Door leaf

Abstract

Disclosed in the present application are a door leaf, and a door set comprising the door leaf. The door leaf having a first leaf portion and a second leaf portion. The first and second leaf portions pivotally connected to one another about a pivot axis that extends through one of the first leaf portion and the second leaf portion. The door leaf further comprising a lock configured, when in a locked position, to project across an interface between the two portions to thereby lock the first and second leaf portions so as to be substantially coplanar. The pivot axis is substantially parallel to and spaced from the interface.

Claims

1. A door leaf, the door leaf split into a first leaf and a second leaf along an interface; the first leaf connected to the second leaf pivotally about a pivot axis that extends through one of the first leaf and the second leaf; and the door leaf further comprising a lock configured, when in a locked position, to project across the interface to thereby lock the first leaf and the second leaf into a substantially coplanar arrangement, wherein the pivot axis is substantially parallel to and spaced from the interface, wherein the pivot axis and the interface are each positioned closer to a first edge of the door leaf than to a second opposite edge of the door leaf, wherein the first leaf and the second leaf are arranged side-by-side, and wherein the entire interface defines a straight line.

2. The door leaf of claim 1, wherein the lock is configured, when in the locked position, to extend into both the first leaf and the second leaf.

3. The door leaf of claim 1, wherein the pivot axis extends through the second leaf.

4. The door leaf of claim 1, wherein the lock is operable to move between the locked position and an unlocked position in which the lock is retracted into one of the first leaf and the second leaf.

5. The door leaf of claim 4, wherein the first leaf is rotatable relative to the second leaf about the pivot axis when the lock is in the unlocked position, and the first leaf is locked against rotation relative to the second leaf when the lock is in the locked position.

6. The door leaf of claim 4, wherein the lock is retracted into the first leaf when in the unlocked position.

7. The door leaf of claim 1, wherein the lock comprises a deadbolt projecting across the interface in the locked position.

8. The door leaf of claim 1, wherein the lock comprises a hook projecting across the interface in the locked position.

9. The door leaf of claim 1, wherein the lock is a first lock and further comprising a second lock, each of the first lock and the second lock configured, when in the locked position, to project across the interface to thereby lock the first leaf and the second leaf in a substantially coplanar arrangement.

10. The door leaf of claim 9, wherein the first lock is a deadbolt, and the second lock is a hook.

11. The door leaf of claim 1, further comprising a hinge along the first edge of the door leaf and connected to the first leaf, the hinge configured to be attached to a door frame.

12. The door leaf of claim 11, wherein the hinge comprises a hinge axis substantially parallel with the interface.

13. The door leaf of claim 11, further comprising a first pivot plate at a first end of the pivot axis and a second pivot plate at a second end of the pivot axis opposite the first end of the pivot axis, each of the first pivot plate and the second pivot plate being connected to the first leaf and comprising a spindle that extends into the second leaf along the pivot axis.

14. The door leaf of claim 13, wherein each of the first pivot plate and the second pivot plate sits substantially flush with the door leaf.

15. The door leaf of claim 11, wherein the hinge is connected to the door frame.

16. The door leaf of claim 1, wherein the first leaf abuts and sits flush with the second leaf in the substantially coplanar arrangement.

17. A door set comprising a door frame and a door leaf, the door leaf comprising: a first leaf; a second leaf, wherein the first leaf is connected to the second leaf pivotally about a pivot axis that extends through one of the first leaf and the second leaf; a lock configured, when in a locked position, to project across an interface between the first leaf and the second leaf to thereby lock the first leaf and the second leaf in a substantially coplanar arrangement, wherein the pivot axis is substantially parallel to and spaced from the interface, wherein the pivot axis and the interface are each positioned closer to a first edge of the door leaf than to a second opposite edge of the door leaf, wherein the entire interface defines a straight line; and a hinge along the first edge of the door leaf and connected to the first leaf, wherein the hinge is connected to the door frame.

