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AU2005294116B2 - A mortice lock - Google Patents

A mortice lock Download PDF

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Publication number
AU2005294116B2
AU2005294116B2 AU2005294116A AU2005294116A AU2005294116B2 AU 2005294116 B2 AU2005294116 B2 AU 2005294116B2 AU 2005294116 A AU2005294116 A AU 2005294116A AU 2005294116 A AU2005294116 A AU 2005294116A AU 2005294116 B2 AU2005294116 B2 AU 2005294116B2
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AU
Australia
Prior art keywords
locking bar
housing
mortice lock
locking
lockout member
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AU2005294116A
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AU2005294116A1 (en
Inventor
Martin Goetz
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
NOVA HARDWARE Pty Ltd
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NOVA HARDWARE Pty Ltd
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Filing date
Publication date
Priority claimed from AU2004905868A external-priority patent/AU2004905868A0/en
Application filed by NOVA HARDWARE Pty Ltd filed Critical NOVA HARDWARE Pty Ltd
Priority to AU2005294116A priority Critical patent/AU2005294116B2/en
Priority claimed from PCT/AU2005/001572 external-priority patent/WO2006039751A1/en
Publication of AU2005294116A1 publication Critical patent/AU2005294116A1/en
Application granted granted Critical
Publication of AU2005294116B2 publication Critical patent/AU2005294116B2/en
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Description

