SU785108A1 - Ship load-handling device for handling a container with survey apparatus - Google Patents

Description

The invention relates to shipbuilding, in particular to ship hoisting devices for a container with research equipment.

Ship round-known lifting device for a container with a research appa- ⁵ ture, comprising a shaft lid mounted in the guide, the drives move the lid of the container and instrument mounted on a cable-rope (1].

However, such a ship tripping device is unreliable and has a complex structure.

The purpose of the invention is improving reliability _{) 5} in the work and simplifying the design of the ship tripping device.

For this purpose the ship's lowering and lifting device is provided with an annular valve seat with conical surface portion, a rope for pe- remescheniya duct cover ₂₀ and the pad designed as a round-the-rod. 'section with a T-shaped handle, and the lower' part of the shaft cover has the shape of a truncated cone, through shaft vertical holes and one radial F-shaped groove are made in the shaft cover, which connects the central vertical hole with the cylindrical generatrix of the cover, while the annular seat is installed in the bottom of the shaft, the shaft cover is installed flush with the bottom of the vessel and is made mated with its conical generatrix with the conical portion of the surface of the annular seat, the embedded element is installed in a radial F-image the groove of the shaft cover, the cable is guided into the central vertical hole of the shaft cover, and the cable to move the shaft cover is fixed on its upper surface with a shift from the central radial hole to the periphery in a radius opposite to the radial groove, and the cable is fixed in the form three-stage asymmetrical suspension.

In addition, the length of the sling of the suspension cable of the shaft cover, mounted on the end of the diameter of the cover, opposite the radial groove, refers to the length of the other lines, as 6: 6.

⁷ 85 108 nya for sia

In FIG. 1 schematically shows a shaft, a longitudinal section; in FIG. 2 is a section AA of FIG. one; in FIG. 3 is a section BB of FIG. 2.

The ship’s launching device comprises a cover 1 with through vertical holes 2 and a radial F-shaped groove 3 connected to the central hole 4. In the lower part, the cover 1 has a conical surface bottom of the shaft 7.

On the cover 1 there are mounted guns 8, to which slings 9 of the suspension are attached. A cable 10 is connected to the suspension, connected through the block 11 to the winch 12. The walls of the shaft 7 are provided with guides 13 for the cover 1.

The instrument container 14 is suspended on a cable cable 15 located in the central hole 4 of the cover 1. For lowering and raising the container, a drive and an oceanographic winch (not shown) are used.

Radial F-shaped groove 3 is provided with a -. clutch element 16, made in the form of a rod with a diameter equal to the diameter of the radial groove; the rod has a handle 17.

The length of the sling of the suspension fpoca of the shaft cover fixed to the end of the diameter of the cover opposite the radial groove refers to the length of the other lines, like 5: 6.

The device operates as follows. To lower the container 14 'into the water, the lid 1 using a winch 12 On the cable 10 moves along the guides 13 to the upper part of the shaft and rises above its upper edge to a height sufficient to wind the container fixed to the cable-15.

The embedded element 16 is removed from the radial F-shaped groove 3, the cable cable 15 is inserted into the groove 3, on which the container 14 is suspended. Then the cable cable 15 is inserted into the central hole 4 of the cover, after which the embedded element 16 is inserted into the radial groove 3. Then the container 14 is lowered into the shaft (drive and winch are not indicated). Behind the container 14, the lid 1 is lowered along the guides 13, while centering the container 14 relative to the walls of the shaft 7, which protects it from impacts on the walls of the shaft.

Cover 1, reaching the bottom of the shaft, with a tapered surface 5 lies on a conical section and the surface of the annular seat 6, and the container 14 is lowered into the water at a predetermined .. immersion depth. ·

After completing the necessary work, the container 14 rises to the lid 1, and then they together rise above the upper level of the shaft, where the embedded element 16 is removed from the radial F-shaped pa3, leads the cable-cable 15 out of the groove, and the embedded element is again installed in the radial Ф- shaped groove 3. Further, the cover is in its lowest position and onto the annular seat 6.

drops into one is disconnected from the cylinder

Claims (2)

