The invention relates to a chassis for a helmet. In particular, the invention relates to a chassis that is attachable to a protective structure to provide a helmet and to a helmet or a helmet system comprising such a chassis.
Helmets are used as a standard piece of equipment in many military and non-military applications to provide protection for the head of a user. In military applications helmets equipped with a protective shell providing ballistic protection against bullets and/or shrapnel are typically used combat conditions, while helmets equipped with a protective shell providing impact protection may be used in training conditions. In non-military applications, helmets equipped with a protective shell providing impact protection are typically used for example by the police, by firefighters, by the construction workers, by miners, etc.
Lately, helmets that may be equipped with further components or devices have emerged and found use especially in military applications, while also many non-military applications of helmets, such as the ones mentioned above, may make use of further components that may be attached to a helmet. Such additional components or devices may include, for example, imaging devices and/or communication devices.
However, the current solutions for attaching further components or devices to a helmet are typically tailor-made solutions designed for a certain helmet, thereby calling for duplication and re-design of the arrangements required for attaching further components or devices for each helmet type separately, consequently leading to rather costly development and manufacturing of such helmets.
It is an object of the present invention to provide an arrangement that facilitates a helmet and a helmet system that enables extending the helmet with electronic devices and/or convenient attachment of accessory components or devices to the helmet while at the same time providing cost-effective manufacturing and designing of helmets of different types for different purposes.
According to a first aspect of the invention, a wearable chassis for a helmet is provided, the chassis having a shape suitable to be worn on a head of a user and the chassis being attachable inside a protective structure having a shape protecting the head of the user from an external impact. The chassis comprises one or more connection ports for connecting an electronic device, a control interface for connecting a control unit, and a wiring arrangement for connecting the one or more connection ports to the control interface. The chassis further comprises a mounting arrangement for attaching an accessory device to the chassis.
According to a second aspect of the invention a helmet is provided, the helmet comprising a chassis according to the first aspect of the invention and the protective structure having a shape protecting a head of a user from an external impact attached to the chassis.
According to a third aspect of the invention, a helmet arrangement is provided, the helmet arrangement comprising a chassis according to the first aspect of the invention and one or more protective structures, each having a shape protecting a head of a user from an external impact, removably attachable to the chassis.
The exemplifying embodiments of the invention presented in this patent application are not to be interpreted to pose limitations to the applicability of the appended claims. The verb “to comprise” and its derivatives are used in this patent application as an open limitation that does not exclude the existence of also unrecited features. The features described hereinafter are mutually freely combinable unless explicitly stated otherwise.
The novel features which are considered as characteristic of the invention are set forth in particular in the appended claims. The invention itself, however, both as to its construction and its method of operation, together with additional objects and advantages thereof, will be best understood from the following detailed description of specific embodiments when read in connection with the accompanying drawings.
Without losing generality, this surface of the body 110 designed to be facing the head of the user when worn by the user is referred to in the following as an inner surface or an inner side of the chassis 100 or as an inner surface or an inner side of the body 110 for brevity of description. In contrast, the opposite side or surface of the body 110 is referred to in the following as an outer surface or an outer side of the chassis 100 or as an outer surface or an outer side of the body 110.
The chassis 100 is attachable to a protective structure having a shape protecting the head of a user from an external impact. In particular, the chassis 100 is attachable inside the protective cover such that the protective cover fully or partially covers the body 110 of the chassis 100. Hence, the chassis 100, when attached inside the protective structure, forms a wearable portion of the helmet comprising the chassis 100 and the protective structure. When a user is wearing such a helmet, the inner side of the body 110 of the chassis 100 (or a fitting arrangement possibly provided in the inner side of the body 110, as will be described later in more detail) is hence directly facing the head of the user. Therefore, the chassis 100 may be referred to as a wearable chassis. Details of the protective structure and means for attaching the protective structure to the body 110 of the chassis 100 are discussed hereinafter.
A benefit of such an arrangement is that the chassis 100 and any components comprised therein are also protected by the protective structure, thereby reducing the risk of external impacts, weather conditions, dust or dirt, etc. damaging the chassis 100 or any components comprised therein.
