JP2006152773A - Thumb turn device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a thumb turn device preventing the rotation of a thumb turn. <P>SOLUTION: The thumb turn device has a thumb-turn drum 85 held to a lock case 2, a thumb-turn shaft 12 being inserted into the hole 86 of the thumb-turn drum 85 and forward moving and retreating a dead bolt 3 by a rotary operation and a knob holder 35 mounted on the thumb-turn shaft 12 relatively rotatably. The thumb turn device further has a knob 60 being housed in the knob holder 35 and being capable of being engaged or disengaged with or from the thumb-turn shaft 12. A projecting section 70 is formed to the knob 60, and a recessed groove 18 is formed to the thumb-turn shaft 12. The knob 60 and the thumb-turn shaft 12 are engaged by pushing the knob 60 to the inside in the radial direction of the thumb-turn shaft 12 while pushing the knob 60 to the front end side in the axial direction, and the thumb turn device can be locked or unlocked. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a door lock thumb-turn device that can prevent unauthorized unlocking.

  A so-called thumb turn is known as one of the unauthorized unlocking actions of front doors of detached houses and condominiums. This is the direction of unlocking the thumb turn device knob that is attached to the room interior by inserting a wire or string into the gap between the door and door frame (so-called dust) or a hole in the door. , And the deadbolt is retracted to unlock it illegally.

  The present invention has been made in view of the above circumstances, and a main object thereof is to provide a thumb turn device that effectively prevents so-called thumb turn.

  In order to achieve the above object, a thumb turn device according to the present invention includes a thumb turn shaft for moving a dead bolt forward / backward by a rotational operation, and a knob which can be engaged with and disengaged from the thumb turn shaft and which rotates the thumb turn shaft by engaging with the thumb turn shaft. The knob is biased toward the proximal end side of the thumb turn shaft so as to release the engagement with the thumb turn shaft, and is biased radially outward of the thumb turn shaft. The knob is pushed inward in the radial direction with respect to the thumb turn shaft, and is pushed into the tip end side in the axial direction so that the knob is engaged with the thumb turn shaft.

  Preferably, in addition to the above configuration, the knob is provided inside a hollow knob holder provided at a base end portion of the thumb turn shaft so as to be movable in a radial direction and an axial direction of the thumb turn shaft. The knob is exposed from the opening formed in the holder, and the knob can be moved to the tip end in the axial direction of the thumb-turn shaft with respect to the knob holder with the exposed portion pushed inward in the radial direction of the thumb-turn shaft. The thumb turn device is characterized in that the tip of the knob can be engaged with the thumb turn shaft.

  Preferably, in addition to the above configuration, the knob holder can be rotated relative to the thumb turn shaft and can rotate integrally with the knob, and the knob holder can be rotated relative to the thumb turn shaft by a circumferential positioning means. The thumb turn device is characterized in that positioning in the circumferential direction is performed, and a tip end portion of the knob can be engaged with the thumb turn shaft at the circumferential position.

  Preferably, in addition to the above configuration, the knob holder is rotatable relative to the thumb turn shaft, and is rotatable integrally with the knob. A magnet is provided on at least one of the thumb turn shaft or the knob holder. The thumb turn is provided and is positioned in the circumferential direction with respect to the thumb turn shaft of the knob holder by the magnetizing force of the magnet, and the tip of the knob can be engaged with the thumb turn shaft at this circumferential position. Device.

  Preferably, in addition to the above configuration, a pin member biased toward the other side is provided on one of the thumb turn shaft or the knob holder, and the pin member is a recess provided on the other of the thumb turn shaft or the knob holder. The knob holder is positioned in the circumferential direction with respect to the thumb turn shaft, and when the knob holder rotates relative to the thumb turn shaft, the pin member rides on the recess against the urging force. It is a thumb turn device.

  More preferably, in addition to the above-described configuration, the knob includes a pair of knob pieces, and each knob piece is provided in a state of being biased to be separated from each other at both radial ends of the thumb turn shaft. When the knob pieces are pushed in the directions close to each other, the thumb holder can be pushed toward the tip end side in the axial direction of the thumb turn shaft, and the engaging portion formed at the tip portion of the knob piece is pushed by the pushing. The thumb turn device is engaged with the engaged portion.

  According to the thumb turn device of the present invention, in order to rotate and unlock the knob, it is necessary to push the knob inward in the radial direction of the thumb turn shaft and push it in the axial front end side. Thereby, illegal unlocking by a wire, a string, etc. can be prevented effectively.

  Hereinafter, the thumb turn device of the present invention will be described in more detail based on examples.

  FIG. 1 is a longitudinal sectional view of a door lock provided with a thumb turn device of the present embodiment, and shows a state cut along a surface along the thickness direction of the door. Moreover, FIG. 2 is a perspective view which shows the state in which the door lock provided with the thumb turn apparatus of a present Example was attached to the door.

