Safety device for doors

Information

  • Patent Grant
  • 6311432
  • Patent Number
    6,311,432
  • Date Filed
    Monday, March 3, 1997
    27 years ago
  • Date Issued
    Tuesday, November 6, 2001
    23 years ago
  • Inventors
  • Examiners
    • Stodola; Daniel P.
    • Cohen; Curtis A.
    Agents
    • Young & Thompson
Abstract
A safety device for center pivot doors which prevents the crushing of fingers between the door and the door frame comprises a rigid elongate barrier member secured on one or both sides of the door which sweeps the zone between the door and the frame as the door pivots, and which is shaped substantially to fill the gap between door and frame when the door is fully opened. The barrier member is preferably adjustable by being made in two interengageable parts. The gap between door and frame can be further reduced by providing elongate shielding strips secured to the frame, one on each side of the door.
Description




FIELD OF THE INVENTION




This invention relates to safety devices for doors, and is particularly concerned with safety guards for pivoted doors.




BACKGROUND OF THE INVENTION




Pivoted doors are conventionally hung with their vertical pivot axis some 50 mm to 75 mm from the adjacent door jamb. This means that when the door is opened, a gap opens up between the door jamb and the portion of the door on that side of the pivot axis. This gap is large enough for a hand or fingers to be trapped when the door closes again.




Various solutions have been proposed for finger protection for hinged doors. In one system, a finger excluder in the form of a profiled strip is connected on the hinge side of the door between the door itself and the frame. As the door opens, so the excluder hinges with it and the gap stays covered. When the door closes, the excluder regains its original shape. In another system, a roller blind is fitted between the door and the frame to give protection. In a further system, a concertina-like device is fitted to the frame and has its free end abutting the face of the door. It folds flat to the frame when the door is closed, and when the door is opened covers the opening between the door and the frame.




It is an object of the present invention to provide a safety device for pivoted doors, especially center pivot doors, which substantially reduces the risk of injury to fingers. The safety device of the present invention can be applied both to automatically operating pivoted doors and also to non-automatically operating pivoted doors.




It is a further object of the invention to provide a safety device for pivoted doors which can be fitted as a “retrofit” item to existing doors, as well as being provided as a fitting on newly manufactured doors.




It is an object of a preferred device according to the invention for it to be adjustable, allowing the device to be fitted on doors with a wide range of pivot placements and yet allowing each installation to be precisely configured so as to remove the potential finger trap.




SUMMARY OF THE INVENTION




In accordance with the present invention there is provided a safety device for use with a pivoted door, the device comprising a rigid elongate barrier member adapted to be fitted to a side of the door stile adjacent to the jamb and parallel to the vertical door edge, and serving to sweep the zone between the jamb and the adjacent stile as the door is pivoted, the barrier member being shaped substantially to fill the gap between door jamb and door stile when the door is in its fully opened position.




The barrier member attached to the door stile thus blocks the entrance to the gap between door jamb and door stile and thus prevents a hand or fingers being pushed into that zone.




The barrier member is preferably of generally triangular shape in horizontal cross-section. One limb of the triangle preferably is shaped as an extension of the vertical end face of the door stile.




An important preferred feature of the invention is that the barrier member can be adjustable in shape, in order that it can be readily adapted for use with doors of different configurations and different positions for the vertical pivot axis. This adjustment can conveniently be effected by providing the barrier member with a ratchet-type means of adjustment. This provides the barrier member with a plurality of alternative settings, with the most appropriate one being chosen upon the fitting of the barrier member to the door.




In a preferred embodiment of the invention the safety device also includes rigid shielding strips adapted to be positioned vertically down the door jamb, further to reduce the possibility of access to the zone between the door jamb and the door itself. These shielding strips function in cooperation with the barrier member as it sweeps through the zone between the door jamb and the door.




The safety device of the present invention provides a number of benefits. These include not only the prevention of finger crushing, but also zero maintenance, and the ability to fit the device to existing doors without modification or removal of the door. It can be fitted to fire doors without affecting their integrity, because it does not interfere with the door seals. One simple system will fit almost every centrally pivoted door, either aluminum or timber. Also, it does not hinder the reglazing of damaged doors.