The chassis 100 may be optionally provided with one or more openings through the body 110 in order to provide improved ventilation and/or to reduce weight of the chassis 100. This may provide improved user comfort in warm or hot usage conditions and/or in case of intensive movement of the person wearing the chassis 100. Alternatively, the body 110 may be provided without openings to reduce heat dissipation through the body 110 for improved user comfort in cold usage conditions.
The body 110 may have a layered structure, comprising one or more layers of rigid or essentially rigid material and one or more layers of soft flexible material. As a particular example, the body 110 may comprise a first layer of rigid or essentially rigid material as the outermost layer, a second layer of rigid or essentially rigid material as the innermost layer, and a layer of soft flexible material between the first and second layers of rigid or essentially rigid material. The one or more layers of rigid or essentially rigid material may hence serve to provide durable surfaces to the body 110 at the same defining the overall shape of the body 110, whereas the one or more layers of soft flexible material may serve to provide impact protection. As an example, the one or more layers of rigid or essentially rigid material may comprise injection moulded plastic material, such as polyoxymethylene (POM) and/or high-density polyethylene (HDPE), and the one or more soft flexible material may comprise e.g. polyethylene and/or polystyrene. The term essentially rigid material as used herein refers to a material that may exhibit some flexibility in order to allow minor temporary deformation that may be required e.g. when installing components to the body 110 or when fitting the chassis 100 to a head of user, but that retains its overall shape.
Consequently, with the structure of the body 110 of the chassis 100 designed to provide impact protection, the wearable chassis 100 may be applied for protecting the head of a user also without the protective structure attached thereto e.g. in usage or operating conditions where extreme protections is not required. In other words, the wearable chassis 100 as such may be employed as a helmet for example in conditions where improved user comfort e.g. due to lighter structure of the helmet and improved ventilation through the helmet outweighs the additional protection provided by the additional protective structure that can be attached to cover the wearable chassis 100.
The inner side of the top portion of the body 110 may have a shape that directly fits the upper part of the human head. Similarly, the possible back portion of the body 110 may have a shape that directly fits the back of the head. Alternatively or additionally, due to the heads coming in different shapes and sizes, the inner side(s) of the portion(s) of the body 110 may be provided with a fitting arrangement for improved fit to a head of a particular user. The fitting arrangement may comprise a set of one or more pads comprising soft flexible material, such as polyethylene and/or polystyrene, attachable on the inner surface of the chassis 100. The one or more pads serving as the fitting arrangement may be made of soft flexible material, the one or more pads may have a layer made of soft flexible material or the one or more pads may otherwise comprise soft flexible material to extent making the one or more pads soft and flexible enough in order to serve as an arrangement to improve fitting in the head of the particular user.
The one or more pads may be attached, e.g. glued, to the body 110 in a fixed manner, thereby requiring attachment of suitable pads when preparing a chassis 100 for a specific user, possibly also for a specific use. Alternatively, the pads may be detachably attachable to the body 110. In particular, a chassis 100 may be provided with one or more sets of one or more pads comprising soft flexible material such that a set of one or more pads comprises pads of certain thickness, thereby facilitating fitting the chassis 100 with heads of different sizes. Consequently, the user may choose and attach a set of pads providing the most suitable fit in view of the usage scenario and/or the current user of the chassis 100. The (detachable) attachment of the pads may be provided for example by using Velcro as the attachment means. In particular a surface of a pad to be attached to the inner surface of the body 110 may comprise Velcro hooks and the respective attachment point in the inner surface of the body 110 may comprise Velcro loops—or vice versa. Instead of Velcro, a corresponding hook-and-loop attachment means may be employed.
As another example, the one or more pads may be (detachably) attachable to the inner surface of the body 100 by press fit, e.g. by providing a projection or a ridge in a surface of a pad to be attached to the inner surface of the body 110, while the respective attachment point in the inner surface of the body 110 may be provided with an opening or a bore configured to accept the projection or the ridge in a manner providing a press fit between the projection/ridge and the opening/bore.