The invention relates to shipbuilding, in particular to ship launching and lifting devices for a container with research equipment. A ship launch device for a research equipment container is known, which contains a shaft with a lid installed in guides, actuators for moving the cover and an instrument container fixed to cable cable 1. However, such a ship launch vehicle is unreliable and has complex structure. The purpose of the invention is to increase the reliability in operation and simplify the design of the ship launch device. For this, the ship launching device is provided with an annular saddle with a conical surface section, a cable to move the shaft cover and a mortgage element made in the form of a round rod with a T-shaped handle, and the lower part of the shaft cover has the shape of a truncated cone in the shaft cover Through vertical holes and one radial F-shaped groove are made, which connects the central vertical hole with the cylindrical forming core, while the annular seat is installed in the bottom part of the shaft, the shaft frame is flush with the bottom of the vessel and filled with the conical generatrix with the conical surface of the annular surface, the inset element is installed in the radial F-shaped groove of the shaft shaft, the cable is inserted into the central vertical hole of the shaft arm, and the shaft is moved to move the shaft shaft. on its upper surface offset from the central radial hole to the periphery along the radius opposite the radial groove, the cable fastening being made in the form of a three-stop asymmetry egg suspension. In addition, the length of the suspension cable sling of the Kriшжиi shaft attached to the End of the diameter of the lid opposite to the radial groove refers to the length of the other lines, like $: 6. FIG. 1 schematically shows a mine, a longitudinal section; in fig. 2 - cross section A – A of FIG. one; in fig. 3 is a section BB of FIG. 2. The ship launch device comprises a cover 1 with through vertical holes 2 and a radial F-shaped groove 3 connected to a central hole 4. In the lower part the cover 1 has a tapered surface 5 which rests on an annular seat 6 with a conical plot o, surface in the bottom of the mine .7. The lugs 1 are mounted on the tops 8, to which the slings 9 of the suspension are attached. A cable 10 connected through block 1 to winch 12 is attached to the suspension. The walls of the shaft 7 are provided with guide 13 for cover 1. Instrument container 14 is suspended on cable cable 15 located in the central opening 4 of cover 1. drive and oceanographic poor (not shown). Radial F-shaped groove 3 is equipped with a mortgage element 16, made in the form of a rod with a diameter equal to the diameter of the radial groove; the rod has a handle 17. The length of the sling of the fpoca lid of the lid of the shafts fixed at the end of the diameter of the lid opposite to the radial groove refers to the length of the other lanyards, like 5: 6. The device works as follows. To lower the container 14 into the water, the cover 1 when the winch helps 12. On the cable 10, mixes along the guides 13 to the upper part of the shaft and rises above its upper edge to a height sufficient for filling the container fixed to the cable-cable 15. From the radial F-shaped the groove 3 inserts a mortgage element 16, a cable-cable 15 is inserted into the groove 3, on which the container 14 is suspended. Then the cable-cable 15 is inserted into the central opening 4 of the lid, after which the mortgage element 16 is inserted into the radial groove 3. 14 is lowered into the mine (drive and winch not shown). After the container 14, the lid 1 is lowered in directions 13 and at the same time to the centerpiece the container 14 relative to the walls of the shaft 7, thus preventing it from being hit against the walls of the mine. The lid 1, reaching the bottom of the shaft, the conical surface 5 lies on the conical section and the surface of the annular seat 6 and the container 14 is lowered into the water to a predetermined .. immersion depth. After the necessary work, the container 14 rises to the lid 1, and then they together are raised above the upper level of the shaft, where the mortgage element 16 is pulled out of the radial F-shaped pa. 3, the cable-cable 15 is pulled out of the groove, and the mortgage element 16 is again installed in the radial F-shaped 3. Next, the cover 1 goes down extreme bottom Position and mounted on the annular saddle 6. Claim 1. The ship launching device for a container with research equipment, comprising a shaft with a lid installed in guides, lid movement actuators and an instrument container fixed on a cable-cable, characterized in that , in order to increase reliability in operation and simplify the design, it is equipped with an annular seat with a conical surface area, a cable to move the shaft cover and a mortgage element made in the form of a rod. th seche11i with a T-shaped. the handle of the shchakht has a truncated cone shape; in the lid of the shaft there are made through vertical holes and one radial F-shaped groove that connects the central vertical hole with the cylindrical forming key, and the ring saddle is installed in the bottom part of the shaft, the lid the mine is installed flush with the bottom of the vessel and is made mating its conical generatrix with the conical section of the surface of the ring seat, the mortgage element is installed in the radial F-shaped groove of the mine cover, to The abel-cable is inserted into the central vertical hole of the shaft cover, and the cable for moving the cover plate is fixed on its upper surface displaced from the central radial hole to the periphery along the radius opposite to the radial groove, the cable fastening being made in the form of a three-suspension asymmetrical suspension. 2. The device according to claim 1, wherein the length of the suspension line of the cable of the lid of the lock attached to the end of the diameter of the lid opposite to the radial groove is related to the length of the other lines, such as 5: 6. Sources of information taken into account in the examination 1. USSR author's certificate N 512101, cl. B 63 B 19/18, 15.11.74 (prototype). AA te 2