The invention relates to a gate. More particularly, this invention relates to a gate system and apparatus comprising at least one arm that extends in length to create a barrier that substantially prevents access through the gate and that retracts in length to eliminate the barrier and substantially allow access through the gate.
The use of gates has become more and more pervasive in society. For example, gates are commonly used to prevent unauthorized access to an individual's premises, such as a business or residential property. As yet another example, gates are also commonly used to portion off portions of a residential home to confine a pet to a particular area, thereby ensuring the pet does not cause unwanted damage to other areas of the home. Gates similar to those used to restrict the movement of pets are also commonly used to prevent toddlers from accessing certain areas of a home. For example, those gates may be used to prevent a toddler from going up or down stairs, which helps ensure the toddler is not injured.
While the gates described above have proven useful for their primary purpose (i.e., limiting access to a specified area), they presently have a number of drawbacks. For example, they are typically bulky and consume a significant amount of space. As such, they are generally not aesthetically pleasing and require more than the desired amount of space. In the case of gates used for restricting the movement of a toddler or pet, such gates are often not sturdy, and thus are susceptible to tipping or falling over, which can damage walls or doors and present an injury hazard to children and pets. Moreover, the aforementioned gates also pose significant tripping hazards, as they typically require at least one lower lateral portion that extends the entire length of the gate to provide support. Further, such gates generally have static physical dimensions, which means that they may not properly fit into passage ways of a certain size.
Therefore, a need remains for a gate that efficiently uses space, is aesthetically pleasing, is sturdy, is able to adapt to the size of various passageways and/or that reduces or eliminates tripping hazards, while at the same time achieving the primary purpose of limiting or preventing access to a specific area.
Embodiments of a gate system and apparatus having at least one arm, whereby the arm is adapted to extend in length to create a barrier and retract in length to eliminate the barrier, are described. The embodiments described below are only exemplary, and are not intended to limit the scope of the invention.
In one disclosed embodiment, a gate comprises a motor having a shaft that rotates bidirectionally. The shaft has at least one connector wrapped around a portion of the shaft, such that rotation of the shaft in a first direction by the motor causes the connector to unwind from the shaft and rotation of the shaft in a second direction causes the connector to wind around the shaft.
The gate further comprises at least one arm, whereby the at least one arm has a plurality of portions that slide into one another. When the at least one arm is substantially retracted in length, the plurality of portions are substantially slid into one another. When the at least one arm is substantially extended in length, the plurality of portions are substantially slid apart from one another.
The at least one connector is connected to an interior end of the at least one arm, such that when the motor rotates in the first direction, the at least one connector unwinds from the shaft and extends towards the interior end of the at least one arm, thereby exerting sufficient force on the interior end to cause the plurality of portions of the at least one arm to slide apart from one another. As the plurality of portions of the at least one arm slide apart from one another, the end of the first arm extends until it creates a barrier. For example, the end of the arm may extend until it abuts a wall, thereby creating a barrier that may substantially prevent access there through. Conversely, when the motor rotates in the second direction, the at least one connector winds around the shaft and pulls the interior end of the at least one arm, thereby creating sufficient force to cause the plurality of portions of the arms to slide into one another. As the plurality of portions slide into one another, the end of the at least one arm substantially retracts so that access through the gate may no longer be substantially prevented.
In yet another embodiment, a gate comprises a motor having a shaft that rotates bidirectionally. The shaft has at least one connector wrapped around a portion of the shaft, such that rotation of the shaft in a first direction by the motor causes the at least one connector to unwind from the shaft and rotation of the shaft in a second direction causes the connector to wind around the shaft.
The gate further comprises at least one arm, whereby the at least one arm has a plurality of portions that slide into one another. When the at least one arm is substantially retracted in length, the plurality of portions are substantially slid into one another. When the at least one arm arms is substantially extended in length, the plurality of portions are substantially slid apart from one another. The at least one arm further comprises an interior spring adapted to exert a force on the interior end of the at least one arm and cause the at least one arm to substantially extend. More specifically, when the spring is substantially decompressed, it causes the plurality of portions of the at least one arm to slide apart from one another. Conversely, when the spring is compressed it allows the plurality of portions of the at least one arm to slide into one another.
