DE1174645B - Diving breathing apparatus with partial re-use of the breathing gas - Google Patents

Description

Diver's breathing apparatus with partial reuse of the breathing gas The invention relates to a diving breathing apparatus with partial reuse of the breathing gas and with a delay, due to the change in volume the breathing bag automatically controlled gas outlet valve.

The problem with such devices is that this Exhaust valve only opens after the user's exhalation phase has reached a certain level Lasted for a while. This way the first part of the exhaled air becomes forced to enter the breathing bag or gas distribution box of the device, which controls the alternate opening of the intake valve and the exhaust valve and which one expands when this first part of exhaled air enters. As soon as the Expansion of the breathing bag or gas distribution box reached a predetermined value has, the exhaust valve opens, so that in this way the remaining part of the during the exhalation phase exhaled air from the device through an outlet valve into Water can escape. The first exhaled into the breathing bag or gas distribution box Air is used again in the subsequent inhalation phase. She is the first Amount of air that is inhaled. Your inhalation on the part of the diver enables a Reduction of the volume of the breathing bag or gas distribution box, which is used in Reaching the minimum volume controls the opening of the inlet valve.

It is clear that in the time between the inhalation phase and the Exhalation phase and vice versa the control of the two valves is not in operation is set so that the two valves remain closed.

At this point it should be pointed out that this Type of internal gas pressure in front of the inlet valve always as with any other diving device Kind is in practically constant equilibrium with the hydrostatic pressure that at a level of a conventional diaphragm reduction valve, which after the hydrostatic principle acts on the opening of the gas bottle. This reduction valve regulates the gas flow from the bottle as a function of the hydrostatic values Pressure that acts on its membrane, which in turn is a regulating device controls for opening the bottle. The reduction valve is between the Bottle and the inlet valve arranged, and this latter is on the gas distribution box. In this way the gas arrives at the inlet valve after it has just come from the reduction valve has been brought to the equilibrium pressure with the hydrostatic pressure in advance is. It has proven to be a particular disadvantage in diving breathing apparatus of the type mentioned found that fresh breathing gas is lost during breathing. This fact is mainly due to the pressure difference between the breathing apparatus itself and its gas outlet valve, which depends on the positions of the diver is different in size. It is the object of the invention to this Avoid loss of fresh breathing gas. There is already a solution to the posed Task has been proposed, after which the delayed one, the first Breathing air into the breathing bag is at the same time the inhalation valve. Furthermore, a diving device is known in which, although the outlet valve under the Effect of a calibrated spring and therefore only with delayed opening works under the effect of the excess pressure of the exhaled air. One control however, this exhaust valve of the type according to the invention is not provided.

In another diving device, the exhaust valve only works under the effect of the excess pressure of the exhaled air. One control for one delayed opening of this valve is not intended. The first part of the Exhaled air-absorbing bag serves neither as a control element for the outlet valve nor for the inlet valve. In this device, the inlet valve is diaphragm-controlled and therefore works under the action of the hydrostatic Pressure. It also functions as a pressure reducing valve at the same time.

The solution according to the invention now seeks to remedy the disadvantage mentioned generally before that in a diving breathing apparatus of the type mentioned, the gas outlet valve upstream of the gas outlet valve at the end of the exhalation line and in which the exhalation line bearing chamber of the consisting of two chambers, on or near the breathing mouthpiece located distribution nozzle is arranged.

In the diving breathing apparatus of the present type, in which for each exhalation phase a certain amount of the first exhaled gas is returned to the breathing bag is thus the exit of the remaining exhaled gas during the same Exhalation phase through a positive difference between the different values of the hydrostatic pressure exerted on the organs of the device. In addition, there is the possibility that when you get to the moment of opening the gas outlet valve regulates, the gas volume to be saved can be changed, which is of great advantage when using special gas mixtures.

In a preferred embodiment of the present invention, the two are Chambers of the distribution nozzle separated from one another by a partition, which forms a seat for the valve disk of the gas outlet valve, one of these Chambers connected to the breathing bag and the other chamber to the gas outlet valve is and the valve disk of the gas outlet valve its movements within the runs the chamber connected to the breathing bag. Here, according to the invention, so proceeded that in the connected to the breathing bag chamber of the distribution port a bearing block is attached, which carries a pivotable angle lever that the one end of this bell crank is connected to the sheath of a Bowden cable which the breathing bag the movements of the bell crank for a delayed opening of the gas outlet valve controls, and that the other end of the bell crank with the valve head of the gas outlet valve is articulated and is under the action of a spring, which strives to keep the gas outlet valve closed.