18. The door set of claim 17, wherein the hinge comprises a hinge axis substantially parallel with the interface.

19. The door set of claim 17, wherein the first leaf abuts and sits flush with the second leaf in the substantially coplanar arrangement.

20. The door set of claim 17, wherein the pivot axis extends through the second leaf.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Examples of the present disclosure will now be described, by way of example only, with reference to the accompanying figures, in which:

(2) FIG. 1 shows a door set comprising a door leaf and a door frame;

(3) FIG. 2 shows a pivot arrangement of the door leaf of FIG. 1;

(4) FIG. 3 shows a first locking mechanism of the door leaf of FIG. 1;

(5) FIG. 4 shows a second locking mechanism of the door leaf of FIG. 1; and

(6) FIGS. 5a-5c illustrate operation of the door of FIG. 1, as viewed from above.

DETAILED DESCRIPTION

(7) FIG. 1 shows a door set 100 comprising a door leaf 102 and a door frame 104. Door leaf 102 is attached to the door frame 104 by a hinge 106. Hinge 106 is a two-way hinge, for allowing movement of the door leaf in both the inward direction and the outward direction.

(8) Door leaf 102 is split into a first leaf portion 108 and a second leaf portion 110 along interface 112. First portion 108 is pivotally connected to second leaf portion 110 about pivot axis 114. The pivot axis 114 is provided by pivot arrangement 300. Pivot arrangement 300 is described in more detail below, with reference to FIG. 2. Pivot axis 114 extends through the second leaf portion 110 and is spaced from the interface 112.

(9) Two locks 400, 500 are provided in the door leaf 102. The structure and operation of the first lock 400 is described in more detail below, with reference to FIG. 3. The structure and operation of the second lock 500 is also described in more detail below, with reference to FIG. 4. When in locked positions, the first and second locks 400, 500 prevent rotation of the first leaf portion 108 relative to the second leaf portion 110 about pivot axis 114; and maintain the two leaf portions in a coplanar arrangement as shown in FIG. 5a. When in unlocked positions, the first and second locks 400, 500 do not prevent rotation of the first leaf portion 108 relative to the second leaf portion 110 about pivot axis 114.

(10) With at least one of the locks in the locked position, the first and second leaf portions 108, 110 are maintained in a coplanar arrangement, and the door set can only be opened in a single direction (for example in an inwards direction). With the lock mechanisms in the unlocked position, the first and second leaf portions 108, 110 are rotatable relative to one another, and the door can be opened both inwardly, and outwardly. This is explained in more detail below, with reference to FIGS. 5a-5c.

(11) FIG. 2 shows the pivot arrangement 300 at the top of the door leaf of FIG. 1. As the skilled person will appreciate, a similar (or mirror image) pivot arrangement 300 may be provided at the bottom of the door leaf. Only the top pivot arrangement is described here, for brevity.

(12) Pivot arrangement comprises a plate 302. Plate 302 attaches to the first leaf portion 108 by screws 304. Screws 304 extend into the first leaf portion 108, to prevent rotation of the plate 302 relative to the first leaf portion 108. Plate 302 sits flush with the top of the hinge 106 and flush with the top of the second leaf portion 110.

(13) Spindle 306 extends from the plate 302 and into the top of the second leaf portion 110 along pivot axis 114. Spindle 306 is rotatably mounted to the plate 302 by a bearing or bushing (not shown). The first leaf portion 108 and the second leaf portion 110 thus rotate relative to one another about the pivot axis 114. Because the spindle 306 extends into the second leaf portion 110, the pivot axis 114 is offset from the interface 112.

(14) FIG. 3 shows the first lock 400 from FIG. 1. The first lock 400 is shown in a locked state in FIG. 3. First lock 400 is housed within first leaf portion 108. In the locked position, first locking element (hook) 402 of the first lock mechanism 400 is rotated so as to extend from the lock mechanism 400 in the first leaf portion 108; across interface 112; and into the second leaf portion 110, where it engages with a catch 404 in the second leaf portion 110. Thus, the first locking element (hook) 402 prevents rotation of the first leaf portion relative to the second leaf portion.

