The present invention relates broadly to a driving system for an automatic sliding door. The present invention also relates to a device for indicating whether a driving system is suitable for driving a sliding door.
There is a general desire in the sliding door industry to provide a driving system which may be installed or retrofitted into any existing sliding doors or windows regardless of their style and geometry.
It is also generally desired to be able to avoid overloading of a driving system for automatic sliding doors, as it is rather expensive and time consuming to repair an overloaded system.
It is an object of the present invention to provide a driving system which may fulfil the above desire or which may at least provide a useful alternative.
According to a first aspect of the present invention, there is provided a driving system for an automatic sliding door, the driving system including:
a driver; and
a pinion adapted to cause sliding movement of the door in a first or second direction when operatively connected to a corresponding rack associated with the door, the pinion being selectively attachable to the driver in two positions:
(a) a first position in order to cause sliding movement of the door in the first direction; and
(b) a second position in order to cause sliding movement of the door in the second direction.
Preferably, the door is made of a panel or glass pane framed by a top rail and two side stiles. An upper portion of the panel or the top rail of the glass pane is preferred to be held in place by a guard. The guard is typically attached to a ceiling. More preferably the driver includes a motor and a gearbox.
In a preferred embodiment, the rack is adapted to be connected to the upper portion of the panel or the top rail of the glass pane via a connector. This is most suitable for a patio door with a glass pane framed by a standard sized top rail and for a cavity door having a carriage which hangs off a runner attached to the guard. The connector is preferred to be a channel adapted to span a gap between the door and the driver. The channel may generally be L-shaped in cross section. Optionally, the channel also has an open-ended elongate cavity.
The driving system may include one or more caps adapted to fit onto one or more ends of the channel. Preferably, the each cap includes at least one hole for receiving a fixing means such as a screw.
Alternatively, in the case of patio door having a frame with a short top rail, the rack may be affixed to the side stiles or one or more grab stiles which extend from the side stiles.
Preferably, the second direction is a reverse of the first direction.
In a preferred embodiment, the driving system includes a member adapted to complementarily fit onto the connector. The member is preferred to be a concealer adapted to bridge a gap between a lower end of the driver and the door.
It is preferred that the driver is operatively connected to a coding device. Preferably, the coding device is remotely controllable. The coding device is preferred to be capable of causing the sliding door to operate in any selected one of four modes. The first (automatic) mode may involve the sliding door operating in response to one or more sensors located internally and/or externally of the door opening. The second (lock) mode may involve locking the sliding door in a closed position by way of an internal locking mechanism. The internal locking mechanism may form an integral part of or be associated with the motor. Preferably the internal locking mechanism is remotely controllable. The third (hold open) mode may involve maintaining the sliding door in an open position. The fourth (pet) mode may involve enabling the coding device to respond to presence of a pet thereby causing the sliding door to operate in the one or more states.
Conveniently, the coding device is associated with another coding device connected to another movable object. This is most suitable for, for example, a patio door which is accompanied by a fly screen. Preferably, the coding devices are configured such that they are capable of being set to operate in a master and slave arrangement. As such, motions of the patio door and a complementary fly screen may be synchronised.
The coding device is adapted to respond to an activator including an infrared (IR) emitter for emitting an IR beam to an object and a sensor adapted to detect a reflected beam from the object. Preferably, the activator is movably connected to a holder adapted to be affixed to the door guard, a wall or ceiling. The holder is preferred to include a back plate and a pair of ratchet bars extending therefrom. Preferably the ratchet bars are curved with sloping teeth. In this embodiment, the emitting angle of the IR beam is dictated by the orientation of the activator thereby defining an area of operation. The movement of the activator is preferably coordinated with the pair of ratchet bars. The activator may be locked at a desired position by a selected pair of sloping teeth provided on the ratchet bars.
According to a second aspect of the present invention, there is provided a device for indicating whether a driving system is suitable for driving a sliding door, the device including:
a first end adapted to be pulled by a user;
a region including one or more calibrations; and
a second end adapted to be selectively and detachably attached to one of the calibrations; the region being located between the first end and the second end.
The first end is preferred to include a loop adapted to be held by a user. The calibrations are chosen in accordance with loads acceptable to particular driving system, including the driving system of the first aspect of the invention.
Preferably, the calibrated region is at least in part fabricated of a looped portion of VELCRO™, a hooked portion of VELCRO™ being fixed to the second end, or vice versa. Other attachment method may be used instead.
In use, the user attaches the device to an attachment means, such as a handle on the door, attaches the second end to a desired calibration and use the first end to pull the door in a selected direction. If the second end detaches from the desired calibration during this procedure, this is an indication that the driving system is not suitable for driving the sliding door. In such a case, the user may select a heavier duty driving system for example.
Optionally, the device of the second aspect may be used to indicate whether the driving system of the first aspect is suitable for driving the sliding door.
In order to achieve a better understanding of the nature of the present invention, non-limiting preferred embodiments of the invention will now be described, by way of example only, with reference to the accompanying drawings, in which:
It will be appreciated that the driving system of the present invention is preferably designed specifically for use domestically. Although the driving system may include a more powerful motor to drive sliding doors in large scale commercial buildings, adaptations of other components may be required.
Referring to
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The pinion 16 has a shaft 13 which is received in a hollow 15 provided in the driver 14. A bolt (not shown) is provided to secure the shaft 13 of the pinion 16 in place within the hollow 15.
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As shown in
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It is contemplated that the sensor 94 is capable of detecting or responding to a heat radiating object which is in motion or idling or stationery. This is advantageous as, for instance, a pet may stand still at the entrance to an area. The range is defined by one or more beams emitted from the sensor 94 covering a selected area. Also, it is contemplated that other types of sensors such as floor pressure sensors 100, active IR detectors and motion sensors 102 may be associated with the coding device 92.
The driving system 10 is designed so that it can be retro-fitted onto an existing sliding door and transferred easily onto a fly screen, for example, for summer, and then subsequently transferred back to the original door as desired.
Furthermore, as shown in
It should be appreciated that in order to ensure that the door operation remains in sync, all sensors and remote controls used to trigger the door and fly screen are associated either by wireless communication or hard-wired interface with the master coding device 92 and the ‘open’ and ‘close’ commands are all controlled by the master.
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Now that several preferred embodiments of the present invention have been described in some detail, it will be apparent to those skilled in the art that the driving system and the indicating device may offer at least the following advantages:
Those skilled in the art will appreciate that the invention described herein is susceptible to variations and modifications other than those specifically described. All such variations and modifications are to be considered within the scope and spirit of the present invention the nature of which is to be determined from the foregoing description.
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