RU173226U1 - DEVELOPMENT ANGLE SLOPING ANGLE - Google Patents

Abstract

The utility model relates to measuring devices used in the construction and repair of pipelines to control the steepness of slopes of pits and trenches. The device for controlling the slope angles of a pit contains a flat body mounted on a tripod with the possibility of its installation in a vertical plane, a laser pointer mounted on the body with rotation relative to the axis perpendicular to the axis of the pointer in a plane parallel to the plane of the housing, and means for determining the position of the housing relative to the horizon made in the form of a corrective laser, pivotally mounted on the central axis of the casing and is a means of determining the installation location of the device relative to the edge of the pit, while a goniometric scale is applied to the surface of the casing. 3 ill.

Description

The utility model relates to measuring devices used in the construction and repair of pipelines to control the steepness of slopes of foundation pits and trenches.

The prior art device for monitoring the slope of the excavation pit (see RF patent for utility model RU 144031), selected by the authors as a prototype, includes a flat body mounted on a tripod with the possibility of installation in a vertical plane, a laser pointer mounted on the body with rotation relative to the axis perpendicular to the axis of the pointer in a plane parallel to the plane of the body, the device also has means for determining the position of the body relative to the horizon, made in the form of a plumb line (arrows).

The specified device does not provide sufficient accuracy and speed to control the slope of the pit, since it does not provide a means of determining its installation relative to the edge of the pit.

The objective of the claimed utility model is to develop an effective device for controlling the slope of the excavation pit.

The technical result of the claimed utility model is to increase the accuracy and efficiency of monitoring the slope of the excavation pit.

The specified technical result is achieved due to the fact that the device for monitoring the slope of the excavation pit contains a flat body on which a goniometer scale is applied, a laser pointer mounted on a tripod mounted on the central axis of the body with rotation, a correction laser, which is a means of determining the position of the body relative to the horizon and determining the installation location of the device, pivotally mounted on the central axis of the housing.

Unlike the prototype, in which there is no means for determining the installation location of the device relative to the edge of the pit, the claimed device uses a correction laser pivotally mounted on the central axis of the housing. This difference allows you to more accurately and efficiently install a tripod with the claimed device mounted on it and, therefore, improve the accuracy and efficiency of determining the slope of the excavation pit.

The problem in the speed and accuracy of measurement is related to the fact that the tripod has a “tripod” design and does not have a projection of the central axis of the housing on which the laser pointer is mounted on the installation plane, which does not allow to determine the exact distance from the edge of the foundation pit to the installation site of the angle control device pit slope.

The list of drawings:

in FIG. 1 shows the body of the device for monitoring the slope of the excavation pit, mounted on a tripod,

in FIG. 2 shows a diagram of the control of the slope of the pit using the claimed device,

in FIG. 3 - a method of bringing the slope of the pit to the required value.

The slope angle control device (see Fig. 1) contains a flat casing 1 mounted on a tripod 6 with supports 7, a goniometric scale 2 is applied on the front surface of the casing 1 (the scale has a gradation from 0 ° to 90 °), a laser pointer 3 mounted on the central axis of the housing rotatably, a correction laser 4, pivotally mounted on the central axis of the housing 1, is a means of determining the position of the housing relative to the horizon and a means of determining the installation location of the device relative to the edge of the pit (see Fig. 1).

Control the steepness of the slopes of the pit using the claimed device is as follows.

A tripod 6 with a device mounted on it is mounted on the ground at a distance from the edge of the foundation pit and at a height of 1.5 meters from the ground. The distance of the sun is measured from the projection onto the earth of the beam 9 of the correction laser 4 to the edge of the pit, (see Fig. 2). Then configure the device. For this, the laser pointer 3 is set to the required division of the goniometer scale 2, corresponding to the required maximum allowable slope angle, and then the device body 1 is positioned strictly vertically in level so that the risk 5 placed on the correction laser 4 coincides with the 90 ° division on scale 2 .

Then they control the slope steepness along the entire perimeter of the pit. If the beam 8 of the laser pointer 3 hits the point A (see Fig. 2a), then the repose angle of the excavation is less than or equal to the specified one, i.e. the steepness of the slope corresponds to the required. If beam 8 does not reach point A (the edge of the excavation blocks its path or the beam passes through points B and F (see Fig. 2b)), then the slope angle is greater than the specified angle and, therefore, the slope slope does not correspond to the required one.

In this case, it is necessary to postpone the distance L (L - the distance from point A to point F) from the edge of the pit and cut the soil to reduce the slope of the pit (see Fig. 3.) and then repeat the control operation.

Thus, the design of the claimed device provides operational and accurate control of the steepness of the slope of the pit.

Claims (1)

A device for monitoring the slope of the excavation pit, comprising a flat body mounted on a tripod with the possibility of installing it in a vertical plane, a laser pointer mounted on the body with the possibility of rotation about an axis perpendicular to the axis of the pointer in a plane parallel to the plane of the body, and means for determining the position of the body relative to the horizon wherein a goniometric scale is applied to the surface of the housing, characterized in that the means for determining the position of the housing relative to the horizon is made in the form e corrective laser, pivotally mounted on the central axis of the housing and is a means of determining the installation location of the device relative to the edge of the pit.

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