JP3903408B2 - Locking / unlocking device and operation method thereof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a locking / unlocking device including one thumb turn on the indoor side and two cylinder locks on the outdoor side, and an operation method thereof.
[0002]
[Prior art]
In order to improve crime prevention performance, a so-called one-door two-lock system in which two locks are provided on one door is conventionally employed for the locking / unlocking device. Conventionally, this one-door two-lock system is generally configured to have two cylinders on the outdoor side and two thumb turns on the indoor side, that is, two locking / unlocking devices each functioning independently.
Such a conventional locking / unlocking device can be provided with various locks at the locking location, making it difficult to pry by bar or the like and improving the crime prevention performance.
[0003]
[Problems to be solved by the invention]
However, since the conventional locking and unlocking device described above can be provided with various locks at the locking location, it is strong against prying with a bar or the like, but two thumbturns or two cylinder locks are operated respectively, that is, during locking. The operation must be performed twice at the time of release and at the time of release, which is complicated.
[0004]
The present invention has been made in view of the above circumstances, and can be operated from the outdoor side and from the indoor side to a double-locked state as required, while the locking and unlocking device can perform the unlocking operation with one thumb turn from the indoor side, and its It is an object to provide an operation method, thereby improving security performance and convenience at the same time.
[0005]
[Means for Solving the Problems]
Next, means for solving the above problems will be described with reference to the drawings corresponding to the embodiments.
The locking / unlocking apparatus 1 of the present invention is a locking / unlocking apparatus provided with a lock member that is slidable with respect to a lock box A disposed on the door 3 and is advanced and retracted from the front end surface of the door 3.
A first cylinder lock 5 which is provided on the outdoor side of the lock box A and performs locking and unlocking by advancing and retracting the lock member by an operation with the key 9 from the outdoor side;
An engaging claw 17b coupled to the first cylinder lock 5 and rotating together with the first cylinder lock 5;
An engagement position that faces the engagement claw 17b and engages with the engagement claw 17b, and a non-engagement position that moves backward with respect to the engagement claw 17b and is not engaged with the engagement claw. An engagement piece 35 that is movable between,
Provided on the outdoor side of the lock box A, the engagement piece 35 is moved to the non-engagement position at one slide stop position to make the first cylinder lock 5 rotatable, and the engagement at the other slide stop position. The piece 35 is moved to the engagement position and engaged with the engagement claw 17b to prevent the first cylinder lock 5 from rotating in the unlocking direction, and the engagement claw 17b and the engagement piece 35 are When the engagement state is locked, the engagement piece 35 is moved to a temporarily retracted position where the engagement state between the engagement piece 35 and the engagement claw 17b is released by further sliding from the other slide stop position. Slide board 25 to be
The slide board 25 is moved to the one slide stop position or the other slide stop position by the operation by the key 9 provided on the outdoor side of the lock box A, and the other slide stop is stopped. A second cylinder lock 7 for moving the slide board 25 further from the position;
A thumb turn 45 that is provided on the indoor side of the lock box A and performs locking and unlocking by moving the locking member forward and backward by a rotation operation from the indoor side;
A rotary operation piece 47 provided on the indoor side of the lock box A and linked to the second cylinder lock 7 to move the slide board 25 to the one slide stop position or the other slide stop position; ,
It is characterized by comprising.
[0006]
The operation method of the locking / unlocking apparatus 1 according to the present invention is that the locking / unlocking apparatus includes a lock member that is slidable with respect to the lock box A disposed on the door 3 and that is advanced and retracted from the front end surface of the door 3. In operation method,
An operation of rotating the first cylinder lock 5 with the key 9 from the outdoor side to lock the locking member so as to protrude;
An operation of reversing the lock member by rotating the first cylinder lock 5 with the key 9 from the outdoor side;
A single lock state in which the lock operation and the unlock operation by the key 9 of the first cylinder lock 5 can be freely performed by rotating the second cylinder lock 7 in one direction with the key 9 from the outdoor side. And the operation
A double-lock state in which the unlocking operation after the locking operation by the key 9 of the first cylinder lock 5 is disabled by rotating the second cylinder lock 7 in the other direction with the key 9 from the outdoor side And the operation
The locking operation and the unlocking operation by the key 9 of the first cylinder lock 5 can be freely performed by rotating the rotation operation piece 47 linked to the second cylinder lock 7 in one direction from the indoor side. The single lock operation to
The unlocking operation after the locking operation by the key 9 of the first cylinder lock 5 is made impossible by rotating the rotation operation piece 47 linked to the second cylinder lock 7 in the other direction from the indoor side. An operation to make a double lock state,
For unlocking from the outdoor side in the double-locked state, the second cylinder lock 7 is further rotated in the same direction as the double-locking rotation direction with the key 9 to make the first cylinder lock 5 After releasing the key inoperable state, the first cylinder lock 5 is operated to rotate with the key 9 and the lock member is moved backward to unlock, or to unlock from the indoor side in the double lock state. , An operation of retracting and unlocking the lock member only by a rotation operation of the thumb turn 45;
It is characterized by including.
