Diving equipment

Abstract

Diving equipment includes a compressed air bottle connected to a breathing apparatus and an inflatable jacket via which buoyancy is balanced by the jacket being connected to the compressed air bottle to be inflated or to an outlet to be deflated. A monitoring device is activated via a control valve as a function of surrounding water pressure and has a time monitoring unit which, after the expiry of a defined time and in the absence of breathing activity in the breathing apparatus, changes to emergency operation and activates an emergency valve via a control line connecting the jacket to the compressed air bottle to force inflation of the jacket. Actuation of at least one regulating valve is influenced during a dive by the monitoring device and/or the control valve. In manual activation, the jacket is inflated via the inflation valve, and the compressed air is bled via the outlet valve.

Claims

1. An article of diving equipment, comprising: a compressed air bottle connected to a breathing apparatus; an inflatable jacket connected in a normal mode to the compressed air bottle for inflation of the jacket and to an outlet for letting out air from the jacket to balance a buoyancy of the jacket; a control device (i) configured to be activated by a control valve in dependence on a surrounding water pressure and (ii) including a time control unit which, after the expiration of a defined time and if there is an absence of breathing activity in the breathing apparatus, is configured to transfer into an emergency mode in which, via a first control line, the time control unit activates an emergency valve which connects the jacket to the compressed air bottle to force the jacket to inflate; an inflation valve; an outlet valve; and at least one regulating valve configured to be activated during a diving operation to influence operation of at least one of the control device and the control valve, wherein the inflation valve, when activated manually, connects the jacket to the compressed air bottle, and the outlet valve, when activated manually, connects the jacket to an outlet, and wherein the activation of the at least one regulating valve is coupled with the activation of at least one of the inflation valve and the outlet valve at least within a defined region of movement of the at least one of the inflation valve and the outlet valve.

2. The article of diving equipment as claimed in claim 1, wherein: the outlet valve configured to be activated by a control element, and in a first half of a control region of the control element a control movement of the control element is coupled purely with a displacement of the outlet valve, and in a second half of the control region the control movement is additionally coupled with a displacement of the at least one regulating valve.

3. The article of diving equipment as claimed in claim 1, wherein: the at least one regulating valve is configured as a shut-off valve positioned between the emergency valve and the compressed air bottle, and in an activated position the shut-off valve interrupts the connection between the emergency valve and the compressed air bottle.

4. The article of diving equipment as claimed in claim 1, wherein the at least one regulating valve is configured as a reset valve, to which a working line branches from the control line of the emergency valve and which, in an activated position, relieves pressure from the control line.

5. The article of diving equipment as claimed in claim 1, wherein: the at least one regulating valve is configured as a reset valve positioned between the control valve and the compressed air bottle, and in a starting position, the reset valve connects a working line of the control valve to the compressed air bottle and, in an activated position, the reset valve relieves pressure from the working line of the control valve.

6. The article of diving equipment as claimed in claim 1, wherein: the at least one regulating valve includes a shut-off valve arranged between the control valve and the time control unit, the shut-off valve is configured to be moved into a shut-off position in which a connection between the time control unit and the control valve is interrupted, and the shut-off valve produces the connection between the time control unit and the control valve in a starting position, into which the shut-off valve is configured to be transferred by a second control line connected to an outlet side of the inflation valve.

7. The article of diving equipment as claimed in claim 1, wherein: the at least one regulating valve includes a bypass valve configured to be transferred into an operating position in which a line branching from a control volume of the time control unit is connected to an additional volume, and the bypass valve is configured to interrupt the connection between the line and the additional volume in a starting position, into which the bypass valve is configured to be transferred by a third control line, which is connected to an outlet side of the inflation valve.

8. The article of diving equipment as claimed in claim 1, further comprising: a pre-test valve including an actuating element, wherein the pre-test valve, in an activated position, connects a fourth control line of the control valve to the compressed air bottle such that the control valve activates the control device.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Further advantageous developments of the disclosure are produced from the following description of a preferred embodiment of the disclosure, which refers to the figures shown in the drawings, in which:

(2) FIG. 1 shows a block diagram of an article of diving equipment in a preferred development of the disclosure;

(3) FIG. 2 shows a functional diagram for resetting a time lapse procedure of a time control unit of the diving equipment according to FIG. 1;

(4) FIG. 3 shows a functional diagram of an interruption of an emergency inflation of a jacket of the diving equipment according to FIG. 1;

(5) FIG. 4 shows a functional diagram with reference to a resetting of a control device of the diving equipment according to FIG. 1; and

(6) FIG. 5 shows a functional diagram for resetting a pre-function test of the diving equipment according to FIG. 1.