WO 2006/039751 PCT/AU2005/001572 A MORTICE LOCK The present invention relates to a mortice lock capable of selecting actuation of one or both handle 5 actuators. A mortice.lock is installed into a mortice or recess at.the side edge of a door to engage with a striker plate in the doorframe.- In order to be more versatile mortice 10 locks have been designed to disable actuation of one or the other door handle depending on which side of the door is to face the outside. Many people prefer the outside door handle to only be operable to open a door with a key. On the other hand, it is undesirable to use a key every 15 time a door is opened from the inside. The desired "hand" of the door lock can hence be set to the inside such that a locked door can only be unlocked from the outside with a key but from the inside by simply using the door handle. 20 The mechanisms employed to.select the hand of a door lock are often complicated and involve many parts where if one part fails the entire door lock fails. Additionally, where frequent traffic is experienced through doors carrying such mortice-locks, the doors have been known to 25 unintentionally shut while in the locked position thereby locking out users. The present mortice lock attempts to provide a more reliable and durable lockthat overcomes the above known 30 problems. SUMMARY OF THE INVENTION In accordance with an embodiment of the present 35 invention there is provided a mortice lock comprising: a housing supporting two split hub handle actuators, one to each side of the housing, that are independently WO 2006/039751 PCT/AU2005/001572 -2 rotatable to engage with a locking bolt to withdraw the locking bolt into the housing from a front of the housing; a locking bar -slidable within the housing between an unlocked condition and a locked condition, the locking bar 5 being capable of selecting actuation of one or both or neither handle actuators; two detents carried by the locking bar, each detent independently moveable relative to the locking bar between an unlocked position and a locked position, each detent in 10 the locked position stopping actuation of a corresponding handle actuator, wherein a biased member associated with each detent and accessed from a rear of the housing enables the detent to move linearly between the unlocked and locked positions. 15 According to a further embodiment the present invention provides a mortice lock comprising: a housing supporting two split hub handle actuators independently rotatable to engage with a locking bolt and 20 withdraw the locking bolt into the housing; a locking bar slidable within the housing between an unlocked and a locked condition, the locking bar being capable of selecting actuation'of one or both or neither handle actuators; and 25 an anti-lockout member carried by the locking bar and slideable relative to the locking bar between an 'on' and 'off' position wherein, in the instance of the locking bolt withdrawing into the housing while the locking bar is in a locked position and the anti-lockout member is in an 30 'on' position, the anti-lockout member engages with the locking bolt and is thereby forced to cause the locking bar to slide into an unlocked condition.
WO 2006/039751 PCT/AU2005/001572 -3 BRIEF DESCRIPTION OF THE DRAWINGS An embodiment, incorporating all aspects of the invention, will now be described by way of example only 5 with reference to the accompanying drawings in which: Figure 1(a) is a side sectional view of a mortice lock in accordance with an embodiment of a present invention; Figure 1(b) is a front view of the mortice lock of 10 Figure 1(a); Figure 1(c) is a rear view of the mortice lock of Figure 1(a); Figure 2 is a side sectional view of the mortice lock in a hand locked condition; 15 Figure 3 is a side view of the mortice lock in an anti-lock condition; and Figure 4 is an oblique exploded view of the hand selecting mechanism of one embodiment of the present invention. 20 DETAILED DESCRIPTION OF PREFERRED EMBODIMENT The Figures illustrate a door mortice lock 10 for installing into a recess or mortice at the edge of a door 25 and in which the hand of the mortice lock can be changed so that the door can be opened- at either: only the inside door handle, only the outside door handle or both door handles. The hand of the lock is selected during installation in the mortice. 30 The door lock 10 also has an anti-lockout feature whereby an anti-lockout mechanism can be activated to prevent unintentional locking out of persons if the door accidentally slams shut. The anti-lockout feature is also 35 set during installation.
WO 2006/039751 PCT/AU2005/001572 -4 The Figures illustrate a mortice lock 10 that is adapted to be installed into a mortice of a door (not shown) such that only the front face 11 (Figure 1(b)) is visible. The rear 21 of mortice lock 10 is illustrated in 5 Figure 1(c). The mortice lock has a housing body 12 that houses the operating components of the mortice lock 10. The mortice lock has all the usual features found in a mortice lock'including a main bolt 13 carried by a bolt bracket 29 and moveable in conjunction with a dead latch 10 pin 14. Pin 14 is designed to extend out of the housing and assist in locking the door to the door frame and provide a back-up security feature in case of external manipulation 15 of bolt 13. When unlocking the door, pin 14 is released and together with bolt 13 is withdrawn back into the housing 12. Actuating means releases pin 14 and draws bolt 13 20 into the mortice lock housing 12 to allow a door to be opened. The actuating means is in the form of split hub .handle actuators 15 each actuable by a corresponding door handle.(not shown) on either side of the door. The- split hub handle actuators allow one handle to operate the door 25 lock independently of the other handle. A square section 17 located centrally of each actuator 15, receives a spindle (not shown) for allowing split hub'15 to turn by way of the corresponding handle. 