The at least one connector is connected to an interior end of the at least one arm. When the motor rotates in the first direction, the at least one connector unwinds from the shaft and extends toward the interior end of the arm, thereby allowing the spring force generated by the spring to cause the plurality of portions of the at least one arm to slide apart from one another. As the plurality of portions slide apart, the end of the at least one arm extends until it creates a barrier. For example, the end of the at least one arm may extend until it abuts a wall, thereby creating a barrier that may prevent access there through. Conversely, when the motor rotates in the second direction, the at least one connector winds around the shaft and pulls the interior end of the at least one arm, thereby creating sufficient force to overcome the spring force generated by the spring and allowing the plurality of portions of the at least one arm to slide into one another. As the plurality of portions of the at least one arm slide into one another, the end of the at least one arm retracts so that access through the gate may no longer substantially prevented.
In yet another embodiment, a gate comprises at least one arm having a plurality of portions that slide into one another. When the arm is substantially retracted in length, the plurality of portions of the at least one arm are substantially slid into one another. When the at least one arm is substantially extended in length, the plurality of portions of the at least one arm are substantially slid apart from one another. The at least one arm further comprises a grip or handle adapted for easy gripping by a user so that the user can conveniently manually extend or retract the at least one arm. More specifically, when the at least one arm is fully refracted, the grip or handle may be moved by a user (e.g., pushed or pulled) to cause the at least one arm to extend in length. As the plurality of portions slide apart, the end of the at least one arm extends until it creates a barrier. For example, the end of the at least one arm may extend until it abuts a wall, thereby creating a barrier that may substantially prevent access there through. Conversely, when the at least one arm is fully extended, the grip or handle may be moved by a user (e.g., pushed or pulled) to cause the at least one arm to retract in length. As the plurality of portions slide into one another, the end of the at least one arm retracts so that access through the gate may no longer substantially prevented.
These and other embodiments would be apparent to those having ordinary skill in the art based on consideration of the entire disclosure herein.
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate implementations of systems and apparatuses consistent with the present disclosure and, together with the detailed description, serve to explain advantages and principles consistent with the present disclosure.
This application is a continuation of U.S. patent application Ser. No. 15/333,124, which was filed on Oct. 24, 2016 and issued on Jun. 27, 2017 as U.S. Pat. No. 9,689,189.
With reference now to the figures, and particular in reference to
When the shaft 106 is rotated in a first direction (e.g., counter-clockwise), it causes arms 108 to extend outwards towards wall 120 until the ends of the arms 122 engage the wall 120. Thus, the gate 100 is in an extended state, which substantially prevents access through the gate 100.
Turning now to
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The arm 108 includes a plurality of portions 108a-108h that are adapted to slide into one another. For example, portion 108b slides into portion 108a; portion 108c slides into portion 108b; portion 108d slides into portion 108c; portion 108e slides into portion 108d; portion 108f slides into portion 108e; portion 108g slides into portion 108f; and portion 108h slides into portion 108g. Therefore, when arm 108 is fully extended as shown in
The first portion 108a of arm 108 may be attached to the housing 102 by any well-known method in the art. For example, the first portion 108a may be welded, bolted, screwed, or threadingly engaged to the housing. As such, the first portion 108a may act as a base of support for arm 108.
The arms 108 may be, for example, concentric tubular arms or telescopic arms that are substantially parallel to one another as shown in
In the present embodiment, each portion 108a-108h may be approximately 4½ inches in length, but those having ordinary skill in the art would understand that the portions 108a-108h can be any desired length, so long as the arms 108 retain sufficient rigidity and support to extend substantially outward from the housing 102 when in the fully extended position. However, those of ordinary skill would also recognize that the length of each portion 108a-108h affects the overall size of the gate when the arms 108 are in the retracted state. For example, if each portion 108a-108h is 6 inches in length, then the smallest possible length for the arms of the gate would be 6 inches in the retracted state. As such, using the smallest portions necessary, while at the same time retaining sufficient stability and rigidity of the arms, may be desired to minimize the overall size of the gate system.
