The invention relates to a door brace.
It can be desirable in many situations to increase the security on a door by, for example, installing a stronger lock or additional locks or bolts at additional locking points around the door. However, it is not always possible or convenient to make these types of permanent installations on a door, for example in a rented home or office, a hotel or hostel room, or in student accommodation. In situations such as these it is desirable to increase the security of a door using non-permanent means. One well known method is to jam a chair under the door handle but unless the chair is of the right size and construction this will not hold the door for long. One solution which has been proposed extends this approach of jamming a door closed by locating a bar at an angle between the door handle and the floor behind the door. While this is an improvement over the use of a chair, the connection between the bar and the door handle is prone to failure and the bar can extend significantly beyond the door, presenting a trip hazard.
An aspect of the invention provides a door brace comprising a door engagement member, a leg and an engagement foot. The door engagement member comprises a bottom flange and an engagement wall. The bottom flange is adapted to be located under a bottom edge of a door. The engagement wall extends generally upwardly from the bottom flange and has one face adapted to be located against part of one side of the door. The leg comprises a fixed length section and an adjustable length section. The fixed length section has one end hingedly connected to an opposite face of the engagement wall such that the leg is movable between a bracing position in which the leg extends at a first angle to the engagement wall and a released position in which the leg extends at a second, smaller angle to the engagement wall. The adjustable length section is provided at a distal end of the fixed length section and has a length adjustable between a first length and a second, longer length. The engagement foot is provided at a distal end of the adjustable length section of the leg. The door brace has a bracing condition in which the leg is in the bracing position and the adjustable length section of the leg has the second length. The door brace has a released condition in which the leg is in the released position and the adjustable length section of the leg has the first length.
The angle of the leg in the bracing condition is set by a user moving the leg into the bracing position. Unlike the prior art, the user is not required to select the angle that the leg should have in the bracing condition but merely to move the leg into the bracing position, which has a preselected angle. This may ensure that the leg is arranged at an optimal angle in the bracing condition, to provide optimal bracing to the door. The construction of the door brace for location against part of a lower edge of a door may enable the door brace to be of a smaller size than the prior art devices which engage with a door handle. This may increase the portability of the door brace and may make it more convenient for a user to carry the door brace with them to, for example, secure the door of a room in a hostel, hotel or student accommodation.
In an embodiment, the fixed length section of the leg has an angled shape. This may provide improved compactness of the door brace.
In an embodiment, the fixed length section of the leg comprises a first part extending generally in a first direction and a second part extending generally in a second direction. In the bracing position, the first part extends at a first angle to the face of the engagement wall and the second part extends at a second, smaller angle to the face of the engagement wall.
In an embodiment, the second angle is between 10 degrees and 15 degrees. This may provide optimal engagement of the engagement foot with the floor without transmitting an excessive force on the leg, which may cause mechanical failure of the leg.
In an embodiment, the door brace further comprises an adjustable clamp between the leg and the engagement wall. This may provide additional strength to the leg in the bracing position.
In an embodiment, the fixed length section of the leg is substantially straight and the door brace further comprises a lever arm. The lever arm is hingedly connected at a first hinge point to the opposite face of the engagement wall. The fixed length section of the leg is hingedly connected at a second hinge point to the lever arm. The lever arm is movable between an open position in which the leg is in the released position and a locked position in which the leg is in the bracing position and the second hinge point is located closer to the engagement wall than the first hinge point. The lever arm may enable the length of the leg to be set to the longer length, by varying the length of the adjustable length section, while the leg is in the released position. This may provide increased engagement between the foot and the floor.
In an embodiment, the engagement wall and the bottom flange of the door engagement member define a generally L-shaped recess for receiving part of a door at a bottom edge of the door. The door brace may therefore be closely located against the door, for optimal engagement between the door brace and the door.
In an embodiment, the engagement foot has a sole on which a non-slip material is provided. The non-slip material may be one of a rubber pad and a neoprene elastomer pad. The non-slip material may improve the engagement between the foot and the floor. In an embodiment, the engagement foot is rotatably mounted on the adjustable length section of the leg. The angle of engagement between the engagement foot and the floor may optimised by rotating the foot.
In an embodiment, the adjustable length section of the leg comprises a threaded bolt mounted in a correspondingly threaded socket in the fixed length section of the leg. A strong mechanical coupling may therefore be provided between the adjustable length section and the fixed length section of the leg, which will resist downwards force applied through the leg.
