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DEVICE FOR INFLATING AN INFLATABLE BAG, AVALANCHE SAFETY SYSTEM AND A BACKPACK WITH SUCH A DEVICE AND USE

20190030379 · 2019-01-31

    Inventors

    Cpc classification

    International classification

    Abstract

    A device (1) for inflating an inflatable bag. The device comprises a first opening (11) which allows intake of atmospheric air, a second opening (12) connected or connectable to the inflatable bag, at least a first moveable inflation member (13), preferably an impeller, being arranged between the first opening (11) and the second opening (12), a motor (31) for driving the moveable inflation member (13) and a power source for energizing the motor (31). The power source comprises at least one capacitor (21) as a power supply for the motor (31).

    Claims

    1-17. (canceled)

    18. A device for inflating an inflatable bag comprising: a first opening allowing intake of atmospheric air, a second opening connected to or connectable to the inflatable bag, at least a first moveable inflation member being arranged between said first opening and said second opening, a motor for driving the removeable inflation member, and a power source for energizing the motor, wherein the power source comprises at least one capacitor as a power supply for said motor.

    19. The device according to claim 18, wherein the at least one capacitor has a total capacitance in a range of 20 to 90.

    20. The device according to claim 18, wherein the power source is a capacitor module, and at least two capacitors are connected on a main board.

    21. The device according to claim 20, wherein capacitors of the capacitor module are connected in series.

    22. The device according to claim 21, wherein the device has six capacitors.

    23. The device according to claim 20, wherein the capacitors are chosen such that the motor has a power of more than 700 W, for about 2 sec, when operated with fully charged capacitors.

    24. The device according to claim 20, wherein the capacitors are chosen such that the current is above 50 A, for about 2.5 sec, when operated with fully charged capacitors.

    25. The device according to claim 18, further comprising a controller for controlling said motor.

    26. The device according to claim 25, wherein said controller is associated with a trigger mechanism which triggers the motor for driving the moveable inflation member upon activation.

    27. The device according to claim 18, wherein the device comprises a one-way valve, between the first opening and the second opening, for preventing loss of intake air after inflating the inflatable bag.

    28. The device according to any of claim 18, wherein the first opening, the second opening and the moveable inflation member are arranged so as to form a radial fan.

    29. The device according claim 18, wherein the device comprises an interface for a battery being connected or connectable to the capacitor for recharging the capacitor.

    30. The device according to claim 18, wherein the device has a maximum weight in a range of 600 to 1400 g.

    31. The device according to claim 18, wherein the device has a size in a range of 150-250 mm100-200 mm80-180 mm.

    32. The device according to claim 18, the device further comprises a main switch.

    33. The avalanche safety system comprising a device according to claim 18 and an inflatable bag attached to the device.

    34. A backpack comprising a device according to claim 18 and an inflatable bag attached to the device.

    35. The device according to claim 29, wherein the inflation member is an impeller.

    36. The device according to claim 19, wherein the at least one capacitor has a total capacitance in a range of 50 F to 70 F.

    37. The device according to claim 36, wherein the at least one capacitor has a total capacitance of about 58 F.

    38. The device according to claim 24, wherein said power is 700 to 1200 W.

    39. The device according to claim 25, wherein said current is 50 to 80 A.

    40. The device according to claim 27, wherein the trigger is a mechanical trigger.

    41. The device according to claim 28, wherein said one-way valve is arranged between the moveable inflation member and the first opening.

    Description

    BRIEF DESCRIPTION OF THE DRAWINGS

    [0050] Advantageous embodiments of the invention are described with respect to the following figures:

    [0051] FIG. 1: a perspective view of a device according to the invention;

    [0052] FIG. 2: an exploded view of the device according to FIG. 1 comprising a one-way valve;

    [0053] FIG. 3: a graph of power and rotations per min over time of a device according to the invention;

    [0054] FIG. 4: a graph of current and tension over time of a device according to the invention.

    DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

    [0055] FIG. 1 shows a device 1 comprising a first opening 11 and a second opening 12. The first opening 11 allows intake of atmospheric air sucked in by an impeller 13. The atmospheric air is guided through winding 14, which forms a channel, to the second opening 12. The first opening 11, the second opening 12 and the impeller 13 are arranged as a radial fan including the winding 14. The impeller 13 is driven by a motor 31. The device 1 further comprises a controller 32, which controls the motor 31. Further, the device comprises a capacitor module 21. The capacitor module 21 comprises six capacitors 22 and a main board 23. The capacitors 22 are connected in series on the main board 23. The controller 32 is connected via an electrical connection to a handle 42. The device comprises first ribs arranged on the internal periphery of the second opening 12 (not shown). The device comprises second ribs arranged in the flow path between the first opening 11 and the impeller 13 (not shown).

    [0056] The device 1 is activatable by actuating the handle 42. The electrical connection 43 activates the controller 32, which controls the motor 31. Upon actuating the handle 42, the motor 31 is energized by the capacitor module 21. The motor 31 drives the impeller 13.

