Security gates are commonly used to lock or close passageways such as conventional doorways and entrances to stairwells. The purpose of such gates is primarily security, such as keeping small children from accessing stairwells that could present a hazard, and also confinement, such as confining a pet to a particular room during the night.
A typical security gate is formed from one or more panels, each panel including a frame surrounding a lattice structure (e.g., a mesh) or series of bars formed therebetween so that one can see through the gate when the gate is in place.
Typically, the outer frame of a security gate is manually positioned between two stationary elements, such as a doorjamb. The security gate is then locked in place by a locking mechanism.
There is a need for user friendly security gates with multiple or compound passageways to allow selective access therethrough by different pets, children, and so forth.
In one aspect, an example security gate includes: an outer frame; an outer gate at least partially disposed within the outer frame; an inner gate disposed within the outer gate, the inner gate comprising an inner frame having at least one recess; a door at least partially disposed within the inner frame; and at least one projection extending from the outer gate and engaging the at least one recess for supporting the inner gate within the outer gate.
The present disclosure is directed towards a security gate. Various embodiments will be described in detail with reference to the drawings, wherein like reference numerals represent like parts and assemblies throughout the several views. Reference to various embodiments does not limit the scope of the claims attached hereto. Additionally, any examples set forth in this specification are not intended to be limiting and merely set forth some of the many possible embodiments for the appended claims.
The security gate 100 may be used as a pressure-mounted gate, e.g., by placing the security gate 100 between stationary objects (such as a doorjamb) such that frictional pressure between the security gate 100 and the stationary objects keeps the security gate 100 upright. It should be appreciated that the security gate 100 may include one or more elements that apply pressure to stationary objects; in addition or alternatively, the security gate 100 may be coupled to one or more elements that apply such pressure (e.g., by expanding into the doorjamb). Alternatively, the security gate 100 may be coupled to a larger portable enclosing structure, such as a fence structure that spans an opening wider than the security gate 100. Similarly, the security gate 100 may be coupled to one or more elements of a portable enclosure (e.g., a play yard) having multiple fence panels which, when coupled to the security gate 100, form a self-contained enclosure for pets and/or children.
The outer frame 110 houses the outer gate 112 and interfaces with one or more other elements of an enclosure to secure the security gate 100 in place. The inner gate 114 is disposed within the outer gate 112. In this example the outer gate 112 consists of the first vertical member 116 and the second vertical member 118 extending upwards from opposing ends of the horizontal member 120, the horizontal member being disposed at the bottom 104 of the security gate 100. Alternative configurations for the outer frame 110 are also possible. By way of non-limiting example, the horizontal member 120 can be disposed at the top 102 of the security gate 100, with the first vertical member 116 and the second vertical member 118 extending downwards from the horizontal member 120 towards the bottom 104 of the security gate 100.
In the example shown, the first outer rail 122 and the second outer rail 124 define a height h1 of the outer gate 112. In alternative examples, the first outer rail 122 and the second outer rail 124 can define a different dimension of the outer gate 112, such as the approximate width between the first vertical member 116 and the second vertical member 118 of the outer frame 110.
The one or more complete inner rails 126 span the distance between, and are connected at opposite ends, respectively, to, the first outer rail 122 and the second outer rail 124. The one or more partial inner rails 128 connect the first outer rail 122 to the inner gate 114. In some examples, the one or more partial inner rails 128 connect the first outer rail 122 to the top member 138 of the inner frame 136 of the inner gate 114. In one non-exhaustive alternative example, the one or more partial inner rails 128 connect the second outer rail 124 to the inner gate 114.
In the security gate 100 shown in
The connectors 130 movably connect the proximal side 131 of the outer gate 112 to the outer frame 110. In some examples the connectors 130 are pivoting connectors, allowing the outer gate 112 to swing or rotate about the connectors 130 relative to the outer frame 110. Non-limiting examples of the connectors 130 include hinges, pin-socket connections, and so forth.