[0007]
In addition, cancellation | release of the key operation impossible state of the said 1st cylinder lock 5 by the said 2nd cylinder lock 7 is enabled only once, and the rotation operation which unlocks | releases this 1st cylinder lock 5 is performed after that. After the rotation operation of the first cylinder lock 5 in the locking direction, the double lock state in which the rotation operation in the unlocking direction is disabled may be set.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of a locking / unlocking device and an operation method thereof according to the invention will be described in detail with reference to the drawings.
1 is a longitudinal sectional view of a locking / unlocking device according to the present invention, FIG. 2 is a front view of the pedestal unit of FIG. 1 viewed from the indoor side, FIG. 3 is a view taken along the line II in FIG. It is a principal part disassembled perspective view of a locking device.
[0009]
As shown in FIG. 1, the locking / unlocking device 1 includes a lock box A disposed on the door 3, a pedestal unit C attached to the lock box A on the outdoor side, and a lock box A on the indoor side. It is roughly divided into the thumb turn unit D to be attached.
[0010]
The lock box A is built in, for example, an end portion of the door 3, and a front plate (not shown) fixed to the lock box A is attached to the door 3 so as to be exposed at the mouth (front end surface) of the door 3. A lock member (not shown) is built in the lock box A. This lock member is slid with respect to the lock box A by an operation of a first cylinder lock 5 and a thumb turn 45 described later, and is advanced and retracted from the front plate of the door 3. That is, the door frame can be locked and unlocked. Here, a description of the specific mechanism is omitted.
[0011]
The lock member includes a guard bolt that locks on a guard arm attached to the door frame side and works in the same way as a door chain, a dead bolt that serves as a main locking means, and an arc-shaped movable locus that projects. And a lock means for engaging with the door frame by moving back and forth from the upper end surface or the lower end surface of the door 3.
[0012]
The pedestal unit C is provided with a first cylinder lock 5 and a second cylinder lock 7 at the top and bottom. The first and second cylinder locks 5 and 7 have the insertion port of the key 9 shown in FIG. 4 exposed to the outdoor side, while the rotating shafts 11 and 13 of FIG. Is protruding. The first and second cylinder locks 5 and 7 are rotated by the same key 9.
[0013]
The key 9 includes an owner key 9 and a consky (not shown), for example. The consky is shorter and has a smaller number of concave and convex grooves (key grooves) 9 a than the owner key 9. The consky is used for closing the door during construction during the construction period before delivery of the building. When the owner key 9 is used after delivery of the building, this consky is unusable for unlocking because a cylinder that cannot be handled with a small number of key grooves is operated.
[0014]
The connection dharma 15 is fitted to the rotation shaft 11 of the first cylinder lock 5 so as not to be relatively rotatable, and the connection dharma 15 rotates integrally with the rotation shaft 11. As shown in FIG. 5, the connection dharma 15 is provided with a protruding plate 15a protruding in the axial direction and an engaging protrusion 15b protruding in a pair on the outer peripheral surface. The first cylinder lock 5 has a protruding plate 15a protruding into the lock box A, and the protruding plate 15a rotated by the rotating shaft 11 allows the locking member to be moved back and forth from the lock box A via the mechanism in the lock box A. Yes.
[0015]
A ratchet gear 17 is fitted on the outer periphery of the connection dharma 15. As shown in FIG. 6, the ratchet gear 17 is formed in a substantially ring shape, a pair of convex portions 17 a and 17 a that protrude in the center direction and face each other in the hole portion 17 c, and an engagement claw 17 b that protrudes radially on the outer peripheral surface. And click teeth 17d. The engaging claws 17b and the click teeth 17d are formed in a substantially plate shape by being slightly thinner than the thickness of the ratchet gear body. Further, in the present embodiment, a pair of engaging claws 17b project from the center at an interval of 45 °, and the click teeth 17d are formed with three recesses at an interval of 45 ° with respect to the center.
[0016]
In the ratchet gear 17, the pair of engaging projections 15b and 15b of the connection dharma 15 are positioned between the pair of convex portions 17a and 17a of the hole portion 17c, respectively, and the projection plate 15a is inserted into the hole portion 17c. The engagement protrusions 15b and 15b are rotatable relative to each other and are interlocked with the first cylinder lock 5.
[0017]
A reset gear 18 is fitted on the outer periphery of the ratchet gear 17 so as to be relatively rotatable. As shown in FIG. 7, the reset gear 18 has a substantially disk shape, and has a hole 18 a through which the projection plate 15 a of the connection dharma 15 passes, and a pair of recesses 18 b that are continuous with the hole 18. The A pair of reset claws 18 c projecting in the radial direction is provided on the outer peripheral edge of the reset gear 18.
