Regulator first stage for two-stage underwater breathing apparatuses

Abstract

A regulator first stage for two-stage underwater breathing apparatuses includes a reduction chamber communicating with a high-pressure gas supply through a balance valve, which is influenced by the pressure of the external environment by a balance diaphragm that, by way of a suitable actuator, acts on the valve. The reduction chamber includes one or more medium pressure outlets, having axes parallel to the operating axis of the balance valve. In one configuration, one or more medium pressure outlets are also provided having axes orthogonal to the operating axis of the valve.

Claims

1. A regulator first stage for two-stage underwater breathing apparatuses, comprising: a reduction chamber (601) communicating with a high-pressure gas supply through a balance valve (5), said balance valve being influenced by a pressure of an external environment by a balance diaphragm (4) acting on said valve with an actuator (105), wherein said reduction chamber (601) is provided with one or a plurality of medium pressure outlets (311) having axes (30) parallel to an operating axis (50) of the balance valve (5); and one or a plurality of medium pressure outlets (611) having axes (60) orthogonal to the operating axis (50) of said balance valve (5), wherein there are provided at least two medium pressure outlets (611) having the axes (60) orthogonal to the operating axis (50) of the balance valve (5), and at least two outlets (311) having axes parallel to the operating axis (50) of the balance valve (5).

2. The regulator first stage according to claim 1, wherein a high-pressure gas supply duct (2) is arranged with its axis perpendicular to the operating axis (50) of the balance valve (5).

3. A regulator first stage for two-stage underwater breathing apparatuses, comprising: a reduction chamber (601) communicating with a high-pressure gas supply through a balance valve (5), said balance valve being influenced by a pressure of an external environment by a balance diaphragm (4) acting on said valve with an actuator (105), wherein said reduction chamber (601) is provided with one or a plurality of medium pressure outlets (311) having axes (30) parallel to an operating axis (50) of the balance valve (5), wherein said regulator comprises a monolithic body (1) within which said reduction chamber (601) is formed, and wherein a seat (401) of said balance valve (5) is made coaxial and concentric to said reduction chamber (601), and wherein said monolithic body (1) has at least two opposite parallel faces (201, 301), the balance diaphragm (4) of said balance valve (5) being arranged on one (201) of two faces of said monolithic body and the plurality of medium pressure outlets (311) having the axes (30) parallel to the operating axis (5) of the balance valve being arranged another one of the two faces.

4. The regulator first stage according to claim 3, wherein the seat (401) of said balance valve (5) occupies no more than 30% of a volume of said monolithic body (1).

5. The regulator first stage according to claim 3, wherein said reduction chamber (601) has a section at least twice a section of said seat (401) of said balance valve (5).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Further advantages and characteristics of the device according to the present invention will be apparent from the following detailed description of an embodiment thereof, made by way of example and without limitation with reference to the accompanying drawing tables, wherein:

(2) FIG. 1 is a perspective view of an embodiment of the regulator first stage according to the present invention;

(3) FIG. 2 is a longitudinal sectional view of the regulator of FIG. 1, provided with balance diaphragm;

(4) FIG. 3 is a perspective view of the regulator of FIG. 1 with a partial longitudinal section other than that of FIG. 2;

(5) FIG. 4 is a perspective view with a cross section of the regulator of FIG. 1; and

(6) FIGS. 5 and 6 show respectively an example of a second stage with a coupling inlet for the flexible hose oriented according to a transverse axis of the body and a second stage with an inlet for the flexible hose oriented according to a longitudinal axis of the body, with reference to the body of a diver holding the second stage in his/her mouth.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION

(7) FIG. 1 is a perspective view of a preferred embodiment of the regulator first stage according to the present invention; the monolithic body of said regulator, made of metal material or other like material, having convenient strength and workability is denoted with 1. Said body 1 is provided, on the face 101, with the high-pressure gas supply inlet 2, such as air or other gas mixtures, whereas three medium pressure outlets 311 provided with caps 321, and a medium pressure outlet, not visible in figure, coupled with a connecting hose 3 are provided on the face 301 orthogonal to the face 101. The face 201, opposed to the face 301, and parallel to the same, is the one, as evident from FIG. 2 described in the following, on which the assembly comprising the regulator balance diaphragm is arranged. The seat 401 of the balance valve, also shown and described hereinafter, closed by the cap 411, is formed the middle of the face 301 of the body 1. The medium pressure outlet 611, provided with the cap 621, the hose 3 coupled with a similar outlet not visible in the figure, and the high-pressure outlet 421 provided with the cap 431, are also visible on the body 1.

