ILLUMINATING LACROSSE SHAFT
An illuminating lacrosse shaft is configured for attachment to a lacrosse head to form a lacrosse stick for low-light use. The lacrosse shaft includes an elongated, cylindrical, substantially hollow translucent shaft formed with a head end axially separated from a butt end, a connector for attaching a lacrosse head to the head end of the shaft. A light source positioned within the shaft and an electronic controller connected to the light source controls the light source operation including activating the light source to radiate light axially between within the shaft in response to a signal.
The invention relates broadly to a lacrosse stick and, more particularly relates to an illuminating lacrosse shaft configured for use with separate interchangeable lacrosse shaft heads and, for illuminated play during non-daylight hours.
Lacrosse sticks are known to comprise a lacrosse shaft and a lacrosse head, where the lacrosse head is preferably detachable from the shaft in order to interchange lacrosse heads. While traditionally wood (e.g., oak), modern lacrosse sticks typically comprise a metal shaft detachably connected to a substantially plastic molded lacrosse head. But whether metal or wood, the known lacrosse shafts are tube-like structures that may or may not be solid.
Known tube-like structures (such as might be used in a lacrosse shaft) also are found in other sports equipment and toys. For example, U.S. Pat. No. 7,278,769 discloses a laser light tube (tube-like structure) that functions as a toy and emits coherent light. Likewise, U.S. Pat. No. 5,036,442 discloses an (light) illuminated wand, which is a tube-like structure. The illumination comes from a number of LEDs arranged internal a translucent tube forming the wand body. U.S. Pat. No. 4,208,701, also discloses a luminous toy comprising a hollow elongated tube-like member configured with a sinuous strip of light-reflecting material to reflect light directed along the axial center of the hollow tube.
Chinese Patent No CN 2626560Y discloses a shaft with a transparent segment. In the transparent segment are disposed decorative members (characters) in a fixed arrangement. When a light is passed through the transparent segment, the characters are light-activated by the irradiating light.
U.S. Pat. No. 7,335,111 discloses a pool cue comprising a first hollow rod with a light source, a second hollow rod and a coupler for coupling light from the first light source. The light source projects light along the length of the cue. Inserts are placed in the hollow rods to change color and illumination pattern of the pool cue, e.g., to advertise. U.S. Pat. No. 6,827,652 discloses a pool cue with a tip 26 and butt end 28 that light up.
U.S. Pat. No. 5,913,671 discloses a fishing pole with an illuminated handle. The illuminated handle is formed as a light tube with a fluorescent lamp that illuminates an area around a user.
U.S. Pat. No. 6,770,002 discloses a baseball bat configured to emit a light stream co-axial with the axial center of the bat and laterally out at the knob end in order to support a new batter in aligning the knob end (using the light) with the ball.
U.S. Pat. No. 5,607,226 discloses a hockey stick with LEDs mounted along the shaft to enable recognition of the physical features of the hockey stick when used at dusk or after, where U.S. Pat. No. 5,370,390 discloses a croquet set with an illuminated handle, head and ball. Each of the aforementioned parts includes a groove or channel for receiving a chemical glow stick or coil. The coils/glow sticks are manually placed and activated to radiate light.
U.S. Pat. No. 8,152,661 discloses a lacrosse training device. The lacrosse training device comprises a shaft portion 105, a head portion and an end cap 115 at the butt end 125. The end cap at the butt end houses a light source 155 (in a central cavity 160). Light source 155 generates a visible light beam that operates to form a point on a target towards which the butt end of the training device is pointed. The point source, however, does not provide sufficient light for dusk or post-dusk use.
US Published Patent Application Ser. No. 2013/0040767 discloses a bat made from a hollow translucent tube and a ball made with an outer translucent shell. The ball also includes a first illuminating element and first inertial device. Likewise, the bat includes a second illuminating device and a second inertial device. Force contacting the bat and ball compel the switches to light up the light sources. While effective for supplying a visual signal communicating bat and ball contact, the bat and ball so configured do not provide sufficient light for play without ball contact.
SUMMARY OF THE INVENTIONThe present invention provides a lacrosse shaft that overcomes the shortcomings of the known arts.
In one embodiment, the invention provides an illuminating lacrosse shaft configured for attachment to a lacrosse head to form a lacrosse stick for low-light use. The lacrosse shaft embodies an elongated, cylindrical, substantially hollow translucent shaft formed with a head end axially separated from a butt end, a connecting means for attaching a lacrosse head to the head end of the shaft, a light source positioned within the shaft and an electronic controller connected to the light source to control the light source operation. The electronic controller activates the light source to radiate light axially between within the shaft in response to a signal.