The reset gear 18 does not interlock with the rotation of the first cylinder lock 5 but rotates with respect to the connecting dharma 15 in conjunction with the rotation of a shaft 45b of the thumb turn 45 described later.
[0018]
A switching dharma 19 is fitted to the rotation shaft 13 of the second cylinder lock 7 so as not to be relatively rotatable, and the switching dharma 19 rotates integrally with the rotation shaft 13. As shown in FIG. 8, the switching dharma 19 is provided with a cam plate 19 a that protrudes in the diameter direction from the circumference. The cam plate 19a is provided with a connecting projection 19b protruding in the same direction as the axis of the switching dharma 19 and a spring pin 19c. Further, a groove-like fitting recess 19d is formed in the axial center of the end portion on the indoor side opposite to the end portion to which the second cylinder lock 7 is fitted.
[0019]
The pedestal unit C has a recess 21 shown in FIG. The connecting dharma 15, the ratchet gear 17, the reset gear 18, and the switching dharma 19 are disposed in the recess 21.
[0020]
In the recess 21, as shown in FIG. 2, the click plate 16 is disposed on the side portion adjacent to the connecting dharma 15, ratchet gear 17, and reset gear 18 in the upper portion where the first cylinder lock 5 is disposed. The As shown in FIG. 9, the click plate 16 has a shaft hole 16 a penetrating at the upper end, and has a hook-shaped click claw 16 b protruding sideways at the lower end. A support shaft 23 is passed through the shaft hole 16a, and the click claw 16b at the tip is swingably mounted in the recess 21. The click plate 16 is provided with a click plate spring 24 formed of a torsion coil spring that is wound around the support shaft 23 and has one end on the side wall of the recess 21 and the other end on the latching piece 16 of the click plate 16. . As shown in FIG. 2, the click claw 16 b of the click plate 16 abuts on the click teeth 17 d of the ratchet gear 17, and when the ratchet gear 17 rotates, the click plate 16 is fitted into the recess of the click teeth 17 d. In the rotation operation of the ratchet gear 17, a click feeling is generated every 45 °.
[0021]
A slide board 25 is provided along the bottom surface in the recess 21 and between this bottom surface and the cam plate 19a of the switching dharma 19 fitted to the second cylinder lock 7, as shown in FIGS. ing. The slide board 25 is slidably contacted with the inner side wall of the recess 21 and is slidable in the vertical direction (the vertical direction in FIG. 2) by the recess 21. In this specification, the slide stop position above the slide board 25 (position shown in FIG. 19) is one slide stop position, and the slide stop position below the slide board 25 (position shown in FIG. 2). This is called the other slide stop position.
[0022]
As shown in FIG. 10, the slide board 25 is formed in a substantially inverted L shape, and a relief portion 25 a along the outer peripheral edge of the connection dharma 15 is cut out in the upper side portion. A click shaft loose fitting groove 25b is cut out at the lower center of the escape portion 25a. A central notch 25 d is cut out along the circumference of the switching dharma 19 at the lower side of the slide board 25. A groove 25e is cut out to the left of the central cutout 25d. In addition, the slide board 25 is provided with a rectangular through hole 25f that is slightly long in the vertical direction and a hook-like protrusion 25g that protrudes from the plate surface in parallel on the right side of the upper side. Inclined surfaces 25h and 25j are formed on the upper and lower edges of the through hole 25f.
[0023]
The slide board 25 is loosely fitted with the connecting projection 19 of the switching dharma 19 in the groove 25e, and the click shaft loose fitting groove 25b is loosely fitted with a cylindrical click shaft 29 standing at the center of the recess 21. Slides up and down in conjunction with the rotation. One end of the click spring 31 shown in FIG. 2 is supported on the spring pin 19 c of the switching dharma 19, and the other end of the click spring 31 is supported on the click shaft 29. That is, the click spring 31 is disposed between the pedestal unit C and the switching dharma 19, and biases the slide board 25 to one slide stop position or the other slide stop position via the switch dharma 19. It is like that.
[0024]
As shown in FIG. 2, a pusher 27 is disposed at the lower part of the second cylinder lock 7 in the recess 21. As shown in FIG. 11, the pusher 27 has a through hole 27a at the base end and a plate-like pressing support portion 27b at the tip. The pusher 27 is mounted in the recess 21 with the mounting pillar 33 passing through the through hole 27a at the base end. A pressing spring 34 is wound around the mounting column 33, and one end contacts the side wall of the recess 21, and the other end contacts the lower surface of the pressing support portion 27 b of the pusher 27. The pusher 27 is swingable with respect to the mounting column 33, and the pressing support portion 27 b at the tip comes into contact with the lower edge of the slide board 25 by the urging force of the pressing spring 34. The pusher 27 is set so that the pressing support portion 27b does not rotate upward from the horizontal position by a regulation step portion 21a formed in the recess 21.