DETAILED DESCRIPTION

(7) FIG. 1 shows a block diagram of an article of diving equipment in one embodiment of the disclosure. Said diving equipment, in this connection, includes a compressed air bottle 1 which supplies a breathing apparatus—not shown any further in the present case—with compressed air such that a diver is able to be provided with breathable air under water. In addition, there is provided an inflatable jacket 2 which is provided with an air lock—not shown any further in the present case either—which is able to be inflated with compressed air as a result of the compressed air bottle 1 or from which air is able to be let out. Corresponding to the supplying or letting out of air, buoyancy of a diver can be balanced out by means of the jacket 2 by being able to provide an increase by supplying a corresponding amount of air or a reduction by letting air out.

(8) In normal mode, the supplying of air into and letting air out of the jacket 2, in this connection, is controlled by interposed valves in the form of an inflation valve 3 and an outlet valve 4 which, in each case, can be activated by the diver by means of an associated control element 5 or 6, said control elements 5 or 6 being developed here in each case as pushbuttons. Both the inflation valve 3 and the outlet valve 4, in this case, are realized as 2/2 directional control valves and, by means of an associated spring, are prestressed into the starting position shown in this case, from which they are able to be moved into an operating position by the respectively associated control element 5 or 6. In said operating position, the inflation valve 3 then connects the compressed air bottle 1 to the jacket 2 such that the jacket 2 is inflated as a result of compressed air being supplied. When the control element 6 is activated and the outlet valve 4 is transferred into the operating position, the jacket 2, in contrast, is connected to a mouthpiece 7, by means of which compressed air can escape out of jacket into the surrounding area and consequently compressed air can be let out of the jacket 2. In this case, however, it is also possible to fill the jacket 2 manually in the individual case by means of the mouthpiece 7. By operating the two valves 3 and 4 in a corresponding manner, the diver can therefore balance out his buoyancy corresponding to the filling or emptying of the jacket 2.

(9) In addition, the diving equipment according to the disclosure has a control device 8, by means of which a lack of breathing activity on the part of the diver in the breathing apparatus can be detected and, in emergency mode, inflation of the jacket 2 can be forced such that the diver is conveyed back to the surface of the water as a result of the inflating. For this purpose, the control device has an emergency valve 9 which, in the present case, is also developed as a 2/2 directional control valve and, in an operating position, connects the compressed air bottle 1 directly to the jacket 2 such that the jacket 2 is inflated. In the starting position of the emergency valve 9 shown in this case, however, said connection has been interrupted, the emergency valve 9 being prestressed into said starting position by means of an associated spring element and as a result of pressurization by means of a control line 10. The control line 10, in this connection, is supplied with the currently surrounding water pressure by means of a pressure connection 11. In opposition to the spring element and the control line 10, the emergency valve 9 can be displaced into the operating position and held there as a result of corresponding pressure in two further control lines 12 and 13, the control line 12 being connected to a time control unit 14, whilst the control line 13 is connected to the outlet side of the emergency valve 9 and the supply to the jacket 2. To move the emergency valve into the operating position, therefore, a pressure in the control line 12 has to exceed a pressure in the control line 10 and a pressure produced by the spring element. If then the emergency valve 9 is moved once into the operating position, it is held in said position by the control line 13 as a result of the pressure then prevailing.

(10) By means of the time control unit 14, if there is a lack of breathing activity on the part of the diver over a defined period, the control line 12 is acted upon with a pressure that is suitable to open the emergency valve 9. Said time control unit 14 includes a control volume 15 which is filled continuously with pressurized air by means of a fill aperture 16 from the moment the control device 8 is activated, the control volume 15 being connected to the control line 12 of the emergency valve 9. From the moment a certain pressure is reached in the control volume, at the same time an operating pressure for displacing the emergency valve 9 into the operating position is reached. A drain valve 17, which is developed as a 2/2 directional control valve and which, with breathing activity on the part of the diver and a resultant pressure drop in the line system connected to the compressed air bottle 1, is moved out of the starting position shown into an operating position, is additionally provided on the outlet side of the control volume 15. The control volume 15 is then emptied in the operating position. In this case, corresponding to the choice of a suitable volume of the control volume 15 and a throttling by means of the fill aperture 16, a time range can be defined, after the expiry of which an emergency mode is introduced by the control device 8.

