Fire-Retardant Bag for Accommodating Flammable Devices or Energy Stores

Abstract

The invention relates to a fire-retardant bag (1) for accommodating flammable devices or energy stores, in particular lithium-ion batteries, having an interior (10) for accommodating such a device or energy store and having a wall surrounding the interior (10). The wall is flexible and of multi-layer design with at least one layer of fire-retardant material which withstands a temperature emanating from the interior (10) of >800° C. According to the invention, the wall has a layered structure in the form of a layer of textile material and at least one following layer of silica fibre material or silica woven fabric material.

Claims

1-22. (canceled)

23. A fire-retardant bag (15) for receiving flammable devices or energy stores including lithium-ion batteries, having an interior (24) for receiving such a device or energy store and having a wall surrounding the interior (24), wherein the wall is flexible and multi-layered with at least one layer of fire-retardant material which resists a temperature of >800° C. emanating from a device or energy store included in the interior (24), wherein the wall has a layer structure in the form of a layer of textile material, and at least one subsequent layer of silica-fiber or fabric material, and wherein the interior (24) can be closed in relation to the surroundings, characterized in that the rear side of the bag (15) is provided with an insertion pocket into which a plate-shaped stabilizing element (20) can be inserted.

24. A fire-retardant bag (15) according to claim 1, characterized in that the bag (15) has outer holding elements for detachable connection to a structural part of an aircraft.

25. A fire-retardant bag (15) according to claim 1, characterized in that the pocket (15) has an outer supporting element for the manual transport of the pocket (15).

26. A fire-retardant bag (15) according to claim 2, characterized in that the pocket (15) has an outer supporting element for the manual transport of the pocket (15).

27. A fire-retardant bag (15) according to claim 1, characterized in that the pocket has a layer structure of its wall in the form of a layer of textile material with the following silica layer made of E-glass needle felt material and a woven silica layer in plain weave.

28. A fire-retardant bag (15) according to claim 1, characterized in that the pocket has a layer structure of its wall in the form of a layer of textile material with the following silica layer made of E-glass needle felt material and at least two woven silica layers with different binding.

29. A fire-retardant bag (1) according to claim 1, characterized in that the pocket (15) is provided with a cover flap (17) which can be closed and opened.

30. A fire-retardant bag (15) according to claim 1, characterized in that a plate-shaped retaining plate (19) is provided which is arranged parallel to the stabilizing element (2) and can be connected to the stabilizing element (20) via releasable means (22, 23).

31. A fire-retardant bag (15) according to claim 7, characterized in that the connecting means (22, 23) contain holders (23), which are arranged on the retaining plate (19) and have slots, into which button-like projections (22) of the stabilizing element (20) engage in such a way that, when the pocket is displaced in the opening direction of the slots, a separation of the stabilizing element (20) and holding plate (19) takes place.

32. A fire-retardant bag (15) according to claim 7, characterized in that a securing device for preventing unintentional separation of the pocket and the retaining plate is provided between the pocket and the retaining plate.

33. A fire-retardant bag (15) according to claim 9, characterized in that a securing tab (16) is provided on the pocket that contains snap fasteners (18) which engage in counterparts on the retaining plate (19), and that a displacement and separation of the retaining plate (19) and stabilizing element (20) from one another is possible only after the snap fasteners (18) and their counterparts thereof have been separated from one another by actuating the securing tab (16).

Description

[0020] The invention is explained in more detail below on the basis of an exemplary embodiment. The figures show:

[0021] FIG. 1 is an isometric view of a bag of an embodiment of the invention;

[0022] FIG. 2 is a plan view of the bag according to FIG. 1,

[0023] FIG. 3 shows a sectional view of the bag according to FIG. 2 along the line A-A, and

[0024] FIG. 4 shows an exploded view of the rear side of the bag.

[0025] The views shown in FIGS. 1-4 are highly simplified representations.

[0026] FIG. 1 shows an embodiment of the invention. The bag 15 is essentially designed as a flat flexible bag which can be closed at its opening by a flap 17. In addition, a zipper can be used. The flap 17 is secured by means of conventional buckles 26 and 27. The bag 15 can be removed from a retaining plate 19 by means of a securing tab 16.

[0027] FIG. 2 shows the pocket or bag 15 in front view with flap 17, buckles 26 and 27 and the securing tab 16 which is fastened to the bag and can be fixed to a projection 25 of the rear holding plate by means of push buttons.

[0028] In FIG. 3, the case or bag 15 is shown in a sectional view along the line A-A of FIG. 2. The bag has only a narrow receiving space 24, which, however, is sufficient to accommodate a tablet computer, mobile telephones or devices of similar size.

[0029] The rear side of the bag 15 has an opening, which can be closed by a zipper, of an insertion pocket into which a stabilizing element 20 is inserted. The stabilizing element 20 can be coupled to a retaining plate 19 arranged in parallel thereto, with button-like projections 22 of the stabilizing element 20 engaged in slots of holders 23 fastened to the retaining plate 19.

[0030] When the bag 15 is displaced upwards in parallel movement along the retaining plate 19, the projections 22 release from the slots of the holders 23 so that the bag can be removed from the retaining plate 19. In order to prevent unintentional displacement and release of the bag (for example by means of forces which occur during a flight) from the holders, the bag preferably has a securing device which can be in the form of the securing tab 16 which contains snap fastener elements 18 which engage in counterparts on the projection 25 of the retaining plate 19. The separation of the bag 15 and the retaining plate 19 is thus possible only when the snap fastener elements 18 have been released by pre-drawing the tab 16.

[0031] FIG. 4 shows an exploded perspective view of the rear side of the bag 15 with holders 23, the tab 16, the snap fasteners 18 and the retaining plate 19. This can be fastened by means of retaining pins 22 to a wall or another structural element, for example in an aircraft.

[0032] This bag can be used in particular in the passenger and cockpit areas of an aircraft when tablet computers are to be charged under safety conditions. In this case, the computer is inserted into the bag, wherein the charging cable can be led out of the bag 15 on one side of the flap 17.

[0033] The layers used for the pockets are sewn together in particular by a metal sewing thread covered with aramid. The bag 15 can have an outer layer of cotton material. This is followed by a layer of a glass fiber material in the form of a needle felt made of E-glass, which is non-ceramic and can withstand a temperature of 1000° C. and then a textured silica glass fabric in plain weave.

[0034] This invention can be used not only in airplanes, but in any type of flight apparatus and also in other industrial goods in which hazards are encountered by the use of lithium batteries.

REFERENCE NUMERALS

[0035] 15 Bag [0036] 16 Securing tab [0037] 17 Flap [0038] 18 Snap fastener [0039] 19 Retaining plate [0040] 20 Stabilizing element [0041] 21 Fastening screw [0042] 22 Retaining pin/button-like projections [0043] 23 Holder [0044] 24 Receiving space [0045] 25 Projection [0046] 26 Buckle [0047] 27 Buckle