Patent Grant
11802681
Several forms of hands-free lighting exist. For instance, lighting devices are often found mounted on helmets or headbands, which prove useful in law enforcement, mining, construction, automotive, manufacturing, or other industries that frequently require hands-free lighting solutions. Existing lighting devices, however, generally include a lighting element that is fixed and not removable from a helmet, headband, or other device. Some removable lighting devices exist; however, these lighting devices are not suitable for hands-free operation and are often not easily removable or attachable to a helmet, headband, or other device.
The present invention relates to a portable lighting device. More specifically, the present invention relates to a lighting device that may be removably attached to a headlamp, flashlight, or other suitable base.
Many aspects of the present disclosure may be better understood with reference to the following drawings. The components in the drawings are not necessarily to scale, emphasis instead being placed upon clearly illustrating the principles of the disclosure. Moreover, in the drawings, like reference numerals designate corresponding parts throughout the several views.
The present disclosure relates to a lighting system having a detachable lighting device that may be removably attached to a headguard, flashlight body, or other suitable base, such that the lighting device may be toggled between a shortened flashlight, an elongated flashlight, and a head-mounted light (i.e., a headlamp). Existing hands-free illumination devices generally include a fixed lighting element that is not removable from a helmet or headband. While some devices include a removable lighting element, generally, these devices are not optimal for hands-free illumination. For instance, the removal and reattachment of lighting elements in existing products may be time and labor intensive. Additionally, these lighting elements are not rechargeable. Providing a detachable and rechargeable lighting element that may be easily removed, attached, and secured to a helmet, headband, or other head-mounted device can present significant technical challenges.
Accordingly, in various embodiments of the present disclosure, a lighting system is described that has a detachable flashlight head that may be moved among bases based on a desired mode of operation. The lighting system may include a headguard (e.g., base 1) adapted to be worn on a head of an operator, where the headguard comprises a headguard cavity. The lighting system may further include an elongated flashlight base (e.g., base 2) comprising a flashlight base cavity. A detachable flashlight head is adapted to be positioned in either the headguard cavity and/or the flashlight base cavity. The detachable flashlight is sized and positioned such that, when positioned in the headguard cavity, the detachable flashlight magnetically and electrically couples to the headguard. Similarly, the detachable flashlight is sized and positioned such that, when positioned in the flashlight base cavity, the detachable flashlight magnetically and electrically couples to the elongated flashlight base.
In the following discussion, a general description of a lighting system having a detachable flashlight head is provided, followed by a discussion of operation of the same.
Referring now to
Accordingly, in some desired modes of operation, the detachable flashlight head 102 is configured to operate in conjunction with at least one of the headguard 104 and the flashlight base 106. For instance, the detachable flashlight head 102 may be coupled to the flashlight base 106 to provide the operator with a larger flashlight body, which is desirable for certain types of applications in which lighting is required, such as law enforcement. In another example, the detachable flashlight head 102 may be coupled to the headguard 104 to provide the operator with a headlamp or a hands-free lighting solution, which is more practical for certain types of applications in which hands-free lighting is required, such as mining, construction, vehicle maintenance, etc. In some embodiments, when the detachable flashlight head 102 is docked in the flashlight base 106 or the headguard 104, the lumens output by the detachable flashlight head 102 is configured to increase to produce a much higher illumination.
The detachable flashlight head 102 may operate independently of either the headguard 104 and/or the flashlight base 106. For instance, the detachable flashlight head 102 may include its own power supply such that, when the detachable flashlight head 102 is removed from the headguard 104 or the flashlight base 106, the detachable flashlight head 102 may operate as a small lighting device that may be positioned in locations in which a larger flashlight body or a headlamp is not practical. Notably, with reference to
To facilitate the removability and independent operation of the detachable flashlight head 102, the detachable flashlight head 102 may include a power source independent of the headguard 104 and the flashlight base 106. For instance, in some embodiments, the detachable flashlight head 102 may include one or more batteries that permit the detachable flashlight head 102 to power one or more light sources, such as light emitting diodes (LEDs) or light bulbs, independent of a power supply or other light source of the headguard 104 and the flashlight base 106. The batteries may include rechargeable batteries in some embodiments.