(11) Said time range can, however, be extended in a targeted manner by an additional volume 18 being added to the control volume 15. For this purpose, a line 19, which is connectable to the additional volume 18 by means of an interposed bypass valve 20, branches off on the outlet side of the control volume 15. Said bypass valve 20 is developed as a 2/2 directional control valve, the line 19 being separated from the additional volume 18 in the starting position of the bypass valve 20 shown. The bypass valve 20 can then be moved in a targeted manner by means of an actuating element 21, in the present case in the form of a pushbutton, into an operating position in which the line 19 and the additional volume 18 are connected together such that fluid is able to flow into the additional volume 18. This results in the volume between the fill aperture 16 and the drain valve 17 increasing and consequently also the operating pressure for displacing the emergency valve 9 into the operating position subsequently being obtained. A control line 22, which is connected to an outlet side of the inflation valve 3, is provided for resetting the bypass valve 20 such that the bypass valve 20 is transferred into the starting position separating the additional volume 18 from the line 19 as soon as the inflation valve 3 is activated.

(12) A control valve 23, which activates the control device 8 in dependence on the currently surrounding water pressure, is connected upstream of the time control unit 14 for operating the control device 8. For this purpose, the control valve 23 is connected, on the one hand, to the pressure connection 11 by means of a control line 24 in normal mode and is consequently acted upon with the surrounding water pressure by means of said control line 24 and, on the other hand, is connected by means of another control line 25 to a reference volume 26 in which a reference pressure, in a preferred manner atmospheric pressure, prevails. In the starting position shown, the control valve 23, which is developed in the present case as a 2/2 directional control valve, separates the time control unit 14 located behind it from an inlet, the control valve 23 then, however, in an operating position connecting said inlet to the time control unit 13 as soon as the surrounding water pressure has exceeded the pressure in the reference volume 26 and a pressure provided by a spring element of the control valve 23. In normal mode, the inlet, in this case, is connected to the compressed air bottle 1. As a consequence, therefore, the control device 8 is activated by the control valve 23 from the moment a defined water depth is reached.

(13) However, the operating of the control device 8 and consequently also the breathing monitoring function of the time control unit 14 can be temporarily terminated by the connection between the fill aperture 16 of the time control unit 14 and the control valve 23 being interrupted by means of a shut-off valve 27. Said shut-off valve 27, in this case, is arranged between the fill aperture 16 and the control valve 23 and is realized in the present case as a 2/2 directional control valve. In the starting position shown, the shut-off valve 27 enables fluid to flow from the control valve 23 to the fill aperture 16 as soon as the surrounding water pressure has exceeded the above-explained pressure threshold. By means of an operating element 28 in the form of a pushbutton, the shut-off valve 27, however, can be transferred in a targeted manner into an operating position in which fluid is prevented from flowing to the fill aperture 16 and accordingly no monitoring of the breathing activities by the time control unit 14 takes place. The shut-off valve 27 is reset by means of a control line 29 which, as the control line 22 already, is connected to an outlet side of the inflation valve 3. Accordingly, the shut-off valve 27 is transferred into the starting position connecting the control valve 23 and the fill aperture 16 as soon as the inflation valve 3 is activated.

(14) As a further characteristic, the diving equipment additionally includes a shut-off valve 30 and reset valves 31 and 32, as well as a pre-test valve 3, the respective function of which is now to be described by way of further FIGS. 2 to 5. FIGS. 2 to 5, in this case, show material flows in the form of compressed air as thick arrows, mechanical couplings as thin arrows and signal flows as broken line arrows.

(15) As can be seen in this connection from FIG. 1, the reset valve 31 is coupled mechanically to the outlet valve 4 such that activation of the outlet valve 4 by means of the control element 6 also leads to activation of the reset valve 31. However, said mechanical coupling is developed, in this case, in such a manner that said coupling does not become active until a second half of a possible control region of the control element 6. Therefore, only the outlet valve 4 is activated over the first half of the overall control region of the control element 6, the reset valve 31 also being moved at the same time from a second half of the control region. In the present case, the reset valve 31 is developed as a 2/2 directional control valve, an inlet side of the reset valve 31 branching off from the control line 12 of the emergency valve 9 and an outlet side of the reset valve 31 leading to the jacket 2. As can be seen then in combination with the functional diagram in FIG. 2, a resetting of the time lapse procedure of the time control unit 14 can be achieved by the reset valve 31 by the control line 12 of the emergency valve 9 being relieved of pressure. For in the operating position of the reset valve 31, said valve connects the control line 12 to an unpressurized line to the jacket 2. As a result of said unpressurized connection of the control line 12, the time lapse procedure in the time control unit 14 is consequently also reset at the same time since the control volume 15 is emptied, and as a consequence a monitoring of the breathing activity of the diver is restarted.