The latch 132 detachably connects the distal side 133 of the outer gate 112 to the outer frame 110, enabling the outer gate 112 to be opened (i.e., when the latch 132 is detached from the outer frame 110) and closed (i.e., when the latch 132 is connected to the outer frame 110). In general terms the outer gate 112 is an opened position when a first plane defined by the first outer rail 122 and the second outer rail 124 does not coincide with a second plane defined by the first vertical member 116 and the second vertical member 118 of the outer frame 110 and/or when both the latch 132 is detached from the outer frame 110 and the first locking mechanism 134 is unlocked; the outer gate 112 is in a closed position when the aforementioned first plane does coincide with the aforementioned second plane and one or both of the first locking mechanism is locked and the latch 132 is connected to the outer frame 110.
In some examples, the latch 132 includes an extendable and retractable projection operated by a spring biased button that extends the protrusion into (when the button is released), and retracts the protrusion from (when the button is pressed), a recess in the outer frame 110 that frictionally mates with the protrusion.
The first locking mechanism 134 provides for locking of the outer gate 112 in a closed position, regardless of whether the latch 132 is connected to the outer frame 110. The first locking mechanism 134 can be disposed anywhere on the outer gate 112 suitable for this purpose. In the example shown in
The outer gate 112 is larger than the inner gate 114. Thus, the latch 132 and/or the first locking mechanism 134 may be operated to selectively allow or disallow large animals or children to pass through the security gate 100, while operation of the inner gate 114 (discussed in more detail below), selectively allows relatively smaller animals or objects to pass through the security gate 100.
In some examples, the first locking mechanism 134 is detachable, meaning it can be detached from, and reattached to, the outer gate 112. When attached to the outer gate 112 as shown, the first locking mechanism 134 increases the profile depth of the security gate 100 from front to back when the security gate 100 is in the position shown in
The inner frame 136 defines an opening in the inner gate 114. Relatively small pets or other objects may be selectively allowed to pass through the opening defined by the inner frame 136, regardless of whether the outer gate 112 is closed or open.
In the example shown in
The door 143 is shaped and sized to at least approximately correspond to the opening defined by the inner frame 136. In some examples the door 143 is made from a continuous piece of material (i.e., without any gaps or holes within the door 143). In some examples, the door 143 is pivotally coupled to one or more of the top member 138 and the side members 142 toward the top member 138, allowing the door to swing forwards (out of the page in
In some examples, the width w1 of the opening defined by the inner frame 136, which approximately corresponds to the width of the door 143, is in a range from about 6 inches to about 12 inches. In a specific example, the width w1 is approximately 8 inches. Widths w1 outside of these values would also be suitable. In some examples, the maximum height h1 of the opening defined by the inner frame 136, which approximately corresponds to the maximum height of the door 143, is in a range from about 8 inches to about 15 inches. In a specific example, the maximum height h1 is approximately 11 inches. Maximum heights h1 outside of these values would also be suitable.
The second locking mechanism 144 is mounted to the bottom member 140 of the inner frame 136. In some examples the second locking mechanism 144 is removably mounted to the inner frame 136. A removable second locking mechanism 144 thus facilitates storage and shipment of the security gate 100 by enabling a shorter profile depth for the security gate 100 by simply removing the second locking mechanism 144. Thus, in some examples, the second locking mechanism 144 and one or more other components of the security gate 100 (e.g., the first locking mechanism 134) together constitute a security gate assembly. A removable second locking mechanism 144 also facilitates selling the second locking mechanism 144 individually as a separate part of the security gate 100.
The second locking mechanism 144 reversibly engages the door 143 for locking and unlocking the door 143 within the opening defined by the inner frame 136. In some examples, the door 143 has an open position, a partially closed position, and a closed position. In other examples, the door 143 has an open position and a closed position only. In the open position, the second locking mechanism 144 does not inhibit movement of the door 143. In the closed position, the second locking mechanism 144 prevents movement of the door 143 frontwards (out of the page in
In some examples, actuation of the second locking mechanism 144 (e.g., the amount of force required and/or the dexterity required to actuate the second locking mechanism 144) can be performed by adults, but not by small children or animals.
