BARRIER GATE ARM WITH RECESSED LIGHT HOUSING

Abstract

A vehicle barrier gate arm is pivotable between an upward and downward position. The gate arm has an exterior wall and one or more recessed light housings within visor channels. Each light housing may contain a light system such as an LED light strip or a light rope. The light housing is positioned at the inward end of a visor channel. The visor channel is defined by two opposing, parallel visor channel walls extending inward from the exterior wall. Each visor channel wall has a retaining fin extending perpendicularly from the visor channel wall into the visor channel, thereby forming an aperture in the light housing. The light housing is situated behind the retaining fins. The retaining fins and the visor channel walls form crooks within the upper and lower corners of the visor channels. The visor channels and the crooks shade the light housing and create dark regions of the channels. The shaded visor channels provide a stronger contrast between illuminated and non-illuminated LED lights strips, allowing an observer to better determine whether the LED lights strips, which often act as signals, are activated or are not activated.

Claims

1. A vehicle barrier gate system comprising; an elongate gate arm defined by an exterior wall and having a length; an elongate visor channel extending along the length of the gate arm and defined by an upper visor channel wall and an opposing parallel lower visor channel wall, wherein the upper visor channel wall extends inward from an upper terminating end of the exterior wall to an upper retaining fin, and the lower visor channel wall extends inward from a lower terminating end of the exterior wall to a lower retaining fin, and the upper and lower retaining fins defining the inward end of the elongate visor channel; wherein the upper retaining fin extends perpendicularly from the upper channel wall; wherein the opposing lower retaining fin extends perpendicularly from the lower channel wall; wherein the upper retaining fin and the lower retaining fin are coplanar and define an aperture; wherein a recessed light housing is comprises a cavity positioned behind the upper and lower retaining fins inward from the elongate visor channel and defined by the upper and lower retaining fins, the aperture and a backwall; wherein the upper channel wall and the upper retaining fin meet at a right angle, thereby forming an upper crook in an upper corner in the elongate visor channel between the upper retaining fin and the exterior wall, and wherein the lower channel wall and the lower retaining fin meet at a right angle, thereby forming a lower crook in a lower corner of the visor channel; an LED light strip within the recessed light housing behind the elongate visor channel and emitting light through the aperture at the inward end of the elongate visor channel when the LED light strip is illuminated; wherein the visor channel shades the recessed light housing and the light strip from sunlight, thereby sunlight from reflecting off of the light strip; and, a housing pivotally coupled to a proximal end of the gate arm, the housing having a control system and a power supply to selectively pivot the gate arm between a horizontal position and a vertical position.