30 An actuating arm 54 on each actuator 15 engages with bolt flange 16 when actuator 15 is rotated, thereby releasing pin 14 and withdrawing main bolt 13 into the housing 12 to unlock/open the door. 35 Springs 18 bias the hub actuators towards keeping the main bolt 13 protruding from the front face of the mortice lock. Main bolt 13 is itself biased to protrude from the WO 2006/039751 PCT/AU2005/001572 -5 front face by bolt spring 55. Bolt spring 55 is housed between bolt bracket 29 and housing body 12. Bolt bracket 29 and bolt flange 16 are integrally connected with main bolt 13 to move with main bolt 13. 5 A hand selecting mechanism is located towards the rear of the mortice lock and selectively engages with none, one or both of the hub actuators 15. The hand selecting mechanism is operated by a key-driven cylinder 10 lock 19. Alternatively, the key-driven cylinder lock may be replaced by an adapter driven by a thumb turn or similar mechanism. The presently described embodiment shows a key-driven cylinder lock. 15 The hand selecting mechanism comprises an elongated locking bar 20 that is guided to slide in the housing between an unlocked position as illustrated in Figure 1(a), and a locked position as illustrated in Figure 2. 20 When in the-unlocked, inoperative position, the locking bar does not interfere with the actuators 15, and the handles on both sides of the door are freely able to rotate to release.pin-14 and withdraw main bolt 13 into the housing 12. When in the lowered, locked position, 25 left hand and right hand detents 22a and 22b can be adjusted to selectively interfere with none, one or both of the handle actuators 15 such that -both actuators can unlock the door, only one actuator can unlock the door or neither of the actuators are able to unlock the door. 30 Figure 4 illustrates the locking bar and components in an exploded view. Locking bar 20 also contains a protruding stop 57 biased outwardly of locking bar 20 by spring 59. Stop 57 35 engages with one of two stop recesses 58 in the housing 12. Recesses 58 define the upper and lower positions of locking bar 20 and namely the unlocked and locked WO 2006/039751 PCT/AU2005/001572 -6 positions respectively. Recesses 58 prevent locking bar 20 from sliding past these end positions. As an upward or downward force is applied to locking 5 bar 20 the force overcomes the spring force of spring 59 that causes stop 57 to protrude into recess 58 such that stop 57 displaces inwardly of locking bar 20 thereby allowing the locking bar to be moved up or down. Stop 57 has a triangular -pointed profile such that inclined sides 10 of stop 57 can, with the appropriate amount of force, slide against matching surfaces in recess 58 and overcome the spring force of stop 57. Locking bar 20 is lowered by way of 'a key inserted 15 into cylinder lock 19 to rotate cylinder lock 19 to the right as illustrated by Arrow A in Figure 1(a). Cylinder lock 19 is rotated until a small cam 23 on cylinder lock 19 engages with a lower reaction surface 25 on locking bar 20. Rotation of cylinder lock 19 pushes against reaction 20 surface 25 and causes locking bar 20 to slide downwards into the locked position as illustrated by Arrow B in Figure 1(a). On the opposite side of the mortice lock to cylinder 25 lock 19 is a large cam 27 actuable by another cylinder lock or thumb turn (not shown). Large cam 27 is hence actuated from the opposite side of the door to small cam 23. When rotated in an anti-clockwise direction in Figure 1(a), large cam 27 engages bolt flange 16 to withdraw bolt 30 13 into the housing 12 to allow the door to be opened. The position of large cam 27 and small cam 23 may be swapped depending on which side of the door it is desired to unlock the door using a key (outside typically) and which side it is desired to set the locking functions 35 (typically inside).
WO 2006/039751 PCT/AU2005/001572 -7 Lower reaction surface 25 is located at an upper end of locking bar 20. Left hand detent 22a and right hand detent 22b are located.at a lower end of locking bar 20. 5 Detents 22a, 22b are independently slidable in a longitudinal direction of locking bar 20 such that the detents can be moved to protrude past the locking bar 20 to the point where the left and/or right detent interferes with the corresponding left and/or-right handle actuator 10 15. The detents only interfere with the actuators when they are in a lowered, locked position. In the locked position the detent will prevent the respective handle actuator 15 from rotating and withdrawing the bolt into the housing. That is, effectively locking the door from 15 that respective side. The handle of the door that is locked corresponds to the detent 22a or 22b that is lowered to the locking position. For example, lowering right hand detent 22b 20 prevents actuator 15 associated with the right door handle (not shown) from rotating. The right side of the door is thereby locked and unable to be operated to open the door. In this example, the left hand detent 22a is kept raised in the unlocked position, which does not interfere with 25 the left hand actuator and allows left hand actuator to rotate in response to rotation of the left handle. By way of- the'hand selecting mechanism, the door can be opened from one side but not from the other. The hand 30 of the door is adjusted as desired to either lock the.left or right side, or to even lock both sides such that the door can only be opened by way of a key inserted and rotated in cylinder lock 19. 