In addition, in this example the outer gate 112 includes one or more projections 160, and a crossbar 162, and the first locking mechanism 134 includes a first handle 164 and a second handle 166. In addition, in this example the inner frame 136 includes a front panel 170, a rear panel 172 and one or more screws 173. Each of the front panel 170 and the rear panel 172 includes a slot 174, one or more notches 176, one or more recesses 178, and one or more cutouts 180. The front panel 170 includes a front side 182, a rear side 184, one or more screw receivers 186, an upper knob depression 188, and a lower knob depression 189 having one or more fingers 190 and a knob hole 192. The rear panel 172 includes a front side 194, a rear side 196, a tab depression 198, one or more panel screw holes 199, and a tab screw hole 200. Also in this example the door 143 includes one or more protrusions 210. In addition, in this example the second locking mechanism 144 includes a knob 220, a button 222, one or more springs 224, one or more button connectors 226, a pin 228, a tab 230, and a tab screw 232.
The one or more projections 160 extend upwards from the second outer rail 124. In some examples, the one or more projections 160 are made from the same material as the second outer rail 124. The crossbar 162 spans across the bottoms of the one or more partial inner rails 128, extending on one or both sides to an adjacent complete inner rail 126. The first handle 164 of the first locking mechanism 134 is disposed on the front side of the outer gate 112.
When the outer gate 112 is aligned with the outer frame 110, rotating the first handle 164 of the first locking mechanism 134 downwards to the downward position shown in
In some examples the first handle 164 and the second handle 166 can be pivoted independently (e.g., via separate pins that couple each of the handles, respectively, to the second outer rail 124), allowing four options for selective opening of the outer gate 112, including forwards opening only, rearwards opening only, both forwards and rearwards opening, or neither forwards nor rearwards opening. In other examples, the first handle 164 and the second handle 166 can be pivoted in tandem only (e.g., via a single pin that couples both handles to the second outer rail 124), allowing for both forwards and rearwards opening, or neither forwards nor rearwards opening. In some examples, one or both of the first handle 164 and second handle 166 alternatively or in addition can be pivoted to interface with the second vertical member 118 of the outer frame 110, allowing for selective opening of the outer gate 112 in the manners described above. In some examples, multiple locking mechanisms are provided to interface with multiple portions of the outer frame 110.
The front panel 170 and the rear panel 172 couple to each other and the outer gate 112 to form the inner frame 136. In some examples, the front panel 170 and the rear panel 172 are coupled together by the one or more screws 173 that are threaded to the front panel 170 and the rear panel 172 via the one or more panel screw holes 199 and the one or more screw receivers 186. In addition, in some examples the inner frame 136 is further integrated within the outer gate 112 by housing the crossbar 162 in the slot 174 of the front panel 170 and the rear panel 172, by housing one or more complete inner rails 126 and/or partial inner rails 128 in one or more corresponding notches 176 in the front panel 170 and the rear panel 172, and/or by housing one or more projections 160 in the corresponding recesses 178 in the front panel 170 and the rear panel 172. The one or more projections 160 interface with the front panel 170 and the rear panel 172 of the inner frame 136 via the recesses 178, thereby supporting the inner frame 136 within the outer gate 112. The slot 174, the one or more notches 176, and the one or more recesses 178 are disposed in the front panel 170 and the rear panel 172 such that they align with one other respectively, in the other panel, when the front panel 170 and the rear panel 172 are coupled to together to form the inner frame 136.
The one or more cutouts 180 house the one or more protrusions 210 extending from the door 143. The one or more cutouts 180 are disposed in the front panel 170 and the rear panel 172 such that they align with one other, respectively, in the other panel, when the front panel 170 and the rear panel 172 are coupled to together to form the inner frame 136.
The one or more screw receivers 186 are disposed on the rear side 184 of the front panel 170. The one or more panel screw holes 199 extend through the rear panel 172 from the rear side 196 to the front side 194.