2. The vehicle barrier gate system of claim 1 wherein the gate arm is cylindrical.

3. The vehicle barrier gate system of claim 1 wherein the gate arm is a parallelepiped.

4. The vehicle barrier gate system of claim 1 wherein the backwall is parallel to the retaining fins.

5. The vehicle barrier gate system of claim 1 wherein the backwall is curved.

6. A vehicle barrier gate system comprising: an elongate gate arm having an exterior wall, a length, a first side and a second side; a first visor channel in the first side of the gate arm extending along the length of the gate arm, the first visor channel comprising a first upper visor channel wall and an opposing, parallel first lower visor channel wall; wherein the first upper visor channel wall extends inward from a first upper terminating end of the exterior wall to a first upper retaining fin, and the first lower visor channel wall extends inward from a first lower terminating end of the exterior wall to a first lower retaining fin; wherein a first upper retaining fin extends perpendicularly into the first visor channel from the first upper channel wall; wherein a first lower retaining fin extends perpendicularly into the first visor channel from the first lower channel wall, wherein the first lower retaining fin and the first upper retaining fin are parallel, coplanar and define a first aperture between them; a first recessed light housing located behind the upper and lower retaining fins, and defined by the first upper retaining fin, the first lower retaining fin, and a first backwall inward from the first visor channel; wherein the first upper channel wall and the first upper retaining fin meet at a right angle, thereby forming a first upper crook in an upper corner of the first visor channel, and wherein the first lower channel wall and the first lower retaining fin meet at a right angle, thereby forming a first lower crook in a lower corner of the first visor region; a first LED light strip behind the upper and lower retaining fins at the inward end of the first recessed light housing and emitting light through the first aperture when the first LED light strip is illuminated; a second visor channel in the second side of the gate arm extending along the length of the gate arm, the second visor channel comprising a second upper visor channel wall and an opposing, parallel second lower visor channel wall; wherein the second upper visor channel wall extends inward from a second upper terminating end of the exterior wall to a second upper retaining fin, and the second lower visor channel wall extends inward from a second lower terminating end of the exterior wall to a second lower retaining fin; wherein the second upper retaining fin extends perpendicularly into the second visor channel from the second upper channel wall; wherein the second lower retaining fin extends perpendicularly into the second visor channel from the second lower channel wall, wherein the second lower retaining fin and the second upper retaining fin are parallel, coplanar and define a second aperture between them; a second recessed light housing at located behind the upper and lower retaining fins and defined by the second upper retaining fin, the second lower retaining fin, and a second backwall inward from the second visor channel; wherein the second upper channel wall and the second upper retaining fin meet at a right angle, thereby forming a second upper crook in an upper corner of the second visor channel between the second upper terminating end and the second upper retaining fin, and wherein the second lower channel wall and the second lower retaining fin meet at a right angle, thereby forming a second lower crook in a lower corner of the second visor channel between the second lower terminating end and the second lower retaining fin; a second LED light strip behind the upper and lower retaining fins at the inward end of the second recessed light housing and emitting light through the second aperture when the second LED light strip is illuminated; wherein the first visor channel shields the first light strip from sunlight and the second visor channel shields the second light strip from sunlight, thereby preventing sunlight from reflecting off of the first and second light strips; and, a housing pivotally coupled to a proximal end of the gate arm, the housing having a control system and a power supply to selectively pivot the gate arm between a horizontal position and a vertical position.

7. The vehicle barrier gate system of claim 6 wherein the gate arm is cylindrical.

8. The vehicle barrier gate system of claim 6 wherein the gate arm is a parallelepiped.

9. The vehicle barrier gate system of claim 6 wherein the backwall is parallel to the retaining fins.

10. The vehicle barrier gate system of claim 6 wherein the backwall is curved.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

[0022] A more complete understanding of the present invention, and the attendant advantages and features thereof, will be more readily understood by reference to the following detailed description when considered in conjunction with the accompanying drawings wherein:

[0023] FIG. 1 is a front elevation view of a vehicle barrier system in accordance with principles of the invention;

[0024] FIG. 2 is a cross-sectional view of a gate arm in accordance with the principles of the invention;

[0025] FIG. 3 is an enlarged cross-sectional view of a visor channel of a gate arm in accordance with the principles of the invention;

[0026] FIG. 4 is a cross-sectional view of an alternative embodiment of a gate arm in accordance with the principles of the invention;

[0027] FIG. 5 is a cross-sectional view of another alternative embodiment of a gate arm in accordance with the principles of the invention;

[0028] FIG. 6 is a cross-sectional view of another alternative embodiment of a gate arm in accordance with the principles of the invention.

DETAILED DESCRIPTION

[0029] The invention is not limited in its application to the details of construction and to the arrangements of the components set forth in the following description or illustrated in the drawings. The invention is capable of other embodiments and of being practiced and carried out in various ways. Also, it is to be understood that the phraseology and terminology employed herein are for the purpose of description and should not be regarded as limiting.

[0030] The disclosed subject matter is described with reference to the drawings, wherein like reference numerals are used to refer to like elements throughout. In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the various embodiments of the subject disclosure. It may be evident, however, that the disclosed subject matter may be practiced without these specific details. In other instances, well-known structures and devices are shown in block diagram form in order to facilitate describing the various embodiments herein.

[0031] As used herein, the terms “medial” and “inward” refer generally to the center or middle of an object and the terms “lateral” and “outward” refer to the exterior of an object. For example, when referring to the gate arm, a component or structure is medial relative to another component if it is closer to internal center of the gate arm. Conversely, when a component or structure is referred to as lateral relative to another component, it is in a direction toward the outside or exterior of the gate arm. In addition, the term “or” is intended to mean an inclusive “or” rather than an exclusive “or.” That is, unless specified otherwise, or clear from context, “X employs A or B” is intended to mean any of the natural inclusive permutations. That is, if X employs A; X employs B; or X employs both A and B, then “X employs A or B” is satisfied under any of the foregoing instances. Moreover, articles “a” and “an” as used in the subject specification and annexed drawings should generally be construed to mean “one or more” unless specified otherwise or clear from context to be directed to a singular form.