In the present embodiment, there may be approximately a ⅛ inch difference in diameter between adjacent portions of an arm, and each portion may have a material thickness of 0.038 inches. For example, portion 108a may be 1½ inches in diameter; portion 108b may be 1⅜ in diameter; portion 108c may be 1¼ inches in diameter; portion 108d may be 1⅛ inches in diameter; portion 108e may be 1 inch in diameter; portion 108f may be ⅞ inches in diameter; and portion 108g may be ¾ inches in diameter; and portion 108h may be ⅝ inches in diameter. However, those of skill in the art would understand that the diameter of each portion 108a-108h could have a greater or smaller dimensions, depending on the desired application of the gate. For example, if the gate is intended to prevent access for a very small pet, a higher number of arms having smaller diameters and thickness may be desired. Conversely, if the gate is intended to prevent access there through for a car, a few number of arms having greater diameters and thickness may be desired.
When the motor 104 rotates shaft 106 in a first direction (e.g., counter-clockwise), connector 124 unwinds from portion 110 and the second end 124b of connector 124 exerts a physical force on end of arm 122, causing the arm 108 to extend. Specifically, as connector 124 unwinds from portion 110, second end 124b of connector 124 exerts a physical force on the interior of an end of arm 122, thereby causing portions 108a-108h to slide further apart from one another. The connector 124 may be made of any material having suitable stiffness and flexibility for the purpose described above. For example, the connector may be a stiff nylon connector having sufficient flexibility to wind about a part, while at the same time retaining the necessary amount of stiffness to allow the connector to exert sufficient force to cause an arm to extend.
As the arm 108 extends, it eventually contacts wall 120 such that the gate arm 108 create a barrier that substantially prevents access through the gate. To ensure that the arm 108 retains the desired stability, the arm 108 may be configured to extend until a certain level of force is exerted on the wall by the end of the arm 122. For example, the motor 104 may be configured to rotate counter-clockwise such that the arm 108 exerts 20 pounds of force on the wall so that the arms 108 reach the desired level of force to ensure the arms 108 are not easily displayed by a force (e.g., the weight of a pet against the arm 108). While 20 pounds of force is given as an example of a desired force here, those having skill in the art would understand that the desired force may depend on a number of factors, including the force expected to be exerted on the arm 108. For example, if the gate 100 is intended to be used to confine a larger pet (e.g., a 75 lb dog), then the desired force of the arm 108 against the wall 120 may be much higher to ensure that the arm 108 is more difficult to displace by the force applied by a pet. Once the arm 108 is sufficiently extended, the shaft 106 may lock into position such that it will not rotate until the motor 104 is caused to rotate clockwise.
The end of arm 122 may further be comprised of a pliable and/or soft material 128 such that when the end makes contact with, for example, wall 120, the end 122 will not cause damage to the wall. For example, the pliable and/or soft material 128 may be rubber such that the end of the arms will not cause damage when they exert a force against wall 120. Moreover, the use of a pliable material, such as rubber, may be especially advantageous as it would assist the end of arm 122 in gripping the wall to ensure it does not slide around, ultimately improving the gate's stability.
Alternatively, as shown in
Turning back to
Alternatively, the motor 104 may be configured to automatically stop turning without the need for user programming. For instance, when a certain threshold of physical resistance is reached (e.g., resistance caused by the arms 108 attempting to extend into the wall 120), the motor 104 may stop rotating. Those of skill in the art would understand that there are a number of well-known ways of accomplishing this, such as measuring the resistance of the motor as load increases to determine when the motor has reached a certain level of resistance. As such, the system may have a sensor that senses an obstruction in the path of the arms based on the load on the motor.
As yet another alternative, the gate arms 108 may be extended and retracted by holding the user input 132 for the entire duration of the desired extension/retraction. For example, if a user wants the gate to fully retract, the user may hold the user input 132 until the gate is entirely retracted. Conversely, if a user wants the gate to fully extend, the user may hold the user input 132 until the gate is fully extended. As such, there may be no need for programming of the gate by the user.