(16) A movement of the shut-off valve 30 is additionally also coupled to a movement of the reset valve 31 such that the shut-off valve 30 is also moved into an operating position from a second half of the control region of the control element 6 of the outlet valve 4. The shut-off valve 30, in this case, is also developed as a 2/2 directional control valve and, in the present case, is arranged between the emergency valve 9 and the compressed air bottle 1. In the starting position shown, the shut-off valve 30, in this case, enables compressed air, proceeding from the compressed air bottle 1, to be supplied to the emergency valve 9. If, however, the shut-off valve 30 is then displaced into the operating position, the connection between the emergency valve 9 and the compressed air bottle 1 is interrupted. In the event of unwanted inflation of the jacket 2 in emergency mode, which can occur, for example, when breath is held over a longer period, the diver therefore has the possibility, by means of the shut-off valve 30, of interrupting said unwanted inflation by corresponding activation of the shut-off valve 30. For in this case an inflow to the emergency valve 9 is prevented, as can also be seen from the functional diagram in FIG. 3.

(17) It can also be seen from FIG. 1 that the further reset valve 32 is coupled mechanically with a movement of the inflation valve 3 when the control element 5 is activated. Said reset valve 32, in this case, is developed as a 3/2 directional control valve which, in the starting position shown, connects an inlet of the control valve 23 to the compressed air bottle 1, when an operating position is reached by displacement by means of the control element 5, however, it connects the inlet of the control valve 23 to an unpressurized line to the jacket 2. As a result of said unpressurized connection of the supply to the control valve 23, activation of the control device 23 is reset, in this case, as a control line 34 of the control valve 23, which branches of from the outlet side of the control valve 23, is also connected in an unpressurized manner. As a consequence, the control device 8 is activated by the control valve 23 only if the pressure present at the control line 24 is higher than the pressure prevailing in the reference volume 26 and the pressure provided by the spring element of the control valve 23. Said resetting function, in this connection, can also be seen from the functional diagram in FIG. 4.

(18) Finally, as can be seen in FIG. 1, a pre-test valve 33, which can be transferred manually by means of an operating element 35 from the starting position shown into an operating position, is also provided as another characteristic. Said pre-test valve 33 is developed in the present case as a 3/2 directional control valve and, in the starting position, connects the pressure connection 11 to the control line 24 of the control valve 23. When activated manually by means of the operating element 35 and when reaching the operating position, the control line 24 of the control valve 23 is, however, connected to the compressed air bottle 1, which causes the control valve 23 to transfer directly into the operating position.

(19) The control device 8 is activated accordingly and this independently of a surrounding water pressure such that correct functioning of the control device 8, even above the surface of the water and independent of the criteria otherwise necessary for activation, is able to be checked by means of the pre-test valve 33. As can be seen in combination with the functional diagram from FIG. 5, said pre-function test is then able to be reset once the operating element 35 has been released and as a result of operating the reset valve 32 by means of the control element 5. For otherwise, the control valve 23 would always be held in the operating position as a result of the control line 34 branching off from its outlet side.

(20) In the present case, couplings of the shut-off valve 30 and of the reset valve 31 with the outlet valve 4 and coupling of the reset valve 32 with the inflation valve 3 are provided in a mechanical manner. In terms of the disclosure, however, a hydraulic, pneumatic or electric coupling can also be conceived just as well. In the present case, resetting the emergency valve 9, the bypass valve 20, the shut-off valve 27 and also the control valve 23 is achieved in a pneumatic manner in each case by means of control lines, however, this can also be accomplished in a mechanical, hydraulic or electric manner corresponding to a pressure detected at another point.

(21) By means of the development of an article of diving equipment according to the disclosure, it is consequently possible to influence functions of the control device 8 of the diving equipment in a simple manner. In this case, activation of this type can also be performed by a diving partner, for example a diving teacher.

LIST OF REFERENCES

(22) 1 Compressed air bottle 2 Jacket 3 Inflation valve 4 Outlet valve 5 Control element 6 Control element 7 Mouthpiece 8 Control device 9 Emergency valve 10 Control line 11 Pressure connection 12 Control line 13 Control line 14 Time control unit 15 Control volume 16 Fill aperture 17 Drain valve 18 Additional volume 19 Line 20 Bypass valve 21 Operating element 22 Control line 23 Control valve 24 Control line 25 Control line 26 Reference volume 27 Shut-off valve 28 Operating element 29 Control line 30 Shut-off valve 31 Reset valve 32 Reset valve 33 Pre-test valve 34 Control line 35 Operating element