DE2319868C3 - Reserve switching device for breathing apparatus with pressurized gas supply - Google Patents

Description

The invention relates to a reserve switching device for breathing apparatus with a pressurized gas supply when the value falls below the limit the certain minimum pressure of the compressed gas supply throttling resp. shut-off device that can then be opened again by hand, when the minimum pressure is exceeded automatically releases the breathing gas supply.

Reserve switching devices speak when the pressure in the pressurized gas tank falls below a certain minimum at. they throttle and block the supply of breathing gas. For the equipment wearer, this is the signal for the retreat. With the help of a device to be switched by hand, he can open the throttle valve again and then consume the remaining amount of breathing gas and thus complete the withdrawal.

A withdrawal signal device for breathing apparatus with a high pressure line is known when falling below a certain pressure, the shut-off or throttle valve with one of High pressure actuated, spring-loaded switching piston, which is at pressures that are greater than the "'" ickstellkraft the spring, in its one end Iu..g is located in which it is held by a manually releasable locking device and the movement the shut-off or throttle valve releases, which it holds open in the other end position as soon as the locking device is released and the restoring force of the spring has become greater than the compressive force of the compressed gas. The switching piston carries a locking head, in the cutouts of which the manually releasable locking device, z. B. pawls, blocking fields od. The like, engages the Holds the sonic piston in the end position that enables the movement of the shut-off or throttle valve (DE-PS 10 25 727).

This embodiment of the withdrawal signaling device has the disadvantage that the locking device can be released by hand can be accidentally operated, so that the Signa! for the retreat serving throttling or the supply of breathing gas has not been shut off. This is the safety function of the reserve switching device obsolete. A gas shortage only occurs when the intended remaining amount has already been used is

Another known withdrawal signal device for breathing apparatus has this disadvantage Not in this the switching piston is od with a recess. Like. Provided in the one end position of the Switching piston, in which the throttle or shut-off valve can move freely, a locking device Forming pawl or the like. Engages and holds the switching piston and for the purpose of releasing the piston can be pivoted from the outside out of its locked position. On the outside, actuation takes place on one Lever that is loaded by a compression spring, which puts it back into its own after the pawl has been actuated Swings back the starting position (DE-PS 11 20 884).

Also known is a reserve switching valve for an independent diving device that, after closing, at Falling below a predetermined minimum pressure in the compressed gas container, for further gas extraction by means of a manual operating device, which is arranged at the outer end of the valve housing, spring-loaded valve spindle is provided, is opened again, with the axial displacement of the Valve spindle sliding on one another at an angle and fixed in the housing and on the spindle are used and a locking device is preferably provided for keeping it open in the reserve position, caused by a pressure acting on the valve disk which is considerably higher than the closing pressure automatically engages again, whereupon the spindle by means of a return spring of the manual control device is automatically returned to the working position, so that it is through one of the Zuggang pressure dependent additional locking device above a predetermined, slightly above that predetermined locking pressure lying unlocking pressure, is secured against adjustment (DE-AS 20 18 147).

Both with the retraction signal device according to DE-PS 11 20 884 and with the Ret, erveschaltventil according to DE-AS 2018147 there are essential Functional parts outside of the protective housing, they are so, especially when they are in diving equipment are used, exposed to the action of water, especially salt water. Corrosion sensitive Parts such as B. the exposed return springs, must be checked carefully subject. In addition, dirt can penetrate the mechanics and disrupt the function or impede.

The invention is based on the object of providing a reserve circuit without the above disadvantages create, in which all functional parts are arranged within the housing and only close by hand the actuating part is exposed to the surrounding medium.

This problem is solved according to the characterizing part of claim 1.

The advantages achieved by the invention are that not only all functional parts are protected

housed in the interior of the. Housing and thus reliably protected against damage and contamination, but that they also meet the conditions to be required for a safe function. The wearer of the breathing apparatus manually opens the throttle valve by means of the reserve switching device according to the invention so that the remaining amount of breathing gas can flow again. The switching device does not remain in the reserve position if the actuating element provided for this purpose is inadvertently turned, as long as the pressure does not fall below the minimum. Unintentional switching is excluded. When the pressurized gas container is filled, the locking device automatically pops out in the reserve position, so that the reserve switching device is always switched off. This is a great advantage for the wearer in terms of his or her safety. In the embodiment of the invention, the approach of the switching element has a recess in which a pin located in the housing engages and limits the rotational movement of the switching element. This practical design simplifies handling. The limitation to about ^X U of a revolution enables the attachment of an actuating element, e.g. B. a pull rod when the device is carried on the back.

An embodiment of the invention is shown in the drawing and will be described in more detail below described. It shows

F i g. 1 shows a section through the longitudinal axis of a valve arrangement with reserve switching device and

F i g. 2 shows a section in the plane AA of FIG. 1.