The body 110 of the chassis 100 may be adjustable in order to provide (further) improved fit with the head of a user. In this regard, the chassis 100 may be provided with a size adjustment arrangement that may be used to change the circumference of the body 110 to fit the head of a user. The adjustment arrangement may be controllable for example by a rotatable adjustment wheel coupled thereto, turning of which is arranged to cause sub-portions of the body 110 to be moved with respect to each other such that the circumference of the body 110 is changed in accordance with the extent of turning the rotatable adjustment wheel. Additionally or alternatively, the size adjustment may be arranged to cause the portions of the body 110, e.g. the top portion and the back portion, to be moved with respect to each other.
The chassis 100 may further comprise an arrangement for detachably securing the chassis 100 to the head of a user. The securing arrangement may comprise two side portions 112 extending from the body 110, as indicated in
The chassis 100 may further comprise a mounting arrangement for attaching one or more accessory devices to the chassis 100. The mounting arrangement for attaching one or more accessory devices may comprise one or more accessory rails 120, arranged e.g. in a portion of the rim of the body 110 of the chassis 100, as schematically illustrated in
One or more of the one more mounting rails, e.g. STANAG 2324 rails, STANAG 4649 rails and/or the mounting points of other type may be provided with a connection port for connecting an electronic device to the chassis 100, as described in more detail hereinafter.
The mounting arrangement hence may enable detachably mounting one or more accessory devices, such as one or more of a lamp, a night vision device, an imaging device, a speaker arrangement, a microphone arrangement, a compass arrangement, an accelerometer arrangement, a sensor arrangement of other type, etc. equipped with means for attaching the accessory device to the type of the mounting arrangement provided in the body 110 of the chassis 100. The accessory device typically also constitutes an electronic device to be connected to the chassis 100 via a connection port, as described in more detail hereinafter.
An accessory rail or mounting point of another type comprised in the mounting arrangement may be provided as a generic mounting point that enables attaching any accessory device equipped with means suitable for attachment thereto or as a dedicated mounting point that enables attaching an accessory device of a predetermined type, e.g. a device configured to perform a predetermined function. Such dedicated mounting points are preferably arranged at or near the rim of the outer surface of the body 110 or in the back portion of the body 110. As non-limiting examples, an accessory device of a predetermined type may be a microphone arrangement or a speaker arrangement such as a headphone.
The chassis 100 further comprises one or more connection ports 130, 130′ for connecting an electronic device to the chassis 100, as schematically illustrated in
A connection port 130, 130′ may be a dedicated connection port for connecting an electronic device of a predetermined type. Alternatively, a connection port 130, 130′ may be a generic connection port for connecting any electronic device compliant with the communication protocol, e.g. a data transfer protocol and/or a control protocol provided via the generic communication port. The chassis 100 may comprise one or more dedicated communication ports and/or one or more generic communication ports.
One or more of the one or more connection ports may be provided in conjunction with the mounting arrangement.
One or more of the one or more connection ports 130, 130′ may be dedicated connection ports for connecting a speaker arrangement. A dedicated connection port for connecting a speaker arrangement may be configured to provide an audio signal from the control interface to the connection port, and consequently to one or more speakers of the speaker arrangement. Such a connection port may be provided in conjunction with the mounting arrangement, e.g. as a connection port integrated to a mounting rail, as schematically illustrated by the exemplifying connection ports 130 in
One or more of the one or more connection ports may be dedicated connection ports for connecting a microphone arrangement. A dedicated connection port for connecting a microphone arrangement may be configured to provide an audio signal received via the connection port to the control interface. Like in the case of a dedicated connection port for connecting a speaker arrangement, a dedicated connection port for connecting a microphone arrangement may be provided in conjunction with the mounting arrangement, e.g. as a connection port integrated to a mounting rail like the connection ports 130, or as a dedicated connection port separate from the mounting arrangement like the connection ports 130′. Examples of a microphone arrangement include a boom microphone, a hear-through microphone arranged in a headphone or in an earmuff, an acoustic noise cancellation feedback microphone arranged in a headphone or in an earmuff, one or more microphones of a(n acoustic) sniper detection arrangement or a(n acoustic) gunfire locator arrangement, etc.