Another embodiment provides that the one on the outside the movable wall of the two rigid walls, directly on the breathing mouthpiece attached breathing bag, separated from two by a closed wall Chambers existing distribution nozzle contains valves, which these chambers with Connect the breathing bag, one connected to the gas supply line Chamber receives an inlet valve under the action of a compression spring, while the other chamber connected to the gas outlet valve with a valve seat for the valve disk of the gas outlet valve under the action of a compression spring is provided and the opening movement of both valves automatically by the alternating Change in volume of the breathing bag during breathing contrary to the effect of the assigned Springs alternately. For this purpose it is provided according to the invention that the automatic opening movement of the two valves by means of one on the inside the movable wall of the breathing bag pivoted and mechanically supported by this actuated two-armed lever takes place, in such a way that he under the alternating Volume change of the breathing bag performs tilting movements.

Below are exemplary embodiments for the two above mentioned possibilities of training the exhalation valve according to the invention on hand schematic drawings described.

F i g. 1 shows an axial section through the distribution connector of first embodiment; F i g. Figure 2 shows the top view of Figure 2. 1 represents; F i g. 3 shows an axial section through the distribution port of the second Embodiment, the breathing bag directly to the distribution nozzle is assembled; F i g. 4 shows a partial side view of FIG. 3 represents; F i g. 5 shows only the arrangement of the inlet and outlet valve pair of the F i G. 3, seen from the inside of the breathing bag.

In the first embodiment according to FIGS. 1 and 2 is the den Hose section 20 forming the distribution nozzle divided into two chambers 21 and 22, which through the tubes 23 and 24 on the one hand with the breathing bag and on the other hand connected to the gas outlet valve, for example a duck bill valve are. The chambers 21 and 22 are divided by a partition 25 in a Z shape, which a valve seat 26 receives.

A bearing block 27 is fastened in the chamber 21 by means of a screw 28, on which one end of the pull rope 29 of a Bowden cable 29, 31 is attached. on the bearing block 27 is an angle lever 30 is pivotally mounted, one end of the sheath 31 of the Bowden cable 29, 31 is controlled and the other end by means of a joint the valve disk 32 of the gas outlet valve with associated seal wearing.

A spring 33 loads the angle lever 30 so that the same normally of the gas outlet valve 126, 32 keeps closed so that the connection between the two Chambers 21 and 22 is interrupted.

Since the other end of the sheath 31 of the Bowden cable 29, 31 to the breathing bag so connected that it is from the moving part of this organ after the beginning its movement is shifted when you exhale from a certain moment on, namely when the movable part of the breathing bag is attached to the vagina 31 of the Bowden cable 29, 31 strikes and sets the same in motion, the outlet valve 26, 32 opened so that only now gas can flow to the outlet valve of the device or, as explained below, is forced out.

If the other end of the hose 24 is used as a gas outlet valve If a duck bill valve is located, then the hose will be as this valve together with the associated hose has a large buoyancy in every position of the diver is always set essentially vertically so that the duckbill valve is always above all other organs or parts of the breathing apparatus.

As a result, the duckbill valve is opened in every position of the diver always a lower hydrostatic pressure is exerted than on all others Organs of the device. As soon as the gas outlet valve 26, 32 has opened, is a rapid outflow of air after the duck bill valve there take place without water being able to flow in from the latter.

Also, as a result of the remote mounting of the duck bill valve from the gas hose piece 20 the bubbles of the outflowing gas at a considerable distance from the diver's face mask so that it does not obstruct the diver's view is.

The second embodiment according to FIGS. 3 to 5 has one Breathing bag with two rigid walls 34, 35. While the wall 34 is movable, the wall 35 is solid.

The mouthpiece 44 is attached to the fixed wall 35 (F i G. 4). A piece of tubing 36, 37 is attached to the outer side of the wall 34, which according to FIG. 3 divided into the two chambers 36 and 37 by a partition 38 is.

The hose leading to the duck bill valve is attached to the chamber 36 connected while the fresh breathing gas enters the chamber 37.

In these chambers 36, 37 there is a movable one under which Pressure of an associated spring 49 or 50 standing valve. Located in the chamber 36 The gas outlet valve 39, 46 and in the chamber 37 the inlet valve 40. On one Bearing block 45, which by means of the hose section 36, 37 on the movable wall 34 is firmly attached inside the breathing bag, a two-armed lever 41 is articulated.

This lever 41 is with its one arm 47 in a relative wide hinge eye 42 out, which is firmly connected to the other wall 35 while the other arm 48 of the lever 41 on the shaft 51 of the valve disk 39 of the gas outlet valve acts.

The arm 47 of the lever 41 operates on the other hand on the side of the hinge eye 42 the shaft 52 of the valve head 40 of the gas inlet valve.