Referring specifically to
The flashlight head housing 108 may further include a base 114 having a width and/or diameter less than the central and/or front portion of the flashlight head housing 108. As such, the base 114 may be positioned, nested, or otherwise placed in a cavity or an aperture of the flashlight base 106, headguard 104, or other suitable mount. For instance, referring back to
Referring now to
When the detachable flashlight head 102 is positioned in the flashlight base cavity 116, the detachable flashlight head 102 may form a physical, magnetic, and/or electrical connection with the flashlight base 106. The physical connection may include an interference fit, a friction fit, a snap connection, or similar connection, as will be described in greater detail below.
In some embodiments, the magnetic attraction between the detachable flashlight head 102 and the flashlight base 106 is strong enough to align a rear face of the detachable flashlight head 102 such that an electrical connection is formed between the detachable flashlight head 102 and the flashlight base 106. As such, in addition to the flashlight base cavity 116, the flashlight base 106 may include base electrical contacts 128, base magnets 130, base LED(s) 132, base circuitry 134 (e.g., a printed circuit board (PCB)), batteries 136 (e.g., rechargeable batteries), a base switch 138, presence sensor 140, as well as other components. The electrical connection may charge a battery of the detachable flashlight head 102 and/or power the circuitry and the base LED(s) 132 of the detachable flashlight head 102.
As noted above, the flashlight base 106 may include one or more base LEDs 132 or other lighting elements to provide lighting in the flashlight base cavity 116 when the detachable flashlight head 102 is removed. As such, the flashlight base 106 may be described as having secondary illumination. The presence, or lack thereof, of the detachable flashlight head 102 may be determined using the presence sensor 140, which may include a mechanical sensor, an optical sensor, resistance detection sensor, capacitance detection sensor, or other suitable sensor to detect the presence, or lack thereof, of the detachable flashlight head 102. In further embodiments, the presence sensor 140 includes a push button, electrical connection sensor, or similar sensor.
In some embodiments, the flashlight base 106 may include a base switch 138, such as a power button. When the detachable flashlight head 102 is coupled to the flashlight base 106, the base switch 138 may toggle a lighting element, such as the head LED 120 in the detachable flashlight head 102 between on-and-off positions or between different modes of operation (e.g., strobing, high intensity illumination, low intensity illumination, etc.). When the detachable flashlight head 102 is detached from the flashlight base 106, the base switch 138 may toggle a lighting element, such as the base LED 132 in the flashlight base 106 between on-and-off positions or between different modes of operation (e.g., strobing, high intensity illumination, low intensity illumination, etc.).
In some embodiments, the base switch 138 may be formed of a transparent material having a multi-color LED or other lighting element disposed underneath. When the detachable flashlight head 102 is coupled to the flashlight base 106 and a charging process is initiated, the multi-color LED may cause the base switch 138 to illuminate a first color (e.g., red) during the charging process and change to a second, different color (e.g., green) when charging has completed. Additionally, the head switch 112 and a battery pack switch 142 on a battery pack 162, as will be described, may include similar functionality.
The detachable flashlight head 102 similarly has head electrical contacts 144 and head magnets 146 that are configured to contact and couple to the base electrical contacts 128 and base magnets 130 of the flashlight base 106, thereby forming magnetic and/or electrical connections, respectively. Additionally, the detachable flashlight head 102 includes lighting circuitry 148, a light cup 150, the head switch 112 (e.g., an on/off button), circuitry 152 (e.g., PCB boards), and one or more batteries 154 (e.g., rechargeable batteries). In some embodiments, the lighting circuit 148 has one or more lighting elements (e.g., head LEDs 120) disposed thereon, such as chip-on-board (COB) LEDs.
Turning now to
However, in some situations, it is beneficial to have a hand-held source of light. For instance, a hand-held flashlight may provide a better source of light in hard-to-reach places, or in various cavities and workspaces. As such, the detachable flashlight head 102 may be detached from the headguard 104, such that the detachable flashlight head 102 may be operated as a hand-held source of light or coupled to the flashlight base 106 to operate similar to a traditional flashlight.