The illuminating lacrosse shaft has a switch, a sensor or both where the signal is generated by the switch, the sensor or both. The switch is positioned along the axial length of the shaft between the head end and the butt end, or positioned at the butt end or positioned in an end cap attached or attachable at the butt end of the shaft.
In an embodiment, the shaft further comprises a protective end cap that is slid on to and over the butt end of the shaft to minimize and damage that butt end might cause if inadvertently contacting a person or property and wherein the switch and a light source is positioned in the end cap. Preferably, the sensor is a sensor selected from the group consisting of an ambient light sensor, a motion sensor, a force sensor, a gyro, a proximity sensor that senses a presence of a lacrosse ball or that the shaft is proximate a goal and combinations thereof.
In an embodiment, the illuminating lacrosse shaft also includes at least one additional light source that is activated by the electronic controller upon receipt of a signal generated by the motion sensor, where the at least one additional light source preferably is activated by the electronic controller depending of an amount of force imparted by the swing. The sensor signals are compared with at least one predetermined signal level to determine if a force imparted by a user swinging the shaft is sufficient to light the light source. Alternatively, the sensor signals are compared with at least one predetermined signal level to determine if an ambient light level is sufficiently low to light the light source.
In an embodiment, the connecting means for attaching the lacrosse head to the lacrosse shaft includes an electrical connector to electrical connect an electronic device and/or a sensor present in a lacrosse head to the electronic controller in the lacrosse shaft upon attachment of the lacrosse head to the shaft by the connecting means.
In another embodiment, the invention provides a lacrosse stick. The lacrosse stick comprises a lacrosse head and an illuminating lacrosse shaft configured for detachable attachment to the lacrosse head, the lacrosse stick configured for low-light use. The lacrosse shaft comprises an elongated, cylindrical, substantially hollow translucent shaft formed with a head end axially separated from a butt end, a connecting means for attaching a lacrosse head to the head end of the shaft, a light source positioned within the shaft, an electronic controller connected to the light source to control the light source operation and a switch, a sensor or both for generating at least one signal that is processed by the electronic controller. The electronic controller activates the light source to radiate light axially between within the shaft in response to the at least one signal.
The sensor is a sensor selected from the group consisting of an ambient light sensor, a motion sensor, a force sensor, a gyro, a proximity sensor that senses a presence of a lacrosse ball or that the shaft is proximate a goal and combinations thereof. The lacrosse head includes an illuminating device and wherein the connecting means includes an electrical connector to electrically connect the illuminating device in the lacrosse head to the electronic controller in the lacrosse shaft upon attachment of the lacrosse head to the shaft by the connecting means.
Alternatively, the lacrosse head includes a sensor and wherein the connecting means includes an electrical connector to electrically connect the sensor in the lacrosse head to the electronic controller in the lacrosse shaft upon attachment of the lacrosse head to the shaft by the connecting means. The sensor in the lacrosse head senses a presence of a lacrosse ball in the lacrosse head. Alternatively, the sensor in the lacrosse head senses a proximity of the lacrosse stick to a goal.
Further features and advantages of the invention will become apparent from the description of embodiments that follows, with reference to the attached figures, wherein:
The following is a detailed description of example embodiments of the invention depicted in the accompanying drawings. The example embodiments are presented in such detail as to clearly communicate the invention and are designed to make such embodiments obvious to a person of ordinary skill in the art. However, the amount of detail offered is not intended to limit the anticipated variations of embodiments; on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the present invention, as defined by the appended claims.
The shaft (cylindrical, tube-like) structure is preferably formed from clear or translucent plastic, fiberglass, polymer or polymeric material (e.g., hybrid polyurethane) to form a hollow shell structure, i.e., the cylindrical, tube-like shaft structure. As is commonly known, such a shell forming lacrosse shaft structures displays a shell thickness in a range between 0.004 and 0.375 inches. In the embodiments depicted in the accompanying drawings, the thickness of the shell forming the translucent, cylindrical or tube-like handle lacrosse shaft is 0.125 inch.
