SU1080011A1 - Device for centering geodetic instrument - Google Patents

Abstract

A DEVICE FOR CENTERING A GEODESIC DEVICE, containing a removable landing element, characterized in that, in order to increase labor productivity when working with geodetic signs of various designs, it is equipped with a centering platform with three lifting screws, to which a removable landing element is rigidly attached, the shape the lower end of which corresponds to the shape of the head of the geodetic mark. (L

Description

The invention relates to geodetic instrumentation, in particular, to devices for centering geoscopic instruments. A device for the forced centering of a theodolite is known, comprising a ball crocheted with a cone-shaped bottom to the flange of the base of the theodolite body. The price of the geodetic mark is determined by the axis of the cylindrical hollow bushing located in the center of the site on which the theodolite is installed. Centering is performed by sliding the ball with the tool into the geodesic sleeve. In the production of angular measurements, the need arises for centering the theodolite over the geodetic signs of different designs. Above ground bench marks, centering is performed using an optical plunger, and above signs to force centering, using various fixtures that combine the vertical axis of rotation of the theodolite with the center-geodetic sign Cl. The known device for the forced centering of the theodolite eliminates the possibility of centering the tool over the ground marks using an optical plummet, since the lens of the optical center is covered with a ball. Closest to the invention is a device for forced centering, comprising a cylindrical hollow sleeve attached to the base of the theodolite. The prices of the site of the geodetic mark on which the theodolite is installed is a ball. When the tool is centered, the sleeve of the centering device is pushed onto the ball. The vertical axis of rotation of the theodolite at the same time passes through the center of the C 2 ball. The described device excludes the possibility of centering the theodolite over ground marks with a pseudo-optical centerpiece, since when the sleeve is attached to the base of the instrument, it is not possible to mount the theodolite on a tripod. The aim of the invention is to increase labor productivity when working with geodetic signs of various structures. The goal is achieved by the fact that the device for a centrirovine geodetic instrument containing. The outer detachable element of the landing unit is equipped with a centering platform with three lifting screws, to which the removable element of the landing unit is rigidly attached, the shape of the lower end of which corresponds to the shape of the head of the geodetic mark. The drawing shows the proposed device. The device comprises a removable centering platform 1, a geodesic sign 2, lifting screws of the platform 3, a concave hemisphere 4 of the base of the mill screw 5, a ball 6, and a patch level 7. For performing theodolite forced centering, the removable centering platform 1 is mounted on the geodetic mark 2, after which the rotation of the lifting screws 3 achieve the fit of the concave hemisphere 4 of the base of the stanza 5 on the ball 6, controlling the horizontal centering platform 1 by the level 7. The center screw axis 5 then passes through the center of the ball 6. The theodolite is screwed onto the base screw 5 and leveled by the tool's lifting screws. The centering platform is made in the form of an equilateral triangle with a side of 300 M4 of duralumin plate with a thickness of 20 mm and is equipped with three lifting screws made of brass with a threaded portion of 7Q mm long. Knurling is made on the screw heads for easy rotation. The diameter of the screws is 12 mm, the thread is shallow. In the corners of the centering platform, holes with a diameter of 16 mm are drilled into which brass bushings with an internal thread for lifting screws are planted. The hemisphere is concave at the base of the screw and the Ml4 thread has a diameter of 8 mm. The mill screw is inserted into a 10 ml hole drilled in the center of the centering platform. The ball has a diameter of 7.99 mm. The use of the described device allows the tool to be centered over soils with reference points and marks for forced centering with the same theodolite, while using the known ARD device for forced centering. The tel must be provided with two theodolites; one to center above ground references, and the other to perform G centering. Saving is calculated using the formula E K (where K is the number of performers, the number of theodolites, servicing without the use of the proposed device

the number of theodolites serving the work with the use of the proposed device;

the cost of one theodolite (for an exact theodolite T2 С 1390 p.), Э 1 (/ р., (for each performer},

Claims (1)

(.54) A DEVICE FOR CENTERING A GEODESIC INSTRUMENT, comprising a removable landing unit element, characterized in that, in order to increase labor productivity when working with geodetic signs of various designs, it is equipped with a centering platform with three lifting screws, to which a removable landing element is rigidly attached node, the shape of the lower end of which corresponds to the shape of the head of the geodetic sign.