As a safety precaution, the user input 132 may further comprise a cover (not shown) that latches over the user input 132 to prevent access by children. The cover may be any suitable form of child-proof/tamper-proof mechanism known in the art.
Turning now to
Turning now to
While in the present embodiments the motor 104 is a DC motor, those having ordinary skill in the art would understand that an AC motor could be used in lieu of the DC motor. Those of skill would appreciate that DC motors present certain advantages over AC motors and vice versa. For example, a DC motor may be powered using a DC battery (e.g., a 9-volt store bought battery), which allows for the motor to be powered without being physically connected to, for example, a conventional 120 volt AC outlet. As yet another example, an AC motor may be powered using a conventional 120-volt AC outlet, which allows for the motor to be powered without the need for replaceable DC batteries, which may be more expensive to replace over time. For example, in the embodiment illustrated in
Turning now to
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While not shown, the electronic embodiments described thus far may further comprise a sensor or a plurality of sensors for sensing an obstruction in the path of the gate as the gate extends. For example, the obstruction may be a pet or baby. When the sensor(s) are triggered, the gate will stop extending or retract so that the pet or baby in the path is not inadvertently pinned against the wall. Such sensor(s) could be, for example, LED based sensors that are triggered when an object obstructs the path of the LEDs. Alternatively, such sensor(s) could be a motion sensor that detects motion in the path of the extending gate arms, including but not limited to an infrared motion detector/sensor. Those of skill would appreciate that such sensors or detectors provide a useful safety feature that may help prevent bodily injury to humans or pets.
While in certain of the disclosed embodiments a single motor is used, those having ordinary skill in the art would understand that the described embodiments could be implemented using a plurality of motors. For example, referring back to
While in the present embodiments the arms are tubular concentric arms, those of skill would understand that concentric non-tubular arms could be used instead. For example, concentric square arms could be used as well. Moreover, nested arms could be used, which are not necessarily concentric.
Further, while in many embodiments three arms are shown, those having ordinary skill in the art would understand that a greater or fewer number of arms could be used in an embodiment of the present invention. For example, ten arms having small diameters and thickness could be used in lieu of three arms having larger diameters and thickness. Those of skill would appreciate that the number of arms and dimension of each arm (e.g., length, width, thickness) could be modified in any desired manner without deviating from the scope of the present invention. For instance, a single arm could be used in certain embodiments, while in others a plurality of arms is desired. Moreover, while the disclosed embodiments include eight different portions for each arm, those having ordinary skill in the art would understand that more or less portions could be used. For example, two portions could be used depending on the desired length of the arms.
Further, while the disclosed embodiments illustrate a gate having arms that extend and retract horizontally, those having ordinary skill in the art would appreciate that the gate could be configured to extend and retract the arms vertically, diagonally, or in any other direction.
Additionally, while some of the embodiments disclosed herein come in the context of gates for limiting access of pets, those of ordinary skill would understand that the disclosed invention has a diverse array of applications. For example, the same gate concepts disclosed herein could be applied in the context of residential car gates that control access to a residential community. Indeed, any application that requires the control of access to a particular area is a prime candidate for the invention disclosed herein.
The above description is intended to be illustrative, and not restrictive. For example, the above-described embodiments may be used in combination with each other. Many other embodiments will be apparent to those of skill in the art upon reviewing the above description. The scope of the invention should, therefore, be determined with reference to the appended claims, along with the full scope of equivalents to which such claims are entitled. In the appended claims, the terms “including” and “in which” are used as the plain-English equivalents of the respective terms “comprising” and “wherein.” Moreover, the term “coupled” as used in the specification and/or claims should be interpreted to include direct and/or indirect coupling and the term “connected” as used in the specification and/or claims should be interpreted to include direct and/or indirect coupling.
Number | Date | Country | |
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Parent | 15333124 | Oct 2016 | US |
Child | 15632355 | US |