Submarine survey platform and method for using the same

Abstract

A submarine survey platform, including: a gasbag; a gas tube; a floater; an upper longitudinal plate; a lower longitudinal plate; diaphragm plates including upper openings, lower openings, and trapezoid openings disposed between the upper openings and the lower openings; and diagonal braces. The upper longitudinal plate includes a flat plate and a flanged plate. The lower longitudinal plate is a rectangular plate. The upper longitudinal plate pass through the upper openings, and the lower longitudinal plate pass through the lower openings. The diagonal braces and longitudinal stiffeners are disposed between every two adjacent diaphragm plates. Two diaphragm plates at two ends of the flat plate are provided with a lifting lug. The diagonal braces are symmetrically disposed and include outward braces and inward braces which are crossed with each other. Cross points of the upper/lower longitudinal plate with the diaphragm plates are support points of the upper/lower longitudinal plate.

Claims

1. A submarine survey platform, comprising: a gasbag; a gas tube; a floater; an upper longitudinal plate; a lower longitudinal plate; diaphragm plates, the diaphragm plates comprising upper openings, lower openings, and trapezoid openings disposed between the upper openings and the lower openings; and diagonal braces; wherein the upper longitudinal plate comprises a flat plate adapting to support measuring instrument, and a flanged plate; the lower longitudinal plate is a rectangular plate; the upper longitudinal plate pass through the upper openings, and the lower longitudinal plate pass through the lower openings; the diagonal braces and longitudinal stiffeners are disposed between every two adjacent diaphragm plates; two diaphragm plates respectively disposed at two ends of the flat plate are provided with a lifting lug; the diagonal braces are symmetrically disposed, and comprise outward braces and inward braces which are crossed with each other; cross points of the upper/lower longitudinal plate with the diaphragm plates are support points of the upper/lower longitudinal plate; the gasbag is disposed in and passes through each of the trapezoid openings; one end of the gasbag is connected to the gas tube; another end of the gas tube is provided with an air valve, and the air valve is attached to the floater; the diaphragm plates are a trapezoidal frame, four edges of the diaphragm plates comprise first flanged plates, and the trapezoid openings are surrounded by second flanged plates; the diagonal braces employ trough type members, cross points of the outward braces and the inward braces are reinforced using bolt and nuts; and the longitudinal stiffeners are symmetrically disposed at a bottom of the lower longitudinal plate, and are a right-angle structure connected to the lower longitudinal plate and the diaphragm plates.

2. A method for using the submarine survey platform of claim 1, the method comprising: 1) descending the submarine survey platform, which comprises: providing a floating transport platform equipped with a winch and a cable; installing the measuring instrument on the flat plate; inflating the gasbag via the gas tube; charging the floating transport platform with water to descend the floating transport platform to support the submarine survey platform; allowing the flat plate to float on water surface, and employing an assistant tug to drag the submarine survey platform away from a deck of the floating transport platform; allowing the floating transport platform to float upward, connecting the winch and the lifting lug of the submarine survey platform using the cable; opening the air valve, allowing the submarine survey platform to descend and tension the cable; controlling, by the winch, the submarine survey platform to sink and sit on seabed; and loosening the cable, closing the air valve, and attaching the gas tube to the floater; 2) withdrawing the submarine survey platform, which comprises: picking up the gas tube attached to the floater; inflating the gasbag, and shutting down the air valve; and allowing the submarine survey platform to float on the water surface, descending the floating transport platform, employing the assistant tug to drag the submarine survey platform to the deck of the floating transport platform, and allowing the floating transport platform to floating upward, achieving the withdrawal of the submarine survey platform.

Description

BRIEF DESCRIPTION OF THE DRAWINGS S

(1) FIG. 1 is a schematic diagram of a submarine survey platform according to one embodiment of the disclosure;

(2) FIG. 2 is a front view of a submarine survey platform according to one embodiment of the disclosure;

(3) FIG. 3 is a side view of a submarine survey platform according to one embodiment of the disclosure;

(4) FIG. 4 is a schematic diagram of a diaphragm plate according to one embodiment of the disclosure;

(5) FIG. 5 is a local enlarged view of part A in FIG. 1;

(6) FIG. 6 is a cross-sectional view taken from line B-B in FIG. 2;

(7) FIG. 7 is a cross-sectional view taken from line C-C in FIG. 2;

(8) FIG. 8 shows a layout diagram of a submarine survey platform according to one embodiment of the disclosure;

(9) FIG. 9 a front view showing layout of a submarine survey platform according to one embodiment of the disclosure; and

(10) FIG. 10 a flow chart for laying a submarine survey platform according to one embodiment of the disclosure.

(11) In the drawings, the following reference numbers are used: 1. Upper longitudinal plate; 1a. Flat plate; 1b. Flanged plate; 2. Lower longitudinal plate; 2a. Longitudinal stiffener; 3. Diaphragm plate; 3a. First flanged plate; 3b. Trapezoid opening; 3c. Second flanged plate; 3d. Upper openings, 3e. Lower opening; 4. Diagonal brace; 4a. Outward brace; 4b. Inward brace; 4c. Bolt; 4d. Nut; 5. Gasbag; 6. Gas tube; 6a. Air valve; 7. Lifting lug; 8. Floating transport platform; 8a. Winch; 8b. Cable; 9. Floater.

