ACTUATOR DEVICE FOR CHANGE OF STATE OF AN ELECTRONIC-CONTROL APPARATUS FOR UNDERWATER USE, AND CORRESPONDING SYSTEM

Abstract

The invention relates to an actuator device for change of state of an electronic-control apparatus for underwater use and a system for underwater use comprising the combination of a said actuator device with an electronic-control apparatus for underwater use. The actuator device for change of state of an electronic-control apparatus for underwater use comprises a main body designed to be associated in a stable way with at least part of said apparatus. A peculiarity of the invention is that it comprises, associated with the main body, magnetic-field generator means that interface, in the operating position of the actuator device, with reed-technology sensor means of said apparatus for sending electrical information to means for management and control of the apparatus that are designed to change the state, in particular the state of supply of the apparatus, said management and control means being electrically associated with a supply circuit of the apparatus, which comprises at least one power-supply battery, for the possible opening or closing of the circuit.

Claims

1. An actuator device for change of state of an electronic-control apparatus for underwater use comprising a main body designed to be associated in a stable way with at least part of said apparatus, said device being characterised in that it comprises, associated with the main body, magnetic-field generator means that interface, in the operating position of the actuator device, with reed-technology sensor means of said apparatus sending electrical information to means for management and control of the apparatus that are designed to change the state, in particular the state of supply of the apparatus, said management and control means being electrically associated with a supply circuit of the apparatus, which comprises at least one power-supply battery, for the possible opening and closing of the circuit.

2. The actuator device according to claim 1, characterised in that the main body of the actuator device is at least in part shaped like an obligate housing capable of containing at least part of the apparatus.

3. The actuator device according to claim 1, characterised in that the obligate housing is shaped in such a way as to adhere to at least part of the apparatus.

4. The actuator device according to claim 1, characterised in that the magnetic-field generator means of the actuator device comprise an electromagnet in electrical connection with actuator means for emission of time-variable magnetic pulses, in particular according to an established logic.

5. The actuator device according to claim 1, characterised in that the actuator device is designed for bringing about passage of the electronic-control apparatus from an ON state to an OFF state, and vice versa.

6. A system for underwater use comprising an electronic-control apparatus for underwater use equipped with means for management and control of the apparatus electrically associated with a supply circuit of the apparatus, which comprises at least one power-supply battery, and equipped with reed-technology sensor means designed to supply electrical information to the means for management and control of the apparatus for bringing about change of state of the apparatus in particular for opening or closing the supply circuit, being characterised in that it comprises an actuator device for change of state of said apparatus according to any one of the preceding claims.

7. The system for underwater use according to claim 6, characterised in that the means for management and control of the apparatus are designed to receive time-variable magnetic pulses from said magnetic-field generator means and to establish in which operating condition the apparatus is, as well as to drive opening or closing of the supply circuit.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0020] Further purposes, characteristics, and advantages of the present invention will emerge clearly from the ensuing detailed description of preferred embodiments of the invention, provided purely by way of explanatory and non-limiting example, with the aid of the annexed drawings, wherein:

[0021] FIG. 1 is a top plan view of a system for underwater use including an electronic-control apparatus for underwater use and an actuator device for change of state thereof, according to an embodiment of the present invention;

[0022] FIG. 2 is a view according to the section A-A of the system of FIG. 1;

[0023] FIG. 3 is an exploded view according to the section A-A of the system of FIG. 1 in an inoperative condition of the actuator device.

DETAILED DESCRIPTION

[0024] With reference to FIGS. 1-3, designated as a whole by 10 is an actuator device for change of state of an electronic-control apparatus for underwater use, the apparatus being in turn designated as a whole by 20 and comprising:

[0025] a main body 12 designed to be associated in a stable way with at least part of the aforesaid apparatus 20,

[0026] magnetic-field generator means 15 associated with the main body 12, which interface, in the operating position of the actuator device 10 as in FIGS. 1 and 2, with reed-technology sensor means 30 of the apparatus 20 for sending electrical information to means for management and control of the apparatus 20, which are designed to change state, in particular the state of supply, of the apparatus 20, the means for management and control of the apparatus being in turn electrically associated with a supply circuit of the apparatus 20, which comprises at least one power-supply battery 22, for closing it or opening it thus enabling turning-on or turning-off of the apparatus (ON/OFF); or else, for opening or closing (ON/OFF) of an electrical circuit of the apparatus 20 electrically associated with a supply circuit thereof, which comprises at least one power-supply battery 22, thus enabling turning-on or turning-off of the apparatus.

