EP0011424A1 - Locks - Google Patents
Locks Download PDFInfo
- Publication number
- EP0011424A1 EP0011424A1 EP79302431A EP79302431A EP0011424A1 EP 0011424 A1 EP0011424 A1 EP 0011424A1 EP 79302431 A EP79302431 A EP 79302431A EP 79302431 A EP79302431 A EP 79302431A EP 0011424 A1 EP0011424 A1 EP 0011424A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- bolt
- runner
- lock
- movement
- slot
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B63/00—Locks or fastenings with special structural characteristics
- E05B63/0017—Locks with sliding bolt without provision for latching
Definitions
- This invention relates to locks of the kind in which linear movement of a slide or runner that is coupled to the bolt of the lock is communicated via the coupling to extend or withdraw the bolt according to the direction of runner movement.
- Locks of the above kind in which the runner is mounted to slide parallel to the path of the bolt are known. Such locks are commonly key operated, necessitating the insertion and turning of a correct key within the lock to bring about the movement of the runner required to extend or withdraw the bolt.
- the runner normally engages with a tail extending from the head of the bolt so as to draw the bolt along with the runner as the runner moves along its linear path, the bolt being thereby extended or withdrawn according to the sense in which the key is turned.
- a lock in which linear movement of a slide or runner that is coupled to the bolt of the lock is communicated via the coupling to extend or withdraw the bolt according to the direction of runner movement is characterised in that the line of movement of the runner is transverse to that of the bolt.
- the line of movement of the runner is preferably at right angles to that of the bolt.
- a part carried with the runner is moved into the withdrawal-path of the bolt under movement of the runner in the direction for extending the bolt, so as to block withdrawal of the bolt while it is extended and until the runner is first moved in the opposite, withdrawal direction; this is of especial advantage for deadlocking the bolt and securing it against forcing.
- Coupling between the runner and bolt may provide for lost motion between them such that movement of the runner in the direction for withdrawal of the bolt is communicated to the bolt only after the runner has moved sufficiently to clear the said part from the withdrawal-path of the bolt.
- Such coupling furthermore, may enable the final movement of the runner which while the bolt is fully extended, is required to locate said part in its bolt-locking position.
- the runner and bolt may be coupled together through a bell-crank, and this readily enables the bolt movement to be effected with magnification from the runner movement. Where lost motion as referred to in the preceding paragraph is to be provided, then this may conveniently be provided simply by appropriate configuration of a slot or groove in which the bell-crank engages with the bolt.
- the locking bolt 1 when fully extended to its outward, locked position (shown in Figures 1, 3 and 4) protrudes from the Jock casing 2 through a rectangular aperture 3 in the forend 4 of the lock.
- a peg 5 carried on the bolt 1 within the casing 2 engages in an elongate recess 6 ( Figure 2) in the cover-plate 7 of the casing 2 for guiding, and also possibly limiting, sliding back and forth through the aperture 3 in withdrawal and extension of the bolt 1. Movements of the bolt 1 are effected by an appropriately-stepped key (not shown) inserted into a key-hole 8 that is open from both sides of the lock through the cover-plate 7 and casing 2 respectively.
- the inserted key engages a thrower rib 9 ( Figure 5) on the underside of a barrel-and-curtain element 10.
- a leaf spring 11 engages a notch 12 of element 10 to detain the rib 9 normally aligned with the key-hole 8.
- the stump 18 when so detained precludes movement of the runner 17 until the levers 13 are lifted appropriately against the action of their springs 14, by the turning key.
- the key-bit is appropriately stepped, at least one of the levers 13 will not be lifted the individually-required amount to bring its gating aperture 21 (inter-connecting the slots 19 and 20) into alignment with the stump 18, and movement of the runner 17 will accordingly continue to be precluded.
- all levers 13 are lifted just enough to align their gating apertures 21 with the stump 18 so as to free the runner 17 for sliding longitudinally.
- Such sliding takes place under the influence of the thrower-rib 9 as this is turned by the key against a talon 22 (identified in Figure 4) formed in the runner 17.