  A door lock 1 to which the thumb turn device 10 of this embodiment is applied includes a lock case 2. The lock case 2 is attached to a substantially central portion in the vertical direction of the door end side end of the door 100, and a dead bolt 3 for locking and unlocking the door 100 is provided. The dead bolt 3 can be projected and retracted from the end face side end face of the lock case 2, and a retracting operation mechanism 4 (FIG. 1) for retracting and retracting the dead bolt 3 is built in the lock case 2.

  As shown in FIG. 1, the dead bolt 3 appears and moves, that is, moves forward or backward, when the knob 60 of the indoor thumb-turn device 10 attached to be connected to the lock case 2 and the knob holder 35 that rotates together with the knob 60 or the chamber. This is performed by operating a key (not shown) of the outer cylinder lock 98.

  The door lock 1 shown in FIG. 1 and FIG. 2 is an engraved book locking as an example to which the thumb turn device 10 of the present invention is applied. It can be applied to any other known lock such as an electric lock. In addition, the door lock locking / unlocking mechanism is not limited to the mechanism that causes the dead bolt to move in and out as in this embodiment, but the rotation of the lever handle, knob, etc. is controlled by the thumb turn and cylinder operation to lock and unlock the door. It can also be applied to known door locks.

FIG. 3 is a front view showing a main part of the thumb turn device of the present embodiment.
4 is a partial cross-sectional view of FIG. 3, wherein (a) is a vertical cross-sectional view, (b) is a cross-sectional view, (c) is a cross-sectional view taken along line AA of (a), and (d) is (a) It is a BB sectional view of).
The thumb turn device 10 of this embodiment includes a thumb turn cylinder 85 held by the lock case 2, a thumb turn shaft 12 inserted into a hole 86 of the thumb turn cylinder 85, and moving the dead bolt 3 back and forth by a rotation operation, and a thumb turn shaft. The main part includes a knob holder 35 that can be rotated relative to the knob 12, and a knob 60 that is accommodated in the knob holder 35 and can be engaged with and disengaged from the thumb turn shaft 12.

FIGS. 5A and 5B are component diagrams showing the thumb turn shaft 12, wherein FIG. 5A is a front view with a partial cross section, FIG. 5B is a plan view, FIG. 5C is a left side view, and FIG. e) is a cross-sectional view taken along the line CC of FIG.
The thumb-turn shaft 12 has a round bar shape, and a flange 14 is formed at the base end portion of the thumb-turn shaft 12 by expanding the diameter outward in the radial direction. A cylindrical attachment portion 15 is formed so as to protrude from the center of the flange 14 toward the base end side. A screw hole 16 is formed in the attachment portion 15 so as to open to the base end surface.

  An engaged portion 18 that can be engaged with an engaging portion 70 of a knob 60 described later is formed at the proximal end portion of the thumb turn shaft 12. In this embodiment, U-shaped concave grooves 18 and 18 that open to the base end side are formed at both ends along the diameter direction of the base end surface of the flange 14. That is, on the base end face of the flange 14, the concave grooves 18 and 18 are formed along the radial direction at symmetrical positions with the center interposed therebetween, and these concave grooves 18 and 18 are the engaged portions. .

  A mounting hole 12 a into which the magnets 20 and 21 are fitted is formed slightly on the front end side of the flange 14 of the thumb turn shaft 12. In this embodiment, mounting holes 12a are formed at four circumferentially spaced intervals, and as shown in FIG. 4 (d), magnets 20, 20, 21, and 21 are fitted and fixed in the respective holes 12a. .

  Each of the magnets 20, 20, 21, and 21 is disposed with the north pole or south pole facing the thumb turn shaft 12 in the radial direction. In this embodiment, the magnets 20 and 20 arranged vertically in FIG. 4D are provided with the N pole facing radially outward, and the magnets 21 and 21 arranged on the left and right are arranged so that the S pole is radial. It is provided toward the outside. That is, the magnets 20 and 21 adjacent in the circumferential direction are arranged with different magnetic poles facing outward.

  The tip portion 22 of the thumb turn shaft 12 is formed in a cross shape in cross section, and this cross shape tip portion is connected to the retracting operation mechanism 4 incorporated in the lock case 2. Therefore, when the knob 60 connected to the thumb turn shaft 12 is turned, the tip 22 of the thumb turn shaft 12 can advance and retract the dead bolt 3 via the retracting operation mechanism 4. The thumb turn shaft 12 is formed with a ring attachment groove 23 in the circumferential direction, into which the ring 90 is fitted, at a position on the tip side from the attachment hole 12a.

As shown in FIG. 4, a screw 25 is attached to the screw hole 16 of the attachment portion 15 formed in the thumb turn shaft 12 along the axial direction from the base end side.
The screw 25 is formed with a stepped columnar shaft portion 27 from the disc-shaped head portion 26 toward the distal end side, and the proximal end shaft portion 28 has a slightly smaller diameter than the mounting portion 15. A screw thread is formed on the distal end side shaft portion 29 having a smaller diameter than the proximal end side shaft portion 28.