Top end 12 of shaft 10 is axially opposed to butt end 14, to which is attached a protective end cap 14A. End cap 14A is manufactured from soft rubber-like (e.g., rubber) shock-absorbent material and is configured to slip over the butt end 14 in a friction fit (relying on a tapered diameter), or otherwise connect to the butt end 14 in order to protect persons and things that might be contacted forcefully by an unprotected butt end (which is “hard”) during intended use.
The interchangeable lacrosse heads 30 are attached to the illuminating lacrosse shaft 10 using a fastening means 40, as known to the skilled artisan. For example, the head may be attached conventionally whereby the head slips over the top 12 of the shaft and is secured thereon using a simple screw. Alternatively. the top end 12 may be formed with a helical ridge or thread 11, configured to mate with a complementary internal thread 11 formed on an inner surface of the head 30, which receives the top end 12. Alternatively, the head 30 may be configured to be inserted into an opening in top end 12, where the external thread is found on an outer surface of the head for mating with an inner thread formed in the shaft opening.
A switch 16 is used for activating a light source 18 included in the shaft 10. By depressing the switch, the state of the one of light sources 18 positioned in the shaft are toggled between on and off. The switch 16 and the light source 18 (e.g., LED light sources) are positioned about midway between the top and butt ends in the
If positioned at the top end 12, a light source 18 preferably radiates light downwards along the shaft axis, where the light also escapes laterally. Where the light source 18 (and/or switch) is positioned in the butt end 14, light radiates upwards and laterally. For that matter, the invention can include multiple light sources positioned anywhere along the axial length of the shaft, in any combination, without deviating from the scope and spirit of the invention, limited only by the claims appended hereto. In any embodiments described and claimed, an inner surface of the cylinder-like shaft (e.g., hexagonal, octagonal, etc., without limitation) is treated with a light reflecting or light refracting coating, at least partially.
While
Preferably, the surfaces at both the butt end 14 and a top end 12 are reflective (e.g. comprise reflective coatings), or include reflective materials positioned there, such as metallic foils/plate, in order to reflect light from the at least one light source 18 for illuminating, which light is directed substantially axially between the respective reflective surfaces (or metal foils/plate) 13. Such illumination between two reflective surfaces mimics laser operation in the lacrosse shaft 10″. As seen in
For that matter, all light sources in shaft 10″ are controlled by the single switch 16, in cooperation with controller 15A, as shown in
In an embodiment, the electronic circuit 15 and controller 15A also may be configured not only for connecting, powering and controlling the switches 16 and light sources 18, but also for receiving and processing sensor signal data and, controlling activation of the one or more light sources 18 based on the sensor signal data. That is, the invention can include sensors (20, 22, 24) for detecting an ambient light level and automatically activating one or more light sources 18 when the ambient light drops past a specified light level (for example, at dusk). Light sources 18 also may be activated by a light, a motion (via a motion sensor), a force sensing switch that detects percussive shaft contact (e.g., a force of a ball caught in the shaft head may act to light one or more of the at least one light source) and/or in accordance with a received signal from an outside controller.
For example, a
Alternatively, or in addition to the ambient light sensor 20, shaft 10″ may include other sensors, such as a gyro or force sensor to determine when the shaft, or a head end of the shaft is swung and in some cases, to indicate whether the swing is hard or less hard.
For that matter,
To accomplish same, the one or more light sources are connected via wires 26 to an electrical connector 28, which connects a wire 26′ in the head 30′ (itself connected to the light sources 18) with the wire 26 in shaft 10′″ to allow the sources to be controlled by controller 15A. The light sources 18 may be controlled, therefore, as a function of time, as a function of the amount of day light available (or lack thereof), an amount of force of a swing with the lacrosse stick 10′″, a force at which a ball is launched and received in a head attached to the inventive illuminating lacrosse shaft, a presence of a ball in a head 30′, etc. For that matter, a light sensor 20, a movement sensor/gyro 22 and a force sensor 24 may be positioned in head 30′ sensor signals from which are communicated to controller 15A via connecting means 40 and connector 28.
In one embodiment, for example, the controller 15A may respond to a signal form light sensor 20 that indicates a low-light condition (dawn or dusk) and if below the predetermined signal level activates a light source 18 for 5 seconds of every 10 second periods, or constantly over time. If the movement sensor/gyro 22 in head 30′ further senses a swing (while one or more sources 18 are “on” or “blinking), and generates a signal indicative thereof, the controller 15A processes the motion signal to determine its relative force. In its simplest form, the embodiment activates the light source 18 (or a subset or entire set of light sources positioned in head 30′), continuously for the time of the swing, and back to the periodic activation post swing. Alternatively, the detected swing may be used to trigger an additional light source (18) or multiple light sources (LEDs) which generate the same or different colored (frequency) light.