Referring to
The door engagement member 12 comprises a bottom flange 14 and an engagement wall 16. The bottom flange 14 is adapted to be located under a bottom edge of a door, as shown in
The leg 20 comprises a fixed length section 22 and an adjustable length section 24. In this embodiment, the fixed length section 22 has an angled shape and comprises a first part 22a and a second part 22b. The first part 22a extends in a first elongate direction and the second part 22b extends in the second elongate direction. With reference to
The fixed length section of the leg is hingedly connected 30 at one end of its first part 22a to the opposite face of the engagement wall 16. The leg 20 is therefore moveable relative to the door engagement member 12 and in particular is moveable between a bracing position, as shown in
The adjustable length section 24 is provided at the distal end of the fixed length section 22. In this example, the adjustable length section 24 comprises a threaded bolt which is located in a correspondingly threaded aperture within the second part 22b of the fixed length section of the leg 20. The adjustable length section is provided with a wing nut 28 (56 in second embodiment) which may be turned to cause the threaded bolt to move into or out of the fixed length section 22 to shorten or lengthen the adjustable length section as required. The total length of the leg 20 may therefore be adjusted by varying the length of the adjustable-length section.
In this example, the foot 26 is provided with a pad 32 of non-slip material, such as rubber or neoprene elastomer on its sole, to provide additional resistance to force applied to the door brace 10.
The door brace 10 has a bracing condition, shown in
In use, with the door brace 10 in its released condition, as shown in
A door brace 40 according to a second embodiment of the invention is shown in
In this embodiment, the fixed length section 44 of the leg 42 is substantially straight and the door brace 40 further comprises a lever-arm 46. The lever-arm 46 is hingedly connected to the engagement wall 16 at first hinge point 48, which is located at a first separation from the face 18 of the engagement wall 16. The fixed length section 44 of the leg is hingedly connected to the lever-arm 46 at a second hinge point 50. The second hinge point 50 is closer to the bottom flange 14 and is movable between a released position in which the second hinge point 50 is spaced further away from the engagement wall 16 than the first hinge point 48 and a bracing position in which the second hinge point 50 is located closer to the engagement wall 16 than the first hinge point 48.
The door brace 40 additionally comprises two hinged connection supports 52, 54 which extend between the fixed length section 44 of the leg and the engagement wall 16. The connection sections 52, 54 prevent the leg 42 from swinging in an uncontrolled manner relative to the engagement wall 16, whilst allowing controlled movement between the released position and the bracing position of the leg 42.
In use, the lever-arm 46 is raised away from the door engagement member 16, about the first hinge point 48, to allow the leg 42 to move into its released position, in which the door engagement member 16 may be located against a door, as described above. The lever-arm 46 is then lowered to bring the leg 42 into its bracing position (as shown in the drawings), in which the engagement foot 26 may be engaged with the floor. The length of the leg 42 may be adjusted by varying the length of the adjustable length section 24, as described above. The length of the leg 42 may be adjusted before or after the leg 42 is moved into its bracing position.
A door brace 60 according to a third embodiment of the invention is shown in
In this embodiment the door brace 60 further comprises an adjustable clamp 62 provided between the engagement wall 16 and the fixed length section 22a of the leg 20. The adjustable clamp 62 comprises an arm 64 defining a guide channel 66 arranged to receive an engagement pin 72, provided on the fixed length section 22a of the leg 20. A clamp lever 68 is provided on the engagement pin 72 by which the position of the engagement pin within the guide channel 66 may be fixed. The door brace 60 also comprises a kick plate 74, provided on the second part 22b of the fixed length section of the leg.
In use, as the leg 20 is moved from its released position into its bracing position, the engagement pin 72 slides along the guide channel 66, generally away from the engagement wall 16, thereby guiding the leg 20 towards the bracing position. The leg 20 is moved beyond its bracing position and the door engagement member 12 is located against a door, as described above. The leg 20 is then pushed back towards the door, by a user kicking the kick plate 74, to move the leg 20 into the bracing position.
Once the leg 20 is in the bracing position, the clamp lever 68 is adjusted to fix the position of the pin 72, and to retain the leg 20 in the bracing position. The arm 64 also provides increased engagement between the leg 20 and the engagement wall 16, acting to stabilise the position of the leg 20.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/GB2011/052533 | 12/20/2011 | WO | 00 | 9/30/2014 |
Publishing Document | Publishing Date | Country | Kind |
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WO2013/093390 | 6/27/2013 | WO | A |
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Number | Date | Country | |
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20150042109 A1 | Feb 2015 | US |