[0032] Disclosed is a barrier gate arm having a recessed light housing in accordance with principles of the invention. The barrier gate arm is an elongate structure such as the barrier gate arms commonly in use today. The gate arm has an exterior wall, or outer casing, that may be substantially hollow on the inside. The gate arm may also optionally have an internal framework or honeycomb. An elongate channel extends longitudinally along a substantial portion of the length of the exterior outer casing wall. A recessed light housing is positioned at the medial, or inward, end of the channel, and the channel itself acts as a sun visor, shielding the light strip from sunlight, thereby preventing “phantom” lighting due to sunlight reflection off the light system within the housing. A lighting device, such as an LED light strip, emits light through an aperture in the light housing at the medial end of the visor channel. Two retaining fins that extend into the visor channel from two opposing parallel visor channel walls. These retaining fins serve a dual function of both defining the lateral end of the light housing and forming crooks in the corners of the visor channel, where they form right angles between the visor channel walls and the retaining fins. These crooks are particularly darkly shaded regions in the upper and lower corners of the visor channel. The retaining fins also separate the light housing from the visor channel. Because the light housing is recessed inside the visor channel and is not flush with the exterior wall of the gate arm, the visor channel appears dark when the light system is not emitting any light. The dark appearance of the channel is accentuated by the crooks. When the light system is turned on its light is emitted through the aperture, the channel no longer appears dark, and the shaded crooks are not visible.

[0033] FIG. 1 shows a barrier gate 10 in accordance with the principles of the invention. The barrier gate 10 includes a housing 12 affixed to a horizontal surface 14 at its base 16. The housing 12 contains a motor and actuator for pivoting the gate arm 18. In this embodiment, the horizontal surface 14 is the ground. A gate arm 18 is pivotally mounted to the housing by a pivoting bracket 20. The proximal region 24 of the gate arm 18 is inserted into a sleeve 26 that is attached to the bracket 20. The distal region 28 of the gate arm 18 has an end cap 30 removably affixed. An elongate channel 32 in the gate arm 18 extends longitudinally along a substantial portion of the gate arm. A light strip 34 is retained within a light housing inside the channel.

[0034] FIG. 2 shows a cross-section of the elongate gate arm 18 in accordance with the principles of the invention. In this embodiment, the gate arm 18 is cylindrical, having a substantially circular cross-section. The shape of the gate arm 18 is defined by an exterior wall 36. Optionally, the gate arm 18 may have different cross-sectional geometries and may optionally include an internal frame or honeycomb. On a first side 38, a visor channel 32 extends along a substantial portion of the length of the gate arm 18. Because the gate arm 18 is cylindrical, the first side is distinguished from the top 40, bottom 42 and second side 44 by orientation. Generally, the first side 38 and second side 44 refer to regions of the gate arm facing opposite horizontal directions. The top 40 refers to the region of the gate arm facing upward, while the bottom 42 refers to the region of the gate arm facing downward. Because this gate arm 18 is radially symmetric, the visor channel 32 could be positioned facing any direction. Because the gate arm 18 is defined only by the geometry of the exterior wall 36, the exterior wall 36 may optionally be described as having a first side wall, a second side wall, a top member and a bottom member.

[0035] A recessed light housing 56 is positioned at the medial end of the visor channel 50. The visor channel 50 of this embodiment is defined by two opposing planar channel walls 52 and 54. The upper visor channel wall 52 extends inward from the upper terminating end 46 of the exterior wall 36. The lower channel wall 54 extends inward from the lower terminating end 48 of the exterior wall 36. An LED light strip 34 is housed within the recessed light housing 56 and, when turned on, emits light through an aperture 68.

[0036] FIG. 3 shows the visor channel 32 in greater detail, with the LED light strip 34 removed for clarity. The upper channel wall 52 extends inward from the upper terminating end 46 of the exterior wall 36. Similarly, the opposing lower channel wall 54 extends inward from the lower terminating end 48 of the exterior wall 36. The upper channel wall 52 and the lower channel wall 54 are parallel and coextensive. An upper retaining fin 60 extends perpendicularly from the upper channel wall 52 into the visor channel 50. Similarly, a lower retaining fin 62 extends perpendicularly from the lower channel wall 54 into the visor channel 50 and is coplanar with the upper retaining fin 60 and the aperture 68.