The lacrosse shafts disclosed and described herein can be molded or extruded from translucent or light transparent materials such as hard plastics and acrylics, as known to those with skill in the art. Hence, any light directed downward from a light source positioned at a top end 12, or directed upwards from a light source positioned in the butt end 14, or reflected back and further between the top 12 and butt end 14 surfaces 13, is readily apparent from the lateral sides, i.e., light radiates laterally from the shafts (10; 10′; 10″; 10′″).
Alternatively, the receiver 58 may also detect/receive signals sent from a proximity device 62, where the signal is received only when the shaft is proximate the proximity device 62. Lights that are lit highlight the position of the player holding the shaft or stick proximate the target device. For example, if the proximity device 62 is position at the goal or target 63, the players closest to the goal are identified by an activated light pattern controlled by the controller 15A in response to detection of the wireless signal from the proximity device 62.
Please note that the aforementioned figures and description are presented for exemplary purposes only; and, the dimensions may be modified without deviating from the scope and spirit of the invention, but are not limited thereto.
LIST OF REFERENCE SYMBOLS
- 10 illuminating lacrosse shaft
- 10′ illuminating lacrosse shaft
- 10″ illuminating lacrosse shaft
- 10′″ illuminating lacrosse shaft
- 10″″ illuminating lacrosse shaft
- 10′″″ illuminating lacrosse shaft
- 10w illuminating lacrosse shaft integraly connected to lacrosse head 30w
- 11 machined surface or threads
- 12 top or head end of lacrosse shaft
- 13 reflective surface or reflective material
- 14A butt end of lacrosse shaft
- 14B butt or protector
- 14C electrical contact
- 15 electronic circuit
- 15A electronic controller
- 16 switches
- 17 battery or power source
- 18 light source(s)
- 20 light sensor
- 22 movement sensor/gyro
- 24 force sensor
- 26 wire
- 26′ wire in lacrosse head
- 28 connector
- 30 lacrosse head
- 30′ lacrosse head
- 30″ lacrosse head that senses presence of ball in webbing
- 30w lacrosse head integrally connected to shaft 10w
- 32 light condenser or collimator
- 34 light responsive, charge generating coating
- 40 fastener or fastening means
- 50 lacrosse shaft and head combination
- 52 sensor wire included in any head to identify the capture or presence of a Ball in the pouch or web netting
- 54 wire connecting sensor wire to controller
- 56 sensor included in any head to identify the capture or presence of a ball in the head
- 58 receiver
- 60 electronic transmitter device
- 62 proximity sensor or device
- 63 target device
- 66 target device
- 68 rim of target device 66
- 70 netting part of target device
- 72 wire sensor
- 73 transmitter
- 74 presence sensor
- 76 proximity sensor
- 78 ball with radiating signal source 80 for sensing by sensor 76
- 80 signal source positioned in ball 78
As will be evident to persons skilled in the art, the foregoing detailed description and figures are presented as examples of the invention, and that variations are contemplated that do not depart from the fair scope of the teachings and descriptions set forth in this disclosure. The foregoing is not intended to limit what has been invented, except to the extent that the following claims so limit that.
Claims
1. An illuminating lacrosse shaft configured for attachment to a lacrosse head to form a lacrosse stick for low-light use, the lacrosse shaft comprising:
- an elongated, cylindrical, substantially hollow translucent shaft formed with a head end axially separated from a butt end;
- a connecting means for attaching a lacrosse head to the head end of the shaft;
- a light source positioned within the shaft; and
- an electronic controller connected to the light source to control the light source operation;
- wherein the electronic controller activates the light source to radiate light axially within the shaft in response to a signal.
2. The illuminating lacrosse shaft as set forth in claim 1, further comprising a switch, a sensor or both and, wherein the signal is generated by the switch, the sensor or both.
3. The illuminating lacrosse shaft as set forth in claim 2, wherein the switch is positioned along the axial length of the shaft between the head end and the butt end.
4. The illuminating lacrosse shaft as set forth in claim 2, wherein the switch is positioned at the butt end.
5. The illuminating lacrosse shaft as set forth in claim 2, further comprising a protective end cap that is slid on to and over the butt end of the shaft to minimize any damage that the butt end might cause if inadvertently contacting a person or property and wherein the switch and a light source are positioned in the end cap.