  The screw 25 has a distal end side shaft portion 29 screwed into the mounting portion 15 of the thumb turn shaft 12 in a state where the spring receiver 30 and the coil spring 32 are passed through the shaft portion 27. The spring receiver 30 has a cylindrical shape that opens toward the distal end side, and its inner diameter is slightly larger than the outer diameter of the coil spring 32. The spring receiver 30 is provided on the screw 25 so as to be movable along the axial direction of the thumb turn shaft 12. The coil spring 32 has a base end portion accommodated in the spring receiver 30 and abuts against the bottom wall 30 a of the spring receiver 30, while a tip end abuts on the base end surface of the mounting portion 15. It is biased to the end side.

A thumb holder 35 is provided on the thumb turn shaft 12 so as to be relatively rotatable. The knob holder 35 of the present embodiment includes a holder guide 36 and a holder body 40.
6A and 6B are component diagrams showing the holder guide, where FIG. 6A is a front view, FIG. 6B is a plan view, FIG. 6C is a left side view, and FIG. .

  The holder guide 36 has a substantially cylindrical shape that can be inserted into the thumb-turn shaft 12, and a flange 37 is formed at the tip of the holder guide 36 so as to expand radially outward. Further, the holder guide 36 is formed with substantially rectangular holding portions 38, 38 projecting radially outward at both ends in the radial direction. In other words, the holder guide 36 is formed with holding portions 38 and 38 at symmetrical positions with the center in between.

  Each holding portion 38 is formed with a hole 38a along the radial direction, and magnets 39 and 39 are respectively fitted and fixed. In this embodiment, as shown in FIG. 4 (d), magnets 39, 39 are respectively provided in holes 38a, 38a opened radially outward with the south pole facing radially inward.

  The holder guide 36 is inserted from the tip end side of the thumb turn shaft 12 and is disposed adjacent to the flange 14 of the thumb turn shaft 12, and the magnets 20, 20, 21, 21 of the thumb turn shaft 12 and the magnets 39, 39 are arranged on the same plane.

  The holder main body 40 is provided at the proximal end portion of the thumb turn shaft 12 so as to be rotatable integrally with the holder guide 36. The holder main body 40 of this embodiment has a base end side that is semicircular in the front view state of FIG. 4A and substantially rectangular in the plan view state of FIG. 4B along the axial direction of the thumb turn shaft 12. It is formed in a shape. Further, the tip end side is formed in a short cylindrical shape in which the left and right ends in the radial direction of the circle are cut out symmetrically in the right side view state of FIG.

  The holder body 40 is formed in a hollow shape. In this embodiment, the hollow portion is formed as a rectangular parallelepiped-shaped hollow portion 42 on the base end side, and is formed in a rectangular parallelepiped shape via a step portion 46 on the inner side in the width direction on the distal end side continuously to the base end side hollow portion 42. A hollow portion 44 having a shape is formed. The distal end side hollow portion 44 is open to the distal end side, and the side surface center 47 on the distal end side is formed to bulge outward in the width direction in a substantially semicircular arc shape having the same center of curvature (see FIG. 4 (d)). That is, the front end surface of the holder main body 40 opens in the same shape as the holder guide 36.

  A circular hole 48 is formed in the center of the base end portion of the holder body 40 so as to penetrate in the axial direction. The diameter of the hole 48 corresponds to the outer diameter of the proximal end side shaft portion 28 of the screw 25 attached to the attachment portion 15. Further, substantially rectangular holes 49 are formed on both side surfaces of the holder main body 40 to communicate the inside and outside. In the present embodiment, the holes 49 are formed so as to be displaced vertically as shown in FIG.

  By the way, a concave groove 50 is formed along the circumferential direction at the center portion in the width direction at the base end portion of the holder main body 40 of the present embodiment. In addition, a substantially semicircular arc-shaped cover 52 is attached to the concave groove 50. The cover 52 is coated with a phosphorescent material, so that it can be identified even in the dark, such as at night, and can be easily rotated.

The holder main body 40 is provided at the proximal end portion of the thumb turn shaft 12 so as to be rotatable relative to the thumb turn shaft 12 in a state where the flange 14 and the holder guide 36 of the thumb turn shaft 12 are accommodated in the distal end side hollow portion 44. At this time, the holder guide 36 is accommodated in the distal end side hollow portion 44 of the holder body 40 so as to rotate integrally with the holder body 40.
The mounting portion 15 of the thumb turn shaft 12 and the screw 25 provided on the mounting portion 15 are disposed in the holder main body 40, and the head 26 of the screw 25 is connected to the base end surface 40 a of the holder main body 40 and the cover 52. Between. Thereby, the holder main body 40 is positioned in the axial direction with respect to the thumb turn shaft 12, and the movement in the axial direction is restricted.

By the way, the holder main body 40 of the present embodiment can be divided into two in the width direction, and is composed of a pair of holder pieces 54 and 54.
FIG. 7 is a perspective view showing the holder piece.

  The pair of holder pieces 54, 54 have a substantially U-shaped cross section, and constitute a hollow holder main body 40 by abutting each other so that their open ends are overlapped with each other. As shown in FIG. 4C, the holder pieces 54 and 54 are fixed by screwing screws 102 and 102 up and down. A semicircular cutout 48a that forms the hole 48 when the holder pieces 54, 54 are integrated is formed in the center of the rear surface side base end portion of the holder piece 54.