[0037] The recessed light housing 56 is a cavity positioned behind the retaining fins 60 and 62, and is defined by the retaining fins 60 and 62 and a back wall 64. In this embodiment, the backwall 64 is parallel to the retaining fins 60 and 62 and the light housing 56 has a rectangular cross-section. An aperture 68 is located between and defined by the retaining fins 60 and 62. Light from the LED light strip is emitted through the aperture 68 and out of the opening 32 when the LED light strip is turned on. The visor channel 50 shades the recessed light housing 56 and its aperture 68 from sunlight or other ambient light. This prevents an observer from seeing “phantom” light caused by sunlight reflecting off the light strip.

[0038] The upper channel wall 52 and the upper retaining fin 60 are perpendicular and thus form an upper crook 70 in the upper corner of the visor channel 50. The lower channel wall 54 and lower retaining fin 62 similarly form a lower crook 72 in the lower corner of the visor channel 50. One or both of the crooks 70 and 72 in the visor region 58 will remain shaded even in strong ambient light and/or sunlight at a low angle, such as shortly after sunrise or before sunset. Therefore, when light is not emitted through the aperture 68, the channel will appear at least partially darkened to an observer, even in bright sunlight. When light is emitted through the aperture 68, the darkened crooks are not visible to an observer. The visor region 58 thereby substantially improves an observer's ability to determine whether or not the LED light strip is turned on and emitting light.

[0039] FIG. 4 shows a cross-section of another alternative embodiment of a gate arm 100 having lighting systems on opposite sides. The gate arm 100 includes an exterior wall 102 having a first opening 104 on a first side 106 and a second opening 108 on a second side 110. The first opening 104 leads to a first recessed light housing 112 containing a first LED light strip 114 at the medial end of a first visor channel 116 defined by first visor channel walls 117. The first recessed light housing 112 is defined by two coplanar, opposing first retaining fins 118, the first visor channel walls 117 and a first back wall 120. Similarly, the second opening 108 leads to a second recessed light housing 118 containing a second LED light strip 124 at the medial end of a second visor channel 122 on the second side 110. The second recessed light housing 118 is also defined by two coplanar, opposing second retaining fins 126 and a second back wall 128.

[0040] FIG. 5 is a cross-section of another alternative embodiment of a gate arm 150. This embodiment also includes an exterior wall 152 and a visor channel 154 defined by an upper visor channel wall 164 extending from an upper terminating end 156 to an upper retaining fin 166 and a lower channel wall 168 extending from a lower terminating end 158 to a lower retaining fin 170. The visor channel 154 has a recessed light housing 162 positioned at the medial end of the visor channel 154 behind the retaining fins 166 and 170. The light housing 162 is defined by two retaining fins 164 and a curved back wall 168. In this embodiment, the recessed light housing 162 contains an LED light rope 170.

[0041] FIG. 6 shows a cross-section of another alternative embodiment of a gate arm 200. The gate arm 200 has a parallelepiped shape and a rectangular cross section defined by an exterior wall 202 having curved corners. Those skilled in the art will appreciate that gate arms may have many different geometries and therefore many different cross-sectional shapes. Generally, most gate arms are cylindrical, parallelepiped or prismatic. The external wall 202 has a first side 204 and a second side 206 separated by a top region 208 and a bottom region 210. The first side 204 has a first recessed light housing 212 in the medial part of a first visor channel 214. The first recessed light housing 212 is separated from the first visor channel 214 by two opposing retaining fins 216 that define an aperture through which light emitted by the first LED light strip 220 passes. The second side 206 has a second recessed light housing 222 in the medial part of a second visor channel 224. The second recessed light housing 222 is separated from the second visor channel 224 by two opposing retaining fins 226 that define an aperture through which light emitted by the second LED light strip 228.

[0042] Whereas, the present invention has been described in relation to the drawings attached hereto, it should be understood that other and further modifications, apart from those shown or suggested herein, may be made within the spirit and scope of this invention. Descriptions of the embodiments shown in the drawings should not be construed as limiting or defining the ordinary and plain meanings of the terms of the claims unless such is explicitly indicated.

[0043] As such, those skilled in the art will appreciate that the conception, upon which this disclosure is based, may readily be utilized as a basis for the designing of other structures, methods and systems for carrying out the several purposes of the present invention. It is important, therefore, that the claims be regarded as including such equivalent constructions insofar as they do not depart from the spirit and scope of the present invention.