DETAILED DESCRIPTION OF THE EMBODIMENTS

(12) For further illustrating the invention, experiments detailing a submarine survey platform and method for using the same are described below. It should be noted that the following examples are intended to describe and not to limit the invention.

(13) As shown in FIGS. 1-3, a submarine survey platform made of nonmetal materials is provided. The submarine survey platform comprises an upper longitudinal plate 1; a lower longitudinal plate 2; diaphragm plates 3; diagonal braces 4; and a gasbag 5. The upper longitudinal plate 1 comprises a flat plate 1a adapting to support measuring instrument, and a flanged plate 1b. The lower longitudinal plate 2 is a rectangular plate, and is connected to the upper longitudinal plate 1 via the plurality of symmetrically disposed diaphragm plates 3. The diagonal braces 4 and longitudinal stiffeners 2a are disposed between every two adjacent diaphragm plates 3, thus increasing the longitudinal bending strength. Two diaphragm plates respectively disposed at two ends of the flat plate are provided with a lifting lug 7 for hanging the submarine survey platform. The gasbag 5 is disposed in and passes through each of the trapezoid openings 3b. One end of the gasbag 5 is connected to the gas tube 6; the other end of the gas tube 6 is provided with an air valve 6a, and the air valve 6a is attached to the floater 9, so that the gasbag can be inflated through the operation on the water surface, achieving the implementation of ascending the submarine survey platform.

(14) FIG. 4 shows the structure of the diaphragm plates 3. The diaphragm plates comprise upper openings 3d, lower openings 3e, and trapezoid openings 3b disposed between the upper openings and the lower openings. The upper longitudinal plate pass through the upper openings, and the lower longitudinal plate pass through the lower openings. The design ensures the continuity of the longitudinal plates. Four edges of the diaphragm plates 3 comprise first flanged plates 3a, and the trapezoid openings 3b are surrounded by second flanged plates 3c; the folding directions are the same, thus increasing the stability of the submarine survey platform and the strength of the diaphragm plates 3.

(15) FIGS. 5, 6, and 7 show the structure of the diagonal braces 4 and longitudinal stiffeners 2a. The diagonal braces 4 employ trough type members and comprise outward braces 4a and inward braces 4b which are symmetrically disposed and crossed with each other; cross points of the outward braces 4a and the inward braces 4b are reinforced using bolt 4c and nuts 4d. The cross points of the upper/lower longitudinal plate with the diaphragm plates are support points of the upper/lower longitudinal plate. The structure and layout are beneficial to strengthening the local strength and reducing the deformation of the components. The longitudinal stiffeners 2a are symmetrically disposed at the bottom of the lower longitudinal plate 2, and are a right-angle structure connected to the lower longitudinal plate 2 and the diaphragm plates 3, thus reinforcing the entire structure of the submarine survey platform.

(16) FIGS. 8-9 show a layout diagram of the submarine survey platform of the disclosure. A floating transport platform 8 is employed to cooperate with the submarine survey platform to ensure the safety of the submarine survey platform in use. The floating transport platform 8 comprises a main deck, four winches are disposed on the main deck. The winches 8a are connected to the lifting lug 7 disposed at two ends of the flat plate of the submarine survey platform using the cable 8b. When the air valve 6a is in an open state, the winches 8a can control the submarine survey platform to sink gradually. The sink process is controlled by the winches, which is safe, reliable, convenient and efficient, can prevent the violent impact on the seabed due to the free sinking of the measuring platform.

(17) FIG. 10 a flow chart for laying the submarine survey platform according to one embodiment of the disclosure. The method for using the submarine survey platform comprises:

(18) (a) descending the submarine survey platform, which comprises: providing a floating transport platform 8 equipped with a winch 8a and a cable 8b; installing the measuring instrument on the flat plate la; inflating the gasbag 5 via the gas tube 6; charging the floating transport platform 8 with water to descend the floating transport platform 8 to support the submarine survey platform; allowing the flat plate la to float on water surface, and employing an assistant tug to drag the submarine survey platform away from a deck of the floating transport platform 8; allowing the floating transport platform 8 to float upward, connecting the winch 8a and the lifting lug 7 of the submarine survey platform using the cable 8b; opening the air valve 6a, allowing the submarine survey platform to descend and tension the cable 8b; controlling, by the winch 8a, the submarine survey platform to sink and sit on seabed; and loosening the cable 8b, closing the air valve 6a, and attaching the gas tube 6 to the floater 9;

(19) (b) withdrawing the submarine survey platform, which comprises: picking up the gas tube 6 attached to the floater 9; inflating the gasbag 5, and shutting down the air valve 6a; allowing the submarine survey platform to float on the water surface, descending the floating transport platform 8, employing the assistant tug to drag the submarine survey platform to the deck of the floating transport platform 8, and allowing the floating transport platform 8 to floating upward, achieving the recovery of the submarine survey platform.

(20) Unless otherwise indicated, the numerical ranges involved in the invention include the end values. While particular embodiments of the invention have been shown and described, it will be obvious to those skilled in the art that changes and modifications may be made without departing from the invention in its broader aspects, and therefore, the aim in the appended claims is to cover all such changes and modifications as fall within the true spirit and scope of the invention.