(15) When the first lock 400 is moved into an unlocked state (not shown), the first locking element (hook) 402 rotates downwards, about axis 406, so as to retract into the first leaf portion 108. In the unlocked position, the first locking element 402 is completely housed within the first leaf portion 108. It does not extend across the interface 112. Thus, locking element 402 does not act to impede rotation of the first leaf portion 108 relative to the second leaf portion 110 when in the unlocked position.

(16) The first locking element 402 is moved between the locked position and the unlocked position by a key inserted into the first lock 400.

(17) FIG. 4 shows the second lock 500 from FIG. 1. The second lock 500 is shown in a locked state in FIG. 5. Second lock 500 is housed within first leaf portion 108. In the locked position, second locking element (deadbolt) 502 of the second lock 500 is rotated so as to extend from the second lock 500 in the first leaf portion 108; across interface 112; and into the second leaf portion 110, where it engages with a socket 504 in the second leaf portion 110. Thus, the second locking element (deadbolt) 502 prevents rotation of the first leaf portion relative to the second leaf portion.

(18) When the second lock 500 is moved into an unlocked state (not shown), the second locking element (deadbolt) 502 moves in a linear motion, in direction 506, so as to retract into the first leaf portion 108. In the unlocked position, the second locking element 502 is completely housed within the first leaf portion 108. It does not extend across the interface 112. Thus, second locking element 502 does not act to impede rotation of the first leaf portion 108 relative to the second leaf portion 110 when in the unlocked position.

(19) The second locking element 502 is moved between the locked position and the unlocked position by a key inserted into the second lock 500, or by an electrically driven solenoid device installed within the second lock 500.

(20) First and second locks 400, 500 are laterally offset from the pivot axis 114.

(21) FIGS. 5a-5c illustrate operation of the door 100 of FIG. 1, as viewed from above. FIG. 5a shows the door 100 in an inwardly opened position. The door leaf 102 is locked in the coplanar arrangement (in which the first leaf portion 108 and the second leaf portion 110 are coplanar with each other). When the door is closed, as illustrated with arrow 200 in FIG. 5a, the door leaf 102 comes into abutment with stop 202 of the door frame 104. The stop 202 is positioned to prevent the door from being opened outwardly.

(22) If the door becomes barricaded by an object 204, inward opening of the door is also prevented. Inward opening of the door is prevented by the barricade 204, and outward opening of the door is prevented by the stop 202. With a normal door frame, this would prevent the door from being opened entirely.

(23) However, as shown in FIG. 5b, by unlocking the door leaf 102 such that the first portion 108 can rotate relative to the second portion 110, the second edge of the door frame (the edge opposite the hinge) is retracted away from the stop 202 such that the door leaf 102 can move past the stop 202. Opening of the door 100 becomes possible in the outwards direction. Therefore, even when the door is barricaded from the inside, it is still possible to open the door from the outside by unlocking the locks 400, 500.

(24) As shown in FIG. 5c, once the door has been opened, the door leaf 102 can be returned to the (co-)planar arrangement and re-locked, ready to resume normal use.

(25) As shown in FIGS. 5a-5c, the first leaf portion 108 and second leaf portion 110 are scalloped. This ensures that they maintain contact with each other as they rotate relative to each other. No gaps exist between the two leaf portions.

(26) It is to be understood that the above description is intended to be illustrative, and not restrictive. Many other implementations will be apparent to those of skill in the art upon reading and understanding the above description. Although the present disclosure has been described with reference to a specific example implementation, it will be recognized that the disclosure is not limited to the implementations described, but can be practiced with modification and alteration insofar as such modification(s) and alteration(s) remain within the scope of the appended claims. Accordingly, the specification and drawings are to be regarded in an illustrative sense rather than a restrictive sense. The scope of the disclosure should, therefore, be determined with reference to the appended claims, along with the full scope of equivalents to which such claims are entitled.