SU965875A1 - Method of testing the height of structural elements and contours of ship hull - Google Patents

Description

one

The invention relates to shipbuilding and relates to a technology for checking the position of the height of structures and hulls of a ship hull.

The known method of checking the position of the height of the structures and hulls of the ship hull is that the test point is projected onto the base surface, measured with a theodolite installed together with a graded rail on the slipway plate with the base point, the slope of the line of sight passing through the inspected point relative to the theodol horizon; ha, and determine the height by the magnitude of the obtained angle 1 J.

The disadvantage of this method is high labor intensity and low accuracy.

The purpose of the invention is to reduce the labor intensity and increase the accuracy of measurements during verification.

The goal is achieved by placing the theodolite above the base point, arbitrarily located on the pile sheet above the projection of the tested point, centering the graduated rail. and ensure that it is vertical that the horizontal grid dash of the theodolite telescope is zeroed on the calibrated zero bar, Q reiki and the angle of inclination of the optical axis of the theodolite relative to the horizon is measured, and then the theodolite pipe is placed in the zero position of the vertical circle and the segment value is read on the said rail between its left dash and a point that coincides with the horizontal dash of the theodolite telescope's telescope grid in its horizontal position.

Fig, 1 shows a section of stocks

20 with a portion of a building vessel located above it, plan view; Fig. 2, section A-A in Fig. 1, The position check on the height of the structures and hulls of the ship hull is carried out (using the example of measuring the height relative to the main plane of the outer skin points during the checking of the hulls of the ship) as follows. To measure the height of some point A | on the outer plating of 1 vessel,. built on a horizontal building berth, the plate of which is a base 2, by means of a known optical method (by intersecting 2 vertical planes on the base surface, sighted by a theodolite from two positions and passing through the point being inspected) point A, while its projection is A. Above point A, centering the vertical rail 3i mounted on tripod 4 and equipped with a circular level 5, ensuring its verticality. On the base surface 2, i.e., theodolite 6 is installed on the slipway plate above the base point B in the plan relative to the projection of point A; The point m of the crossbite + and the horizontal and vertical grid lines of the visual Tpy & i theodolite 6 per test point A are fixed, the vertical axis of theodolite is fixed from rotation and the angle 4A 8B is measured; the slope of the line of sight relative to the horizon theodolite. Following this, the imitation of the theodolite 6 telescope on rail 3, combining the horizontal bar of the pipe grid with the zero line (point c) of millimeter graduation of the rod 3 and measuring the inclination angle (-DBC 0) (e: the axis of the pipe relative to horizon of theodolite 6. Theodolite pipe 6 is transferred to the zero position of its vertical circle (i.e., into the instrument horizon), the horizontal axis of the theodolite is fixed from rotation and the size of the vertical linear segment CO is read (at point D), t the distance between its zero w The point and point coinciding with the horizontal grid of the telescope teodolite 6 in its horizontal position Release the rotation of the vertical axis of theodolite 6, transfer its telescope to the stationary vertical structure 7 in the stocks (slipway column, cteHKy dry dock, and so on. p.), on which the main plane 8 of the constructed vessel is controlled (point F) and the vertical distance EF between the horizontal dash grid of the theodolite pipe 6 and the main plane 8 of the vessel is measured by a ruler. Following this, on the basis of the obtained angular and linear data and, using trigonometric functions of the angles, the position of point A in height relative to the base plane 8 is determined, i.e. the length of the segment H is found using the formula H AiK-CD When the theodolite is installed over the base point B, it is necessary to perform an operation of its alignment over this point nln, since its position in the plan is arbitrary and must be ensured only by the convenience of viewing with TOM pacnojioweHvtn on the stocks of forests, towers and rugih devices that there could be an obstacle for performing parity operations. . - ,, Proposed verification work. described above using the example of building a ship with a horizontal staggele, but equally they can be carried out on inclined stocks x, while the checked points of the ship’s hull structures are projected onto any, including non-horizontal and uneven surfaces, which in this case play the role of basic ( surface of the stocks, second floor decks, foundations: etc.) Based on the use of modern accurate theodolites, this method provides high accuracy of measurements of linear dimensions (error within ± 0.5 mm). The technical and economic effect of the proposed invention is to reduce the laboriousness of the verification work and increase the measurement accuracy, increase the production culture.

Claims (1)

Invention Formula The method of checking the position of the height of the structural elements and hulls of the ship's hull, consisting in that the 5 point to be checked is projected onto the base surface, is measured by a theodolite installed with a graduated rack on the slipway plate with the base point, the angle of inclination of the line of sight, passing through the inspected point relative to the theodolite horizon and determine the height by the magnitude of the angle obtained, and with the aim of reducing the labor intensity and increasing the measurement accuracy during testing, the theodolite is set to Tomka base, arbitrarily placed on the plate above the projection slipway emoy Melting checked, price-20 triple the graduated rail and provide its verticality, put a horizontal bar of the theodolite telescope grid on the zero bar of the graduated rod and measure the angle of inclination of the optical axis of the theodolite relative to the horizon, then transfer the theodolite pipe to the zero position of the vertical circle and read on the said rail the value of the interval between the spaces with its zero stroke and the point coinciding with the horizontal stroke of the grid of the Theodolite Telescope in its horizontal position. Sources of information, taken into account in the examination I. Danilenko G, S. Geodetic support installation work. M., / Nedra, 1971, p. flQ (prototype).