BRIEF DESCRIPTION OF THE DRAWINGS




In order that the invention may be more fully understood, two presently preferred embodiments of safety device in accordance with the invention will now be described by way of example and with reference to the accompanying drawings, in which:





FIG. 1

is a schematic illustration of a first embodiment of safety device, shown with the door in its closed position, and with the barrier member in one extreme setting;





FIG. 2

is a view of the safety device of

FIG. 1

, but with the door in its fully opened position;





FIG. 3

is a schematic illustration of a slightly different door assembly, with the door in its closed position, and with the barrier member in its other extreme setting; and,





FIG. 4

is a view of the arrangement shown in

FIG. 3

, but with the door in its fully opened position.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS




Referring first to

FIG. 1

, this shows a door jamb


10


which can be an aluminum extrusion for example. Positioned adjacent to the door jamb is the stile


12


of a door


14


which is hung for pivotal movement about a vertical central pivot axis


16


. The present invention is applicable particularly to center-pivot doors. The door


14


is pivotable between the closed position shown in FIG.


1


and the open position as shown in FIG.


2


. It will be appreciated from

FIG. 2

that when the door is in the opened position there is a substantial gap between the door jamb


10


and the adjacent face


14




a


of the door


14


. It is this gap which gives rise to concern in terms of possible injury.




In accordance with the invention there is provided a rigid elongate barrier member, indicated generally at


18


, on the side of the door stile


12


which faces the direction towards which the door is to open. In the event of a door which is a double-action door, i.e. openable in both directions, one can fit a barrier member on both sides of the stile


12


. The barrier member


18


is in two parts, formed for example as aluminum extrusions extending the height of the door. The one part


20


is of scythe shape having its longer limb


21


arranged to be secured to the door stile


12


, for example by screws (not shown). The shorter arm


22


is provided at its free end with a vertically extending projecting rib


24


. The other part


26


of the barrier member


18


is also of scythe shape. Here however the longer arm


28


is arcuate and the shorter arm


30


is provided on its internal face with a plurality of vertically extending grooves


32


for engagement by the rib


24


. Viewed overall, the barrier member


18


is of generally triangular configuration in horizontal section.




To further minimise the possibility of fingers becoming trapped in the gap between the door jamb and the door, the door jamb


10


is fitted with a pair of vertically extending shielding strips


34


. These shielding strips


34


can also be aluminum extrusions, with flange portions


36


which are curved to follow the general line of the end face


38


of the stile


12


and the outer surface of the arcuate arm


28


of the barrier member


18


. As can be seen most clearly in

FIG. 2

, with the door in its fully opened position, the flange portion


36


of the shielding strip


34


effectively masks the small gap remaining between the barrier member


18


and the door jamb


10


, ensuring that fingers cannot be pushed into the gap.




The barrier member


18


and the shielding strips


34


are suitable for retrofitting to existing doors. In use, the shielding strips


34


are fastened to the door jamb


10


. Their positioning is determined by the pivot center of the door, ensuring the closest path of movement between the strips and the barrier member, whilst avoiding contact. The flat limb


20


of the barrier member is fastened to the door stile


12


. The one end of the other part


26


of the barrier member is hooked onto the limb


20


and the choice of the rib and groove setting is determined by the configuration and dimensions of the door assembly. The setting is chosen which most effectively blocks the gap between jamb and stile without fouling the door jamb or the shielding strips


34


. For a door assembly as shown in

FIGS. 1 and 2

, where the vertical pivot axis


16


is a relatively long way distant from the door jamb


10


, the barrier member


18


is set to its position of maximum volume by locating the rib


24


in the outer end groove


32


. In contrast, with the door assembly as shown in

FIGS. 3 and 4

, where the vertical pivot axis


16


is closer to the door jamb, and where the door stile


12


is closer to the door jamb as well, the barrier member


18


is shown with its minimum volume, i.e. with the rib


24


located in the groove


32


which is closest to the corner of the other part


26


. With this minimum volume setting the barrier member


18


can still sweep through the gap between door jamb and stile without fouling the shielding strips


34


, as shown in FIG.


4


.




Although the shielding strips


34


with their flanges


36


are useful in a door assembly as shown in

FIGS. 1

to


4


, they are particularly valuable in the case of a door stile


12


which has a flat end face


38


instead of the curved end face which is shown in the drawings.