One or more of the one or more connection ports may be dedicated connection ports for connecting a combined speaker and microphone arrangement. A dedicated connection port for connecting a combined speaker and microphone arrangement may be configured to provide an audio signal from the control interface to the connection port and to provide an audio signal received via the connection port to the control interface. Like in the case of a dedicated connection port for connecting a speaker arrangement or a dedicated connection port for connecting a microphone arrangement, a dedicated connection port for connecting a combined speaker and microphone arrangement may be provided in conjunction with the mounting arrangement, e.g. as a connection port integrated to a mounting rail, like the connection ports 130, or as a dedicated connection port separate from the mounting arrangement, like the connection ports 130′. Examples of a combined speaker and microphone arrangement include a hear-through microphone arranged in a headphone or in an earmuff, an acoustic noise cancellation feedback microphone arranged in a headphone or in an earmuff, etc.
As described hereinbefore, the chassis 100 comprises a wiring arrangement 150 for connecting the one or more connection ports 130, 130′ to the control interface 140, as schematically illustrated in
The wirings and/or wires comprised in the wiring arrangement 150 may be enclosed within the body 110 of the chassis 100 for maximum protection against external impacts and other external conditions that may cause damage to the wirings and/or wires. Alternatively, the wirings and/or wires or a part thereof may be provided e.g. on the outer surface of the body 110 or on the inner surface of the body 110 for ease of maintenance and replacement of the wirings and/or wires comprised in the wiring arrangement 150. As a particular example, the outer surface or the inner surface of the body 110 may be provided with grooves suitable for installing the wirings and/or wires of the wiring arrangement 150.
The wiring arrangement 150 may comprise a control bus connecting one or more of the one or more connection ports 130, 130′ to the control interface 140. The control bus may be provided as a dedicated wiring, hence separate from a data bus, or the control bus may be a logical entity sharing the wiring with the data bus. The control bus may comprise wiring that enables supplying power from or via the control interface 140 to an accessory device connected thereto. The control bus may comprise one or more dedicated control buses, each providing a dedicated wiring between a connection port 130, 130′ and the control interface 140, and/or the control bus may comprise a shared control bus providing shared wiring connecting one or more of the one or more connection ports 130, 130′ to the control interface 140. The control bus may be configured to employ any protocol suitable for transfer of control information. The transfer of control information may be unidirectional—typically from the control interface 140 to the one or more of the one or more connection ports 130, 130′—or bidirectional. The protocol employed in the control bus may also enable transfer of small amounts of data, either in a unidirectional or bidirectional manner.
As an example of a shared control bus, the control bus may comprise an InterIntegrated Circuit (I2C) bus for connecting one or more of the one or more connection ports 130, 130′ to the control interface 140, thereby providing a control bus compliant with an I2C protocol, e.g. in accordance with the I2C version 4 standard. Consequently, I2C compliant communication protocol is employed in communication over the control bus. In case the chassis 100 comprises an I2C bus as the control bus, the control interface 140—or a control unit connected to the control interface 140—acts as the master device, whereas one or more accessory devices connected to one or more of the one or more connection ports 130, 130′ act as slave devices.
The wiring arrangement 150 may comprise a data bus connecting one or more of the one or more connection ports 130, 130′ to the control interface 140. The data bus may be provided as a dedicated wiring, hence separate from the controt bus, or the data bus may be a logical entity sharing the wiring with the control bus. The data bus may comprise wiring that enables supplying power from or via the control interface 140 to an accessory device connected thereto. The data bus may comprise one or more dedicated data buses, each providing a dedicated wiring between a connection port 130,130′ and the control interface 140, and/or the data bus may comprise a dedicated data bus providing shared wiring connecting one or more of the one or more connection ports 130, 130′ to the control interface 140. The data bus may be configured to employ any protocol suitable for transfer of data. The transfer of data may be unidirectional —typically from one or more of the one or more connection ports 130, 130′ to the control interface 140—or bidirectional. The protocol employed in the data bus may also enable transfer of small amounts of control information, either in a unidirectional or bidirectional manner.
As an example of one or more dedicated data buses, the data bus may comprise dedicated wiring between a connection port 130, 130′ and the control interface 140 in compliance with the Universal Serial Bus (USB) standard for one or more of the one or more connection ports 130, 130′. Consequently, USB compliant communication protocol is employed in communication over the data bus, e.g. according to the USB 2.0 standard.
