CS241680B1 - Apparatus for points alignment - Google Patents

Abstract

The solution relates to a staking device points. The device consists of a folding stand (1) with a box level (2) and a stakeout arm (3). Stakeout Arm (3) it is mounted rotatably and hinged on the stand (lj and equipped with a reverse slider (5J. Reverse) the slider (5) is slidably mounted on the length scale of the alignment arm (3) and has notches for plummet hinge (6) and pin bearing target (4) with prism.

Description

The invention relates to a device for setting out points.

There are several ways of staking out points, one of which uses the so-called staking arm. This tool is manufactured abroad and in some adaptation also in the Czech Republic. The prior art system has several advantages, advantageous in practical use. On the one hand, it is the precision of the method, the ease of control, the easy possibility of stabilizing the points and the possibility of staking out an obstacle. The disadvantages of this procedure compared to the proposed device are that the point setting is slower and laborious due to the use of conventional tripods. In order to pinpoint the exact position of the point, it is necessary that the tool has a horizontal circle allowing the adjustment of angular values. The procedure must use a computing technique, such as a programmable handheld calculator, which partially slows down the process. Staking out a single point takes about 20 to 25 minutes. Production of the device is quite laborious and demanding.

These drawbacks are overcome by a point-staking device consisting of a collapsible rack with a box vial and a staking arm according to the invention, characterized in that the staking arm is rotatably and hingedly mounted on a stand and provided with a reversible slider, the length scale of the stakeout arm and is provided with notches for the plummet hinge and a pin carrying a prism target.

The construction of the device according to the invention is simple. the only measuring device is the longitudinal scale on the arm, thus eliminating the production of a horizontal circle, including the relevant provisions and other related devices. Calculating the point shift from approximate position to accurate is very easy, a simple pocket calculator is enough to calculate. Substantial simplification and acceleration of the procedure almost negligibly reduces the accuracy of the alignment. In the longitudinal direction, the accuracy is the same, in both cases it depends on the accuracy of the rangefinder used for setting out. In the transverse direction, there is some decrease in accuracy, for example, for the original system, the mean transverse error can be expressed by the angular value my '= 10 "and the proposed procedure is equal to my ~ 13". This deterioration of accuracy is practically only manifested in long-distance staking, for example for 500 m instead of 7.6 mm it is increased to 10 mm. If a control measurement is considered in the result, the difference in accuracy is further reduced. However, it is not common for such long distances. The staking accuracy is therefore almost the same, and the economy of the process can be characterized by accelerating staking, ie about 15 minutes for one point. The production of the device is much easier and the technological procedure does not require programmable computer technology. In addition, the proposed device allows the use of laser-theodolite to further accelerate the process.

BRIEF DESCRIPTION OF THE DRAWINGS The invention and its effects are explained in more detail in the description of an exemplary embodiment thereof according to the accompanying drawing, wherein FIG.

On the folding stand 1 a boxed vial 2 is placed. The staking arm 3 is fixed perpendicularly to the stand 1, on the length scale of which the reverse slider 5 is slidably mounted. The reverse slider 5 is provided for plumb hinge 6 and a pin carrying a prism target 4. The use of the folding stand 1 speeds up the search for the approximate position of the stake out point. The pin carrying the prism target 4 is offset from the index by a constant k, which is compensated by the offset of the pin in the basic position from the axis of the folding rack 1. The plunger hinge 6 is also an index when adjusting length 180 ° rotation.

In the folding stand 1, the height can be changed, it is provided with a box vial 2 and two or three support rods. By means of bars and box vial 2, the folding stand 1 can be adjusted to a vertical position. A tilting staking arm 3 with a length scale is mounted perpendicularly to the stand 1, with the possibility of rotation about the axis of the stand bar. When searching for the approximate position of the alignment point in the alignment direction, the alignment arm 3 is lowered, which simplifies handling, with the prism target 4 being located on the pivot of the home position. After locating the approximate position within the range of the alignment arm 3, i.e. + 1 m, the alignment arm 3 is brought into a horizontal position in which it is locked by a latch. On the horizontal alignment arm 3, by moving the reverse slider 5, we set the longitudinal distance, ie the difference between the distance outlined and the approximate distance, by means of which the point is drawn in the longitudinal direction. The lateral displacement is adjusted by rotating the stake arm 3 about the axis of the folding stand 1 until the prism target 4 is engaged in the stake line. This is done acoustically by a message or by visual indication. Necessary staking control is performed by direct distance measurement to the sliding beam and direct staking angle measurement. After evaluating the result, the set point is verified. The point is guided through the plumb line by means of the plumb line hinge 6, where it is easy and accurate to stabilize the plotted point, or it can be checked several times by lowering the plumb line.

Claims (1)

SUBJECT A point stakeout device consisting of a collapsible rack with a box vial and a stakeout arm, characterized in that the stakeout arm (3) is rotatably and hingedly mounted on the stand (i) and provided with a revynAlez version slider (5) slidably mounted on a longitudinal scale of the stake arm (3) and provided with notches for the plinth hinge (6) and a pivot-bearing pin (4) with a prism. 1 sheet of drawings