35 Detents 22a and 22b are adjusted before insertion of the door lock 10 into a mortice by pressing respective sprung push buttons 30a and 30b. Push buttons 30a, 30b WO 2006/039751 PCT/AU2005/001572 -8 are located in button recesses 32 in each detent. The push buttons are biased outward of the recesses 32 to protrude through an aperture 34 in the locking bar 20 by way of springs 35. When in a rest position and biased 5 outwardly of apertures 34, a narrow throat 37 in each aperture 34 acts as a stop preventing displacement of push buttons 30 and any sliding movement of detents 22a, -22b in locking bar 20. However, the apertures need not be provided with a narrow throat, and the detents may move 10 within an oval shaped aperture. To change the hand of the door lock the respective detent is slid up or down in locking bar 20 by pressing . the respective push button 30a, 30b to clear throat 37 and 15 use the push button to manually slide the detent into a raised or lowered configuration. The push button may be designed to be pushed and moved by a pointed implement. As illustrated in the drawings, the push button includes a central hole 39 in which a pointed implement, such as a 20 pen tip or specific tool, can be captured and used to slide the detent. Alternatively, the buttons may be structured to permit manipulation by an operator's fingers. For example, the push buttons may have a feature that allows a part of the button to be pulled outwardly or 25 flipped up and outwardly to enable the button to be manually gripped. To open a door from the side where the handle actuator is locked, a key (not shown) is used to raise 30 locking bar 20 to an unlocked condition. The key is inserted into cylinder lock 19 to rotate it in an anti clockwise direction (when viewed as in Figure 2) such that small cam 23 engages an upper reaction surface 26 on locking bar 20. This slides locking bar 20 into a raised, 35 unlocked condition thereby freeing the locked handle actuator to enable the handle to be rotated and the door opened.
WO 2006/039751 PCT/AU2005/001572 -9 If the handle actuator on the other side of the door is also locked, the door is unlocked by rotating large cam 27 (anti-clockwise in Figure 2) to force against bolt 5 flange 16 and withdraw main bolt 13 into the housing and then rotating the door handle on that side of the door handle. If the handle actuator is not locked, that side of 10 the door can simply be opened by rotating the- door handle. The anti-lockout feature of the mortice lock is effected by anti-lockout mechanism 40, which is carried on the locking bar 20. Specifically the anti-lockout 15 mechanism operates when the locking bar is moved to a lowered, locking position by way of cylinder lock 19 such that one or both of the handle actuators 15 are' potentially locked. If in this instance the door accidentally shuts a person could potentially be locked 20 out and unable to open the door without a key. The anti lockout mechanism prevents locking out-by raising the locking bar 20 to an inoperative position such that both handle actuators are rendered useful to withdraw bolt 13 back into the housing and thus open the door. 25 The anti-lockout mechanism 40 comprises a lockout member 42 that is moveable longitudinally of the locking bar 20 between a raised "off" position and a lowered "on" position. Hence, the anti-lockout function can be set to 30 on or off, usually at mortice lock installation. Lockout member is moveable by lockout push button 44 located in button recess 45 in member 42 and protruding out through locking bar aperture 46. Similar in principle to push buttons 30a and 30b in respect of detents 22a and 22b, 35. lockout button 44 is biased by spring 47 to extend outwardly of aperture 46. A narrow throat 37 (Figure 4) WO 2006/039751 PCT/AU2005/001572 - 10 located centrally of aperture 46 keeps lockout member 42 in the set "on" or "off" position. Lockout member 42 extends laterally from longitudinal 5 locking bar 20 and inwardly of housing 12 so as to extend towards main bolt 13. Lockout member 42 has a diagonally inclined face 49 that corresponds to and is parallel with a similar inclined face 51 on the end of bolt bracket 29. Bolt bracket 29 is mounted on and carried by main bolt 13.. 10 Inclined faces 49 on lockout member 42 and inclined face 51 on bolt bracket- 29 are designed to meet. Specifically, when lockout member is lowered to the "on" position and the locking bar is lowered to a locking 15 position (as illustrated in Figure 3), inward movement of main bolt 13, caused by unintentional closing of the door against the door frame, will cause bolt bracket 29 to meet and impart an upward force onto inclined face 49. This upward force causes locking bar 20 by way of locking 20 member 42 to slide back up to a non-operative position thereby releasing any locking action on the handle actuators 15. Without the anti-locking function unintentional 25 closing of the door could render one or both handle actuators inoperative with the door only being able to be unlocked by use of a key in cylinder lock 19. However, with the anti-lockout function active, the closing action of the door will cause bolt bracket 29 to push locking bar 30 20 upwards and safely into an unlocked position clearing. all detents of the handle actuators. Once the door is intentionally closed locking bar 20 can be moved back into the locking position by way of key driven locking cylinder 19. 35 The present door lock provides a simple and uncomplicated mechanism for setting the hand on a door 11 lock. The hand is set by accessing the rear 21 of the lock 10/ which can only be accessed during installation or if the mortice lock is unscrewed from the side edge of the door and pulled out of the mortice. Accordingly, the hand 5 cannot be tampered with from either side or the front of the door. The mortice lock also provides the advantage of an anti lockout mechanism that safely allows the pre-set side of 10 the door to be locked with a key, but only when the door is closed. This avoids unintentionally locking people out on the locked hand side of the door. The mortice door lock provides a safe and affordable means 15 of selecting a desired locking combination and preventing any opportunity of tampering. It will be understood to persons skilled in the art of the invention that many modifications may be made without 20 departing from the spirit and scope of the invention. In the claims which follow and in the preceding description of the invention, except where the context requires otherwise due to express language or necessary 25 implication, the word "comprise" or variations such as "comprises" or "comprising" is used in an inclusive sense, i.e. to specify the presence of the stated features but not to preclude the presence or addition of further features in various embodiments of the invention. 25232321 (GHMatters)24/12/10

