System for attaching a thermal battery to a power section of an underwater craft

Abstract

A system for attaching a thermal battery to a flange of a power supply section of an underwater craft, such as a torpedo, comprising a fixing sleeve arranged around and fixed to the battery and provided with fixing lugs comprising holes for the passage of screws for attachment to the flange, wherein the sleeve is in an overall shape of a C, of which an intermediate part and ends of branches comprise the fixing lugs for fixing the fixing sleeve to the flange.

Claims

1. A system for attaching a thermal battery to a flange of a power supply section of an underwater craft, said system comprising a fixing sleeve configured to be arranged around and fixed to the thermal battery, and the fixing sleeve provided with fixing lugs comprising holes for passage of screws configured to attach to the flange, each corresponding hole of the holes having an axis surrounded by the corresponding hole, wherein the fixing sleeve is in a shape of a C, the fixing sleeve comprising an intermediate part, a first branch and a second branch, the first branch being on one side of the intermediate part and the second branch being on another side of the intermediate part, the intermediate part, the first branch and the second branch each comprising the fixing lug, which is projected outward from an outer contour of the C of the fixing sleeve and configured to fix the fixing sleeve to the flange, wherein the fixing sleeve comprises a central axis, surrounded by the outer contour of the C of the fixing sleeve, and wherein the axis of each of the corresponding holes is parallel to the central axis of the fixing sleeve.

2. The system according to claim 1, wherein the holes of the fixing lugs of the C-shaped sleeve have a dimension larger than a diameter of the screws configured to attach the fixing sleeve on the flange.

3. The system according to claim 2, wherein the holes of the fixing lugs are oblong holes.

4. The system of claim 1, wherein said underwater craft is a torpedo.

5. A method of attaching a thermal battery to a flange of a power supply section of an underwater craft comprising attaching a system to said underwater craft; the system comprising a fixing sleeve configured to be arranged around and fixed to the thermal battery, and the fixing sleeve provided with fixing lugs comprising holes for passage of screws configured to attach to the flange, each corresponding hole of the holes having an axis surrounded by the corresponding hole, wherein the fixing sleeve is in a shape of a C, the fixing sleeve comprising an intermediate part, a first branch and a second branch, the first branch being on one side of the intermediate part and the second branch being on another side of the intermediate part, the intermediate part, the first branch and the second branch each comprising the fixing lug, which is projected outward from an outer contour of the C of the fixing sleeve and configured to fix the fixing sleeve to the flange, wherein the fixing sleeve comprises a central axis, surrounded by the outer contour of the C of the fixing sleeve, and wherein the axis of each of the corresponding holes is parallel to the central axis of the fixing sleeve.

6. An underwater craft comprising: a power supply section comprising a flange; at least one thermal battery; and means attaching the at least one thermal battery to the flange of the power supply section, said means comprising a system, a fixing sleeve of which being arranged around each of the at least one thermal battery; the system comprising the fixing sleeve configured to be arranged around and fixed to the thermal battery, and the fixing sleeve provided with fixing lugs comprising holes for passage of screws configured to attach to the flange, each corresponding hole of the holes having an axis surrounded by the corresponding hole, wherein the fixing sleeve is in a shape of a C, the fixing sleeve comprising an intermediate part, a first branch and a second branch, the first branch being on one side of the intermediate part and the second branch being on another side of the intermediate part, the intermediate part, the first branch and the second branch each comprising the fixing lug, which is projected outward from an outer contour of the C of the fixing sleeve and configured to fix the fixing sleeve to the flange, wherein the fixing sleeve comprises a central axis, surrounded by the outer contour of the C of the fixing sleeve, and wherein the axis of each of the corresponding holes is parallel to the central axis of the fixing sleeve.

7. The underwater craft of claim 6, consisting of a torpedo.

8. The underwater craft of claim 6, wherein said means further comprises screws passing through the holes of the fixing lugs and attaching the fixing sleeve on the flange of the power supply section.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention will be better understood using the following description, provided solely as an example and done in reference to the appended drawings, in which:

(2) FIG. 1 shows a perspective view of a set of batteries designed to be incorporated into an electricity power supply section, for example of a torpedo,

(3) FIG. 2 shows a perspective view illustrating the attachment of a battery on a flange, and

(4) FIG. 3 shows a perspective view of one embodiment of a sleeve for attaching that battery on that flange.

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT

(5) These figures, and in particular FIG. 1, illustrate a set of thermal batteries designed to be included in the composition of a power supply section for an underwater craft such as a torpedo.

(6) This assembly is designated by general reference 1 in this FIG. 1, and for example comprises several associated thermal batteries, one of which is designated by general reference 2 in this FIG. 1. These batteries are then attached on a flange designated by general reference 3, which in turn is attached in the electric power section of the torpedo.

(7) This section may comprise several assemblies of this type associated with each other.

(8) As more particularly shown in FIG. 2, the flange 3 then comprises holes, for example 4, for passage of the batteries, for example 5, each battery being attached on the flange 3 by means of an attachment sleeve, one of which is designated by general reference 6 in that figure.

(9) That sleeve is then on the one hand placed around and attached on the battery 5, and on the other hand attached by screwing on the flange 3, and then for example to that end comprises attaching lugs provided with passage holes for attaching screws.

(10) FIG. 3 provides a more detailed illustration of one example embodiment of such a sleeve.

(11) In that FIG. 3, the sleeve is designated by general reference 10 and is in the general shape of a C or any other shape with an open or slotted ring, and it can be placed around the battery while hugging its contour and incorporating the machining allowances thereof, and therefore the diameter variations.

(12) The intermediate part and the ends of the branches of that C-shaped sleeve are then provided with lugs, for example the lugs designated by references 11, 12 and 13.

(13) Each lug of the sleeve is provided with a passage hole 14, 15 and 16 for a screw for attaching that sleeve on the corresponding flange of the power section of the underwater craft.

(14) Those holes, for example the holes 14, 15 and 16, of the end lugs 11, 12 and 13 of the branches of the C-shaped sleeve have a dimension larger than the diameter of the corresponding attaching screw.

(15) In fact, those holes 14, 15 and 16 can be oblong holes also allowing the sleeve and the entire attaching device to absorb the machining allowances of the battery.

(16) Thus, the sleeve has a certain flexibility making it possible to adjust it to the diameter of the thermal battery and the attachment holes thereof have a shape and/or size making it possible to react the machining allowances of the battery and to maintain a rigid and robust attachment of the battery on the flange without play.

(17) One can then see that such a structure has a certain number of advantages, in particular in terms of its reliability and ease of use and implementation.

(18) Of course, other embodiments can also be considered.