The wiring arrangement 150 may further comprise dedicated wiring for transferring audio data, e.g. an audio signal in analog form, between one or more of the one or more connection ports 130, 130′ and the control interface 140. In particular, such dedicated wiring may comprise wiring for transferring audio data from the control interface 140 to one or more dedicated connection ports for connecting a speaker arrangement and/or wiring for transferring audio data to the control interface 140 from one or more dedicated connection ports for connecting a microphone arrangement. Moreover, such dedicated wiring may further comprise wiring that enables providing operating power from or via the control interface 140 to one or more of the one or more dedicated connection ports for connecting a speaker arrangement and/or a microphone arrangement. Such dedicated wiring may also comprise wiring that enables transferring control information between the one or more dedicated connection ports and the control interface 140.
The wiring arrangement 150 may further comprise dedicated wiring for providing operating power from or via the control interface 140 to one or more of the one or more connection ports 130, 130′.
Both the data bus 352a, 352b and the control bus 354 may be employed to also provide operating power to the connection ports they are coupled to. The data bus 352 may employ for example a USB protocol, whereas the control bus 354 may employ for example an I2C protocol, both being protocols that may also be employed to provide operating power to the connection ports 332 to 342 connected thereto.
A connection port 130, 130′ provides an electric contact between the wiring arrangement 150 and an electronic device connected to the connection port 130, 130′, thereby electrically coupling the electronic device to the control interface 140 via the wiring arrangement 150. A connection port 130, 130′ may provide an electric connection to the control bus, to the data bus, to the dedicated wiring for transferring audio data, to the wiring for providing operating power or to any combination thereof.
As an example, a connection port 130, 130′ may comprise a socket for accepting a plug arranged in an electronic device such that a plug inserted in the socket provides an electric contact between the electronic device and the wiring arrangement 150. Such an arrangement may be employed to provide a dedicated connection port or a generic connection port. As a particular example, a socket with two openings, the first one providing one or more contact areas that are able to provide connection to dedicated wiring for transferring audio data and the second one providing one or more contact areas that are able to provide connection to a control bus may be employed, thereby enabling electric contact to an electronic device via a plug provided with two pins employing respective contact areas. Moreover, either or both of the two openings may comprise a contact area that is able to provide operating voltage to a corresponding contact area of the plug inserted thereto.
As a variation of the previous example, the first opening of the socket may provide one or more contact areas that are able to provide connection to a data bus. As a further variation, one or more contact areas that are able to provide connection to dedicated wiring for transferring audio data, to a control bus and/or to a data bus may be provided using a socket with a single opening or a socket with more than two openings.
As another example, a connection port 130, 130′ may comprise one or more pins on the surface of the connection port 130, 130′. Such an arrangement may be employed, in particular, to provide a generic connection port in conjunction with a mounting rail 120. Attaching an accessory device equipped with mounting means provided with one or more pins in a corresponding arrangement on its surface to the mounting rail 120 thus enables an electric contact between the electronic accessory device and the wiring arrangement 150. The one or more pins on the surface of the connection port 130, 130′ may comprise one or more pins that provide connection to a control bus, one or more pins that provide connection to a data bus and/or one or more pins that provide connection to dedicated wiring for transferring audio data. Moreover, the one or more pins on the surface of the connection port 130, 130′ may further comprise one or more pins providing an operating voltage.
As described hereinbefore, the chassis 100 comprises a control interface 140 for connecting a control unit. The control interface 140 may comprise one or more further connection ports for connecting the wiring arrangement 150, e.g. the control bus, the data bus, dedicated wiring for transferring audio data and/or dedicated wiring for providing operating power, to an external control unit and/or to an external control device.
Alternatively, as referred to hereinbefore, the chassis 110 may comprise a control unit 360 for controlling operation of one or more electronic devices connected to the chassis 100, the control unit being connected to the control interface 140. The control unit may further comprise a second interface, e.g. the one or more further connection ports, for connecting an external control device to the chassis 100. The external control device may be for example a communication device configured to provide a communication interface enabling communication to other corresponding communication devices. The external control device may be configured to receive and/or send data and/or commands of control signals over via the second interface, and it may further comprise one or more processors and one more memories to provide (further) capability to process and/or store data received or to be sent over the second interface.