Claims (20)

1. A mortice lock comprising: a housing supporting two split hub'handle actuators, 5 one to each side of the housing, that are independently rotatable to engage with a locking bolt to withdraw the locking bolt into the housing from a front of the housing; a locking bar slidable within the housing between an 10 unlocked condition and a locked condition, the locking bar being capable of selecting actuation of .one or both or neither handle actuators; two detents carried- by the locking bar, each detent independently moveable relative to the locking bar 15 between an unlocked position and a locked position, each detent in the locked position stopping actuation of a corresponding handle actuator, wherein a biased member associated with each detent and accessed from a rear of the housing enables the 20 detent to move linearly between the unlocked and locked positions.
2. The mortice lock claimed in claim 1, wherein when the locking bar is in the locked condition, rotation of a handle actuator will be stopped if the 25 respective detent is also in the locked condition.
3. The mortice lock claimed in claim 1 or 2, wherein when the locking bar is in an unlocked condition, both handle actuators are operable regardless of the position of the detents. 30
4. The mortice lock according to any one of the preceding claims, wherein the biased member is a press button biased by a spring.
5. The mortice lock according to claim 4, wherein the detents are slideable -within a lower end of the 13 locking bar and the biased buttons are contained within respective recesses in the detents and the buttons are biased outwardly of apertures on the locking bar. 5
6. The mortice lock according to claim 5, wherein the apertures are elongated with a central throat. "
7. The mortice lock according to claim 4, wherein the button has grip means that can be extended outwardly to 10 enable a user to grip the button.
8. The mortice lock claimed in claim 4, wherein the buttons are provided with a central recess. 15
9. The mortice lock claimed in any one of the preceding claims, wherein the locking bar is slideably moved by rotation of a key-driven cylinder lock or a manual turn mechanism. 20
10. The mortice lock according to any of the preceding claims, including a dead latch pin slideable between an extended position from the front of the housing and a retracted position inside the housing. 25
11. The mortice lock according to any of the preceding claims, including an anti-lockout member which when activated causes the locking bar to move to an unlocked condition if the locking bolt is moved into the housing. 30
12. The mortice lock claimed in claim 10, wherein the anti-lockout member is carried by the locking bar and is slideable thereon between an 'on' and 'off' position.
13. The mortice lock claimed in any one of claims 10, or 35 18 to 20, wherein the anti-lockout member has a face that engages with a corresponding face carried by the locking bolt such that when the locking bolt moves into the 2523232_1 (GWMatters) 2412/10 14 housing and the anti-lockout member is in the 'on' position the face on the locking bolt engages with and imparts a force on the face on the anti-lockout member which in turn moves the locking bar into an unlocked 5 condition.
14. The mortice lock, claimed in claim 11 or 18, wherein the anti-lockout member is slideable on the locking bar between an 'on' and 'off position by way of a biased press 10 button.
15. The mortice lock claimed in claim 11 or 18, wherein the position of the anti-lockout member is accessed from the rear of the housing. 15
16. The mortice lock claimed in any one of the preceding claims, wherein the locking bar includes a stop for holding the locking bar in the unlocked or locked condition. 20
17. The mortice lock claimed in claim 16, wherein the stop is a spring biased detent that is received in a stop recess internally of the housing. 25
18. A mortice lock comprising: a housing supporting two split hub handle actuators independently rotatable to engage with a locking bolt and withdraw the locking bolt into the housing; a locking bar slideable within the housing between an 30 unlocked and a locked condition, the locking bar being capable of selecting actuation of one or both or neither handle actuators; and an anti-lockout member carried by the locking bar and slideable relative to the locking bar between an 'on' and 35 'off' position wherein, in the instance of the locking bolt withdrawing into the housing while the locking bar is in a locked position and the anti-lockout member is in an 2523232_1 (OHMtteM) 24/12/10 15 'on' position, the anti-lockout member engages with the locking bolt and is thereby forced to cause the locking bar to slide into an unlocked condition. 5
19. The mortice lock according to claim 18, including an anti-lockout member which when activated causes the locking bar to move to an unlocked condition if the locking bolt is moved into the housing. 10
20. The mortice lock claimed in claim 18, wherein the anti-lockout member is carried by the locking bar and is slideable thereon between an 'on' and 'off position. 2523232_1 (GHMatters) 24n210
AU2005294116A 2004-10-11 2005-10-11 A mortice lock Active AU2005294116B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AU2005294116A AU2005294116B2 (en) 2004-10-11 2005-10-11 A mortice lock