Further, the base end side back surface 42a is formed to be recessed from the front end side back surface 44a to the front surface side. Further, the front end side rear surface 44a is formed with a center end portion 47 in the width direction that is recessed in a semicircular arc shape. Thereby, when the holder pieces 54 are integrated, the base-side back surface 42 a constitutes the base-side hollow portion 42, and the tip-side back surface 44 a constitutes the tip-side hollow portion 44. The step 46 is formed at the boundary between the base-side back surface 42a and the tip-side back surface 44a.
Further, the substantially rectangular hole 49 is formed at the upper left in FIG. A recessed groove 50 is formed in the outer peripheral portion of the integrated holder pieces 54 and 54.

The knob 60 is accommodated in the hollow holder body 40. The knob 60 of this embodiment is movable in the radial direction with respect to the thumb turn shaft 12 and is also movable in the axial direction.
The knob 60 of this embodiment is composed of a pair of knob pieces 61, 61. Each knob piece 61 faces the mounting portion 15 and the screw 25 provided on the mounting portion 15, that is, faces both sides in the radial direction. (See FIG. 4C).

  FIG. 8 is a component diagram showing the knob piece, where (a) is a front view, (b) is a plan view, (c) is a left side view, (d) is a right side view, and (e) is a rear view, (F) is EE sectional drawing of (a), (g) is FF sectional drawing of (a). As shown in FIG. 8, the knob piece 61 has a plate shape, and a peripheral wall 63 is raised from the outer peripheral portion on the back surface side. Further, as shown in FIG. 8B, a substantially rectangular button portion 65 is formed on the lower left side of the surface of the knob piece 61 so as to protrude in the thickness direction. The button portion 65 is sized so as to protrude from the hole 49 formed in the holder body 40, while the axial dimension of the thumb turn shaft 12 (the lateral dimension in FIGS. 8A and 4B). Is smaller than the hole 49 of the holder body 40.

  Further, as shown in FIGS. 8B and 8E, the knob piece 61 has a pin 67 erected perpendicularly to the plate surface at the center of the upper end of the back surface, and at the center of the lower end. A hole 68 is formed penetrating in the thickness direction.

  Further, on the back surface side of the front end of the knob piece 61, substantially rectangular protrusions 70 are formed so as to protrude vertically toward the front end side. The protrusion 70 is formed at the boundary between the protrusion 70 and the front surface side. A stepped portion 72 is formed. The protrusion 70 is an engaging portion that can be engaged with the engaged portion 18 of the thumb turn shaft 12. Specifically, the protrusion 70 of each knob piece 61 can be inserted into the groove 18 formed in the flange 14 of the thumb turn shaft 12, and the protrusion 70 of each knob piece 61 can be inserted into the thumb turn shaft 12. The width of the concave groove 18 is about half. That is, in the present embodiment, the knob pieces 61 and 61 can be fitted to the concave groove 18 of the thumb turn shaft 12 in a state where the protrusions 70 and 70 are adjacent to each other.

  A semicircular cutout 74 is formed at the center of the base end of the peripheral wall 63. The notch 74 corresponds to the diameter of the proximal end side shaft portion 28 of the screw 25 provided in the mounting portion 15 and is smaller in diameter than the outer diameter of the spring receiver 30. Further, a concave groove 76 having a stepped substantially semicircular cross section is formed along the axial direction of the thumb turn shaft 12 at the center of the back surface of the knob piece 61.

  Each of the knob pieces 61 and 61 is accommodated in the holder main body 40 so as to sandwich the thumb turn shaft 12 with the coil spring 80 being passed through the pin 67. Specifically, each of the knob pieces 61, 61 is disposed at both ends in the radial direction of the attachment portion 15 of the thumb turn shaft 12 and the proximal end side shaft portion 28 of the screw 25 provided on the attachment portion 15, It is accommodated in the holder body 40. At this time, the tip of the pin 67 of one knob piece 61 is inserted into the through hole 68 of the other knob piece 61, and each of the knob pieces 61, 61 is urged away from each other by the coil spring 80. ing. That is, each of the knob pieces 61 and 61 is urged outward in the radial direction of the thumb turn shaft 12.

  The surface of each knob piece 61, 61 urged radially outward of the thumb turn shaft 12 is in contact with the inner surface of the proximal end side hollow portion 42 of the holder main body 40, and is formed at the distal end portion of the knob piece 61. The step 72 is in contact with the step 46 of the holder body 40. The protrusion 70 of each knob piece 61 is disposed on the proximal end side with respect to the concave groove 18 of the thumb turn shaft 12 and is disposed at a radially outer position, and the protrusion 70 of the knob piece 61 and the thumb turn shaft 12 are disposed. It is not engaged with the concave groove 18.

