RU2171449C1 - Geodetic level - Google Patents

Abstract

FIELD: measurement technology, specifically, geodetic instrumentation. SUBSTANCE: geodetic level is intended for determination of slopes and check of verticality of construction structures. It has case housing laser and level. Case is coupled to support via axial system and is mounted for turn. Support has three adjustment screws and horizontal limb. Cylindrical lens with rotary device and vertical limb are mounted on face surface of case across output of laser. EFFECT: increased precision and expanded functional capabilities thanks to possibility of horizontal scan of beam to plane. 3 dwg

Description

 The invention relates to the field of technical physics, in particular to geodetic instrument engineering, and can be used in construction, geodesy and metrology to determine slopes and verify the verticality and perpendicularity of building structures.

 Known leveling laser systems using optical-mechanical scanning of a laser beam into a plane by means of a rotating pentaprism [1]. The presence of rotating optical parts in these systems makes devices more expensive and reduces their reliability.

 Laser levels are also known that allow the alignment of horizontal, vertical and inclined surfaces [2].

 The disadvantage of these devices is the lack of a laser beam in the plane.

 The closest analogue (prototype) to the claimed invention in terms of features is a level containing a laser, a device for installing it on a base with support adjusting screws and a liquid horizon sensor with a mirror system for easy observation of the sensor liquid level. Additional devices allow, if necessary, to install the laser in an orthogonal plane [3].

 The known device allows for work with a horizontal laser beam, using any sufficiently fluid liquid poured into the working cell of the device. However, it does not have the ability to sweep the beam into a plane, in addition, the horizon level sensor is mechanically connected to the base of the device, and not to the laser beam.

 The problem solved by the present invention is to improve the accuracy of the horizontal alignment of the beam and the expansion of functionality due to the possibility of optical scanning of the beam in the plane.

 To solve this problem, in a level containing a body with a laser and a level placed on a stand with three adjusting screws, the two side faces of the stand are mutually perpendicular, the laser body is mounted to rotate around an axis passing through the center of the limb located on the horizontal surface of the stand, and combined with the axis of the adjusting screw with the center. A vertical limb and a rotary device with a cylindrical lens are fixed on the end surface of the housing.

The invention is illustrated by drawings:
in FIG. 1 shows a laser level in section;
in FIG. 2 shows a level view from above;
in FIG. 3 is a view of the laser housing in the direction of arrow A.

 The level contains a housing 1, in which a laser 2 and a bubble level 3 are placed. The laser housing 1 is connected to the stand 4 through the axial system 5. The stand 4 has three adjusting lifting screws 6 and a limb 7. At the output end of the laser case 1, a developing cylindrical a lens 8 mounted in a rotary device 9, allowing you to rotate the laser plane relative to the horizon by an angle, the value of which is set according to the limb 10.

 The device operates as follows. The level is placed in a predetermined place and, with the help of adjusting screws 6, the level 3 bubble is brought to the middle position. If necessary, the tip of the lifting screw 6, the axis of which coincides with the axis of rotation 5 of the laser housing 1, is placed on the center of the reference point. Next, make center or filming work on a horizontal laser beam. In this case, it is possible to postpone angles on the terrain along the horizontal limb 7. Using the same scale 7 and mutually perpendicular faces of the stand 4 allows you to use the device as a laser square.

 If it is necessary to have a laser plane, a cylindrical lens 8 is mounted at the exit of the laser emitter 2 in a removable rotatable frame 9. Using the vertical dial 10, any tilt angles of the laser plane can be set or measured.

 The invention is simple in design and operation. It lacks optical-mechanical deploying devices with an electric drive to obtain a constant laser plane. It allows you to quickly conduct many leveling and alignment work by one employee.

Sources of information
1. Rotational laser levels AS112 and AS114. Journal "Geo" N 5, 1999, OJSC Company "Geoprin".

 2. Laser level UL2. Geo Magazine N 5, 1999, OJSC Geoprin Company.

 3. Patent RU N 2146356, cl. G 01 C 9/20, 1999

Claims (1)

 A level containing a case with a laser and a level, placed on a stand with three adjusting screws, characterized in that the two side faces of the stand are mutually perpendicular, and the body is mounted to rotate around an axis passing through the center of the limb located on the horizontal surface of the stand, and combined with the axis of the adjusting screw with the centering, with a vertical limb and a rotary device with a cylindrical lens mounted on the laser output mounted on the end surface of the housing.

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