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
AU2004905868 2004-10-11
AU2004905868A AU2004905868A0 (en) 2004-10-11 A mortice lock
PCT/AU2005/001572 WO2006039751A1 (en) 2004-10-11 2005-10-11 A mortice lock
AU2005294116A AU2005294116B2 (en) 2004-10-11 2005-10-11 A mortice lock

Publications (2)

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AU2005294116A1 AU2005294116A1 (en) 2006-04-20
AU2005294116B2 true AU2005294116B2 (en) 2011-03-17

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AU2005294116A Active AU2005294116B2 (en) 2004-10-11 2005-10-11 A mortice lock

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AU2019283862A1 (en) * 2019-12-18 2021-07-08 Allegion (New Zealand) Limited A Lock

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AU3280995A (en) * 1992-11-16 1995-11-30 Alchin & Long Group Pty Limited A lock assembly
NZ299577A (en) * 1996-10-14 1998-01-26 Nt Legge Pacific Ltd Mortice lock, actuating handles selectable to allow bolt movement even when locked, and where the lock can be handed
AU5364300A (en) * 1999-08-27 2001-03-01 Dormakaba Australia Pty Ltd A mortise lock

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AU3280995A (en) * 1992-11-16 1995-11-30 Alchin & Long Group Pty Limited A lock assembly
NZ299577A (en) * 1996-10-14 1998-01-26 Nt Legge Pacific Ltd Mortice lock, actuating handles selectable to allow bolt movement even when locked, and where the lock can be handed
AU5364300A (en) * 1999-08-27 2001-03-01 Dormakaba Australia Pty Ltd A mortise lock

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AU2019283862A1 (en) * 2019-12-18 2021-07-08 Allegion (New Zealand) Limited A Lock

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