[0025]
As shown in FIG. 2, a ratchet arm 35 as an engagement piece is disposed along the plate surface of the slide board 25, substantially parallel to the slide board 25, and positioned on the side of the switching dharma 19. As shown in FIG. 12, the ratchet arm 35 is formed in a substantially strip-like shape that is long in the vertical direction. A through hole 35a is formed in a base portion that is a lower end, and a distal end that is an upper end is an engaging portion 35b. . A locking projection 35c is provided on the plate surface in the middle portion, a switching spring 36 made of a coil spring is attached, and a guide projection 35d protruding in the direction of the slide board 25 is formed in the middle of the upper half. Further, a guide piece 35e is projected from the front plate surface. As shown in FIG. 2, the ratchet arm 35 has a through hole 35 a penetrating a swing support shaft 37 erected in the recess 21 and is disposed in the recess 21. The intermediate portion extends and becomes parallel to the slide board 25, and the engaging portion 35 b at the tip approaches the ratchet gear 17. A ratchet spring 38 is wound around the swing support shaft 37, one end of the ratchet spring 38 abuts on the side wall of the recess 21, and the other end is hooked on the locking groove 35 f of the ratchet arm 35, thereby engaging the engagement portion at the tip. 35b is always urged in the direction in which the ratchet gear 17 abuts. Further, the guide protrusion 35d of the ratchet arm 35 is fitted into the through hole 25f of the slide board 25 when the double lock state is established (see FIG. 3). The switching spring 36 is located between the ratchet arm 35 and the cover plate 39, and always biases the ratchet arm 35 toward the bottom surface of the recess 21 with respect to the cover plate 39.
That is, when the engaging portion 35b of the ratchet arm 35 and the engaging claw 17b of the ratchet gear 17 are in the engaged state, the first cylinder lock 5 is prevented from rotating in the unlocking direction, and the engaging portion 35b When the engaging claw 17b is not engaged, the first cylinder lock 5 is rotatable.
[0026]
In the operation of the ratchet gear 35, both the ratchet spring 38 and the switching spring 36 exert an urging force, and the engagement portion 35b at the tip moves on the movement locus of the engagement claw 17b of the ratchet gear 17. The engagement position 35b is set to the engagement position, and the engagement portion 35b at the tip is retracted from the movement locus of the engagement claw 17b of the ratchet gear 17 against the urging force of both the ratchet spring 38 and the switching spring 36. The position where the engaging claw 17b is not engaged is a non-engaging position, and both the ratchet spring 38 and the switching spring 36 have a biasing force. A position that deviates from the movement locus of the engaging claw 17b and contacts the outer peripheral surface of the ratchet gear 17 and does not engage with the engaging claw 17b is referred to as a temporary retracted position.
[0027]
The recess 21 in which the connecting dharma 15, the ratchet gear 17, the reset gear 18, the switching dharma 19, the click plate 16, the bottom plate 23, the slide board 25, the pusher 27, and the ratchet arm 35 are accommodated is covered with a cover plate 39 shown in FIG. Can be removed. The cover plate 39 has an upper hole 39a that exposes the connection dharma 15, the ratchet gear 17, and the reset gear 18, a lower hole 39b that exposes the switching dharma 19, a fixing hole 39c that matches the hollow hole of the click shaft 29, A mounting hole 39d and an insertion hole 39e through which the mounting column 33 passes are formed. As shown in FIG. 1, the cover plate 39 is fixed to the pedestal unit C by a countersunk screw inserted through the fixing hole 39c and a screw inserted through the mounting hole 39d.
The upper hole 39a is provided with a slit-shaped escape hole 39f as shown in FIG. The escape hole 39f can be fitted with a guide piece 35e at the tip of the ratchet arm 35.
[0028]
As shown in FIG. 1, a thumb turn 45 that exposes the knob 45a on the indoor side is rotatably provided on the upper portion of the thumb turn unit D. A shaft 45b protruding into the lock box A is fixed to the knob 45a of the thumb turn 45. The shaft portion 45b is coaxial with the first cylinder lock 5. By rotating the thumb turn 45, the mechanism part in the lock box A is operated via the shaft part 45b, and the lock member is advanced and retracted from the front plate of the door 3, thereby enabling locking and unlocking. Further, the rotation in the unlocking direction of the shaft 45b is transmitted to the reset gear 18 via the mechanism in the lock box A.
[0029]
Further, as shown in FIGS. 1 and 4, a rotation operation piece 47 that exposes the groove button 48 on the indoor side is rotatably provided below the thumb turn unit D. In the rotary operation piece 47, a key bar 49 that penetrates through the lock box A and extends to the base unit A is fixed to the groove button 48. The key bar 49 is coaxial with the second cylinder lock 7. The end of the key bar 49 is fitted into the fitting recess 19d of the switching dharma 19 and the rotation is interlocked. The rotation operation piece 47 rotates the groove button 48 to rotate the switching dharma 19 via the key bar 49 so that the single lock state and the double lock state can be operated from the indoor side.
