Aspects herein relate to mounting arrangements and methods for mounting a battery pack to a helmet. Methods and apparatuses for attaching devices to a helmet-mounted battery are also described herein.
Many helmets require battery assemblies to power electronic devices which are attached or integral to the helmet.
According to one embodiment of the invention, a helmet system includes a helmet, a battery pack including at least one battery, and a first engaging member to attach the battery pack to the helmet. The helmet also includes a first electrical contact to deliver power from the battery pack to a first device associated with the helmet when the battery pack is attached to the helmet. The helmet also includes a second electrical contact spaced from the first electrical contact. The second electrical contact is configured to deliver power from the battery pack to a second device when the second device is electrically connected to the battery pack.
According to another embodiment of the invention, a helmet system includes a helmet, a battery pack including least one battery, and a first engaging member to attach the battery pack to the helmet. The helmet also includes a first electrical contact to deliver power from the battery pack to a first device associated with the helmet when the battery pack is attached to the helmet. The helmet also includes a second engaging member to attach a second device to the battery pack. The helmet also includes a second electrical contact spaced from the first electrical contact and located on the battery pack. The second electrical contact is configured to deliver power from the battery pack to the second device when the second device is attached to the battery pack.
According to a further embodiment of the invention, a helmet system includes a helmet, a battery pack including at least one battery, and a first attachment arrangement to removably attach the battery pack to the helmet. The first attachment arrangement includes a locking member and an engaging member to engage with the locking member. The engaging member is configured to receive the locking member when the locking member is in a first configuration. When the locking member is engaged with the engaging member and in a second configuration, the locking member locks the battery pack to the helmet. Attachment of the battery pack to the helmet via the first attachment arrangement electrically connects the battery pack to an electrical contact associated with the helmet.
The accompanying drawings are not intended to be drawn to scale. In the drawings, each identical or nearly identical component that is illustrated in various figures is represented by a like numeral. For purposes of clarity, not every component may be labeled in every drawing. Various embodiments of the invention will now be described, by way of example, with reference to the accompanying drawings, in which:
Helmets for head protection and safety are often used in conjunction with electronic devices that require power from an energy source. For example, construction hardhats and mining helmets may include attached headlamps and/or communication devices. Helmets for law enforcement and military personnel may be used with various electronic devices such as a Night Vision Device (NVD), an identification friend or foe system (IFF), a helmet-mounted display unit and/or other suitable electronic devices.
Applicants have recognized that in some conventional helmet-mounted battery arrangements where the battery is positioned on the top surface of the helmet or on the side of the helmet, the battery weight may apply torque to the user and/or create moment of inertia stresses on the helmet. Embodiments disclosed herein include helmet-mounted battery arrangements in which a battery is positioned and arranged on a helmet in a manner which reduces torque on the user and/or moment of inertia stresses on the helmet.
Applicants have also recognized that certain conventional arrangements require a significant amount of time to attach and detach the battery to and from the helmet, and certain conventional arrangements do not provide a secure attachment between the battery and the helmet. Embodiments herein provide a helmet-mounted battery arrangement that enables a secure attachment between the battery and the helmet while permitting a user to quickly attach and detach the battery.
In addition, the inventors have recognized that helmets may be used in conjunction with multiple electronic devices that require power, while also recognizing that multiple battery devices may be cumbersome to the wearer due to increased weight and bulkiness. Embodiments herein provide a helmet-mounted battery arrangement in which a single battery can be used to power multiple electronic devices.
The term, “battery” as used herein is defined to include any battery type, such as, for example, rechargeable, non-rechargeable, alkaline, aluminum, lithium, lithium-ion, lithium ion polymer, nickel-cadmium, nickel-iron, nickel metal hydride, etc. The term “battery pack” as used herein is intended to include a housing or a casing or a support or one or more batteries. A battery pack may include electrical contacts that permit the battery to transmit power to other devices, whether directly or via a power bus.
According to one aspect of the invention, a battery may be positioned and mounted on a helmet in an arrangement that reduces moment of inertia stresses on the helmet. As shown in
According to another aspect of the invention, a battery may be mountable to a helmet in a configuration that enables a secure attachment between the battery and the helmet while permitting a user to quickly attach and detach the battery. In one embodiment, shown in
In one embodiment, as shown in
It should be appreciated that the engagement between slots 25 and tabs 35 may provide a secure attachment rather than a provisional coupling. For example, if slots 25 and tabs 35 are sized to engage in an interference fit, or if an additional latch or screw is used in cooperation with the slots 25 and tabs 35.
It should also be appreciated that the first attachment arrangement is not limited to the tabs 35 and slots 25 shown in the figures. Alternatively or in addition, the first attachment arrangement may comprise any suitable attachment configuration, such as a tongue and groove joint or other sliding mount, an interference fit, a latch-type attachment, a threaded connection, a luer lock fitting, a quick connect fitting, or other suitable attachment configuration.
