Inlet valve locking system for inflatable underwater equipment

Abstract

A valve locking system for inflatable underwater equipment includes an inlet valve positioned inside the main body of a power unit, and a retaining element of the valve also positioned in the main body perpendicularly to the actuation and mounting axis of the valve.

Claims

1. An inlet valve locking system for inflatable underwater equipment comprising: an inlet valve (2,3,7-13,17) positioned inside a main body (6-16) of a power unit; and a retaining element (1-11) of the inlet valve also positioned in the main body (6-16) in perpendicular position to an actuation and mounting axis of the inlet valve.

2. The inlet valve locking system for inflatable underwater equipment according to claim 1, wherein the inlet valve comprises, a housing bush (2) having a sliding chamber or valve (7) for a piston (3), the housing bush being positioned inside the main body (6) of the power unit, and a retaining element (1) of the bushing (2), also positioned in the main body (6) in perpendicular position to a mounting axis of the housing bush (2) and/or to an axis of actuation of the valve.

3. The inlet valve locking system for inflatable underwater equipment according to claim 2, wherein the housing bush (2) is provided with one or more locking edges.

4. The inlet valve locking system for inflatable underwater equipment according to claim 2, wherein said housing bush (2) is provided with a radial locking seat (9).

5. The inlet valve locking system for inflatable underwater equipment according to claim 4, wherein said retaining element (1) is provided with a locking extension (8) inserted into the radial locking seat (9) realized on the housing bush (2).

6. The inlet valve locking system for inflatable underwater equipment according to claim 4, wherein the retaining element (1) is provided with a locking extension (8) inserted against one or more locking edges defined on the housing bush (2).

7. The inlet valve locking system for inflatable underwater equipment according to claim 2, wherein said retaining element (1) is constituted by a male part of a quick release connection for air supply of the inlet valve.

8. The inlet valve locking system for inflatable underwater equipment according to claim 1, wherein the inlet valve comprises the main body (16) of the power unit, the main body having a sliding chamber (17) for a piston (13), and by a retaining element (11) of the piston (13), also placed in the main body (16) in perpendicular position to a sliding axis of the piston (13) or to an actuation axis of the inlet valve.

9. The inlet valve locking system for inflatable underwater equipment according to claim 8, wherein the piston (13) is provided with one or more locking edges.

10. The inlet valve locking system for inflatable underwater equipment according to claim 8, wherein the piston is provided with a radial locking seat (19).

11. The inlet valve locking system for inflatable underwater equipment according to claim 8, wherein the retaining element (11) is provided with a locking extension (18) inserted into the radial locking seat (19) defined on the piston (13).

12. The inlet valve locking system for inflatable underwater equipment according to claim 8, wherein the retaining element (11) is provided with a locking extension (18) inserted against one or more locking edges defined in the piston (13).

13. The inlet valve locking system for inflatable underwater equipment according to claim 12, wherein the retaining element (11) provided with the locking extension (18) comprises a feeding connector the inlet valve.

14. Inflatable underwater equipment provided with an inlet valve locking system for inflatable underwater equipment realized, said inlet valve locking system comprising: an inlet valve (2,3,7-13,17) positioned inside a main body (6-16) of a power unit; and a retaining element (1-11) of the inlet valve also positioned in the main body (6-16) in perpendicular position to an actuation and mounting axis of the inlet valve.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0037] Other features and advantages of the present invention will be clearer in the following detailed description of a specific implementation, with reference to enclosed drawings, which are provided by way of example and not as of limitation, and in which:

[0038] FIG. 1 is a cross-section schematic view of a locking system for an inflation valve for inflatable diving equipment of the conventional type;

[0039] FIG. 2 is a cross-section schematic view of a locking system for an inflation valve for inflatable diving equipment according to the present invention;

[0040] FIG. 3 is a cross-section schematic view of a locking system for an inflation valve for inflatable diving equipment according to the present invention.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION

[0041] FIG. 2 shows a first advantageous embodiment of the present invention, in which the main body 6 of a control unit (not shown in its entirety) is provided with a housing, made by machining or molding with no requirement for threads, for the inflation valve. The valve is composed of a cylindrical chamber 7 formed in a containment bush 2, on the outer side wall of which a radial locking seat 9 is obtained in the present embodiment. The radial seat 9 is delimited by two walls perpendicular to the axis of the containment bush 2 and spaced from each other to a predetermined extent in the axial direction of the bush.

[0042] On the same main body 6 there is provided a branch of the passage duct for air or gas to be supplied to at least one inflatable bladder. That branch is perpendicular to the insertion axis of the bush 2 and/or to the movement direction of a plunger stopper 3. A retaining element 1 is mounted in this branch of the passage duct and contemporaneously acts also as the valve supply connector.