[0030]
Next, the operation of the locking / unlocking device 1 configured as described above will be described.
[Operations from the indoor side]
As for the unlocking operation by the thumb turn 45, the guard locking state is obtained by rotating 45 ° (see FIG. 15), the locking operation is performed by rotating 90 ° in the same direction, and the unlocking operation is performed by rotating 90 ° in the opposite direction (see FIGS. ). The thumb turn 45 can be operated regardless of the single lock or double lock state of the first cylinder lock 5 and the second cylinder lock 7 (outdoor cylinder) by the key 9 from the outdoor side.
[0031]
Further, the operation by the key 9 of the first cylinder lock 5 and the second cylinder lock 7 on the outdoor side is switched to the single lock state or the double lock state by operating the groove button 48 of the rotary operation piece 47. The switching operation of the locked state by the groove button 48 can be performed in any of the unlocked state, the guard locked state, and the locked state. That is, it is possible to switch from the indoor side to the double-locked state by an operation with the key 9 from the outdoor side, for example, even in the single-locked state. In the present embodiment, when the groove 48a of the groove button 48 is in a horizontal state, a double-locked state (see FIG. 18), and a state inclined by 45 ° represents a single-locked state (see FIG. 20). It is easy to see.
[0032]
The rotation operation of the thumb turn 45 on the indoor side also causes the reset gear 18 to rotate, and the reset claw 18c provided on the reset gear 18 rotates. The reset claw 18c can be brought into contact with a guide piece 35e of the ratchet arm 35 at the time of double lock, which will be described later. It is supposed to be.
[0033]
[Operations from outside]
1. Double lock: A mechanism that requires two operations of locking and unlocking (security-oriented type)
(I) First, when the second cylinder lock 7 is rotated 45 degrees from the horizontal state in the counterclockwise direction in FIG. At this time, the groove button 48 on the indoor side has the groove 48a in a horizontal state.
By operating the second cylinder lock 7, in the locking / unlocking device 1, as shown in FIG. 14, the slide board 25 is positioned below the recess 21 that is the other slide stop position. In this double-locked state, the guide protrusion 35d of the ratchet arm 35 is fitted into the through hole 25f of the slide board 25 (see FIG. 14C), and the switching spring 36 is urged in this fitted state, whereby the ratchet arm The engagement portion 35b at the tip of the 35 is located at an engagement position on the rotation trajectory of the engagement claw 17b of the ratchet gear 17 (see FIG. 14B). 17 is prevented, that is, the first cylinder lock 5 is prevented from rotating in the unlocking direction. Thereby, the unlocking operation of the first cylinder lock 5 cannot be performed.
The operation of the second cylinder lock 7 is performed regardless of whether the first cylinder lock 5 is in the locked state (see FIG. 14), the guard locked state (see FIG. 15), or the unlocked state (see FIG. 22). It is possible.
[0034]
If the first cylinder lock 5 is in the locked state and is in the double-locked state by the above operation, it will be engaged with one engaging claw 17b of the ratchet gear 17 as shown in FIG. Further, when the first cylinder lock 5 side is in the guard lock state and the double lock state is established by the above operation, as shown in FIG. 15, the ratchet gear 17 is rotated by 45 °, and the other engagement claw 17b Will be engaged. Furthermore, when the first cylinder lock 5 is in an unlocked state and is in a double-locked state by the above operation, each engagement claw 17b of the ratchet gear 17 is engaged with the tip of the ratchet arm 35 as shown in FIG. Although it is located below the portion 35b, by engaging the first cylinder lock 5 with the key 9, the engaging claw 17b of the ratchet gear 17 passes against the biasing force of the ratchet spring 38 of the ratchet arm 35. Thereafter, the engaging claw 17b is engaged with the engaging portion 35b.
In order to remove the key 9 from the second cylinder lock 7, the key 9 is returned to the horizontal state.
[0035]
(Ii) In the unlocking operation from the double-locked state, first, the second cylinder lock 7 is rotated from the horizontal state by 45 ° in the same direction as described above and further rotated by about 10.5 ° (reverse in FIG. 16). Clockwise). Then, the slide board 25 is slid further downward from the other slide stop position (lower in the figure) shown in FIG. At this time, the slide board 25 is counterclockwise in FIG. 16 from the state where the lower edge is supported by the pusher 27 and stopped at the other slide stop position against the urging force of the pressing spring 34 of the pusher 27. The pusher 27 is swung in the direction. At the same time, by the downward movement of the slide board 25, the ratchet arm 35 causes the guide projection 35d to slidably contact the inclined surface 25h of the upper edge of the through hole 25f of the slide board 25, and the guide projection 35d is moved to the plate surface of the slide board 25. It moves upward and swings toward the cover plate 39 against the biasing force of the switching spring 36 (see FIGS. 16B and 16C). As a result, as shown in FIG. 17, the engaging portion 35b of the ratchet arm 35 retracts toward the cover plate 39 with respect to the engaging claw 17b of the ratchet gear 17 and moves to the temporary retracted position to engage each other. The state is released and the locked state of the first cylinder lock 5 is released. In this state, the engaging portion 35b at the tip of the ratchet arm 35 comes into contact with the side surface of the engaging claw 17b and the outer peripheral surface of the ratchet gear 17 as shown in FIGS.