  Further, the button portion 65 of each knob piece 61 is inserted into the hole 49 of the holder body 40 and protrudes outward. The spring receiver 30 provided in the mounting portion 15 is in contact with the inner surface of the proximal end side peripheral wall 63 of each knob piece 61, and each knob piece 61 is biased toward the proximal end side of the thumb turn shaft 12. ing. Thereby, the button part 65 of the knob piece 61 is in contact with the proximal end side of the hole 49 of the holder body 40.

  The knob holder 35 and the knob 60 rotate integrally because the button portion 65 of the knob piece 61 is inserted into the hole 49 of the holder body 40. In a state where the knob 60 and the thumb turn shaft 12 are not engaged with each other, the knob holder 35 and the knob 60 are rotatable (idling) with respect to the thumb turn shaft 12.

  The thumb turn shaft 12 to which the knob 60 and the knob holder 35 are attached is rotatably inserted and held in a thumb turn cylinder 85 held by the lock case 2, and is attached to the indoor side of the door 100. The thumb turn cylinder 85 has a cylindrical shape and is formed so as to be eccentric with the axial center thereof and to have a stepped hole 86 penetrating along the axial direction. The thumb turn cylinder 85 is provided with a cylindrical cover 88 opened to the distal end side so as to cover the base end face. A through hole 89 is formed in the base end wall of the cover 88 along the axial direction at a position corresponding to the stepped hole 86 of the thumb turn cylinder 85. The through hole 89 corresponds to the outer diameter of the thumb turn shaft 12. In the illustrated example, the peripheral edge of the through hole 89 protrudes in a cylindrical shape toward the tip side.

  The thumb turn shaft 12 is inserted into the holes 88 and 86 of the cover 88 and the thumb turn cylinder 85 at the tip, and the ring 90 is fitted into the ring mounting groove 23. At this time, a cylindrical spacer 92 is disposed between the front end surface of the cover 88 and the ring 90, and the thumb turn shaft 12 is rotatably held by the thumb turn cylinder 85 in a state where movement in the axial direction is restricted. Is done.

  As shown in FIG. 1, a cylindrical thumb turn collar 94 is provided around the thumb turn cylinder 85. The thumb turn collar 94 is attached in a state of being biased toward the door 100 by a coil spring 95 disposed between the thumb turn barrel 85. Since the thumb turn collar 94 is movable in the axial direction, it is possible to respond to a change in the thickness of the door 100 by utilizing the expansion and contraction of the coil spring 95.

  In the thumb turn device 10 of the present embodiment, in the initial state (the state in which the knob 60 and the thumb turn shaft 12 are not engaged), the knob 60 and the knob holder 35 are automatically operated by the magnets 20, 21, and 39 with respect to the thumb turn shaft 12. Positioning in the circumferential direction is performed, but if an unauthorized unlocking operation such as turning the thumb turn is performed, the wheel rotates idly. When locking / unlocking using the thumb turn device 10 according to this embodiment, the projection 70 provided at the tip of the knob 60 is engaged with the recess 18 of the thumb turn shaft 12 in engagement. As in the prior art, the knob 60 and the knob holder 35 may be rotated, for example, 90 degrees in either the left or right direction.

  In order to engage the knob 60 with the thumb turn shaft 12, first, hold the button portion 65 of each knob piece 61, 61 between the index finger and the thumb, for example, and oppose the biasing force of the spring 80 in the radial direction of the thumb turn shaft 12. Push inward. Thereby, each knob piece 61 and 61 moves to the direction which adjoins mutually, and the protrusions 70 and 70 of each knob piece 61 and 61 contact | abut or adjoin, and make a substantially cube shape. Then, in this pushed state, each of the knob pieces 61 and 61 is pushed into the knob holder 35 against the urging force of the spring 32 toward the tip end side of the thumb turn shaft 12. As described above, the button portion 65 of each knob piece 61, 61 has a smaller axial dimension than the hole 49 of the knob holder 35 and is movable along the axial direction. Therefore, during the pushing operation toward the distal end in the axial direction, the button portion 65 of the tab piece 61 slides along the hole 49 of the tab holder 35, and as a result, the tab piece 61 moves toward the distal end side in the axial direction with respect to the tab holder 35. Moving.

Then, by this pushing operation, the protrusion 70 of the knob piece 61 is inserted into the concave groove 18 of the thumb turn shaft 12 so that the knob 60 and the thumb turn shaft 12 are engaged. In this engaged state, the thumb turn shaft 12 is also rotated and unlocked by rotating both the knob 60 and the knob holder 35 by 90 degrees.
After the locking / unlocking operation, each knob piece 61 is moved to the proximal end side of the thumb turn shaft 12 by the urging force of each spring 32, 80 by releasing the button 65 of each knob piece 61, and in the radial direction. It moves to the outside and automatically shifts to the initial state (non-engagement state of the knob 60 and the thumb turn shaft 12).

  In this embodiment, as described above, the magnets 20, 21, and 39 are provided on the thumb turn shaft 12 and the knob holder 35, respectively. The knob holder 35 is automatically positioned in the circumferential direction with respect to the thumb-turn shaft 12 by the magnetizing force of these magnets 20, 21, and 39, and as a result, the knob 60 provided so as to rotate integrally with the knob holder 35 is positioned in the circumferential direction. Is made. In this positioned state, the protrusion 70 of the knob 60 is disposed at a position where it can engage with the concave groove 18 of the thumb turn shaft 12.