The control unit 360 may comprise one or more power management units for controlling the provision of the operating power via the wiring arrangement 150, e.g. via the control bus, via the data bus, via the dedicated wiring for transferring audio data and/or via the dedicated wiring for proving operating power. The one or more power management units may receive power to be provided via the wiring arrangement 150 from the external control device via the one or more further connection ports. Alternatively or additionally, the controt unit may comprise a power source, such as an arrangement for installing one or more batteries, e.g. a pair of AA batteries or one or more batteries of another type, for supplying power to the control unit.
The control unit 360 may further comprise a control function for controlling the accessory devices connected to the one or more connection ports 130, 130′ of the chassis 100 and a processing function for processing the data received from a connection port 130, 130′ or to be provided to a connection port 130, 130′. The control functionality and/or the processing function may be provided one or more processing units, such as one or more digital signal processors (DSP) and/or one more general purpose processors. The one or more DSPs may be dedicated to specific function, e.g. to provide control and/or processing function for an electronic device of a predetermined type.
Moreover, the control unit 360 may comprise one or more memory units for storing data received from a connection port 130, 130′ or data to be provided to a connection port 130, 130′. The one or more memory units may further serve to store control parameters, settings and computer program instructions that cause the control unit 360, when executed by the one or more processing units, to control the information transfer via the wiring arrangement 150 and/or to process data received from a connection port 130, 130′ or data to be provided to a connection port 130, 130′. In particular, control parameters, settings and computer program instructions may comprise driver software for controlling operation of and data exchange with an electronic device of a predetermined type connectable to the chassis 100 and electrically connectable to the processing unit 360 via a control port 130, 130′ and the wiring arrangement 150.
The control unit 360 may comprise a data switching function for connecting one of the one or more connection ports 130, 130′ coupled to the control interface 140, and hence to the control unit 360 via respective shared data bus to the external control device via the second interface. The data switching function may be provided e.g. by a data hub, for example an USB hub for connecting one of the connection ports 130, 130′ connected to the control interface 140 via an USB bus.
As an example,
In case the control unit 460 is not connected to an external control device 480 providing operating power to the control unit 460, only the first controller 462a is operational and the first power management entity 464a is configured to supply power via the wiring arrangement 150 on basis of the power provided by one or more batteries that may be installed in the battery back 470. On the other hand, in case the external operating power is supplied, the first power management entity 464a is configured to supply power on basis of the external operating power.
The audio DSP 466 may be configured to provide active noise cancellation processing applied to an audio signal received from an active noise cancellation microphone connectable to a connection port 130, 130′ for provision to a speaker arrangement connectable to the same or another connection port 130, 130′. Alternatively or additionally, as another example, the audio DSP 466 may be configured to provide audio signal enhancement processing applied to an audio signal received from a hear-through microphone connectable to a connection port 130, 130′ for provision to a speaker arrangement connectable to the same or another connection port 130, 130′.
The UI processor 468 is configured to control the operation of the first controller 462a. The UI processor 468 may be provided e.g. as microcontroller or a general purpose processor. The UI processor 468 may comprise a memory or the UI processor 468 may be connected to a memory comprised in the control unit 460, e.g. in the first controller 462a. The UI processor 468 may be configured to, for example, control the first power management entity 464a, the audio DSP 466 and data transfer to and from the control unit 460 via the first controller 462a and (further) processing of data in the first controller 462a. The UI processor may receive input or commands from a user interface of the chassis 100 connected thereto.
The second controller 462b is configured to be operational only in case external operating power is supplied from the external control device 480. The second power management entity 464b is configured to supply power via the wiring arrangement 150 on basis of the external operating power supplied from the external control device 480. The external control device 480 may control the USB hub 474, for connecting one of the connection ports 130, 130′ connected to the control interface 140 via an USB bus. Consequently, data transfer to and from as well as the operation of an electronic device connectable thereto may be controlled by the external control device 480 via the second controller 462b.
The audio codec 472 may be configured to carry out digital-to-analog conversion of audio data received from the external control device 480 over a USB connection for provision to a speaker arrangement connectable to a connection port 130, 130′. The audio codec 472 may be, conversely, configured to carry out analog-to-digital conversion of audio data received e.g. from a microphone arrangement connectable to a connection port 130, 130′.