Thereafter, in order to remove the key 9 from the second cylinder lock 7, the rotation is returned to the horizontal state, and the slide board 25 is returned to the other slide stop position by the pusher 27.
[0036]
(Iii) Accordingly, by the operation of (ii), the ratchet gear 17 is not restricted from the ratchet arm 35 by the operation of (ii), and the unlocking operation can be performed. The lock 5 is unlocked by rotating it (22 clockwise in the figure). The rotation of the first cylinder lock 5 in the unlocking direction is 90 °.
[0037]
(Iv) When the first cylinder lock 5 is unlocked with the key 9 by the operations (ii) and (iii), the ratchet gear 17 is moved in the same direction (clockwise in FIG. 22) together with the first cylinder lock 5. Rotate. As a result, the engaging claw 17b of the ratchet gear 17 moves, and the engaging portion 35b at the tip of the ratchet arm 35 slides on the side surface of the engaging claw 17b, but the ratchet is passed through the end of the engaging claw 17b. The arm 35 moves the outer peripheral surface of the ratchet gear 35 to the upper position of the engagement claw 17b, that is, to the engagement position by the urging force of the switching spring 36.
This is the unlocked state of the first cylinder lock 5 described above, and is a double-locked state (see FIG. 14).
[0038]
(V) Accordingly, when the first cylinder lock 5 is again locked by rotating the key 9, the ratchet gear 17 rotates and engages with the ratchet arm 35, and the first cylinder lock 5 is disengaged. Lock operation becomes impossible. That is, in order to unlock, the above operation (ii) is performed again.
[0039]
2. Single lock: A mechanism that can be unlocked with one operation (operability-oriented type)
(I) When the second cylinder lock 7 is rotated 45 degrees in the clockwise direction in FIG. At this time, the groove button 48 on the indoor side is in a state where the groove 48a is inclined by 45 °.
By operating the second cylinder lock 7, the locking / unlocking device 1 causes the slide board 25 to move upward in the recess 21, which is one of the slide stop positions, as shown in FIG. It becomes. In this single lock state, as shown in FIG. 19 (c), the guide protrusion 35 d of the ratchet arm 35 slidably contacts the inclined surface 25 j of the lower edge of the through hole 25 f of the slide board 25, and this guide protrusion 35 d is connected to the slide board 25. The plate is moved onto the plate surface and is swung toward the cover plate 39 against the urging force of the switching spring 36 (see FIG. 19B). Further, the guide projection 35d on the slide board 25 abuts against the hook-like projection 25g of the slide board 25, and the ratchet arm 35 is moved in the proximity to the ratchet gear 17 against the urging force of the ratchet spring 38. Reduce movement. As a result, the engaging portion 35b of the ratchet arm 35 is retracted with respect to the engaging claw 17b of the ratchet gear 17, and is brought into a non-engaging position where they are not engaged with each other, and the first cylinder lock 5 is not locked. The operation with the key 9 is the same as a normal one-cylinder lock. That is, only the first cylinder lock 5 is locked and unlocked without operating the second cylinder lock 7 (see FIG. 21).
[0040]
(Ii) In this single lock state, the switching dharma 19 is held in a state where it is inclined 45 ° by the urging force of the click spring 31, and one slide stop position of the slide board 25 is maintained. As long as the second cylinder lock 7 is not operated by the key 9 or the groove button 48 from the indoor side, the single lock state is maintained.
[0041]
The switching operation of the second cylinder lock 7 between the single lock state and the double lock state is the same as the switching operation by the operation of the indoor groove button 48 described above. Any of these states is possible.
[0042]
Thus, in the above-described locking / unlocking device 1, when the second cylinder lock 7 is operated with the key 9 during operation from the outdoor side, the single lock state and the double lock state are switched. In the case of the single lock state, locking / unlocking can be performed by key operation of only the first cylinder lock 5, that is, the locking / unlocking device is the same as that of a normal one cylinder lock. Further, when the double lock state is established, the engagement claw 17b of the ratchet gear 17 and the engagement portion 35b of the ratchet arm 35 are engaged with each other, thereby preventing the rotation of the first cylinder lock 5. The unlocking operation by the key 9 of the first cylinder lock 5 becomes impossible.