  By positioning the knob 60 in the circumferential direction with respect to the thumb turn shaft 12 in both the locked state and the unlocked state, the button portion 65 is pushed inward in the radial direction of the thumb turn shaft 12, and the knob 60 is moved to the tip in the axial direction. When pushed in to the side, the protrusion 70 of the knob 60 is automatically engaged with the concave groove 18 of the thumb turn shaft 12. That is, in locking and unlocking, it is not necessary to align the knob 60 in the circumferential direction in order to engage the knob 60 with the thumb turn shaft 12. Even if the knob 60 and the knob holder 35 are accidentally rotated with respect to the thumb-turn shaft 12, the circumferential positioning of the knob 60 and the knob holder 35 with respect to the thumb-turn shaft 12 by the magnetizing force of the magnets 20, 21, 39. Is made automatically.

Similarly to the normal thumb turn device, the thumb turn device 10 of the present embodiment also has the knob 60 (knob holder 35) in the vertical state when unlocked and in the horizontal state when locked.
In other words, the knob holder 35 is positioned once in the circumferential direction at 180 degrees with respect to the thumb turn shaft 12 by the arrangement of the magnets 20, 21, and 39 described above. Therefore, the rectangular tip surface of the knob holder 35 is placed in a vertically oriented state in the unlocked state and in a horizontally oriented state in the locked state, so that the positioning is automatically performed, and the locked state or the unlocked state is achieved. It is possible to always visually recognize whether it is.

  By the way, as described above, the thumb turn device 10 of the present embodiment needs to engage the thumb 60 and the thumb turn shaft 12 at the time of locking / unlocking. In the initial state, the knob 60 and the thumb turn shaft 12 are engaged. The knob 60 and the knob holder 35 are rotatable with respect to the thumb turn shaft 12. Therefore, in this state, even if the knob 60 and the knob holder 35 are rotated with a wire, a string, etc. from the outdoor side in order to perform unauthorized unlocking, the knob 60 and the knob holder 35 are merely idled with respect to the thumb turn shaft 12. The thumb turn shaft 12 cannot be rotated, and unauthorized unlocking is prevented.

  Further, in this embodiment, as described above, the button portion 65 of each knob piece 61 is displaced up and down with respect to the central horizontal line of the thumb turn shaft 12 in FIG. Therefore, for example, when trying to push the button part 65 of each knob piece 61 with a wire or the like for unauthorized unlocking, a rotating force is applied to the knob 60 and the knob holder 35, and the knob 60 and the knob are applied. The holder 35 rotates and the button part 65 cannot be pushed in. In addition, even if the button part 65 of each knob piece 61 is not displaced up and down and is in a symmetrical position on the central horizontal line of the thumb turn shaft 12, it is almost impossible to push the button part 65 with a tool or the like. Unauthorized unlocking can be surely prevented.

  Furthermore, in the thumb turn device 10 of the present embodiment, the stepped portion 72 of the knob piece 61 is in contact with the stepped portion 46 of the knob holder 35 in the initial state. Therefore, the knob 60 cannot be pushed into the distal end side in the axial direction without pushing the button portion 65 radially inward of the thumb turn shaft 12. That is, when the button portion 65 is pushed inward in the radial direction of the thumb turn shaft 12 and the contact between the stepped portion 72 of the knob piece 61 and the stepped portion 46 of the tab holder 35 is not released, the tab piece 61 moves against the tab holder 35. It cannot move to the tip side in the axial direction and cannot be unlocked.

  Even if the knob piece 61 and the knob holder 35 are not provided with the step portions 72 and 46 and the members 61 and 35 are not in contact with each other, the button portion 65 is not pushed into the thumb turn shaft 12 in the radial direction. When 60 is pushed toward the tip end in the axial direction, the projection 70 of the knob piece 61 is disposed at a position radially outward from the concave groove 18 of the thumb turn shaft 12 in the initial state as described above. It is not inserted into the groove 18. As a result, the knob 60 and the thumb turn shaft 12 are not engaged and cannot be unlocked, thereby preventing unauthorized unlocking.

  Thus, according to the thumb turn device 10 of the present embodiment, in order to lock and unlock, it is necessary to push the button portion 65 of the knob 60 inward in the radial direction of the thumb turn shaft 12 and push it into the distal end side in the axial direction. It is difficult to perform these pushing operations with a tool or the like from the outdoor side, and unauthorized unlocking is prevented.

By the way, in the said Example, although the magnet was used as the circumferential direction positioning means of the knob holder 35 with respect to the thumb turn axis | shaft 12, it is good also as another means. For example, a pin member can be used instead of the magnet.
The specific configuration is shown below. This modified example is basically the same configuration as the above-described embodiment, and will be described with a focus on different parts.

