DE10019578A1 - Buoyancy module for underwater use - Google Patents

Abstract

A buoyancy module (1) for underwater use for lifting sunken devices, structures such as ships, allows safe buoyancy of the same. For this purpose, it is provided that the gas generator built according to the high-low pressure system consists of individual, separately ignitable units (11, 12, 13, ff.) With respect to its high-pressure pipe, the units being arranged in the form of a rod.

Description

The invention relates to a buoyancy module for underwater use according to the preamble of claim 1.

DE 195 12 753 A1 describes a buoyancy aid for underwater vehicles in Distress known with at least two buoyancy device modules. Every module has a gas generator for generating non-toxic gas, at least one inflatable swimming bag and an opening to open. Here is before seen that the module a gas generator, a swimming bag and a um has envelope. The invention is based on this buoyancy aid. The use The gas generator is designed and produced according to the high-low pressure system non-toxic gas. The high-low pressure system has the advantage that the Gaspro production rate largely independent of the backpressures that occur in each case is. Influencing the burn-up of fuels in different things depths are therefore not applicable.

To generate a large amount of gas, make sure that the inflatable Swimming bag remains intact during the inflation process. Therefore, it is the job the invention to propose a buoyancy module in which the inflatable Swimming bag - regardless of the amount of gas generated - intact remains.

The invention solves this problem according to the characterizing features of claim 1. Advantageous further developments of the invention are the Unteran to take sayings.  

According to the invention, the gas is generated very slowly in the buoyancy module, by placing the units either in groups or in succession in groups or are ignited one after the other and generate gas. This allows the gas pressure curve should be designed so flat that no mechanical damage be effected. The swimming bag remains intact. In a diving cell one when submarines are lifted, this also remains intact.

The number of units is a function of the required gas volume or Gas mass. The firing order of the units is a function of the allowed or ge demanded pressure increase.

The buoyancy modules or base units are flat and inexpensive produced.

Embodiments of the invention are shown schematically in the drawing represents and described below. It shows:

Fig. 1 shows a buoyancy module shown in perspective in cross section,

Fig. 2 shows the buoyancy module according to Fig. 1 in cross section and that in aufgebla Senen state,

Fig. 3-5 different cross sections of a low pressure pipe and

Fig. 6 shows a base unit in cross section.

A buoyancy module 1 consists of a base plate 2 with fastening tabs 3 and an inflatable swimming bag 4 fastened thereon.

The swimming bag 4 surrounds a gas generator 5 . This consists of a low-pressure pipe 7 provided with nozzles 6 , a high-pressure pipe 8 with nozzles 9 being arranged in the low-pressure pipe 7 .

Both the high-pressure pipe 8 and the low-pressure pipe 7 are firmly connected to the base plate 2 by means of fasteners (not shown ) .

The high-pressure pipe 8 is separated by partition walls 10 in units 11 , 12 , 13 , one behind the other. , , divided. Each unit 11 , 12 , 13 contains a gas-generating charge 20 which is sealed off from its unit 11 or 12 or 13 , each with a separate symbolically illustrated ignition device 22 , 23 , 24 , 25 .

To inflate the swimming bag 4 , all units A, 11 , 12 , 13 , ff. Can be ignited at the same time or with a short time interval at a shallow water depth.

At an appropriate water depth, the units 11 to 13 , ff., Are fired in such a way that the swimming bag 4 is not mechanically overstressed.

A filled swimming bag 4 is shown in FIG. 2, with only every second unit 11 , 13 , ff. Being ignited.

According to FIGS. 3 to 5 are cross-sections flat construction of low-pressure pipes 17, shown 27, 37.

According to FIG. 6 is a self-contained base unit 30 is disk-shaped with a width of 31 cm by about 10. The width 31 can extend from 2 cm or even smaller to about 50 cm. The base unit consists of a high-pressure pipe 32 with nozzles 9 , charge 20 and ignition device 22 and a low-pressure pipe 33 with nozzles 9 . Both tubes 32 , 33 are firmly connected to one another.

If several such base units 30 are connected to one another in the direction of arrow 34 and arranged in a swimming bag 4 , then all ignition variations for a desired gas pressure curve are present in accordance with the drive module 1 . Each base unit is identical in construction and therefore inexpensive to manufacture.

The high-pressure pipe 8 , 32 is a circular cylinder, because in this way the high pressures can be controlled with the least amount of material. The never derdruckrohr 7 , 33 is flat, such as elliptical, because it has a low profile 40 .

The load 20 has a weight of 1 kg. When several charges 20 burn off in accordance with the units 11-14 , 30 , a flat, so-called stair curve is generated in accordance with the sequential ignition.

Claims (4)

1. buoyancy module ( 1 ) for underwater use with a gas generator according to the high-low pressure system and an inflatable swimming bag ( 4 ), characterized in that the gas generator ( 5 , 51 ) from several, separately ignitable units ( 11 , 12 , 13 ; 30 ) exists and all units act on a single swimming bag ( 4 ). 2. buoyancy module according to claim 1, characterized in that a single low-pressure tube ( 7 ), the units (11, 12, 13, ff.), Each consisting of a high-pressure tube ( 8 ) with charge ( 20 ) and ignition device ( 22 ), where the units are in series and connected to each other. 3. buoyancy module according to claim 1, characterized in that the low-pressure tube ( 7 , 17 , 27 , 37 ) is flat, namely has a right angular or oval or elliptical cross section. 4. buoyancy module according to claim 1, characterized in that a unit ( 30 ) is disc-shaped and consists of interconnected high-pressure low-pressure pipes ( 32 , 33 ), wherein a gas generator ( 51 ) consists of one or more units ( 30 ) ,