The functions of the exemplifying control unit 460 described hereinbefore serve merely as examples of the capabilities of the control unit 360. The control unit 360 may further comprise a number of further—physical or logical—processing and/or control units not described herein and/or the control unit 360 may omit one or more of the functions described in context of the exemplifying control unit 460. As non-limiting examples, the exemplifying control unit 460 may be modified by omitting the second controller 462b and/or replacing the audio DSP and the UI processor 470 to a single
The chassis 100 may further comprise a user interface. The user interface may comprise one or more buttons or keys for controlling the operation of an accessory device attached to the chassis 100 and connected to the control interface 140 via a connection port of the one or more connection ports 130, 130′. As an example, the user interface may comprise an ‘on/off’ button or switch for setting the electrical functions of the chassis 100 on or off.
As a further example, the user interface may comprise buttons ‘up’ and ‘down’, and a ‘select’ button. As an example, the control unit 360 may be configured to cause increasing the volume of an audio signal played back via a speaker arrangement connected to the chassis 100 in response to push of the ‘up’ button and to cause decreasing the volume of an audio signal played back via the speaker arrangement in response to push of the ‘down’ button. As another example, the control unit 360 may be configured to cause increase in brightness of a lamp connected to the chassis 100 in response to push of the ‘up’ button and to cause decrease in brightness of the lamp in response to push of the ‘down’ button. As a further example, the control unit 360 may be configured to cause turning on a night vision device connected to the chassis 100 in response to push of the ‘up’ button and to cause turning off the night vision device in response to push of the ‘down’ button. The action associated with push of the ‘up’ or ‘down’ buttons may be selected or changed by pushing the ‘select’ button.
The operation or function of the buttons may be configurable during manufacture of the chassis 100, hence providing a predetermined set of button configurations for supporting the respective set of electronic accessory devices that may be attached to the chassis 100. Alternatively or additionally, the operation or function of the buttons may be configurable or re-configurable during maintenance of the chassis 100, thereby providing a possibility to (re-) configure the buttons to support additional electronic accessory devices and/or to change operation of function of the buttons for a given electronic accessory device.
The user interface may be provided in the body 110 of the chassis, e.g. near the rim on the outer surface of the body 110 in a position that is close to a temple of a user when the chassis 100 is worn by the user.
The chassis 100 is attachable to a protective structure having a shape suitable for protecting the head of a user from an external impact. The chassis 100 may be detachably attached to the protective structure, thereby enabling the user e.g. to remove a protective structure and to replace with another one having different characteristics. Consequently, the chassis 100 may be provided to a user as a kit of parts comprising the chassis 100 together with one or more protective structures, possibly with one of the protective structures preattached to the chassis 100 for immediate use as a helmet for providing desired primary extent of protection. Since, as described hereinbefore, the chassis 100 being a wearable component with the structure of its body 110 designed to provide impact protection, the wearable chassis 100 may be applied for head protection also without the protective structure attached thereto. Moreover, as also described hereinbefore, the chassis 100 further comprises one or more connection ports 130, 130′ for connecting electronic devices to the chassis 100 and the wiring arrangement 150 for connecting the connection ports 130, 130′ to the control interface 140 and possibly also the mounting arrangement for attaching one or more accessory devices to the chassis 100. Therefore, the wearable chassis 100 may also be used e.g. for the purpose of carrying and using electronic devices connected to the chassis 100 and possibly also for the purpose of carrying and using accessory devices mounted to the chassis 100, with or without the protective structure attached thereto. Consequently, the chassis 100 may be provided without any protective structures.
Alternatively, the chassis 100 may be attached to the protective structure as part of the manufacturing process of a helmet, thereby leaving the end-user without an option to remove and replace the protective with another one but still providing a benefit of streamlined manufacturing process that enables usage of the chassis 100 as a component of a number of different types of helmets.