6. The illuminating lacrosse shaft as set forth in claim 2, wherein the sensor is a sensor selected from the group consisting of an ambient light sensor, a motion sensor, a force sensor, a gyro, a proximity sensor that senses a presence of a lacrosse ball or that the shaft is proximate a goal and combinations thereof.
7. The illuminating lacrosse shaft of claim 6, further including at least one additional light source that is activated by the electronic controller upon receipt of a signal generated by the motion sensor.
8. The illuminating lacrosse shaft of claim 7, wherein said at least one additional light source is activated by the electronic controller depending of an amount of force imparted by the swing.
9. The illuminating lacrosse shaft of claim 8, wherein the sensor signals are compared with at least one predetermined signal level to determine if a force imparted by a user swinging the shaft is sufficient to light the light source.
10. The illuminating lacrosse shaft of claim 2, wherein the sensor signals are compared with at least one predetermined signal level to determine if an ambient light level is sufficiently low to light the light source.
11. The illuminating lacrosse shaft as set forth in claim 1, wherein the connecting means for attaching the lacrosse head to the lacrosse shaft includes an electrical connector to electrically connect an electronic device and/or a sensor present in a lacrosse head to the electronic controller in the lacrosse shaft upon attachment of the lacrosse head to the shaft by the connecting means.
12. A lacrosse stick, comprising a lacrosse head and an illuminating lacrosse shaft configured for detachable attachment to the lacrosse head, the lacrosse stick configured for low-light use, wherein the lacrosse shaft comprises:
- an elongated, cylindrical, substantially hollow translucent shaft formed with a head end axially separated from a butt end;
- a connecting means for attaching a lacrosse head to the head end of the shaft;
- a light source positioned within the shaft;
- an electronic controller connected to the light source to control the light source operation; and
- a switch, a sensor or both for generating at least one signal that is processed by the electronic controller;
- wherein the electronic controller activates the light source to radiate light axially between within the shaft in response to the at least one signal.
13. The lacrosse stick as set forth in claim 12, wherein the sensor is a sensor selected from the group consisting of an ambient light sensor, a motion sensor, a force sensor, a gyro, a proximity sensor that senses a presence of a lacrosse ball or that the shaft is proximate to a goal and combinations thereof.
14. The lacrosse stick as set forth in claim 12, wherein the lacrosse head includes an illuminating device and wherein the connecting means includes an electrical connector to electrically connect the illuminating device in the lacrosse head to the electronic controller in the lacrosse shaft upon attachment of the lacrosse head to the shaft by the connecting means.
15. The lacrosse stick as set forth in claim 14, wherein the lacrosse head includes a sensor and wherein the connecting means includes an electrical connector to electrically connect the sensor in the lacrosse head to the electronic controller in the lacrosse shaft upon attachment of the lacrosse head to the shaft by the connecting means.
16. The lacrosse stick as set forth in claim 15, wherein the sensor in the lacrosse head senses a presence of a lacrosse ball in the lacrosse head.
17. The lacrosse stick as set forth in claim 15, wherein the sensor in the lacrosse head senses a proximity of the lacrosse stick to a goal.
18. An illuminating lacrosse shaft configured for attachment to a lacrosse head to form a lacrosse stick for low-light use, the lacrosse shaft comprising:
- an elongated, cylindrical, substantially hollow translucent shaft formed with a head end axially separated from a butt end;
- a connecting means for attaching a lacrosse head to the head end of the shaft;
- a light source positioned within the shaft or within an end cap that is removably attached to the butt end of the shaft;
- an energy source;
- a switch electrically connected to the light source and to the battery to control and activate the light source to radiate light in response to an on state of the switch.
19. The illuminating lacrosse shaft as set forth in claim 18, further comprising a sensor that generates a signal and wherein activation of the light source is controlled by the switch in cooperation with the sensor signal.
20. The illumination lacrosse shaft as set forth in claim 1, wherein an inside surface of the shaft is scored or coated in order to communicate advertising copy when the light source is activated.
Type: Application
Filed: Nov 30, 2013
Publication Date: Jun 4, 2015
Applicant: Partner Sales Channel, LLC (Huntington, NY)
Inventors: Mark Arner (Huntington, NY), Anthony Annunziata (Huntington, NY)
Application Number: 14/093,434