In the embodiment according to FIG. 1 is the cylinder valve I, in the housing 2 of which is the reserve switching device arranged is screwed into the pressurized gas container 4 with the conical threaded connector 3 At the extraction nozzle 5, the consumer, for. B. a pressure reducer connected. The cylinder valve 1 closes the pressurized gas container 4 with the lower spindle 6 on the valve seat 7. The reserve switching device consists of the locking device 8 with the via the bore 9 with the outflow space 10 of the cylinder valve 1 connected control piston il and the downstream side Throttle piston 13 connected to it via channel 12.

The control piston 11 is lifted from the control valve 16 by the compression spring 14 via the counter bearing 15. The compression spring 14 can be adjusted by means of the locking screw 17. The bore 18 in the control piston 11 connects when the control valve 16 is open the outflow space 10 of the Flaschetiventils with the channel 12. The Throttle piston 13 is offset so that it has two different sized end faces according to the diameters owns. The larger end face 19a lies opposite the inlet opening of the channel 12. The small frontal area 19Zj seals the throttle valve 20 in the pressurized gas flow from the outflow space 10 of the cylinder valve when in contact 1 via the bores 21 and 22 to the consumer. The throttle piston 13 is actuated by the compression spring 23 lifted from the throttle valve 20. The plunger 24 is attached centrally to the small end face 196 and protrudes axially displaceable through the throttle valve 20 and the bore 25 in the functional area of the switching device 26 into it. The switching device 26 contains the switching element 27, the front extension 28 of which is shown in FIG. 2 designed and shown in the normal position has the front extension 28, the bore 25 opposite, a surface 29 formed by a recess, which has a rounding 30 in the full diameter The extension 28 also has a groove 31 for receiving the plunger 24. The recess 32 together with the pin 33 in the housing 2, limits the rotary movement of the switching element 27. The torsion spring 23 häli the switching element 27 in the in F i g. 2 shown Position. An actuating element, not shown, such as ζ. B. a handwheel or a pull rod is with the outwardly protruding part 35 of the switching member 27 connected.

The reserve circuit is protected by an overpressure valve 36 between the seals 37 and 38 connects the space around the compression spring 23 with the environment

The reserve switching device works as follows: After opening the cylinder valve 1 the flows Pressurized gas through the bore 22, the open throttle valve 196/20 and the bore 21 to the consumer.

At the same time, the gas pressure with the control piston 11 closes the control valve 11/16. The Compression spring 14 tensioned When the pressure falls below the minimum pressure in the compressed gas supply 4, the opens accordingly adjusted compression spring 14 by releasing the control valve 11/16. Then pressurized gas flows to the larger end face 19a of the throttle piston 13. The pressure on the larger end face 19a is greater than that total pressure resulting from the gas pressure on the small face 196 and the one to be clamped Compression spring 23, so that the throttle piston 13, the throttle valve 196/20 depending on the residual pressure closes The plunger 24 now protrudes into the space above the surface 29 of the switching element. By rotation of the switching element 27 counterclockwise, the plunger 24 is pushed back. At the end of this Movement it engages in the groove 31, the depth of which is so small that the throttle valve 196/20 remains open. The switching device 26 is locked. The control valve 196/20, which is now open again, gives the

so consumer again pressurized gas from the remaining supply. If the reserve circuit is depressurized by breathing empty is, the compression spring 23 pushes the throttle piston 13 back again from the throttle valve 196/20, wherein the The plunger 24 unlocks the switching element 27. Under the action of the torsion spring 34, it jumps into the normal position. With the cylinder valve 1 open, the pressurized gas supply can at any time regardless of the position of the Refill reserve switching device.

1 sheet of drawings

Claims (2)

Patent claims: 1. Reserve switching device for breathing apparatus with pressurized gas supply when falling below the specified Minimum pressure of the compressed gas supply throttling or shutting off the breathing gas supply and then manually to be opened again, the breathing gas supply when the minimum pressure is exceeded automatically releases again, characterized in that it has a switching element (27) contains, which is provided with a flat (29) approach (28) in a space below the Throttle valve protrudes and that when turning by means of a mounted below the housing The actuating element (35) when the pressure falls below the minimum pressure through the throttle valve (196/20) kicking known plunger (24) of the throttle piston (13) pushes back so far that the throttle valve (196/20) is open with the plunger (24) at the end the rotary movement engages in an axially parallel groove (31) on the circumference of the projection (28) until after exceeding the minimum pressure of the plunger (24) by moving the throttle piston (13) into the retracted fully open position and the switching element (27) by a torsion spring (34) in the The starting position is turned back. 2. Reserve switching device according to claim 1, characterized in that the projection (28) of the Switching element (27) has a recess (32) into which a pin (33) arranged in the housing (2) engages and limits the rotary movement of the switching element (27).