In the example shown in
The knob hole 192 is disposed within the lower knob depression 189 such when the security gate 100 is assembled the knob hole 192 aligns with a corresponding hole in the horizontal member 120 of the outer frame 110, as well as the tab screw hole 200 in the rear panel 172 of the inner frame 136. The tab depression 198 is shaped to receive the tab 230 and allow rotational movement of the tab 230 within the tab depression 198. The tab screw 232 is housed partially within the tab screw hole 200, and extends through the horizontal member 120 of the outer frame 110 and into the knob 220, thereby securing the knob 220 and the tab 230 together across the inner frame 136.
When the door 143 is aligned within the inner frame 136, rotating the knob 220 (e.g., by pressing the button 222 and rotating the knob 220 and then releasing the button 222) such that a button flange (described below in connection with
In some examples the knob 220 and the tab 230 can be rotated independently (e.g., via separate pins, screws, or other rotation mechanisms that couple the knob 220 and the tab 230, respectively, to the inner frame 136), allowing four options for selective opening of the door 143, including forwards opening only, rearwards opening only, both forwards and rearwards opening, or neither forwards nor rearwards opening. In other examples, the knob 220 and the tab 230 can be rotated in tandem only (e.g., via a single rotating mechanism that couples both the knob 220 and the tab 230 to the inner frame 136 that, in some examples, can be rotated only when the button 222 is pressed), allowing for both forwards and rearwards opening, or neither forwards nor rearwards opening. In alternative examples to that shown in
Each of the one or more protrusions 210 is housed in a cutout 180, allowing for pivoting (e.g., swinging) motion of the door 143 forwards and rearwards about the axis A1 that runs through and perpendicular to the direction of projection of the one or more protrusions 210 from the door 143. In some examples, interfacing between the one or more protrusions 210 and the one or more cutouts 180 is sufficiently loose when the door 143 is pivoting to allow an animal to actuate the door 143 when the door 143 is not locked by the second locking mechanism 144. In some examples, when the security gate 100 (
Each of the one or more springs 224 couples to the button 222, such that pressing the button 222 goes against the biasing force of the one or more springs 224. Upon release of the button 222, the button 222 reciprocates from the biasing force of the one or more springs 224. The one or more button connectors 226 couple the button 222 to the knob 220 while allowing movement of the button 222 along the longitudinal axis (axes) of the one or more springs 224. In some examples a button connector 226 includes a button screw and a button washer.
With reference to
When the knob 220 and the inner frame 136 (
The button flange 278 engages one of the one or more fingers 190 (
In some examples, one or more button connectors 226 (
The perimeter of the door 300 is configured to be housed within the opening defined by the inner frame 136. When the tab 230 is in a locked position (as in shown in
The profile of the cover 302 resembles the profile of a roof and can be any suitable shape such as a squared roof, curved roof, or pointed roof. In this example, the cover 302 is integrated with the door 300, extending outward from a face of the door. This can be accomplished through, e.g., casting, machining, insert molding, or otherwise simply securing the cover 302 to the door 300 after the door 300 has been manufactured.
In alternative examples to that shown, the cover 302 is integrated with another aspect of the security gate 100 (
The various components of the security gates of the present disclosure can be manufactured from a variety of materials or combinations of materials. In one example the outer frame 110 (
In some examples, component parts such as the tab 230 (
In some examples, immobilized junctions between component parts of a metal outer gate 112 (
In some examples, component parts of the door (143, 300), such as the cover 302 (
In some examples, one or more components of the outer frame 110 (
Although the subject matter has been described in language specific to structural features and/or methodological acts, it is to be understood that the subject matter defined in the appended claims is not necessarily limited to the specific features or acts described above. Rather, the specific features and acts described above are disclosed as example forms of implementing the claims.
This application claims the benefit of U.S. Provisional Application No. 62/201,948, filed Aug. 6, 2015, the entirety of which is hereby incorporated by reference.
Number | Date | Country | |
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62201948 | Aug 2015 | US |