In some embodiments, the first attachment arrangement serves to restrict the battery from vertical movement relative to the helmet. In other embodiments, the first attachment arrangement serves to restrict the battery from any movement relative to the helmet. In yet other embodiments, the first attachment arrangement does not restrict movement of the battery at all.
In one embodiment, after the tabs 35 are received within the slots 25 or the first attachment arrangement is otherwise actuated, the user may pivot the battery 10 up toward helmet 1 until the rear surface 12 of the battery 10 contacts the helmet 1. As shown in
It should be appreciated that the second attachment arrangement is not limited to the engaging member 20 and locking member 30 shown in the figures. In some embodiments, the locking member 30 may include a hand-operable protruding knob such that a user can grasp and turn the knob by hand in order to rotate locking member 30. Alternatively or in addition, the engaging member 20 on the helmet 1 may include a latch that engages with locking member 30 on the battery 10, or the locking member 30 may include a latch that engages with the engaging member 20. In some embodiments, the locking member 30 may include a recess configured to receive a tool, such as a Phillips head screwdriver, a flat-head screwdriver, a hex screw driver, or other suitable tool, as this aspect is not limited in this regard. The recess also may be configured to receive objects such as coins, paper clips, pen clips, knives, flat rocks, or sticks, as this aspect is not limited in this regard. In some cases, the recess also may be configured to receive a user's finger or fingernail. Alternatively or in addition, the second attachment arrangement may comprise any suitable attachment configuration, such as a sliding mount, an interference fit, a latch-type attachment, a threaded connection, a luer lock fitting, a quick connect fitting, or other suitable attachment configuration, as this aspect is not limited in this regard.
In some embodiments, actuation of the second attachment arrangement restricts the battery from vertical movement relative to the helmet. In other embodiments, actuation of the second attachment arrangement restricts the battery from any movement relative to the helmet. In yet other embodiments, actuation of the second attachment arrangement does not restrict movement of the battery at all. In yet other embodiments, the first configuration serves to restrict vertical movement of the battery relative to the helmet while the second configuration serves to restrict horizontal movement of the battery relative to the helmet, or vice versa.
The positions of the two attachment arrangements along the battery and helmet may vary. For example, in some embodiments, a locking member and an engaging member are positioned toward the bottom end of the battery and helmet while tabs and slots are positioned toward the top end of the battery and helmet. In such embodiments, the user inserts the tabs of the battery into the slots of the helmet and pivots the battery down toward the helmet until the rear surface 12 of the battery contacts the helmet. In some embodiments, only one attachment arrangement is used instead of two.
In some situations, various devices, such as an identification friend or foe system (IFF), may be used only occasionally or even rarely. Many conventional IFFs require a significant amount of power and are often powered by a large, heavy battery which is dedicated to the IFF. According to another aspect of the invention, a single battery may be arranged to power multiple electronic devices. In some cases, using a single battery to power multiple devices may reduce or eliminate the need for multiple batteries that add weight and bulkiness.
The battery may power the electronic devices simultaneously or alternate between the devices. The battery may provide the same voltage to each device, or may have the ability to detect and determine the appropriate voltage to use for each device and adjust its voltage output accordingly. The battery may have multiple electrical contacts, where each contact is configured to supply electricity to a different electronic device.
In one embodiment, as shown in
It should be appreciated that first electrical contact 40 need not directly contact electrical contact 41. For example, a cable or other conductive connector may connect first electrical contact 40 to electrical contact 41 or to any other helmet system. Other suitable arrangements may exist, as this aspect is not limited in this regard. First electrical contact 40 may supply energy to power helmet systems such as a Night Vision Device (NVD), a headlamp, an identification friend or foe system (IFF), a helmet-mounted display unit, a communication device such as a cell phone or other portable transceiver, or other suitable electronic device, as this aspect is not limited in this regard. Any suitable helmet-mounted display unit may receive power from first electrical contact 40, including embodiments disclosed in an application entitled, “Helmet-Mounted Display” filed on even date herewith, which is incorporated herein by reference in its entirety.
Turning to
According to another aspect of the invention, a helmet-mounted battery may be attached to a helmet while simultaneously supporting a device. In one embodiment, as shown in
In some embodiments, to attach device 50 to battery 10, a user slides the base of device 50 onto the top of battery 10 toward the helmet 1. As shown in
To detach device 50 from battery 10, a user pulls on device 50 in a direction away from helmet 1, causing the edge of slot 56 to push upward against protrusion 55, thereby causing tab 54 to deflect upwards. Upward deflection of tab 54 and protrusion 55 releases the engagement between slot 56 and protrusion 55, allowing the user to freely slide device 50 off of the battery 10.