It should be noted that the safety device of the present invention is applicable both to automatically functioning pivoted doors and also to non-automatically functioning pivoted doors.




The safety device of the present invention can be used regardless of the distance between the vertical pivot axis


16


of the door and the adjacent door jamb


10


. The distance normally varies between 50 mm and 75 mm, but the fact that the barrier member


18


is capable of adjustment means that it is in effect a “universal” fitting which can be utilised with substantially any pivoted door assembly.




The safety device of the present invention is also applicable to pivoted doors of glass where there is no hanging stile as such and where the door jamb is not an extrusion as shown in the drawings but is a piece of plate glass which functions as an extension of the door itself. In the case of such a pivoted door arrangement, a barrier member similar to the barrier member


18


can be fitted to one or both sides of the door in a position similar to that shown in the drawings. In the case of a transparent glass door the barrier member would preferably be made of a clear plastics material and could be secured to the door by adhesive for example. Again, the safety barrier could be made adjustable in size to enable it to be adapted to different pivot mountings.




The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and, accordingly, reference,should be made to the appended claims, rather than to the foregoing specification, as indicating the scope of the invention.



Claims
  • 1. A pivoted door assembly comprising:a door frame including a door jamb; a pivotally mounted door having a stile with opposite parallel sides adjacent to the door jamb with a gap between the stile and the door jamb; and a safety device fitted to at least one side of the stile, the safety device comprising a rigid elongate finger guard adapted to be fitted to a side of the stile adjacent to the door jamb and parallel to a vertical door edge, and serving to sweep the gap between the door jamb and the adjacent stile as the door is pivoted, the finger guard being shaped substantially to fill the gap between the door jamb and the stile when the door is in its fully opened position, and the finger guard incorporating adjustment means for enabling the cross-sectional shape of the guard to be varied by choice of alternative settings of the adjustment means.
  • 2. A pivoted door assembly as claimed in claim 1, wherein the finger guard is of generally triangular shape in horizontal cross-section.
  • 3. A pivoted door assembly as claimed in claim 1, wherein the door has a vertical end face and the finger guard comprises at least two parts, one of which is secured to the door and another of which is shaped as an extension of the vertical end face of the door.
  • 4. A pivoted door assembly as claimed in claim 3, wherein the finger guard comprises two scythe-shaped parts each having a longer limb and a shorter limb, one part having its longer limb secured to the door, and the other part having an arcuate longer limb, with the respective shorter limbs in engagement with one another.
  • 5. A pivoted door assembly as claimed in claim 4, wherein the adjustment means comprise a ratchet-type mechanism providing alternative settings for two interengageable parts of the finger guard, thereby to change the cross-sectional shape of the finger guard, and wherein one of the shorter limbs has a plurality of parallel grooves along the length thereof, and the other shorter limb has a projecting rib selectively engageable in one of said grooves.
  • 6. A pivoted door assembly as claimed in claim 1, wherein the adjustment means comprise a ratchet-type mechanism providing alternative settings for two interengageable parts of the finger guard, thereby to change the cross-sectional shape of the finger guard.
  • 7. A pivoted door assembly as claimed in claim 1, including a pair of rigid elongate shielding strips secured to the door jamb, one on each side of the door in its closed position to reduce the size of the gap between the door and the door jamb.
  • 8. A pivoted door assembly as claimed in claim 7, wherein the shielding strips are extrusions which present a curved surface towards the door and towards the finger guard which moves past the shielding strips in spaced relationship thereto.
Priority Claims (1)
Number Date Country Kind
9604530 Mar 1996 GB
US Referenced Citations (10)
Number Name Date Kind
2960733 Nida Nov 1960
2995785 Hallenbeck Aug 1961
3484831 Higuchi Dec 1969
3934371 Ulatowski et al. Jan 1976
3941180 Thill Mar 1976
4040142 Ippolito Aug 1977
4344253 Stiles Aug 1982
5383739 Haglund Jan 1995
5544456 Dries Aug 1996
5697589 Garfinkle Dec 1997
Foreign Referenced Citations (3)
Number Date Country
778626 Jul 1957 GB
1 437 037 May 1976 GB
1437037 May 1976 GB