Referring back to
For instance, in some embodiments, the switches 112, 138 may be manipulated by the operator to turn a light source of the detachable flashlight head 102 or a light source of the flashlight base 106 on or off. In addition to, or in lieu of the toggling of the light source, the switches 112, 138 may iterate through different modes of operation. The different modes of operation may include, for example, pulsating the light source (e.g., performing a strobe effect), providing a constant light source typical to a flashlight, varying the color of the light source, varying the luminous intensity of the light source, or other operations as may be appreciated.
To form a slight interference fit, the flashlight receiver 156 and/or the flashlight base cavity 116 may include a shape that substantially conforms to a shape of the base 114 of the detachable flashlight head 102. For instance, assuming the base 114 of the detachable flashlight head 102 includes a generally circular body with flat top and bottom portions, as shown in
Referring collectively to
The headguard 104 may further include a headguard magnet 164, headguard electrical contacts 166, presence sensor 168, headguard LED(s) 170, as well as other components. The headguard magnet 164 may be sized and positioned in the headguard cavity 118 such that, when the detachable flashlight head 102 is positioned in the headguard cavity 118, a magnetic coupling between a magnet of the detachable flashlight head 102 and the headguard magnet 164 is formed. As may be appreciated, the magnetic coupling further retains the detachable flashlight head 102 in the headguard cavity 118 until a predetermined amount of force is applied to remove the detachable flashlight from the headguard cavity 118. In some embodiments, the headguard magnet 164 includes an annular or circularly-shaped magnet positioned along the interior perimeter of the headguard cavity 118. However, other shapes and sizes of headguard magnets 164 may be employed as may be appreciated.
In some embodiments, circuitry is electrically coupled to one or more housing light sources (e.g., headguard LED(s) 170) which, like the flashlight base 106, may provide secondary illumination sources independent of the detachable flashlight head 102. In some embodiments, housing light sources may be disposed on the substrate of the circuit board. The housing light sources may include, for instance, one or more headguard LEDs 170 positioned, for instance, annularly around a perimeter of the circuit board or in another suitable arrangement. The lenses may be clear, transparent, or partially transparent, and may be positioned in the headguard cavity 118 such that light emitted by the housing light sources are visible, for instance, when the detachable flashlight head 102 is removed from the headguard cavity 118. As such, the headguard 104 may provide light independent of the detachable flashlight head 102 in some embodiments.
The headguard electrical contacts 166 may be positioned such that the headguard electrical contacts 166 engage with corresponding head electrical contacts 144 positioned on a rear end or other suitable location of the detachable flashlight head 102, thereby forming an electrical connection. Through the electrical connection, the detachable flashlight head 102 may be powered directly by a power supply (e.g., a battery pack) of the headguard 104, and/or a battery of the detachable flashlight head 102 which may be charged and re-charged.
The presence sensor 140 of the flashlight base 106 and the presence sensor 168 of the headguard 104 may include a mechanical, optical, resistive, capacitive, or other suitable sensor for detecting a presence of the detachable flashlight head 102 in the flashlight base cavity 116 of the flashlight base 106, the headguard cavity 118 of the headguard 104, or a lack thereof. In some embodiments, the presence sensor 140, 168 includes a pogo pin, which includes a spring-load and electrically conductive pin. In other embodiments, the presence sensor 140, 168 may include a stationary pin mounted to a PCB or other substrate, where the stationary pin includes a spring backing. The presence sensor 140 of the flashlight base 106 and/or the presence sensor 168 of the headguard 104 may trigger a light source on the flashlight base 106 or the headguard 104 to turn on when the detachable flashlight head 102 is removed from the flashlight base cavity 116 or the headguard cavity 118 of the headguard 104, or turn off when the detachable flashlight head 102 is returned or otherwise positioned in the flashlight base cavity 116 or the headguard cavity 118.
In some embodiments, the battery pack 162 may include a battery pack switch 142 that, when pressed or otherwise manipulated, toggles through the modes of the detachable flashlight head 102, for instance, when the detachable flashlight head 102 is docked to the headguard 104. When the detachable flashlight head 102 is not docked in either the flashlight base 106 and/or the headguard 104, corresponding buttons on the components may control the secondary illumination (e.g., turning their LEDs off and on).