- the sliding movement of the runner 17 is communicated to the bolt 1 so as to withdraw or extend it in dependence upon the direction in which the key is turned.
- the bolt 1 is withdrawn from its outward, locked position by turning the key in the clockwise sense with respect to Figure 1.
- the action of the thrower-rib 9 on the talon 22 in this case slides the runner 17 in the direction to move the stump 18 out of the slot 19 into the slot 20 through the gating aperture 21 of each lifted lever 13.
- Continued turning of the key to return the rib 9 to alignment with the key-hole 8 and allow withdrawal of the key releases the levers 13 causing them to spring back to detain the stump 18 in the racking slots 20 and so restrain return movement of the runner 17.
- Return movement of the runner 17 required to extend the bolt 1 to its outward, locked position is achieved by turning the key in the opposite, anti-clockwise sense. This lifts levers 13 and again enables the stump 18 to pass through the gating aperture 21 of each lever 13 - in this case from the slot 20 back into the slot 19 - to restore the lock to the condition illustrated in Figure 1.
- the stack of levers 13 is located to one side of the key-hole 8 so that the runner 17 slides upwardly when the correct key is turned clockwise and downwardly when the key is turned anti-clockwise.
- the upward-downward sliding movement of the runner 17 is communicated to the bolt 1 via a bell-crank element 23 that is pivotted by a pin 24 which engages a hole 25 (Figure 2) in the cover-plate 7, and which extends via a slot 26 in the runner 17 to engage a corresponding hole 27 ( Figure 3) in the casing 2.
- the slot 31 is of a dog-leg configuration having a first portion 32 formed as an arc of constant radius centred on the pivot-pin 24 to provide for lost motion between the runner 17 and bolt 1, and a second portion 33 parallel to the line of movement of the runner 17, to draw the bolt 1 back and forth during upward and downward movement respectively, of the runner 17.
- the path of movement of the runner 17 is constrained to a line at right angles to that of the bolt 1, generally by the slots 16 and 26 running on the pins 15 and 24, but principally by a peg 34 (identified in Figure 1).
- the peg 34 is carried by a lath-part 35 of the runner 17 that is partially overlapped by the bolt 1 and runs within a slot 36 in the casing 2. Sliding movement of the bolt 1 across the lath-part 35 is blocked, thereby deadlocking the bolt 1, when the lock is in the locked condition.
- the lath-part 35 turns up at its end to form a shoulder 37 that runs along the rear wall 38 of the casing 2 (thereby aiding the peg 34 in guiding the runner 17) and projects into the plane of bolt-movement.
- the shoulder 37 lies in the withdrawal-path of the extended bolt 1 - as illustrated in Figures 1 and 4 - to lie immediately behind the bolt 1 and in abutment with the wall 38, so as to obstruct withdrawal movement of the bolt 1 until the runner 17 has been moved upwardly a small distance by clockwise turning of the correct key in the lock.
- the deadlocking of the bolt 1 is especially secure in that it is provided by direct abutment of the bolt 1 upon the runner 17 as supported against the rear wall 38 of the casing 2. There is accordingly a very positive and solid block against forcing of the bolt 1, and this is entirely independent of operational items of necessarily-limited strength, such as the stump 18, the levers 13 and the pivot pin 15. Moreover, the portion 32 of the dog-leg slot 31 is configured to ensure that forcing of the bolt 1 does not act on the peg 29. In this respect, and as illustrated by Figure 8, the lower end of the portion 32 where the peg 29 is located while the bolt 1 is deadlocked, is enlarged slightly towards the forend of the lock to form a relief part 39.
- the relief part 39 is of limited extent being in particular restricted to the lower end of the portion 32, so that the bolt 1 is not free to obstruct entry of the shoulder 37 behind it during the final phase of anti-clockwise rotation of the key while the deadlocked condition is being established.
- lock mechanism described above has the added advantage that for any particular bolt-throw, it can in general be accommodated within a smaller depth than achievable using conventional constructions. This is especially noteworthy where the lock is for fitting to a door having a narrow stile.
