machine or to automatically record a layer line of .given altitude. For this purpose, the drive handle or the like of the height carriage is set in a known manner after the height position has been set using the divisions. The distance between the target point and the recording location can be arbitrary.

In the embodiment of the subject matter shown in Fig Invention is that horizontal slide i, which is used to record the site plan serves, connected by a wire i 'to a drum 2, the axis of which to the base plate the measuring machine is fixed.

The displacement of the carriage i causes the drum to rotate proportional to the length 1, which means that it is reduced to the scale the horizontal distance K of the target point from the recording location. To that end is one of the ends of the wire i 'is attached to the carriage i. Then this runs Wire over two rollers 3 and q. same diameter. The axis of one role 3 is with the carriage i and the axis of the other, q., With the base plate of the Machine connected. The wire i ′ accordingly rolls up onto the drum 2. His tension is by a counterweight or by a not shown Spring evoked. The axes of the rollers 3 and q. are attached so that their mutual position the distance of the map position of the relevant terrain point from corresponds to the plumb point of the recording location. The wire is on the rollers 3 and .f out that he touches them on the same circumferential sections.

Instead of one wire you can also wind another one Body, e.g. B. a steel band, a chain o. The like., Use.

With the drum 2 is a curve guide, for. B. one on a plate incised spiral groove, connected. The guide rays of this spiral grow proportionally to the square of the length of the unwound wire. Your starting point corresponds to the position in which the axes of the two rollers 3 and q. cover each other would.

This cam guide 5 acts on the tip 6 of a radially displaceable Bolt 7, the displacements of which therefore correspond to the horizontal distances in the drawing scale K (Fig. I) of the respectively set image point from the recording dead point. The rod 7 controls the rotation of a two-armed lever by means of a pin 8 9 around a fixed axis 1o.

A pin ii, which is attached to a rail 12 which can be displaced parallel to the rod 7, also engages in the lever 9, which is provided with longitudinal slots. This pin ii can be displaced by means of a slide on a guide 13 that runs transversely to the rail 12, so the displacement path of the rod 7 to the displacement path of the rail 12 is like the distances between the pins 8 and 9 from the axis of rotation 1o of the two-armed lever 9. Is the machine z. B. set up so that the displacements of the rail 12 at the same distance of the pin 8 and ii from the axis of rotation 1o a correction for the scale corresponds, it is for a correction for the scale the pin ii to be moved on the slide 13 so that its distance from the axis of rotation 1o half as large as that of the pin 8 and for the scale 40000 twice as large as the distance of the pin B. For this setting, the slide 13 a suitable classification.

Uni the correction factor 9, which varies depending on the geographical area Change the width of the recording location and the refraction of rays there to be able to, the pin 8 is attached to a slide; this slider is on a transverse to the rod 7 guide 14, for example by means of a micrometer screw, not shown, displaceable. The attached to this guide 14 The division is carried out in such a way that its zero point is parallel to the rod 7, which runs through the axis of rotation 1o, and that the distances from this zero point the Values 9 are inversely proportional.

These devices can be adjusted so that the displacements of the rail 12 always correspond to the value q12 E in the desired scale.

Around these shifts with a constant suitable reduction on the height slide 15 of the measuring machine while maintaining its immediate To transfer control, one can use any known arrangement for additional Use movements, e.g. B. a differential or planetary gear, a system Ritzet and racks, a rope connection, etc. Fig. I shows as an example of this a differential gear.

For this purpose, the rail 12 has a toothing 16, which means two bevel gears 17, 18 acts on a planetary gear 19 to 21. The bevel gear 2o this planetary gear is directly connected to the hand crank 122, by means of which the vertical slide is moved.

The bevel gear 21 causes the rotation of a one provided with a longitudinal groove Shaft 23. A pin of a gear 24 engages in this groove so that it is longitudinal the shaft 2.1 is displaceable, but must follow its rotation. This gear 24 is mounted on an approach of the bridge 25 on which the carriage I S slides.

A bevel gear 26 meshing with the gear 24 is on one of the Bridge-borne screw spindle27 attached. The turning of this screw spindle causes the carriage 15 to move on the bridge 25, which is parallel to the Direction of the grooved shaft 23 extending guides 28 is displaceable.

The device on which the heights can be read is in the drawing not shown. It is geared to the hand crank 22. Your division corresponds to the drawing scale.

The adjustment of the pixels takes place exactly as if the correction device for the curvature of the earth and the refraction of rays would not exist. The position of the height slide 15 on its slide 25 gives the altitude, the target point to the horizontal Location level. The height reading device gives the real one Altitude where the error to be expected due to the curvature of the earth and the refraction of rays are taken into account.

In order to record a contour line of a given altitude, use you set this on the height reading device and put the hand crank in this position a2 for the vertical slide. If you now drive as usual, in the appearing Spatial images by simultaneously adjusting the pixels belonging to the Pair of spatial images, the individual layers of height, so the height slide shifts 15 automatically by the amount by which the earth's curvature and refraction of rays resulting errors can be compensated.

Instead of the prescribed control with the two-armed lever 9 (Fig. 2) you can use two curved guides 34 32 instead of a single one, as shown in Fig Use curve guide 5 (Fig. 2).

The guide 3 i acts on a rack 33. The guide 32 acts onto a rack 34, which can be displaced parallel to the first, these two racks engage a gear 35 which is mounted on a slide 36. This sleigh 36 can be displaced parallel to the two racks 33 and 34.

The carriage 36 carries a pin 8 which engages in a longitudinal slot of the plane 9. This pin 8 is located on a slide, the guide of which runs transversely to the carriage 36 and is provided with a division 14. Apart from these modifications shown in FIG. 3, the further transmission elements up to the height slide 15 can correspond to those in FIG. The second correction formula dN - h + q (K2 + h2), which can be used for vertical recordings, can be inserted by simply expanding the two types of correction mentioned above.

In the case where the measuring machine z. B. has three slide systems corresponding to the three spatial axes, i.e. one link can be displaced in all three spatial directions, it is sufficient to connect the control wire i 'of the drum: 2 with the link movable in the three spatial directions, which corresponds to the terrain point set in each case embodied. The system that comprises the two curved guides 3 1 and 32 shown in FIG. 3 can also be used here. When the guide 31 is connected, for example, to the carriage i (Fig. 2), the rack 33 moves proportionally to K2. If the other guide is connected to the hand crank 122 for the height movement, the rack 34 shifts proportionally 1a2, and the correction introduced to the height slide is then proportional (K2 + h2).

Claims (3)

PATENT CLAIMS: i. External measuring machine for pairs of measuring images with a curve guide to compensate for the measurement errors caused by the curvature of the earth and the refraction of rays, characterized in that an adjusting device (8, 9, 14, 1i, 13) is switched on in front of or behind the curve guide (2, 5, 6), by means of which both the differences in the curvature of the earth and the refraction of rays caused by the local conditions as well as various measuring rods can be taken into account. 2. Device according to claim i for machines with a horizontal slide and a vertical slide, characterized in that the guide member (7) moved by means of the adjusting device (8, 9) by the curved guide (2, 5, 6) which is operationally connected to the horizontal slide (i) , 14, 1i, 13) is connected to a gear or differential gear (i6 to 21), which is operated on the one hand by a handwheel (22) connected to a height graduation and on the other hand operationally (23 to 26) with the height slide (i5) connected is. 3. Device according to claim i, in particular for steep shots, where the target distance from the mounting point is made up of right-angled coordinates results, characterized in that the side slide (i) and the depth slide (30) each are connected to a separate curve guide (3i, 32), which both (3i, 32) on a balancing operation to take into account the true target distance act.