[0043] The branch of the air or gas passage duct wherein said connector is housed intersects and/or comes out in the hole housing the bush 2 in a position coinciding with the radial engagement seat between the two radial shoulders.

[0044] One of the two radial walls denoted by 102 is provided in the end area of the bush 2, which is the valve seat closed and opened by the plunger 3. The wall 102 is provided in such a position that in the mounted condition an inner end of the connector forming the retaining element 1 abuts against the radial wall 102 and keeps the bush 2 in position.

[0045] The retaining element composed of the connector 1 is provided with a locking extension 8 fitting in the radial seat 9 of the bush 2.

[0046] A plunger stopper 3 slides Inside the containment bush 2 and a push-button 4 is connected thereto. A cylindrical return spring 5, interposed between the push-button 4 and the containment bush 2, enables the push-button to return back in the idle position. In particular, the spring 5 is interposed between the end of the bush 2 facing the push-button 4 and the push-button 4.

[0047] The push-button 4 is protected and externally guided by a ring obtained in the body 6. The gas flow enters from the connector 1, is intercepted in chamber 7 radially and axially delimited by a reduced diameter region of the plunger 3 and by the inner shell wall of the containment bush 2.

[0048] By pressing the push-button 4, the plunger 3 opens the passage toward the inner part of the body 6. That passage is provided at the end of the bush 2 opposite to the push-button 4 and has a conically divergent shape or shape with curved walls denoted by 202. By releasing the push-button 4 the spring 5 returns the plunger back in the closed condition, as shown in FIG. 2. An end radial enlargement 103 of the plunger 3 is the stop return abutment of the plunger 3 with respect to the bush 2 defining the closed position of the aperture 202 such as shown in FIG. 2.

[0049] The plunger is made substantially like the one described with reference to FIG. 1, with a radial narrowing having a given axial length and separating radial annular shoulders from each other, which are the head surfaces of radial enlargements. These have an outer diameter substantially corresponding to the inner diameter of the containment bush 2 and anyway such to allow the plunger 3 to axially slide in the bush 2 and tightly adhere against the inner shell surface of the bush 2 by a gasket respectively.

[0050] Functional components of the inflation valve are contained in the containment bush 2, which can be made as a finished operational part already pre-assembled and tested, and has to be simply fit by being pressed in its seat, where it is locked by the retaining element 1, which in the specific case is the supply connector.

[0051] As it is clear from the figures, the supply connector is lockable in the corresponding branch of the passage duct in the body 6 by an externally threaded portion cooperating with an internally threaded portion of said branch. A stop screwing abutment flange 101, with which a seal gasket cooperates, locks the connector in the position where the extension 8 engages the seat 9.

[0052] FIG. 3 shows a second advantageous embodiment, in which the chamber 17 housing the stopper 13 is directly formed in the main body 16 of a control unit, without using any containment bushes. In this case the locking extension 18 of the retaining element 11, namely of the supply connector, fits in a radial seat 19 defined by a radial annular narrowing of the plunger 13.

[0053] The plunger 13 is made substantially like the plunger of FIGS. 1 and 2. The axial delimiting walls of the annular radial narrowing 113 of the body of the plunger 13 are axially spaced apart at such a distance that they are the stop abutments of the displacement axial travel of the plunger 13 between the closed and open positions of the valve. Therefore, unlike the embodiment illustrated in FIG. 2, in this embodiment additional stop locking elements need not be provided in the idle position of the stopper.

[0054] In both of the embodiments of FIGS. 2 and 3, the body 6, 16 does not need a thread in the seat to anchor the valve therein, thus simplifying molding and mounting of the control unit.

[0055] In both of the embodiments, the diameter of the push-button 4, 14 is no longer constrained to the dimension of the containment bush 2 and, therefore, can be enlarged by making a guide ring 306, 316 on the body 6-16 and allowing the push-button 4-14 to be driven more easily, even by hands protected with heavy gloves.

[0056] In according with the invention, additional variants and/or improvements are possible such as, for example, using a locking element different from the supply connector and/or the positioning thereof not in a seat obtained in the bush and/or in the plunger or in the stopper but against one of the ends thereof.

[0057] A further possible variant can provide a retaining element with the task of locking the containment bush and contemporaneously acting to lock the plunger in the stop idle position.

[0058] All is obtained by a locking seat of the containment bush formed as an aperture in the wall of the bush, through which the extension of the retaining element reaches the radial seat formed in the body of the plunger.

[0059] Therefore, the present invention enables overcoming the drawbacks of prior art known valve systems and provides a locking system for an inflation valve that is simple and reliable, inexpensive to manufacture and assemble and adaptable to all types of inflatable diving equipment.

[0060] All of the above, as described and shown, is susceptible to changes and improvements, without changing the main principle of the invention as defined in the enclosed claims.