Referring now to
In some desired modes of operation, the detachable flashlight head 102 is configured to operate in conjunction with the headguard 104 and/or the flashlight base 106. For instance, the detachable flashlight head 102 may be coupled to the flashlight base 106 to provide the operator with a larger flashlight body, which is desirable for certain types of applications in which lighting is required. In another example, the detachable flashlight head 102 may be coupled to the headguard 104 to provide the operator with a headlamp or a hands-free lighting solution, which is more practical for certain types of applications in which hands-free lighting is required, such as mining, construction, vehicle maintenance, etc. In some embodiments, when the detachable flashlight head 102 is docked in the flashlight base 106 or the headguard 104, the lumens of the detachable flashlight head 102 are configured to increase to produce a much higher illumination.
The detachable flashlight head 102 may operate independently of either the headguard 104 and/or the flashlight base 106. For instance, the detachable flashlight head 102 may be removed from the headguard 104 or the flashlight base 106 to be utilized as a small lighting device that may be positioned in locations in which a larger flashlight body or a headlamp is not practical.
Enlarged views of the detachable flashlight head 102, depicted separate from the flashlight base 106, are shown in
Referring collectively to
Referring to
The ridges 110 and the textured bezel 172 are shown in a front portion of the flashlight base housing 124 in the embodiment of
The flashlight head housing 108 may include a base 114 having a width and/or diameter less than the central and/or front portion of the flashlight head housing 108. As such, the base 114 may be positioned, nested, or otherwise placed in a cavity or an aperture of the flashlight base 106, headguard 104, or other suitable mount.
For instance, referring to
Referring now to
Now, turning to
When the detachable flashlight head 102 is positioned in the flashlight base cavity 116 of the flashlight base 106, the detachable flashlight head 102 may form a physical, magnetic, and/or electrical connection with the flashlight base 106. The physical connection may include a snapping mechanism, an interference fit, a friction fit, or other physical connection as may be appreciated.
In some embodiments, the magnetic attraction between the detachable flashlight head 102 and the flashlight base 106 may cause the detachable flashlight head 102 to align such that an electrical connection is formed between the detachable flashlight head 102 and the flashlight base 106. In other words, the magnetic attraction orients electrical connects on a rear portion of the detachable flashlight head 102 to align with electrical contacts positioned on the flashlight base 106 (e.g., in the flashlight base cavity 116).
As such, in addition to the flashlight base cavity 116, the flashlight base 106 may include base electrical contacts 128, base magnets 130, and other components. Referring collectively to a side cross-sectional view of the flashlight base 106 shown in
Additionally, in some embodiments, the flashlight base 106 may include one or more base LEDs 132 or other lighting elements to provide lighting in the flashlight base cavity 116 (or on the front of the flashlight base 106) when the detachable flashlight head 102 is removed. As such, the flashlight base 106 may be described as having secondary illumination. The presence, or lack thereof, of the detachable flashlight head 102 may be determined using a presence sensor 140, shown in
Referring again to
In some embodiments, the base switch 138 may be formed of a transparent material with a multi-color LED or other lighting element disposed underneath. When the detachable flashlight head 102 is coupled to the flashlight base 106 and a charging process is initiated, the multi-color LED may cause the base switch 138 to illuminate a first color (e.g., red) during the charging process and change to a second, different color (e.g., green) when charging has completed. Additionally, a button of the head switch 112 and a battery pack switch 142 on the battery pack 162 may include similar functionality.
The detachable flashlight head 102 similarly has head electrical contacts 144 and head magnets 146 that come into contact with the base electrical contacts 128 and base magnets 130 of the flashlight base 106, thereby forming magnetic and/or electrical connections. Additionally, the detachable flashlight head 102 includes lighting circuitry 148 having one or more lighting elements (e.g., head LEDs 120) disposed thereon, a light cup 150, the head switch 112 (e.g., an on/off button), circuitry 152 (e.g., PCB boards), and one or more rechargeable batteries 154.
