RU2561883C1 - Automatic stabilizing device - Google Patents

Abstract

FIELD: saving means.

SUBSTANCE: invention relates to diving equipment, in particular to equipment of decompression chambers. The automatic stabilizing device of the bleed system of the decompression chambers comprises a valve that regulates the air outlet, connected by the pipeline to the valve of the chamber outlet. The valve is made in the form of a movable piston. The load piston is pressed by a spring with a closing sleeve and a nut. Due to the pressure of the spring the load piston and the valve piston move upwards, increasing the flow cross-section of the valve.

EFFECT: increase in the accuracy and reliability of automatic maintenance of necessary speed of reduction of pressure is achieved during decompression of divers after completing the diving.

2 dwg

Description

The invention relates to diving equipment, in particular to the equipment of decompression chambers, and allows you to automatically maintain a given speed of reducing the pressure of the gas medium in the chamber during decompression of divers at the end of the diving descents.

Currently known decompression chamber, equipped with a device to maintain within acceptable limits the rate of increase of pressure, for example, when the temperature of the gas medium in the chamber from the occurrence of fire or in the event of a malfunction of the gas supply valve / 1 /.

A significant drawback of these decompression chambers is the large inaccuracy of maintaining a given rate of pressure reduction during manual decompression of divers using an air release valve.

An increase in the rate of pressure reduction above the permissible level can lead to the formation of gas bubbles in the capillaries of the circulatory system of divers, which is a dangerous decompression illness. A decrease in the set pressure reduction rate will lead to a significant increase in the time for divers to decompress.

The objective of the invention is to increase the accuracy and reliability of automatically maintaining the necessary speed of pressure reduction during decompression of divers after diving, and therefore, as a result of maintaining their health.

This task is achieved by the fact that the valve of the stabilizing device is made in the form of a movable piston and the rod is connected to a load piston pressed by a spring with a pressure sleeve and a nut, the cylinder of which is connected by a pipeline to the chamber exhaust valve, due to this, the force generated by the chamber decreases the air pressure on the piston, and due to the pressure of the spring, the piston and valve rise upward, increasing the flow area of the valve, thereby increasing air flow and automatically while maintaining a given rate of pressure reduction in the chamber.

In FIG. 1 schematically shows an automatic stabilizing device, a General view.

An automatic stabilizing device is part of the exhaust pipe of the chamber. The housing of the device 1 by means of flanges is connected to the exhaust pipe. A cylinder 3 is attached to the upper cavity of the housing 1 on the thread, in which a piston 2 with a gasket 15 is installed. A rod 4 is screwed into the piston 2, connecting the piston 2 to the load piston 11. A sleeve 5 with two guide grooves A is attached to the cylinder 3 on the thread. onto which a push nut 6 is screwed with handles 7. A push sleeve 8 is installed in the inner cylindrical cavity of the sleeve 5 with two protrusions entering into the guide grooves A. The pointer arrow 13 is screwed into one of the protrusions of the sleeve 8. cylinder 9 with a flange to which is fixed an additional portion of the exhaust pipe. A load piston 11 with a rubber sealing ring 12 and a spring 10 is installed in the cylinder 9 and presses the piston 11 against the bottom of the cylinder 9. A scale 14 is mounted on separate brackets with divisions indicating the value of the set rate of decrease in air pressure in the chamber.

In FIG. 2 shows a schematic diagram of the exhaust pipe of a de-compression chamber. The exhaust pipe of the chamber 16 consists of a flexible sleeve 17 with a socket attached inside the camera to the exhaust valve 18, to which the exhaust pipe 19 is connected with a branch 20. Using the pipe 19, the exhaust valve 18 is connected to the housing 1 (Fig. 1) of the stabilizing device 21, and a pipe 20 of a smaller cross-section, the exhaust valve 18 is connected to the cylinder 9, which houses the load piston 1 (Fig. 1). To the output channel of the stabilizing device 21 is connected to the pipe 22 release of air into the atmosphere.

Automatic stabilizing device operates as follows.

Previously, rotating the pressure nut 6 with the help of the handles 7, the required rate of pressure reduction in the chamber is set according to the indication of arrow 13 on the scale 14. After the exhaust valve 18 of the chamber is open (Fig. 2), compressed air enters the cavity of the device 1 and into the cylinder 9. Under air pressure in the cylinder 9, the pressure piston 11 moves downward, compressing the spring 10, until the balance between the force of the piston and the spring. Due to the rigid connection with the help of the rod 4, when moving the pressure piston 11, the piston 2 will also be mixed, reducing the passage section of the channel in the housing 1, which leads to a decrease in air flow. With a decrease in air pressure in the chamber 16, the pressure of the pressure piston 11 on the spring 10 decreases, due to the force of which, until the equilibrium is established, the pressure piston 11 rises, lifting up the piston 2, increasing the passage section of the channel in the housing 1, which causes the necessary increase in air flow and maintaining the rate of pressure reduction, the value of which is indicated on the scale 23.

Thus, an increase in the accuracy and reliability of automatic maintenance of a given rate of pressure reduction in the chamber is achieved, and therefore, as a result, the health of divers is maintained.

Information sources

1. Auth. testimonial. No. 509026, USSR, dated 8.12.1975, “Decompression chamber”, authors Krysov P.V. et al.

Claims (1)

An automatic stabilizing device for the decompression chamber bleeding system, comprising a valve controlling the air outlet, connected by a pipeline to the chamber exhaust valve, a cylinder with a spring-loaded piston, connected by a rod to the valve, characterized in that the valve is made in the form of a movable piston and connected to a load piston, preloaded a spring with a pressure sleeve and a nut, the cylinder of which is connected by a pipe to the chamber exhaust valve, due to this, when air pressure in the chamber decreases, violence up produced by the air pressure on the pressure piston, and due to the spring pressure of the pressing piston and the valve piston is lifted upward, increasing the passage section of the valve, thereby providing an increase in air flow and automatically maintaining the desired rate of pressure reduction in the chamber.

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