FIG. 9 is a partial cross-sectional view of the main part of the thumb turn device of the present modification, where (a) is a vertical cross-sectional view, (b) is a cross-sectional view, and (c) is a GG cross-sectional view of (a). (D) is a HH sectional view of (a).
The thumb turn device of this modification is housed in the thumb holder 35, the thumb turn shaft 12 for moving the dead bolt 3 forward and backward by a rotation operation, the knob holder 35 provided to be rotatable relative to the thumb turn shaft 12, and the thumb holder 35. The thumb turn shaft 12 and the knob 60 that can be engaged and disengaged are provided as main parts.

  The thumb turn shaft 12 of this modification is formed with a flange 14, a mounting portion 15 and an engaged portion 18 as in the above embodiment. The thumb turn shaft 12 of this modification is formed with a receiving hole 103 penetrating in the radial direction slightly on the tip side of the flange 14. The accommodation hole 103 of this modification is a round hole with a circular cross section.

The pin member 104 is disposed in the accommodation hole 103 in a state of being urged outward in the radial direction of the thumb turn shaft 12. The pin member 104 of this modification has a substantially short cylindrical shape, and the tip end portion 104a is formed in a conical shape. In this modification, the two pin members 104, 104 are accommodated in the accommodation hole 103.
Specifically, the base ends of the two pin members 104 and 104 are respectively urged by the coil springs 106, and are provided in the receiving holes 103 with their distal ends 104a facing radially outward. That is, one end of the coil spring 106 is connected or abutted to the base end of one pin member 104 and the other end of the coil spring 106 is connected or abutted to the base end of the other pin member 104 Thus, each pin member 104, 104 is disposed in the accommodation hole 103 of the thumb turn shaft 12. As described above, the pin members 104 and 104 are disposed in the receiving hole 103 in a state in which the pin members 104 and 104 are urged to the opposite directions by the coil spring 106, that is, radially outward of the thumb turn shaft 12.

  In the above embodiment, the knob holder 35 rotatably provided on the thumb turn shaft 12 is composed of the knob holder guide 36 and the holder main body 40. However, in the present modification, only the holder main body 40 is provided. 40 is formed hollow like the said Example. In the holder main body 40 of this modification, the proximal end side hollow portion 42 is formed in a rectangular parallelepiped shape as in the above embodiment, whereas the shape of the distal end side hollow portion 44 is different from that in the above embodiment.

  In this modified example, a stepped cylindrical hollow portion 44 that opens to the distal end side through a step 46 on the inner side in the width direction is formed on the distal end side continuously to the proximal hollow portion 42. . The large diameter cylindrical portion 108 on the proximal end side of the distal end side hollow portion 44 corresponds to the outer diameter of the flange 14 of the thumb turn shaft 12, and the small diameter cylindrical portion 109 on the distal end side is outside the shaft portion of the thumb turn shaft 12. It corresponds to the diameter. Further, concave portions 110 and 110 having a triangular cross section that can be engaged with the tip portion 104 a of the pin member 104 are formed at both ends in the radial direction of the small diameter cylindrical portion 109.

  As in the above embodiment, the holder main body 40 has a circular hole 48 formed at the center of the base end thereof, and substantially rectangular holes 49 and 49 communicating with the inside and the outside are formed on both side surfaces. Yes. The holder body 40 is formed with a concave groove 50 in which the cover 52 is mounted.

  The holder main body 40 has a flange 14 of the thumb turn shaft 12 and a part of the shaft portion on the tip end side of the flange 14 accommodated in the hollow portion 44 on the tip end side with respect to the thumb turn shaft 12 at the base end portion of the thumb turn shaft 12. It is provided so that relative rotation is possible. Specifically, the flange 14 of the thumb turn shaft 12 is disposed in the large diameter cylindrical portion 108 of the distal end side hollow portion 44, and the shaft portion of the thumb turn shaft 12 is disposed in the small diameter cylindrical portion 109.

  As in the above embodiment, the mounting portion 15 of the thumb turn shaft 12 and the screw 25 provided on the mounting portion 15 are arranged in the holder main body 40, and the head portion 26 of the screw 25 is the base end surface of the holder main body 40. 40a and the cover 52 are arranged. Thereby, the holder main body 40 is positioned in the axial direction with respect to the thumb turn shaft 12, and the movement in the axial direction is restricted.

The holder main body 40 of this modification can be divided into two in the width direction as in the above embodiment, and is composed of a pair of holder pieces 54 and 54.
FIG. 10 is a perspective view showing the holder piece 54.

  The pair of holder pieces 54, 54 have a substantially U-shaped cross section, and constitute a hollow holder main body 40 by abutting each other so that their open ends are overlapped with each other. And each holder piece 54 and 54 is fixed with the screw | thread 102 similarly to the said Example. A semicircular cutout 48a that forms the hole 48 when the holder pieces 54, 54 are integrated is formed in the center of the rear surface side base end portion of the holder piece 54.

  Further, the base-side back surface 42a of the holder piece 54 is formed in the same manner as in the above embodiment, and the tip-side back surface 44a is formed in a stepped semicircular shape so as to be recessed toward the surface side. Of the tip-side rear surface 44a, both end portions 110a, 110a of the tip-side small-diameter semicircular arc-shaped portion 109a are chamfered to form inclined surfaces.