As noted above, the detachable flashlight head 102 may include a head switch 112 and the flashlight base 106 may include a base switch 138 along with corresponding processing circuitry. The processing circuitry may include an integrated circuit (IC) or a microcontroller in some examples. Through operation of the processing circuitry, the switches 112, 138 may toggle the light source and/or mode of operation of the detachable flashlight head 102. For instance, in some embodiments, the switches 112, 138 may be manipulated by the operator to turn the light source on or off. In addition to or in lieu of toggling the light source, the switches 112, 138 may iterate through different modes of operation. The different modes of operation may include, for example, pulsating the light source (e.g., performing a strobe effect), providing a constant light source typical to a flashlight, varying the color of the light source, varying the luminous intensity of the light source, or other operation as may be appreciated.
In some embodiments, a method for providing a light source is described that includes providing a headguard 104 adapted to be worn on a head of an operator; providing a flashlight base 106 having an extended body; and providing a detachable flashlight head 102 configured to detachably attach to the headguard 104 and the flashlight base 106, where the detachable flashlight head 102 has a power supply independent of the headguard 104 and the flashlight base 106 such that the detachable flashlight head operates independently of the headguard and the flashlight base. The method may further include using the detachable flashlight head 102 as a light source while the detachable flashlight head 102 is coupled to the headguard 104; using the detachable flashlight head 102 as a light source while the detachable flashlight head 102 is coupled to the flashlight base 106; and/or using the detachable flashlight head 102 as an independent light source when the detachable flashlight head 102 is not coupled to either the headguard 104 or the flashlight base 106.
As noted above, the headguard 104 may include a headguard magnet 164 and a headguard electrical contact 166, whereas the flashlight base comprises a base magnet 130 and a base electrical contact 128. The detachable flashlight head 102 includes a head magnet 146 and a head electrical contact 144. When the head magnet 146 comes into contact with the headguard magnet 164, the headguard magnet 164 causes the head electrical contact 144 to align with the headguard electrical contact 166 and form an electrical connection therewith. Similarly, when the head magnet 146 comes into contact with the base magnet 130, the base magnet 130 causes the detachable head electrical contact 144 to align with the base electrical contact 128 and form an electrical connection therewith.
The headguard 104 may include a headguard cavity 118, whereas the flashlight base 106 may include a flashlight base cavity 116. Further, the detachable flashlight head 102 may include a base 114 configured to nest within the headguard cavity 118 and the flashlight base cavity 116 and form an interference connection therewith.
In further embodiments, the headguard 104 includes a headguard light source, such as one or more headguard LEDs 170, the flashlight base 106 includes a base light source, such as one or more base LEDs 132, and the detachable flashlight head 102 comprises a head light source, such as one or more head LEDs 120.
The headguard 104 may further include a presence sensor 168. The method may further include detecting a presence of the detachable flashlight head 102 in the headguard cavity 118 and a lack thereof using the presence sensor 168, in response to the detachable flashlight head 102 not being present in the headguard cavity 118, turning on the headguard light source, and, in response to the detachable flashlight head 102 being present in the headguard cavity 118, turning off the headguard light source.
Similarly, the flashlight base 106 may further include a presence sensor 140. The method may further include detecting a presence of the detachable flashlight head 102 in the flashlight base cavity 116 and a lack thereof using the presence sensor 140, in response to the detachable flashlight head 102 not being present in the flashlight base cavity 116, turning on the flashlight base light source, and, in response to the detachable flashlight head 102 being present in the flashlight base cavity 116, turning off the headguard light source.
Further, in some embodiments, the flashlight base 106 further includes a switch 138 and a presence sensor 140. The method may further include detecting a presence of the detachable flashlight head 102 in the base cavity 116 and a lack thereof using the presence sensor 140. In response to the detachable flashlight head 102 not being present in the flashlight base cavity 116 and the switch 138 being manipulated, the base light source may be toggled (e.g., turned off or on, or different modes of operation enabled). Similarly, in response to the detachable flashlight head 102 being present in the headguard cavity, the head light source (e.g., turned off or on, or different modes of operation enabled).
The switch 138 may be formed of a transparent material having a multi-color light emitting diode (LED) disposed underneath. As such, the method may further include detecting the presence of the detachable flashlight head 102 in the flashlight base cavity 116 and a lack thereof using the presence sensor 140; when the detachable flashlight head 102 is coupled to the flashlight base 106 and a charging process is initiated in which a battery of the flashlight base 106 is charging a battery of the detachable flashlight head 102, causing the multi-color LED to illuminate a first color during the charging process; and causing the multi-color LED to illuminate a second color when the charging process has been completed, the second color being different than the first color.