Accordingly, the movements of the lever 41 take place in the manner of a rocker arm, so that the shafts 51 and 52 of the two valve plates 39 and 40 are operated alternately and the associated valves are opened alternately, depending on which an immediate closing follows. However, the outlet valve 39, 46 opens with a certain delay compared to the beginning of the exhalation phase. This delayed opening the exhaust valve passes through as a result of the penetration of the first part of the exhaled Air caused the movable wall 34 to move from the fixed wall 35 with corresponding Lifting the bracket 45 and the lever 41 so that the latter with his arm 47 can engage in the hinge eye 42. From that moment on, that arm remains 47 as the wall 34 moves further and as a result of the lever being raised further 41 with the hinge eye 42, which is firmly connected to the fixed wall 35, in engagement, so that by lifting the lever 41 a displacement of the lever arm 48 after enters above. The stem 51 of the outlet valve 39, 46 is raised in this way and the outlet valve 39, 46 with respect to the beginning of the exhalation phase with a delay opened.

Furthermore, it results that during inhalation the walls 34 and 35 come to rest against one another and the shaft 52 is raised as a result of its contact against the lever arm 47, so that the inlet valve 40 is opened for the inflowing gas. At the beginning of the subsequent exhalation, however, when the walls 34 and 35 move away from each other again, the lever 41 releases the stem 52 of the inlet valve 40 and on the other hand actuates the stem 51 of the outlet valve 39, 46, which opens and allows the exhaled gas to flow out .

A regulating screw 43 on the arm 48 of the lever 41 is used for adjustment the point in time at which the stem 51 of the outlet valve 39, 46 is actuated target. Therefore, this exhaust valve 39, 46 can be opened at a predetermined one in each case Point in time, which is in direct proportion to the recoverable volume of the breathing gas.

Claims (7)

Claims: 1. Diver's breathing apparatus with partial reuse of the breathing gas and with a delay, due to the change in volume the breathing bag automatically controlled gas outlet valve, characterized in that that this gas outlet valve is connected upstream of the gas outlet valve at the end of the exhalation line and in the chamber (22, 36) carrying the exhalation line of the two chambers (21, 22; 36, 37) existing distribution nozzle on or near the breathing mouthpiece is arranged. 2. diving breathing apparatus according to claim 1, characterized in that the two chambers (21, 22) of the distribution nozzle separated by a partition (25) are separated, which have a seat (26) for the valve disk (32) of the gas outlet valve (26, 32), one of these chambers (21) being attached to the breathing bag and the other Chamber (22) is connected to the gas outlet valve and the valve disc (32) of the gas outlet valve its movements within those connected to the breathing bag Chamber (21) executes. 3. Diver's breathing apparatus according to claim 2, characterized in that in the chamber (21) of the distribution nozzle connected to the breathing bag, a bearing block (27) is attached which carries a pivotable angle lever (30) that one end of this angle lever (30) ) is connected to the sheath (31) of a Bowden cable (29, 31), via which the breathing bag controls the movements of the angle lever (30) for a delayed opening of the gas outlet valve (26, 32), and that the other end of the angle lever (30 ) is articulated to the valve disk (32) of the gas outlet valve and is under the action of a spring (33) which tries to keep the gas outlet valve (26, 32) closed. 4. diving breathing apparatus according to claim 1, characterized in that the breathing bag arranged directly on the breathing mouthpiece (44) attached to the outside of the movable wall (34) of the two rigid walls (34, 35), consists of two through a closed wall (38) separate chambers (36, 37) contains existing distribution port valves which connect these chambers (36, 37) to the breathing bag, the one chamber (37) connected to the gas supply line being an inlet valve under the action of a compression spring (50) (40), while the other chamber (36) connected to the gas outlet valve is provided with a valve seat (46) for the valve disk (39) of the gas outlet valve, which is under the action of a compression spring (49), and the opening movement of both valves is automatic through the alternating one Change in volume of the breathing bag during breathing takes place alternately against the action of the associated springs (49, 50). 5. diving breathing apparatus according to claim 4, characterized characterized in that the automatic opening movement of the two valves by means of one pivotably mounted on the inside of the movable wall (34) of the breathing bag and from this mechanically operated two-armed lever (41) takes place in such a way, that he performs tilting movements with the alternating change in volume of the breathing bag. 6. diving breathing apparatus according to claim 5, characterized in that for the mechanical actuation of the two-armed lever (41) by means of the movable wall (34) of the breathing bag, the one acting on the inlet valve lever arm (47) on the immovable wall (35) of the Breathing bag engages in a relatively wide eyelet (42) , while the other lever arm (48) acting on the gas outlet valve is freely movable. 7. diving breathing apparatus according to claim 5 and 6, characterized in that the end of the free lever arm (48) of the two-armed lever (41) has a regulating screw (43) which contacts the shaft (51) of the valve disk (39) of the gas outlet valve . Documents considered: German Auslegeschrift No. 1008140; French patent specification No. 942 351. Earlier patents considered: German patent No. 1108105.