- the depth from the outer of the forend to the rear wall of the casing is some 55 mm, accommodating a bolt of some 50 mm in overall length for a throw of some 20 mm.
- the same could be realised with a casing-depth of only 50 mm if turning of the key through 180° rather than the full 360° were acceptable.
- the throw of the bolt is different from the displacement of the runner. More particularly, the intercoupling of the runner 17 with the bolt 1 provided by the bell-crank element 23 in the above example, enables.the throw of the bolt 1 to be significantly larger than the displacement of the runner 17 effected by the key. With the example of lock construction as referred to above having a bolt-throw of some 20 mm, the displacement of the runner 17 to produce this throw is only some 14 mm.
Landscapes
- Engineering & Computer Science (AREA)
- Structural Engineering (AREA)
- Lock And Its Accessories (AREA)
- Forms Removed On Construction Sites Or Auxiliary Members Thereof (AREA)
Abstract
Description
- This invention relates to locks of the kind in which linear movement of a slide or runner that is coupled to the bolt of the lock is communicated via the coupling to extend or withdraw the bolt according to the direction of runner movement.
- Locks of the above kind in which the runner is mounted to slide parallel to the path of the bolt, are known. Such locks are commonly key operated, necessitating the insertion and turning of a correct key within the lock to bring about the movement of the runner required to extend or withdraw the bolt. The runner normally engages with a tail extending from the head of the bolt so as to draw the bolt along with the runner as the runner moves along its linear path, the bolt being thereby extended or withdrawn according to the sense in which the key is turned.
- The use of a runner in the above way, enables a flexibility in construction and overall dimensioning to be achieved in lock design, as well as, possibly, increased security. But in general it is not readily possible to reduce the depth of the lock in this way. Such depth, measured parallel to the path of movement of the bolt, is dependent on the length and throw of the bolt required, and also on whatever additional space is necessary to accommodate the parallel- moving runner and its coupling to the bolt. Reduction in lock depth is desirable especially in view of the present- day tendency to provide doors and casements with narrower stiles than previously.
- It is one of the objects of the present invention to provide a form of lock that may be utilized to enable significant reduction in lock-depth and other advantages to be achieved.
- According to the present invention a lock in which linear movement of a slide or runner that is coupled to the bolt of the lock is communicated via the coupling to extend or withdraw the bolt according to the direction of runner movement, is characterised in that the line of movement of the runner is transverse to that of the bolt.
- The line of movement of the runner is preferably at right angles to that of the bolt.
- It may be arranged that a part carried with the runner is moved into the withdrawal-path of the bolt under movement of the runner in the direction for extending the bolt, so as to block withdrawal of the bolt while it is extended and until the runner is first moved in the opposite, withdrawal direction; this is of especial advantage for deadlocking the bolt and securing it against forcing. Coupling between the runner and bolt may provide for lost motion between them such that movement of the runner in the direction for withdrawal of the bolt is communicated to the bolt only after the runner has moved sufficiently to clear the said part from the withdrawal-path of the bolt. Such coupling furthermore, may enable the final movement of the runner which while the bolt is fully extended, is required to locate said part in its bolt-locking position.
- The runner and bolt may be coupled together through a bell-crank, and this readily enables the bolt movement to be effected with magnification from the runner movement. Where lost motion as referred to in the preceding paragraph is to be provided, then this may conveniently be provided simply by appropriate configuration of a slot or groove in which the bell-crank engages with the bolt.
- A key-operable lock in accordance with the present invention will now be described, by way of example, with reference to the accompanying drawings, in which:-
- Figure 1 shows the lock in front elevation with its cover-plate removed and bolt extended;
- Figure 2 shows the inside face of the cover-plate of the lock;
- Figure 3 is a rear elevation of the lock with its bolt extended;
- Figure 4 is a part-sectional elevation of the lock, corresponding to Figure 1 and showing more clearly its bolt and runner mechanism;
- Figure 5 is a view from the rear of a barrel-and-curtain element that forms part of the lock;
- Figures 6 are part-sectional elevations of the lock,
- and 7 corresponding to Figure 4 and illustrating successive stages in operation of the lock mechanism during withdrawal and extension of the bolt; and
- Figure 8 is an enlarged view of part of the lock mechanism, illustrating a safety feature of the lock.