[0043]
In order to unlock the locking / unlocking device 1 in the double-locked state from the outdoor side, the second cylinder lock 7 is operated with the key 9 to release the rotation preventing state of the first cylinder lock 5. That is, it is performed by releasing the engagement state between the engagement claw 17b of the ratchet gear 17 and the engagement portion 35b of the ratchet arm 35. The operation of releasing the double lock state is performed by operating the key 9 from the outdoor side to move the engaging portion 35b to the temporary retracted position. By performing the locking operation, the engagement position 35b is moved again to the engagement position where the engagement portion 35b is engaged with the engagement claw 17b, and the double lock state is maintained. In other words, the second cylinder The unlocking operation in the double-locked state in which the lock 7 is operated is a mode for unlocking only once.
[0044]
On the other hand, in order to unlock the locking / unlocking device 1 in the double lock state from the indoor side, the thumb turn 45 is rotated. Further, the switching operation is performed by the groove button 48 of the rotary operation piece 47 that is interlocked and connected to the second cylinder lock 7 between the double lock state and the single lock state.
[0045]
Therefore, according to this locking / unlocking device 1, it is possible to switch from the indoor side to the double-locked state and the single-locked state as required, and the locking / unlocking operation can be performed with one thumb turn. The operation can be switched between the state and the single lock state, and in the double lock state, the unlocking operation can be set to a one-time operation, and the improvement of the crime prevention performance and the convenience can be achieved at the same time.
[0046]
【The invention's effect】
As described above in detail, the locking / unlocking device according to the present invention can be switched between the single lock state and the double lock state by operating the second cylinder lock with the key from the outdoor side. In the case of the single lock state, locking / unlocking can be performed by key operation of only the first cylinder lock, that is, the locking / unlocking device is the same as that of a normal one-cylinder lock. Further, when the double lock state is established, the engagement claw and the engagement piece engage with each other, so that the rotation of the first cylinder lock is prevented, and the unlocking operation by the key of the first cylinder lock is performed. Is impossible.
[0047]
In order to unlock the locking / unlocking device in the double-locked state from the outdoor side, the second cylinder lock is operated with a key, and the rotation preventing state of the first cylinder lock is released. In other words, the engagement state between the engagement claw and the engagement piece is released, and the release operation is performed by rotating the second cylinder lock with the key from the outdoor side to move the engagement piece to the temporary retracted position. It is done by moving. The temporary retracted position is moved to the engaged position again, that is, to the engaged position where the engaging piece engages with the engaging claw by holding the first cylinder lock thereafter, and the double lock state is maintained. In other words, the unlocking operation in the double-locked state in which the second cylinder lock is operated is a state in which the unlocking can be performed only once, and the crime prevention property is improved.
[0048]
On the other hand, in order to unlock the locking / unlocking device in the double lock state from the indoor side, the rotation operation of the thumb turn is performed, and the double lock state and the single lock state are linked to the second cylinder lock. It is possible to perform a switching operation with one piece.
[0049]
Therefore, according to this locking / unlocking device and its operation method, it is possible to switch from the indoor side to the double-locked state and the single-locked state as necessary, and it is possible to perform the locking / unlocking operation with one thumb turn, even from the outdoor side. Can be switched between the double lock state and the single lock state, and in the double lock state, it can be set to an operation that can be unlocked only once from the outdoor side, improving crime prevention performance and convenience at the same time. Will be able to.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a locking / unlocking device according to the present invention.
FIG. 2 is a front view of the pedestal unit of FIG. 1 viewed from the indoor side.
FIG. 3 is a view taken along the line II in FIG. 2;
FIG. 4 is an exploded perspective view of the locking / unlocking device.
FIG. 5 is an enlarged perspective view of a connection dharma.
FIG. 6 is an enlarged perspective view of a ratchet gear.
FIG. 7 is an enlarged perspective view of a reset gear.
FIG. 8 is an enlarged perspective view of a switching dharma.
FIG. 9 is an enlarged perspective view of a click plate.
FIG. 10 is an enlarged perspective view of a slide board.
FIG. 11 is an enlarged perspective view of a pusher.
FIG. 12 is an enlarged perspective view of an engagement piece (ratchet arm).
FIG. 13 is an enlarged perspective view of a cover plate.
FIG. 14 (a) is a longitudinal sectional view of the locking / unlocking device according to the present invention in a double-lock locked state.
(B) It is an identical part enlarged plan view.
(C) It is an identical part enlarged side view.
FIG. 15 is a longitudinal sectional view of the locking / unlocking device according to the present invention in a guard locking state.
FIG. 16 (a) is a longitudinal sectional view of the locking / unlocking device according to the present invention in a double lock single unlocking operation state.
(B) It is an identical part enlarged plan view.
(C) It is an identical part enlarged side view.