The features, structures, or characteristics described above may be combined in one or more embodiments in any suitable manner, and the features discussed in the various embodiments are interchangeable, if possible. In the following description, numerous specific details are provided in order to fully understand the embodiments of the present disclosure. However, a person skilled in the art will appreciate that the technical solution of the present disclosure may be practiced without one or more of the specific details, or other methods, components, materials, and the like may be employed. In other instances, well-known structures, materials, or operations are not shown or described in detail to avoid obscuring aspects of the present disclosure.
Although the relative terms such as “on,” “below,” “upper,” and “lower” are used in the specification to describe the relative relationship of one component to another component, these terms are used in this specification for convenience only, for example, as a direction in an example shown in the drawings. It should be understood that if the device is turned upside down, the “upper” component described above will become a “lower” component. When a structure is “on” another structure, it is possible that the structure is integrally formed on another structure, or that the structure is “directly” disposed on another structure, or that the structure is “indirectly” disposed on the other structure through other structures.
In this specification, the terms such as “a,” “an,” “the,” and “said” are used to indicate the presence of one or more elements and components. The terms “comprise,” “include,” “have,” “contain,” and their variants are used to be open ended, and are meant to include additional elements, components, etc., in addition to the listed elements, components, etc. unless otherwise specified in the appended claims. The terms “first,” “second,” etc. are used only as labels, rather than a limitation for a number of the objects.
The above-described embodiments of the present disclosure are merely possible examples of implementations set forth for a clear understanding of the principles of the disclosure. Many variations and modifications may be made to the above-described embodiment(s) without departing substantially from the spirit and principles of the disclosure. All such modifications and variations are intended to be included herein within the scope of this disclosure and protected by the following claims.
This application is a continuation of U.S. patent application Ser. No. 17/109,682 entitled “LIGHTING SYSTEM WITH DETACHABLE FLASHLIGHT HEAD,” filed Dec. 2, 2020, which claims the benefit of U.S. Provisional 62/943,936 entitled “LIGHTING SYSTEM WITH DETACHABLE FLASHLIGHT HEAD,” filed Dec. 5, 2019, the contents of which being incorporated by reference in their entirety herein.
| Number | Name | Date | Kind |
|---|---|---|---|
| 3601595 | Kivela | Aug 1971 | A |
| 5239451 | Menke | Aug 1993 | A |
| 8733989 | Lo | May 2014 | B1 |
| 9228704 | Andersen | Jan 2016 | B2 |
| 9568171 | Grider | Feb 2017 | B1 |
| 9829182 | McCaslin | Nov 2017 | B1 |
| 10047938 | Grider et al. | Aug 2018 | B2 |
| 10317052 | King, Jr. et al. | Jun 2019 | B2 |
| 11493192 | Kaye | Nov 2022 | B2 |
| 20080298048 | Garrity | Dec 2008 | A1 |
| 20090207617 | Merchant | Aug 2009 | A1 |
| 20120182748 | McCaslin | Jul 2012 | A1 |
| 20180274768 | Grider | Sep 2018 | A1 |
| 20200049332 | Grider | Feb 2020 | A1 |
| 20200281297 | Kaye | Sep 2020 | A1 |
| 20210120902 | Kaye | Apr 2021 | A1 |
| Number | Date | Country |
|---|---|---|
| 101706043 | May 2010 | CN |
| 105042351 | Nov 2015 | CN |
| Entry |
|---|
| Chinese Office Action for Patent Application No. 202011438476.5 dated Jul. 18, 2022, pp. 1-16 (Translation Included). |
| Chinese Office Action dated Apr. 8, 2023. |
| Number | Date | Country | |
|---|---|---|---|
| 20230065166 A1 | Mar 2023 | US |
| Number | Date | Country | |
|---|---|---|---|
| 62943936 | Dec 2019 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | 17109682 | Dec 2020 | US |
| Child | 17981587 | US |
