SU482344A1 - The method of contouring sections and blocks of the hull - Google Patents

Description

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This invention relates to shipbuilding.

Known methods of contouring sections and blocks of the hull of the vessel in a clean size using a meter and a theodolite located outside the mounting allowance by centering it over a controlled line, such as the diametrical plane or the main line of the vessel, installing the ontotic axis of theodolite in a plane parallel to the mounting joint, measuring the distance from this plane to the point defining the dimensions of the section (block) and the cutting point marking along the perimeter of the section (block).

The purpose of the invention is to improve the accuracy and osun:; the revision of the contour sections (blocks) on an inclined slipway.

This is achieved by marking the horizontal plane position at three points, one of which is located on the vertical extension of the monitored line, determining the angle of the section (block) and marking the projection of this angle the vertical extension of the monitored line, return the theodolite telescope to the horizontal position and tilt the theodolite together with the base on which it is installed until the theodol ita with the mark of the angle of inclination of the section (block)

on the vertical extension of the monitored line, when measuring the distance from the plane and parallel to the assembly joint, to the point of the section (block) defining its dimensions, lay the measured distance on the meter, for example, gauge, between the core and the crosshair moving along the gauge in the form of a trace the intersection of the horizontal and vertical planes, made on two parallel platforms, and at the point of cutting points, combine the theodolite cross with the cross of both areas of the surface gauge.

FIG. 1 axonometrically contoured bottom section; in fig. 2 - the edge of this section with a theodolite mounted on it, top view; in fig. 3 - gauge, preassigned to mark the section (block) of the cut points of the assembly and reposition; in fig. 4 - the foundation for the theodolite.

The described method is carried out as follows.

Take a theodolite 1 (without a tripod), for example, brand TB-3, and install it on the foundation 2 so that the theodolite is located outside the mounting nripuska. The foundation 2 is made in such a way that its upper base 3 has the possibility of longitudinal, lateral movement and inclination along the section (block).

Theodolite 1 is centered over a controlled line (in this case, the diametrical plane is the DP line in Fig. 1), for which it is placed in a horizontal position, by moving the upper base 3 of the foundation 2, align the axial line of theodolite optical plummet with the continuation of the DP line, and the dash line theodolite vertical line - with the DP line on the end of the section (block) opposite to the theodolite.

The position of the horizontal plane is marked by three points, one of which is plotted on the vertical extension of the monitored line, for example point A on the transverse bulkhead 4, and two other points B and C can be marked on the vertical columns 5 located symmetrically relative to the monitored line.

Determine the angle of inclination of the section (block) and mark the projection of this angle a (point F) on the vertical continuation of the monitored line.

Return the teodolite telescope 1 to a horizontal position (before aligning the horizontal telescope with point A on the vertical extension of the AM) and tilt the theodolite together with the base 3 on which it is installed until the optical axis of the theodolite coincides with the mark (point F) of the angle a the slope of the section (block) on the vertical continuation of the controlled line DP.

In this case, the theodolite is set at an angle corresponding to the angle of inclination of the section.

Then set the optical axis of theodolite 1 in a plane parallel to the mounting junction (Fig. 2 shows the trace OO of this plane) by turning the theodolite around a vertical axis by 90 °.

After that, the distance from this plane to the point on the section (block) defining its dimensions is measured, the measured distance on the meter, for example, surface gauge, between the core 6 and the cross along the surface gauge as a trace of the intersection of the horizontal and vertical planes 7 and 8, placed on two parallel platforms 9 and 10, moving along shtangi 11.

Then mark along the perimeter of the section (block) of the cutting point of the mounting allowance, combining the theodolite cross with the cross between both areas of the surface gauge.

Subject invention

The method of contouring sections and blocks of the ship's hull to a pure size using a gauge and a theodolite located outside the mounting allowance by centering it over a controlled line, setting the optical axis of the theodolite in a plane parallel to the mounting junction, measuring the distance from this plane to the point defined the dimensions of the section (block), and the cutting point marks along the perimeter of the section (block), characterized in that, in order to increase the accuracy and contouring of the sections (blocks) on the inclined slipway, before installing cal theodolite axis in a plane parallel to the mounting interface, note

The position of the horizontal plane on three points, one of which is plotted on the vertical extension of the monitored line, determine the angle of inclination of the section (block) and mark the projection of this angle on the vertical extension of the monitored line, return the telescope to the horizontal position and tilt the theodolite together with the base on which it is installed, to the coincidence of the optical axis of the theodolite with the mark of the angle of inclination of the section (block) on the vertical continuation of the monitored line, after measuring the distance from the plane, pa allelic field joints, to at section (unit) points defining the dimensions of it,

lay the measured distance on the gauge, such as gauge, between the core and movable along the gauge crosshair in the form of a trace of the intersection of the horizontal and vertical planes, rendered on two

parallel platforms, and at the point of cutting points combine the theodolite crosshair with the crosshair of both surfaces of the surface gauge.

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