RU2724120C1 - Device for tacheometric observations - Google Patents

Abstract

FIELD: geodesy.SUBSTANCE: invention relates to geodetic instruments, namely to instruments for taking readings when performing tacheometric survey of pipes in horizontal position, and can be used for assembly of walking excavator boom. Device for tacheometric observations, including a landmark with a magnetic tip and a reflector, further has a U-shaped housing, thickened in the central part of the crossbar, two legs which are symmetric with respect to the vertical axis and which are support elements having rounded magnetic elements at the ends, and the pole is installed in passing through thickened central part of body through hole, with possibility of translational movement, wherein one end with magnetic sharp tip is located in middle between support elements, and on second, extending outward from above, reflector is installed and fixed, wherein the housing has cylindrical levels, one of which is parallel to the pole, and the other – at a right angle to it.EFFECT: technical result is that it is possible to determine the location of the axis, take a count, id est obtaining coordinates of points, which means accurate connection of pipes.1 cl, 6 dwg

Description

The invention relates to geodetic instruments, namely, to instruments for taking readings when performing a tacheometric survey of pipes in a horizontal position, and can be used when assembling the boom of a walking excavator.

For convenience, we use the name of the device "totan", which is the word formation from the Cart-Reflector for Total Station Observations.

To date, to take readings during a tacheometric survey, milestones with reflectors, mini-prisms, reflective films (marks) are used. You can also use the reflectorless total station mode. However, using all of the above, it is difficult to find the center of the pipe from above, from the side, or from below its surface.

Closest to the proposed invention in technical essence is the LeicaGLSH mini-pole, which has a fitting type fitting (for installing a reflector), a tip and a round level. However, using this known device, it is also difficult to find the exact position of the axis or horizon of the pipe in a horizontal position / https: // alfa-consulting.ru/product/miniveha-leica-gls 14 /.

The problem solved by this invention is to create a device that allows you to find the exact location of the axis of the pipe located horizontally, which is necessary when performing work on the joining of pipes, for example, the upper belt of the arrow of a walking excavator.

The essence of the invention lies in the fact that the device for tacheometric observations, including a pole with a magnetic tip and a reflector, additionally has a U-shaped case, thickened in the central part of the crossbar, having two legs symmetrical with respect to the vertical axis, which are supporting elements with ends rounded magnetic elements, and the pole is installed in a hole passing through the thickened central part of the body, with the possibility of translational movement, while one of its ends with a sharp magnetic tip is located in the middle between the supporting elements, and a reflector is mounted and fixed on the second, facing outward from above moreover, on the case there are cylindrical levels, one of which is parallel to the milestone, and the other is at right angles to it.

The invention is presented in: FIG. 1 - Totan; FIG. 2 - Sampling; FIG. 3 - Totan installation options; FIG. 4 - Installing the totan on top of the pipe; FIG. 5 - Installation of the totan on the side of the pipe, FIG. 6 - Installing the totan from the bottom of the pipe.

The device consists of (see Fig. 1): a U-shaped body 1, with a thickening in the central part of the crossbeam, with two legs symmetrical about the vertical axis 6, which are supporting elements 2, having rounded magnetic elements 3 at the ends, milestones 4, installed in a hole passing through the thickened central part of the housing, one end of which with a magnetic sharp tip 5 is located in the middle (on the axis 6) between the supporting elements 2, and on the second, coming out of the central thickened part of the housing, there is a mount 7, for example, of the fitting type, on which a reflector 8 is mounted, fixed by means of a clamping screw 9. You can also install an adapter in the mount 7 for using other types of reflectors known today - a prism, a 360 ° prism, and reflective film. The drawings show a film reflector. There are cylindrical levels, one of which 10 is located vertically-parallel to the pole, and the other 11 is horizontal, at right angles to it. From rolling down when mounted sideways, the device can be fixed with a shoe-type stop (see Fig. 5, which consists of a housing 12, a magnetic sole 13, a persistent (non-magnetic) part 14, a latching mechanism 15 for extending the resistant part. the sole 13 of the shoe is attached to the surface of the pipe so that the retractable thrust part 14 rests against the bottom of the totan. To simplify the movement of the device on the surface of the pipe (during installation), the totan can have rotating support points in the form of wheels or rollers.

The novelty, in comparison with the known one, is the presence of 2 support points (in cross section), which, in contact with the pipe and the condition that the totan body is set to one of the main cylindrical levels (depending on the installation from above, from below or from the side) , create the opportunity to find the location of the axis of the pipe.

The device operates as follows.

Suppose that it is necessary to make a tacheometric survey of the upper boom of a walking excavator ES 20.90 horizontally lying on roller bearings (during installation) and determine the deviations (bends) from the axis in the plan and in the vertical plane. In FIG. 2, for illustration, schematically shows 3 parts of the upper belt of the boom (in fact it consists of 4), which is a pipe 16 consisting of several parts, in this case 3 - 17, 18, 19. Roller supports and a tripod total station not shown.