(8) In FIG. 2 the regulator of FIG. 1 is shown in longitudinal section, provided with the balance diaphragm assembly 4 of a per se known and not better described type, whose characteristics do not fall within the protection scope of the present patent application. Such an assembly 4, coupled with the wall 201, cooperates with the balance valve 5 arranged in the seat 401 through the actuator 105; the operating axis of the balance valve 5 is denoted with 50. The valve 5 regulates the high-pressure gas supply to the reduction chamber 601, to which the outlets 611 are opened. The high-pressure outlets 411 are opened on the seat 401 upstream of the valve 5.

(9) The regulator of the preceding figures is shown in FIG. 3, free from the balance diaphragm assembly 4 and partially cutaway; like numerals corresponding to like parts. The reduction chamber 601, from which the medium pressure outlets 611 develop with the axis 60 perpendicular to the operating axis 50 of the balance valve, not visible in figure, and the outlets 311 opening to the reduction chamber 601 with an axis 30 parallel to the axis 50 and leading to the surface of the face 301 of the body 1, wherein they can connect with the hose 3 i.e. be provided with the cap 321, can be seen well in the figure. As it can be noted from FIG. 4 showing a partial cross section at the reduction chamber 601, and wherein like numerals correspond to like parts, the outlets 311 are opened perpendicularly to the outlets 611, which are conversely arranged radially with respect to the said reduction chamber 601.

(10) The embodiment of the regulator first stage according to the present invention and its operation will be apparent from the following. As previously mentioned, in the devices known in the state of the art, the spatial arrangement of the medium pressure outlets directly comes from the regulator construction, and usually allows such outlets to be positioned with the axes substantially perpendicular to the operating axis of the balance valve, i.e. they are radially arranged about the reduction chamber, even also on several plans. This kind of configuration unavoidably limits the number of solutions available for the user for positioning the hoses around his body, and thus reduces the breathing apparatus comfort.

(11) In the proposed solution according to the present invention, the body 1 of the regulator first stage has been designed so as to implement, coaxially to the seat 401 of the balance valve 5, the four medium pressure outlet ducts 311, all leading to the face 301, and all thus having directions perpendicular to the outlets 611 radially arranged about the reduction chamber 601. As it is apparent in particular from FIGS. 1 and 2, the seat 401 has a reduced volume with respect to the total volume of the body 1, such that the medium pressure outlets 311 can be obtained around said seat. Advantageously, the reduction chamber has a section substantially twice with respect to said seat, such to provide convenient spaces for positioning said outlets 311. Preferably, the volume taken by said seat 401 of the balance valve 5 will not exceed 30%, and still more preferably 20% of the total volume of said body 1. The high-pressure gas supply is provided through a duct 2 which is oriented on an axis arranged orthogonally with respect to the operating axis of the valve; this configuration allows the outlets 311 to be arranged without interferences with the cylinder connected with the said supply duct.

(12) The thus designed regulator first stage has a compact, versatile construction, and provides a very wide range of possibilities of arrangement of the hoses around the cylinder and therefore around the body of the user him/herself, by improving the operating comfort and thus also implementing the system safety.

(13) In FIGS. 5 and 6 two variations of a second stage 70, 80 are shown, the latter being intended to be connected with the reduction chamber of the first stage according to the example of the preceding figures alternately or simultaneously through a flexible hose, of which only the end lengths are shown in the figures and which flexible hose is connected with a different outlet for each of the provided second stages, so as to limit the crosses among flexible hoses and to rationalize their paths and reduce their lengths.

(14) As it is apparent FIG. 5 shows a second stage variation with coupling inlet to the end of the flexible hose oriented according to a transverse direction of the body of the user using the second stage. The variation shown provides the inlet on the right side. A variation in which the inlet is on the left side is also possible.

(15) With reference to FIG. 6, conversely the coupling inlet is oriented in longitudinal direction of the axis of the user body when the second stage is in use and furthermore downwards.

(16) It is apparent how since at least two second stages are needed to be provided, the first stage according to the present invention makes the connection of each of the flexible hoses, also named hoses, possible with a first stage outlet which optimizes path, arrangement and length of the flexible hose depending on the second stage type.