SU1092090A1 - Buoy for hydrological studies - Google Patents

Abstract

BUOY FOR HYDROLOGICAL STUDIES, containing the upper sealed and lower unpressurized compartments, instrument containers mounted in the unpressurized compartment and connected to each other by a carrying cable, attached to a ballast cover matched to the lower unpressurized compartment, which is connected by one of the panels that are attached to the bottom of the unpressurized compartment, connected to the bottom of the unpressurized compartment. reliably deploying instrument containers to vertical hydroline and increasing the information content of exploratory hydrological parameters by increasing the length of the hydroline while maintaining the same the dimensions of the device, the instrument containers in it are made in the form of flat circular coils and are laid coaxially and sequentially on top of each other, each of the instrument containers including a cylindrical base with instruments placed in it, disks attached to this foundation and a carrier for laying Archimedes spiral cable carrying cable in two branches between the discs, made with plates covering the cylindrical base with i discs and fastened together at Iw the ends of the axles with guide rollers dy which passed a carrying cable, with one of its branches is connected to the previous container instrumentation, and other - followed.

Description

The invention relates to oceanographic research, in particular, to hydrological research buoys. A buoy is known for hydrological research, containing upper hermetic and lower unpressurized compartments, instrument containers mounted in the unpressurized compartment and interconnected by a load-carrying cable attached to a ballast cover matched with the lower unpressurized compartment 1. However, the known device is characterized by insufficient reliability deploying instrument containers to vertical hydroline, i.e. the possibility of wrapping the carrying cable. The purpose of the invention is to increase the reliability of the deployment of instrument containers to the vertical hydroline and to increase the information content of the hydrological parameters under study by increasing the length of the hydroline while maintaining the same dimensions of the device. To achieve this goal, in a hydrological research buoy, the upper containment and lower leaky compartments are in place, instrument containers mounted in the unpressurized compartment and interconnected with a load-carrying cable attached to a ballast cover matching the lower leaky compartment, the instrument containers are made in the form of flat circular coils and laid coaxially and sequentially one on another, each of the instrument containers includes a cylindrical base with n PSI, wheels attached to the bottom of this,. and drove for laying the carrying cable in an Archimedes spiral into two branches between the disks, made with plates covering a cylindrical base with disks and fastened together at the ends of the axes with guide rollers, between which the load-carrying cable is passed, one of its branches is connected to the previous instrument container, and the friend followed. FIG. 1 schematically shows the proposed hydrological research buoy, longitudinal section; Fig: 2 - instrument container; in fig. 3 - the same, top view. The instrument containers 1 are installed in the lower unpressurized compartment 2 (Fig. 1). The container includes a base 3 in the form of a hollow cylinder with a sealed lid 4 (FIG. 2), inside of which are placed the boards 5 with electronics. Disks 6 are attached to the base 3, between which a carrying cable 7 is placed in two branches. It enters the container through the pressure seals 8. The temperature sensor 9 is located on the outer side of the base 3. On the container 1 it is movable in grooves rotatably around the axis of the container vbdilo 10, which consists of plates covering the base 3 with the disks 6 and the axles 11 fastened together at the ends. Axles 11 are equipped with rollers 12. The load-carrying cable 7 is passed between the rollers 12 (Fig. 3). Each container 1 is connected through a sealed cable 8 to the load-carrying cable 7, which is fixed on the base 3 of the container 1 so that the pressure lead 8 does not absorb the load when the load-carrying cable 7 is tensioned. The lower end of it is attached to the ballast cover (deepener) 13 (Fig. 1) and the upper end is fixed in the upper sealed compartment 14. The ballast cover 13 is fixed relative to the hull by the lock 15. The buoy for hydrological research works as follows. When staged, the ballast lid 13 is released and the load-carrying cable 7 is freely deployed by the weight of the ballast cover. Its separation is carried out on command from the upper compartment 14 using a signal from one of the command devices: a temporary, hydrostatic, or other principle of operation. As long as there is no tension on the two branches, the carrying cable from the container coil cannot be unwound, this condition is ensured by the rollers 12, between which it is missed, which increases reliability and eliminates the possibility of uneven deployment of the hydroline to the working position. The hydrolines are stabilized in a vertical position by means of a ballast cover 13 (deepener) during operation. It houses a measuring container with temperature and hydrostatic pressure sensors. In order to stabilize the ballast cover relative to the carrying cable, and also to increase the jerk at the end of the hydroline deployment, it is connected to four springs, each of which is connected with a clip of an earring and with its other end to the body of the ballast cover by means of a nylon cord. The amount of stretching of each spring is limited by a nylon strap placed inside the spring (not shown). In order to ensure the orderly unwinding (winding) of the load-carrying cable, each container is equipped with a carrier 10. The proposed device makes it possible to increase the reliability of the deployment of the instrument containers into the vertical hydroline and increase the length of the latter.

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Claims (1)

HYDROLOGICAL RESEARCH BUOY, comprising upper sealed and lower unsealed compartments, instrument containers mounted in an unpressurized compartment and interconnected by a load-bearing cable attached to a ballast cover interfaced with the lower unpressurized compartment, with the aim of increasing reliability, deploy instrument containers in a vertical hydroline and increase the information content of the studied hydrological parameters by increasing the length of the hydroline while maintaining the same gab device, in it the instrument containers are made in the form of flat round coils and stacked coaxially and sequentially one on top of the other, each of the instrument containers includes a cylindrical base with devices placed in it, disks attached to this base, and a carrier for laying a load-carrying cable in a spiral of Archimedes in two branches between the disks, made with plates covering a cylindrical base with disks and axles fastened together at the ends with guide rollers between which launched the carrying cable, with one of its branches is connected with the previous instrument container, and the other - followed. ω I