FIG. 17 (a) is a longitudinal sectional view of the locking / unlocking device according to the present invention when the double lock can be unlocked once.
(B) It is an identical part enlarged plan view.
(C) It is an identical part enlarged side view.
FIG. 18 is a longitudinal sectional view of the locking / unlocking device according to the present invention in a double-lock unlocked state during a thumb turn operation.
FIG. 19 (a) is a longitudinal sectional view of the locking / unlocking device according to the present invention in a single lock locking state.
(B) It is an identical part enlarged plan view.
(C) It is an identical part enlarged side view.
FIG. 20 is a longitudinal sectional view of the locking / unlocking device according to the present invention in a single-lock unlocking state during a thumb turn operation.
FIG. 21 is a longitudinal sectional view of the locking / unlocking device according to the present invention in a single-lock unlocked state during cylinder operation.
FIG. 22 is a longitudinal sectional view of the locking / unlocking device according to the present invention in a double-lock unlocked state when the cylinder is operated.
[Explanation of symbols]
1 ... Locking and unlocking device
3 ... door
5 ... 1st cylinder lock
7 ... Second cylinder lock
9 ... Key
17b ... engaging claw
25 ... Slide board
35 ... engagement piece (ratchet arm)
45 ... Sam Turn
47 ... Rotation operation piece
A ... Lock box

Claims (3)

In a locking / unlocking device provided with a lock member that is slidable with respect to a lock box disposed on the door and is advanced and retracted from the front end surface of the door,
A first cylinder lock which is provided on the outdoor side of the lock box and performs locking and unlocking by advancing and retracting the lock member by an operation with a key from the outdoor side;
An engaging claw that is linked to the first cylinder lock and rotates together with the first cylinder lock;
Move between an engagement position that faces the engagement claw and engages with the engagement claw, and a non-engagement position that moves backward with respect to the engagement claw and does not engage with the engagement claw An engagement piece which is made freely;
Provided on the outdoor side of the lock box, the engagement piece is moved to the non-engagement position at one slide stop position so that the first cylinder lock can be rotated, and the engagement piece is moved at the other slide stop position. At the time of locking in which the engagement claw and the engagement piece are brought into the engaged state while being moved to the engagement position and engaged with the engagement claw to prevent the rotation of the first cylinder lock in the unlocking direction. A slide board that moves the engagement piece to a temporary retracted position that releases the engagement state between the engagement piece and the engagement claw by further sliding from the other slide stop position at
The slide board is moved to the one slide stop position or the other slide stop position by an operation with the key provided on the outdoor side of the lock box, and further from the other slide stop position. A second cylinder lock for moving the slide board;
A thumb turn which is provided on the indoor side of the lock box and performs locking and unlocking by moving the lock member forward and backward by a rotation operation from the indoor side;
A rotary operation piece provided on the indoor side of the lock box and linked to the second cylinder lock to move the slide board to the one slide stop position or the other slide stop position;
And a locking / unlocking device. In the operation method of the locking / unlocking device provided with the lock member that is slidably provided with respect to the lock box disposed on the door and is advanced and retracted from the front end surface of the door,
An operation to lock the first cylinder lock from the outdoor side by rotating the first cylinder lock with a key, and projecting the lock member;
An operation of reversing the lock member by rotating the first cylinder lock with the key from the outdoor side,
An operation for making the lock operation and the unlock operation with the key of the first cylinder lock into a single lock state by rotating the second cylinder lock in one direction with the key from the outdoor side; ,
An operation to make the unlocking operation after the locking operation by the key of the first cylinder lock impossible to perform the double lock state by rotating the second cylinder lock in the other direction with the key from the outdoor side; ,
A single lock that allows the locking operation and the unlocking operation with the key of the first cylinder lock to be freely performed by rotating the rotation operation piece linked to the second cylinder lock in one direction from the indoor side. An operation to make a state,
A double-lock state in which the unlocking operation after the locking operation by the key of the first cylinder lock is disabled by rotating the rotation operation piece linked to the second cylinder lock in the other direction from the indoor side And the operation
For unlocking from the outdoor side in the double-locked state, the second cylinder lock is further rotated in the same direction as the double-locking direction with the key, and the first cylinder lock cannot be operated. After releasing the state, the rotation of the first cylinder lock is operated with the key and the lock member is moved backward to unlock, or the unlocking from the indoor side in the double lock state is the rotation operation of the thumb turn. An operation of retracting and unlocking the lock member only by,
The operation method of the locking / unlocking apparatus characterized by including. Release of the inoperable state of the first cylinder lock by the second cylinder lock is enabled only once for the rotation operation for unlocking the first cylinder lock, and the first cylinder lock to be performed thereafter is released. 3. The operation method of the locking / unlocking device according to claim 2, wherein after the rotation operation in the locking direction, the double-lock state is set to disable the rotation operation in the unlocking direction.

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