[0027] Consequently, when the actuator device 10 is in the operating position, the magnetic-field generator means, in the example, a permanent magnet 15, interact with the reed-technology sensor means 30, for example a simple reed contact, and generate an electrical signal, which is received by the management and control means of the apparatus 20, which receive the information that the actuator device 10 is in the operating position, for example by detecting a current generated by closing of the reed contact 30.

[0028] The magnetic-field generator means 15 are thus possibly able to control a change of state of the apparatus, in particular interruption of the supply circuit, advantageously saving battery energy.

[0029] The actuator device 10 according to the invention is consequently designed for the passage of the electronic-control apparatus 20 from a state of supply ON, in particular when it is not in the operating position, with its main body 12 stably associated with the apparatus 20, to a state of non-supply OFF, when instead the possibility described in the previous paragraphs arises, and vice versa.

[0030] The electronic-control apparatus for underwater use 20, for example a manometer for measuring the depth of immersion or the pressure and the amount of mixture present in the cylinders, further comprises:

[0031] a battery compartment 21, which is in electrical connection with said supply circuit and is designed to house the batteries 22;

[0032] a hatch 24 for closing the battery compartment 21, of a hermetically sealed type via interposition of hydraulic seals 26 designed for withstanding high pressures;

[0033] a video display 28 in electrical connection with the means for management and control of the apparatus 20 for display of information detected by the apparatus 20; and

[0034] reed-technology sensor means, for example a simple reed contact 30 associated with the supply circuit for sending binary information to the management and control means of the apparatus 20, designed to change the state of the apparatus 20, in particular the state of supply thereof.

[0035] The main body 12 of the actuator device 10 is at least in part shaped like an obligate housing 13, which is able to contain a part or all of the apparatus 20, in the example almost the entire apparatus 20 except for the display 28. The obligate housing 13 is shaped in such a way as to adhere to at least part of the apparatus 20, enclosing it in tight mutual contact. Advantageously, said obligate housing 13 is firmly fixed to at least part of the apparatus 20 without any need for further specific means suited to the purpose, hence in an extremely practical, simple, and efficient way.

[0036] In an embodiment of the invention, the magnetic-field generator means of the actuator device are constituted by an electromagnet in electrical connection with actuator means for emitting time-variable magnetic pulses, in particular according to an established logic, which stimulate the reed-technology sensors of the apparatus that close or open, with the aforesaid established logic, an electrical circuit connected thereto. The means for management and control of the apparatus are designed to receive the above time-variable pulses of the electrical circuit and to establish in which operating condition the electronic-control apparatus is, as well as to govern accordingly a change of state of the apparatus, in particular opening or closing of the supply circuit. Consequently, the management and control means receive the encoded electrical information and advantageously establish in which operating condition the apparatus is, for example, whether it is undergoing programmed maintenance or it is in other particular conditions of use and/or testing, consequently governing a change of state of the apparatus, in particular opening and/or closing of the supply circuit according to the need.

[0037] Advantageously, the above solution enables perfect and rational management of the energy present in the batteries, which is used only when it is strictly necessary.

[0038] Also in this embodiment of the invention, the actuator device is evidently designed for bringing about passage of the electronic-control apparatus from a state of supply ON to a state of non-supply OFF, and vice versa.

[0039] It is clear that, for a person skilled in the art, numerous additional variants may be made to the actuator device for change of state of an electronic-control apparatus and to the system for underwater use according to the invention, as likewise it is clear that, in its practical embodiment, the shape of the particular items illustrated may differ and that the items may be replaced by technically equivalent elements.