- Referring to Figures 1 to 4, the
locking bolt 1 when fully extended to its outward, locked position (shown in Figures 1, 3 and 4) protrudes from theJock casing 2 through arectangular aperture 3 in theforend 4 of the lock. Apeg 5 carried on thebolt 1 within thecasing 2 engages in an elongate recess 6 (Figure 2) in the cover-plate 7 of thecasing 2 for guiding, and also possibly limiting, sliding back and forth through theaperture 3 in withdrawal and extension of thebolt 1. Movements of thebolt 1 are effected by an appropriately-stepped key (not shown) inserted into a key-hole 8 that is open from both sides of the lock through the cover-plate 7 andcasing 2 respectively. The inserted key engages a thrower rib 9 (Figure 5) on the underside of a barrel-and-curtain element 10. Aleaf spring 11 engages anotch 12 ofelement 10 to detain therib 9 normally aligned with the key-hole 8. - Turning of the inserted key in either direction rotates the
element 10 so as to disengage thenotch 12 from thespring 11 and bring the steps of the key-bit into engagement with a stack of five (there may be more, or fewer) spring-biased levers 13 (Figure 1). Thelevers 13, which are resiliently biased byindividual springs 14, are stacked one upon the other on apivot pin 15 that projects through a slot 16 (Figure 4) in arunner 17. Astump 18 of therunner 17 is detained within one or the other of tworacking slots lever 13 in the stack, being detained in theslot 19 when thebolt 1 is in its outward, locked position, and in theslot 20 when thebolt 1 is in its inward, unlocked position. Thestump 18 when so detained precludes movement of therunner 17 until thelevers 13 are lifted appropriately against the action of theirsprings 14, by the turning key. However, unless the key-bit is appropriately stepped, at least one of thelevers 13 will not be lifted the individually-required amount to bring its gating aperture 21 (inter-connecting theslots 19 and 20) into alignment with thestump 18, and movement of therunner 17 will accordingly continue to be precluded. With the correct key, on the other hand, alllevers 13 are lifted just enough to align theirgating apertures 21 with thestump 18 so as to free therunner 17 for sliding longitudinally. Such sliding takes place under the influence of the thrower-rib 9 as this is turned by the key against a talon 22 (identified in Figure 4) formed in therunner 17. The sliding movement of therunner 17 is communicated to thebolt 1 so as to withdraw or extend it in dependence upon the direction in which the key is turned. - The
bolt 1 is withdrawn from its outward, locked position by turning the key in the clockwise sense with respect to Figure 1. The action of the thrower-rib 9 on thetalon 22 in this case slides therunner 17 in the direction to move thestump 18 out of theslot 19 into theslot 20 through thegating aperture 21 of each liftedlever 13. Continued turning of the key to return therib 9 to alignment with the key-hole 8 and allow withdrawal of the key, releases thelevers 13 causing them to spring back to detain thestump 18 in theracking slots 20 and so restrain return movement of therunner 17. Return movement of therunner 17 required to extend thebolt 1 to its outward, locked position, is achieved by turning the key in the opposite, anti-clockwise sense. This lifts levers 13 and again enables thestump 18 to pass through thegating aperture 21 of each lever 13 - in this case from theslot 20 back into the slot 19 - to restore the lock to the condition illustrated in Figure 1. - To the extent that the lock has so far been described in general terms, it is of conventional construction and operation. However in conventional practice the bolt and runner slide along parallel paths whereas in the present case the paths are transverse, or more particularly at right angles, to one another. This has significant advantage in that it enables the depth of the lock to be reduced. But it also allows the bolt to be deadlocked by the runner itself in a very secure way that does not rely on the strength of the stump, the levers or th':. lever pivot, and is better able to resist forcing without damage to the lock. The features of the lock that enable realization of these and other advantages will now be described.
