SU745770A1 - Decompression chamber water support system - Google Patents

Description

(54) WATER SUPPLY SYSTEM DECOMPECECIOHF OY

CAMERAS

Claims (2)

The invention is related to diving equipment, namely, water supply systems of the amphibious chambers. A water supply system is known that includes valve valves and piping flj. The disadvantage of such a system is that it cannot be used at elevated pressure. The closest technical solution to the invention is the water supply system of the decompression chamber, with a holding pneumatic tank and valve, consisting of valves, air supply pipelines and water, a filling water line and a make-up pump. The disadvantage of this system lies in the possibility of its use at shshyshevoy pressure. 11in isobretenn - improving operational characteristics of the system. Circuit 1yustigaets that svabzheva domestic hot water system, wherein the top of pnevmobaka mounted supply regulator and an air bleed which is connected with the air supply conduit and a decompression chamber, the lower part of mon mobakasoedinenas decompression cam is directly and through water heater pipes, in which before the decompression chamber non-return valves are installed, as well as through a non-return valve with NUUOSOM feed. In addition, the upper, lower, and emergency low water level alarms are installed on the pneumatic tank. The drawing shows the proposed water supply system of a decompression chamber. The system contains a mobak I, the lower part of which is connected by pipeline 2 through a non-return valve 3 with a decompression chamber. In the upper part of the pneumatic unit 1, an air supply and venting controller 4 is installed, connected to the air supply pipe 5 and pipe 6 with a decompression chamber. The regulator 4 is designed to maintain the pressure in the pneumatic tank 1 by 2-4 kgc / cm less than in the decompression chamber, by supplying air to the pneumatic tank 1 as the flow rate and pressure increase in the decompression chamber, as well as by bleeding air from the pneumatic tank 1 into the atmosphere at filling the pneumatic tank with water and reducing the pressure in the decompression chamber. The lower part of the pneumatic tank 1 is connected to the water heater 7 by pipe 8, and the water heater 7 is connected to the deck with a pressure chamber by pipe 9 via a non-return valve 10. The lower part of the pneumatic tank 1 is also connected to a pump 11 by feeding pipe 12 through a non-return valve 13. In the upper part of the pneumatic tank 1 a signaling device 14 of the upper water level is installed, and in the lower part, a signaling device of the lower 15 and emergency 16 lower water levels. The 11 controllers of the controller 4 and the pump 11 of the feed, as well as the relay outputs of the detectors 14, 15 and 16 are inserted into the automatic and remote control unit 17, designed to form control commands for the pump 11 and the regulator 4. The regulator 4 and block 17 can be of different designs .. The system works as follows. But as far as the emptying of the pneumatic tank 1 by the regulator 4 is maintained, the air pressure is higher than the decompression chamber, by a predetermined value. When the water is reached in the water tank 1 ypOBifia of the installation of the signaling device 15. of the lower level, the feed pump 11 is started. As the pneumatic tank 1 is filled, the air is relieved by the regulator 4, and the specified pressure difference between the decompression chamber and the pneumatic tank 1 is supported. When the water level 1 of the upper level indicator is installed in the pneumatic tank 1, the pump 11 stops. To prevent air from entering the decompression chamber when the water in the pneumatic tank 1 level is installed, the alarm 16 is set to lower the air from the pneumatic tank 1 by the regulator 4. With automatic control, the entire algorithm is processed automatically by block 17. The proposed system allows you to increase the time of non-water supply decompression chamber without repair system. In addition, the process is automated. All this together gives a significant economic effect. Claims 1. A water supply system of a decompression chamber containing a pneumatic tank and an armature consisting of valves, air and water supply lines, a filling water line and a make-up pump, characterized in that, in order to improve the operational qualities of the system, it is equipped with water heating. Letters, a berth in the upper part of the pneumatic tank is installed a supply controller and a drainage valve, air vanes connected by an air supply pipeline and a decompression chamber, the lower part of the pneumatic tank is connected to a decompression chamber on direct and through a water heater by pipelines, on which non-return valves are installed in front of the decompression chamber, and through non-return valves with a feed pump. 2. The system in accordance with claim 1, which means that the upper, lower and emergency low water level alarms are installed on the pneumatic tank. No: sources of information, take into account in the examination 1. S.Prasolov I. et al. The device of submarines. Moscow, USSR Ministry of Defense, 1973, p. 164-166. 2. Water supply system according to OH9L-83S-68 standards (prototype). Air from pmembo a / ha