The characteristics of the protective structure may be selected in view of the intended usage of a helmet constructed using the chassis 100 and the protective structure. As an example, the protective structure may comprise or be formed of a material that provides ballistic protection, thereby making a helmet comprising the chassis 100 and the protective structure suitable for military use also in combat conditions. Such protective structure may comprise a shell approximating the shape of the top and back of the head of a user. The material providing ballistic protection may comprise for example plastic composite, arranged in a layered structure for high ballistic protection. Examples of such plastics composites include aramid fiber reinforced laminates and ultra-highmolecular-weight polyethylene (UHMWPE) fiber reinforced laminates.
As another example, the protective structure may comprise or be formed of a material that does not provide ballistic protection but rather provides an impact protection, thereby making a helmet comprising the chassis 100 and the protective structure suitable for use in military training conditions or inside military vehicles in combat conditions, as well as suitable for various non-military purposes, e.g. by the police, by firefighters, by construction workers, by miners, etc. The intended usage typically sets requirements for the shape and materials used for the protective structure providing impact protection. However, in most of the applications the protective structure providing impact protection may comprise a shell approximating the shape of the head of a user, the shell being formed of a material providing sufficient impact protection—together with the chassis 100—in view of the intended usage of the helmet. Typically, a shell formed of injection moulded plastic, e.g. acrylonitrile butadiene styrene (ABS), of desired thickness provides sufficient impact protection.
The chassis 100 may be mechanically attachable to a protective structure. As an example, the protective structure may be attached to the outer surface of the body 110 of the chassis 100 by screws through openings arranged in the protective structure, thereby providing detachable attachment of the protective structure. Additionally the chassis 100 and the protective structure may comprise a further installation arrangement to facilitate easy and correct attachment therebetween. As an example, the protective structure may comprise one or more small ridges extending from the surface of the protective structure configured to be facing the outer surface of the chassis 100, and the outer surface of the body 110 of the chassis 100 may comprise one or more recesses for receiving the one more small ridges such that the chassis 100 is correctly positioned inside the protective structure when the one or more ridges in the protective structure are inserted to the one or more recesses in the body 110. The one or more recesses may be provided for example near the rim of the outer surface of the body 110, e.g. in the portion of the body 110 that is positioned above the forehead of a user the chassis 110 is worn by the user.
As a variation of such an installation arrangement, the one or more ridges may be provided in the body 110 of the chassis 100 while the one or more recesses are provided in the protective structure. As a further variation, the protective structure may be provided with one or more ridges or hooks extending from the protective structure near the rim thereof such that the chassis 100 is correctly positioned inside the protective structure when the one or more ridges in the protective structure extend over the rim of the outer surface of the body 110 and are brought in contact with the rim of the body 110.
The chassis 100 is preferably attachable to the protective structure such that the mounting arrangement or a portion thereof, e.g. one or more mounting rails, are left exposed to enable subsequent attachment of an accessory device. The chassis 100 is also preferably attachable to the protective structure such that the one or more of the one or more connection ports 130, 130′ are left exposed to enable subsequent connection of an electronic device.
In particular, the chassis 100 may be provided with an inner part and outer part such that a portion of the protective structure is placed between the inner and outer parts of the chassis 100 when attached to the chassis 100. In other words, the inner and outer parts of the chassis 100 are arranged to surround a portion of the protective structure when attached to the chassis 100. Such an arrangement facilitates reliable and correct attachment of the protective structure to the chassis 100 while also enables leaving some parts of the chassis 100 outside the protective structure for easy and convenient access by the user.
As an example in this regard,
As illustrated in
The attachment of the protective structure 590 to the chassis 500 is schematically illustrated in
As
As another example, the attachment of the protective structure 690 to the chassis 600 is schematically illustrated in
As
Number | Date | Country | Kind |
---|---|---|---|
PCT/FI2012/050598 | Jun 2012 | WO | international |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/FI2013/050652 | 6/13/2013 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2013/186444 | 12/19/2013 | WO | A |
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2004084664 | Oct 2004 | WO |
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2010074791 | Jul 2010 | WO |
Entry |
---|
International Search Report, dated Oct. 4, 2013, from corresponding PCT application. |
International Search Report, dated Jan. 14, 2013, from corresponding PCT/FI2012/050598 application. |
Number | Date | Country | |
---|---|---|---|
20150157079 A1 | Jun 2015 | US |