Of course, it should be appreciated that other configurations are possible. For example, device 50 may rest on battery 10 but engage and attach to helmet 1, or device 50 may engage and attach to both the helmet 1 and battery 10. Device 50 may attach to battery 10 and/or helmet 1 via any suitable attachment configuration, such as a sliding mount, an interference fit, a latch-type attachment, a threaded connection, a luer lock fitting, a quick connect fitting, or other suitable attachment configuration, as this aspect is not limited in this regard.
According to another aspect of the invention, a helmet-mountable battery may be detached from a helmet and used as a portable energy source. In one embodiment, as shown in
According to one aspect, attachment between the battery 10 and helmet 1 and/or between the battery and device 50 may be accomplished using an attachment arrangement that enables tool-free connection or removal. For example, embodiments of the attachment arrangement between a helmet and earpiece disclosed in U.S. patent application Ser. No. 13/359,800, entitled, “Helmet Earpiece”, which is incorporated herein by reference in its entirety, may be adapted to be an attachment arrangement between a helmet and a battery and/or between a second device and a battery.
Turning to
As shown in the embodiment illustrated in
The width W1 of the first portion 110 of the slot may be greater than a corresponding width of the battery projection 150 such the battery projection 150 fits into the slot. The width W2 of the second portion 112 of the slot may be less than a corresponding width of the battery projection 150. For example, in one illustrative embodiment, the battery projection 150 is a bolt and the width of the bolt head is less than the width W1 of the first portion 110 but greater than the width W2 of the second portion 112. In this respect, the battery projection 150 may not be able to slide out of second portion 112 of the slot.
The wearer may attach the battery 10 to the helmet 1 by using one hand to mount the battery 10 to the helmet 1 such that the battery projection 150 (such as a bolt head) extends into the opening 104 in the body of the helmet 1. After the projection is seated in the opening 104, the wearer may use one hand to reposition the projection 150 from the first portion 110 within the opening 104 into the second portion 112 within the opening 104. The wearer may grasp the grip 142 to move the lock 140 on the helmet 1 from the unlocked position into the locked position to lock the projection 150 in the opening.
When the lock 140 is moved into the locked position, the lock 140 retains the battery projection 150 in the slot. The lock 140 may prevent the battery projection 150 from moving out of the second portion 112 of the slot and back into the first portion 110 of the slot. In one illustrative embodiment, a portion of the lock 140 obstructs the slot and prevents movement of the battery projection 150. A portion of the lock 140 may contact the battery projection 150 to prevent movement of the battery projection.
The lock 140 may be configured in a variety of ways, as this aspect is not necessarily so limited. In one illustrative embodiment, the lock 140 has a substantially C-shaped body. The arms of the substantially C-shaped body may define an opening, and as shown in
The above described components may be made with various materials, as the invention is not necessarily so limited. The helmet and battery housing, may for example, be made of various plastic and/or metal layers. In one embodiment, the battery housing and/or helmet may be made from an ultra-high molecular weight polyethylene known as Dyneema®, which may be obtained from DSM Dyneema LLC. In one embodiment, the battery housing and/or helmet may be made from a synthetic fiber known as Kevlar, which may be obtained from DuPont. In one embodiment, the battery housing and/or helmet may be made from carbon fibers. The battery housing and the helmet may be made from materials designed to withstand various ballistic, compression and deformation testing, such that the battery and helmet are suitable for various military applications. The mounting hardware between the battery, helmet, and any additional devices may be constructed of any suitable metal or material, as this aspect is not limited in this regard.
According to one aspect, the mounting hardware may be formed using any suitable process. The hardware may be stamped out of sheet metal, cast, injection molded, extruded, and so on. In addition, the battery and any additional devices may be encased in housings that are formed using any suitable process, such as injection molding, extrusion, casting, blow-molded, and so on. Any suitable finishing and/or processes may be applied to the hardware and/or housings.
The above aspects may be employed in any suitable combination, as the present invention is not limited in this respect. Additionally, any or all of the above aspects may be employed in a battery and helmet mounting arrangement; however, the present invention is not limited in this respect, as the above aspects may be employed with other mounting applications.
According to some embodiments of the invention, methods of attaching a battery pack to a helmet use the mounting arrangements disclosed herein. Methods of attaching devices to battery packs may use arrangements described herein. However, embodiments of the invention are not limited to use with batteries and helmets. According to some aspects, the mounting arrangement may be used to mount other objects/devices to helmets, body armor, or other surfaces.
Having thus described several aspects of at least one embodiment of this invention, it is to be appreciated that various alterations, modifications, and improvements will readily occur to those skilled in the art. For example, the battery and helmet mounting arrangement described herein may be adapted for use in other applications such as mounting to body armor or a backpack. Such alterations, modifications, and improvements are intended to be part of this disclosure, and are intended to be within the spirit and scope of the invention. Accordingly, the foregoing description and drawings are by way of example only.
This invention was made with government support under W911QY11C0046 awarded by the Department of Defense. The government has certain rights in the invention.
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Number | Date | Country | |
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20140189938 A1 | Jul 2014 | US |