- Referring again especially to Figures 1 and 4, the stack of
levers 13 is located to one side of the key-hole 8 so that therunner 17 slides upwardly when the correct key is turned clockwise and downwardly when the key is turned anti-clockwise. The upward-downward sliding movement of therunner 17 is communicated to thebolt 1 via a bell-crank element 23 that is pivotted by apin 24 which engages a hole 25 (Figure 2) in the cover-plate 7, and which extends via aslot 26 in therunner 17 to engage a corresponding hole 27 (Figure 3) in thecasing 2. Twopegs element 23 engage with therunner 17 andbolt 1 respectively, thepeg 28 being retained within anotch 30 in therunner 17 and thepeg 29 locating within aslot 31 of thebolt 1. Theslot 31 is of a dog-leg configuration having afirst portion 32 formed as an arc of constant radius centred on the pivot-pin 24 to provide for lost motion between therunner 17 andbolt 1, and asecond portion 33 parallel to the line of movement of therunner 17, to draw thebolt 1 back and forth during upward and downward movement respectively, of therunner 17. - The path of movement of the
runner 17 is constrained to a line at right angles to that of thebolt 1, generally by theslots pins peg 34 is carried by a lath-part 35 of therunner 17 that is partially overlapped by thebolt 1 and runs within aslot 36 in thecasing 2. Sliding movement of thebolt 1 across the lath-part 35 is blocked, thereby deadlocking thebolt 1, when the lock is in the locked condition. In the latter respect the lath-part 35 turns up at its end to form ashoulder 37 that runs along therear wall 38 of the casing 2 (thereby aiding thepeg 34 in guiding the runner 17) and projects into the plane of bolt-movement. Theshoulder 37 lies in the withdrawal-path of the extended bolt 1 - as illustrated in Figures 1 and 4 - to lie immediately behind thebolt 1 and in abutment with thewall 38, so as to obstruct withdrawal movement of thebolt 1 until therunner 17 has been moved upwardly a small distance by clockwise turning of the correct key in the lock. - Clockwise turning of the correct key in the lock moves the
runner 17 upwardly from its position illustrated in Figures 1 and 4 under the action of the thrower-rib 9 on thetalon 22. This movement is translated through thepeg 28 retained in thenotch 30, into clockwise turning (with respect to Figures 1 and 4) of the bell-crank element 23 on its pivot-pin 24. Thepeg 29 initially moves along thefirst portion 32 of theslot 31 without moving thebolt 1 from its outward, locked position, until, as illustrated by Figure 6, thesecond portion 33 of theslot 31 is reached. Theshoulder 37 is now clear of the path of thebolt 1, and continued clockwise turning of the key, and consequently of the bell-crank element 23 in response to the further upward movement of therunner 17, causes thebolt 1 to be withdrawn. Thepeg 29 in this respect runs along thesecond portion 33 of theslot 31, drawing thebolt 1, guided by thepeg 5 in therecess 6, back through theaperture 3. Thebolt 1 slides transversely across the lath-part 35 until withdrawal is complete as illustrated in Figure 7. - The action of the bolt mechanism in extending the
bolt 1 from the inward, unlocked position illustrated in Figure 7, is the reverse of that described above. Rotation of the correct key in the anti-clockwise sense draws therunner 17 downward and turns the bell-crank element 23 anti-clockwise. This turning of theelement 23 moves thepeg 29 down thesecond portion 33 of theslot 31, thereby urging thebolt 1 outwardly through theaperture 3. Thebolt 1 is fully extended when thepeg 29 reaches, as illustrated in Figure 6, thefirst portion 32 of theslot 31. The further anti-clockwise rotation of theelement 23 as therunner 17 continues to move downwardly and thepeg 29 runs down theportion 32 of theslot 31 to the position illustrated in Figures 1 and 4, is lost to thebolt 1. The downward movement of therunner 17, however, reintroduces theshoulder 37 between thebolt 1 and therear wall 38 so as to deadlock thebolt 1 once again. - The deadlocking of the