    [0057] FIG. 2 shows the same feature as shown in FIG. 1. In addition, a one-way valve 16 is positioned between the first opening 11 and the second opening 12. The one-way valve 15 enables controlling the air flow into an inflatable bag (not shown), which is connected to the second opening 12. As soon as the air flow is interrupted or stopped, the inflatable bag is closed by the one-way valve so that intaken air is not released, thus preventing the inflated bag from being deflated.

    [0058] An exemplary capacitor module according to the invention has a tension of 16 V, a maximum peak current of 203 A and a capacitance of 58 F. Each capacitor of the capacitor module has a tension of 2.7 V with an absolute maximum current of 170 A and a capacitance of 350 F. The capacitor module comprises 6 capacitors connected in series. Relevant parameters and characteristics of the capacitor module are as follows:

    TABLE-US-00001 Rated voltage 16 V Absolute max. voltage 17 V Rated capacitance 58 F. Capacitance tolerance 0-10% ESR (DC) 22 mOhm Maximum continuous current (at 15 C.) 35 A Maximum peak current 203 A Short circuit current 727 A Maximum leakage current (72 hrs/mA) 0.3 mA Capacitance of individual capacitors 350 F. Power density 3221 W/kg Maximum energy 2.1 W .Math. h Energy density 4.8 W/kg Number of capacitors 6 Operating temperature range 40 to 65 C. Storage temperature range 40 to 65 C. Weight 440 gr. Cycle life 500000

    [0059] An exemplary impeller according to the invention has a diameter of 75 mm, comprises 12 blades having a thickness of 3.8 mm. The impeller rotates with up to 50,000 rpm varying over the time during discharge.

    [0060] An exemplary winding 14 has a channel diameter at the first opening 11 of 35 mm and at the impeller 13 of 83 mm. The winding 14 completes 360 degree. Atmospheric air sucked by the impeller is compressed to 0.10 to 0.15 bar, preferably 0.12 bar. The impeller 13, the first opening 11, the second opening 12 and the winding 14 may be comprised in a unit such as a radial fan.

    [0061] The second opening 12 has an inlet diameter of 33 m.

    [0062] The motor 31 is designed such that an inflatable bag with a volume of 150 litres is inflated at least in 5 sec. The motor achieves 30,000 to 45,000 rpm for at least 8 sec. The specifications of the motor are:

    TABLE-US-00002 Voltage 8 to 16 V rpm/V 3000 kV Max. current 85 A Max. power 1300 watts rpm 24000 to 48000

    [0063] The controller 32 controls the motor 31, which is a brushless motor (also known as electronically commutated motor). The controller is designed such, that inflation is limited to 6 to 8 sec. The controller 32 has a voltage of 8 to 22 V, an continuous output current of 85A and a peak output current of 100 A.

    [0064] An exemplary inflatable bag has a volume of 150 litres and remains inflated for at least 3 min once it was inflated. The inflatable back is durable and resistant.

    [0065] The handle 42 allows actuating the device 1 if necessary e.g. in the event of an avalanche.

    [0066] FIG. 3 shows a graph of power of the capacitor module and rotations per min of the motor over time of an exemplary device according to the invention. Measurements were performed at 20 C. and at 30 C., wherein for the latter the device was kept at 30 C. for 24 hrs prior to the measurement. The measurements were performed using a device according to the invention comprising a capacitor module with six capacitors (MaxWell 16V 58F ultra capacitor module) and a motor (Dr Mad Thrust 3000 kv 70 mm EDF Runner Motor 4s version (29 mm)).

    [0067] The power was measured at 20 C. and at 30 C. for approximately 8 sec. The graph indicates that the power is above 700 W within the first 1.3 sec, and then decreases to 300 W at 3.5 sec and stays at a plateau of about 200 W until the end of the measurement.

    [0068] The rpm per min of the motor were also measured at 20 C. and 30 C. for approximately 8 sec. The graph indicates that the rotation of the motor is above 45,000 rpm/min within the first 0.5 sec, decreases to 35,000 rpm/min after 3.5 sec and stays constant until the end of the measurement.

    [0069] The measurements show that there is no significant difference in performance (power and rotation per min) between a device according to the invention operated at 20 C. and a device according to the invention operated at 30 C., which was at 38 C. for 24 hrs prior to the measurement.

    [0070] FIG. 4 shows a graph relating to current and tension over time of an exemplary device according to the invention. The measurements correspond to the performed measurements shown in the graph of FIG. 3. Current and tension are plotted over time.

    [0071] The current of the system reaches a maximum of about 80 Ampere for both measurements (20 C. and 30 C.) within the first second upon activation, decreases to 20 Ampere within 4 sec and plateaus at about 15 Ampere till the end of the measurement at 8.3 sec.

    [0072] The tension of the system starts at about 16 Volt, decreases to 12 Volt after 2.5 sec and stays constant till the end of the measurement.

    [0073] The measurements show that there is also no significant difference in the electrical properties (current and tension) between a device according to the invention operated at 20 C. and a device according to the invention operated at 30 C., which was at 30 C. for 24 hrs. prior to the measurement.