Taking samples. Consider FIG. 2. Install the total station 20 on a tripod (tripod not shown), center it, adjust, and get to work - taking samples. To do this, one by one, in the area of the joints of the pipe parts, we install the totan, exposing it to the appropriate level, and using a total station, pointing it to the crosshair of the reflector, take a count. Totan can be installed on top 21, side 22, or bottom 23. It is best to install it on top, but this is not always possible, in this case, taking samples 24 can be done from the side or bottom. For a complete vision of the situation, you can take readings from all sides. When taking samples, accept corrections: in height (if the totan is above or below). This can be done immediately on the spot using a total station, setting the milestone height in it, which is constant for the totan (if the plus sign is on the top, and the minus sign is on the bottom); deviations towards the center of the pipe by an amount equal to the height of the milestone. This can be done during processing using GIS programs (for example, AutoCAD, graphically plotting distances in Carlson using the offset3d command). But even without making a bias, one can already judge the deviations.

In FIG. 3 shows: pipe 16 (in cross section) and installation position of the totan. In the position above 21, the totan is installed (at a cylindrical level 11 above the center (axis) of the pipe 25. In the side position 22, the totan is installed (at a cylindrical level 10 at the same level (horizon) with the axis 25 of the pipe. In the position from below 23, the totan is installed (along a cylindrical level 11) under the center of the pipe 25.

In FIG. 4, we consider in detail the installation of the totan from above. Moving the totan left and right along the surface of the pipe 16, we establish a bubble of a cylindrical level 11 exactly in the middle. If you look at the cross section of the pipe with the installed totan, you can see that the axis of the cylindrical level e-g will be parallel to the line s-i of the connection points A and B - the points of contact with the supporting elements 2 of the pipe. And the axis of the totan is l-m at the highest point of the pipe B, which is located on an arc passing along the surface of the pipe 16 between points A and B, i.e. exactly in the middle - it will pass through the center of the pipe. Since the radius of the pipe can be different, and accordingly the bending of the arc, the pole 4 in the housing 1 has a reciprocating movement, and is pressed against the surface of the pipe at point B using a sharp magnetic tip 5 (see Fig. 1).

In FIG. 5 we consider in detail the installation of the totan on the side. Moving the totan up and down along the surface of the pipe 16, we establish a bubble of cylindrical level 10 exactly in the middle, which will mean that the totan is installed correctly. If you look at the cross section of the pipe with the totan installed, you can see that the axis of the cylindrical level e'-g 'is parallel to the axis m'-l' of the totan, which coincides with the level (horizon) of the tube axis. Since the radius of the pipe can be different, and accordingly the bending of the arc, therefore, the pole 4 in the housing 1 is movable and is pressed to the surface at point B 'using a magnetic tip 5 (see Fig. 1). From rolling down the surface of the pipe, the totan can be supported by a shoe. Using a magnetic sole 13, the shoe body 12 is attached to the surface of the pipe 16 so that the retractable thrust part 14 abuts against the bottom of the totan body. In order to move the shoe during installation (on a cylindrical level), the totanane has a finishing mechanism 15 on it, turning the handle of which you can extend or retract the stop part, thereby moving the totan on the surface of the pipe 16, lower or raise it until it is exposed to the cylindrical level .

In FIG. 6 consider in detail the installation from below. Moving the totan left and right along the surface of the pipe 16, we establish a bubble of cylindrical level 11 exactly in the middle, which will mean proper installation. If you look at the cross section of the pipe with the totan installed, you can see that the axis of the cylindrical level e '' - g '' will be parallel to the line s '' - and '' passing through A '' and B '' - the contact points of the supporting elements 2 of the pipe, and the totan axis L '' - m '' at the lower point of the pipe B '', which is located in the middle on an arc passing along the surface of the pipe 16 between points A '' and B '', will be located under the center of the pipe where its axis passes. Since the radius of the pipe can be different, and accordingly the bending of the arc, therefore, the pole 4 in the housing 1 is movable and is pressed to the surface at point B '' using a magnetic tip 5 (see Fig. 1).

Note: from slipping on the surface of the pipe, a thrust shoe can be installed under it. Also, instead of a milestone, when taking tacheometers of readouts from the side in reflectionless mode, instead of a milestone, a marker of the corresponding diameter, or equipped with an adapter, i.e. instead of the reflector, a marker (felt-tip pen) is inserted and with a tip it puts (draws) a point. The totan is removed, and the readout is taken by the total station in reflectorless mode, already pointing its telescope at a point.

The technical result of the use of the invention is that it is possible to determine the location of the axis, take a reference, i.e. get the coordinates of the points, which means that you can accurately dock the pipes.

Claims (1)

A device for tacheometric observations, comprising a pole with a magnetic tip and a reflector, characterized in that it additionally has a U-shaped body thickened in the central part of the crossbar, two legs of which are symmetrical with respect to the vertical axis, are supporting elements having rounded magnetic elements at the ends, and a pole is installed in a hole passing through the thickened central part of the body, with the possibility of translational movement, while one of its ends with a magnetic sharp tip is located in the middle between the supporting elements, and a reflector is mounted and fixed on the second, facing outward from above, and there are cylindrical levels on the body , one of which is parallel to the milestone, and the other is at right angles to it.

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