bolt 1 is especially secure in that it is provided by direct abutment of thebolt 1 upon therunner 17 as supported against therear wall 38 of thecasing 2. There is accordingly a very positive and solid block against forcing of thebolt 1, and this is entirely independent of operational items of necessarily-limited strength, such as thestump 18, thelevers 13 and thepivot pin 15. Moreover, theportion 32 of the dog-leg slot 31 is configured to ensure that forcing of thebolt 1 does not act on thepeg 29. In this respect, and as illustrated by Figure 8, the lower end of theportion 32 where thepeg 29 is located while thebolt 1 is deadlocked, is enlarged slightly towards the forend of the lock to form arelief part 39. This ensures that any slight backward movement of thebolt 1 that may occur under forcing before the deadlock-blocking of thebolt 1 becomes fully effective, is not applied to thepeg 29 and is accordingly not transmitted through the bell-crank element 23. Therelief part 39 is of limited extent being in particular restricted to the lower end of theportion 32, so that thebolt 1 is not free to obstruct entry of theshoulder 37 behind it during the final phase of anti-clockwise rotation of the key while the deadlocked condition is being established. - The construction of lock mechanism described above has the added advantage that for any particular bolt-throw, it can in general be accommodated within a smaller depth than achievable using conventional constructions. This is especially noteworthy where the lock is for fitting to a door having a narrow stile. In one example of lock constructed as described, the depth from the outer of the forend to the rear wall of the casing is some 55 mm, accommodating a bolt of some 50 mm in overall length for a throw of some 20 mm. The same could be realised with a casing-depth of only 50 mm if turning of the key through 180° rather than the full 360° were acceptable.
- With the mechanism of the present invention it is readily possible to provide that the throw of the bolt is different from the displacement of the runner. More particularly, the intercoupling of the
runner 17 with thebolt 1 provided by the bell-crank element 23 in the above example, enables.the throw of thebolt 1 to be significantly larger than the displacement of therunner 17 effected by the key. With the example of lock construction as referred to above having a bolt-throw of some 20 mm, the displacement of therunner 17 to produce this throw is only some 14 mm.
Claims (10)
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB4333778 | 1978-11-06 | ||
GB7843337 | 1978-11-06 |
Publications (2)
Publication Number | Publication Date |
---|---|
EP0011424A1 true EP0011424A1 (en) | 1980-05-28 |
EP0011424B1 EP0011424B1 (en) | 1983-05-04 |
Family
ID=10500833
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP79302431A Expired EP0011424B1 (en) | 1978-11-06 | 1979-11-02 | Locks |
Country Status (5)
Country | Link |
---|---|
EP (1) | EP0011424B1 (en) |
AU (1) | AU529533B2 (en) |
DE (1) | DE2965323D1 (en) |
NZ (1) | NZ191919A (en) |
ZA (1) | ZA795692B (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
AU578645B2 (en) * | 1983-12-29 | 1988-11-03 | Firmagroup Australia Pty. Ltd. | Lock |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE1553441B (en) * | D. La Porte Söhne, 5600 Wuppertal-B armen | Drive device in a lock for tall cabinets with a bolt lock | ||
FR1573025A (en) * | 1968-01-29 | 1969-05-27 |
-
1979
- 1979-10-24 NZ NZ191919A patent/NZ191919A/en unknown
- 1979-10-24 ZA ZA00795692A patent/ZA795692B/en unknown
- 1979-10-30 AU AU52329/79A patent/AU529533B2/en not_active Ceased
- 1979-11-02 DE DE7979302431T patent/DE2965323D1/en not_active Expired
- 1979-11-02 EP EP79302431A patent/EP0011424B1/en not_active Expired
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE1553441B (en) * | D. La Porte Söhne, 5600 Wuppertal-B armen | Drive device in a lock for tall cabinets with a bolt lock | ||
FR1573025A (en) * | 1968-01-29 | 1969-05-27 |
Also Published As
Publication number | Publication date |
---|---|
AU529533B2 (en) | 1983-06-09 |
AU5232979A (en) | 1980-05-15 |
EP0011424B1 (en) | 1983-05-04 |
NZ191919A (en) | 1983-07-15 |
ZA795692B (en) | 1980-10-29 |
DE2965323D1 (en) | 1983-06-09 |
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