  When the holder pieces 54 and 54 having such a configuration are integrated, the base-side back surface 42 a constitutes the base-side hollow portion 42, and the tip-side back surface 44 a constitutes the tip-side hollow portion 44. At this time, the large-diameter semicircular arc-shaped portion 108 a on the proximal end side of the distal-side back surface 44 a constitutes the large-diameter cylindrical portion 108, and the small-diameter semicircular arc-shaped portion 109 a constitutes the small-diameter cylindrical portion 109. Further, the inclined surfaces 110 a and 110 a formed at both ends of the small-diameter semicircular arc-shaped portion 109 a of the distal end side hollow portion 44 constitute the concave portion 110.

  As in the above embodiment, the step 46 is formed at the boundary between the base-side back surface 42a and the tip-side back surface 44a of the holder piece 54, and the base end of the holder piece 54 is shown in FIG. The substantially rectangular hole 49 is formed in the upper left. Further, a concave groove 50 is formed in the outer peripheral portion of the integrated holder pieces 54 and 54.

  In the hollow holder main body 40, the knob 60 is provided so as to be movable in the radial direction and the axial direction of the thumb turn shaft 12 in the same manner as in the above embodiment. The thumb turn shaft 12 to which the knob 60 and the knob holder 35 are attached is rotatably inserted and held in the thumb turn cylinder 85 held by the lock case 2 as in the above embodiment, and is attached to the indoor side of the door 100. It is done.

In the thumb turn device of this modification, the pin member 104 provided on the thumb turn shaft 12 is inserted into the recess 110 of the knob holder 35 in an initial state (a state where the knob 60 and the thumb turn shaft 12 are not engaged). That is, the pin member 104 is engaged with the concave portion 110 of the knob holder 35, and in this initial state, the knob holder 35 is positioned in the circumferential direction with respect to the thumb turn shaft 12, and thus is provided so as to be rotatable integrally with the knob holder 35. Positioning in the circumferential direction of the provided knob 60 is performed.
Then, when locking and unlocking in the thumb turn device of the present modified example, in the state in which the knob 60 and the knob holder 35 are positioned in the circumferential direction with respect to the thumb turn shaft 12 as in the above-described embodiment, The button parts 65 and 65 of 61 and 61 are pushed in the direction which adjoins mutually. And in this pushed state, each knob piece 61, 61 is pushed further to the tip side, and the projection 70 of the knob 60 is inserted into the concave groove 18 of the thumb turn shaft 12, and in this engaged state, the knob 60 and For example, the knob holder 35 may be rotated by 90 degrees. Since the knob 60 and the thumb turn shaft 12 are engaged, the thumb turn shaft 12 rotates integrally with the knob 60 and the knob holder 35 by this rotation operation, and can be locked and unlocked.

  Thus, also in this modification, the pin member 104 is engaged with the concave portion 110 of the knob holder 35, whereby the knob holder 35 and the knob 60 are positioned in the circumferential direction with respect to the thumb turn shaft 12, and this positioning is performed. In this state, the protrusion 70 of the knob 60 is disposed at a position where it can engage with the concave groove 18 of the thumb turn shaft 12.

  That is, in this modified example as well, in the locked state and the unlocked state, the knob 60 is positioned in the circumferential direction with respect to the thumb turn shaft 12 in both the locked state and the unlocked state. There is no need to align the knob 60 in the circumferential direction in order to engage the thumb turn shaft 12 with each other. Therefore, when locking / unlocking, if the button portion 65 is pushed inward in the radial direction of the thumb turn shaft 12 and the knob 60 is pushed toward the distal end side in the axial direction, the projection 70 of the knob 60 enters the groove 18 of the thumb turn shaft 12. Engage automatically.

  Further, in the thumb turn device 10 of this modification, as in the case of the normal thumb turn device, the knob 60 (knob holder 35) is in a vertically oriented state as shown in FIG. 11 (a) in the unlocked state, and in the locked state. As shown in FIG. 11 (b), the sideways state is assumed. That is, due to the arrangement of the pin member 104 provided on the thumb turn shaft 12 and the recess 110 formed in the knob holder 35, the knob holder 35 is positioned once in the circumferential direction with respect to the thumb turn shaft 12 at 180 degrees. Accordingly, the positioning is automatically performed by providing the pin member 104 and the recess 110 so that the rectangular tip surface of the knob holder 35 is in the vertical state in the unlocked state and in the horizontal state in the locked state. Thus, it is possible to always visually recognize whether the locked state or the unlocked state.

  Furthermore, when the door is locked or unlocked from the outside, such as when going out, the thumb turn shaft 12 is rotated by the key rotation operation. At this time, since the tip 104a of the pin member 104 is engaged with the recess 110 of the knob holder 35, the knob holder 35 and the knob 60 also rotate together with the rotation of the thumb turn shaft 12. Therefore, even when the keys are operated from the outdoor side, it is possible to confirm whether the lock holder 35 or the knob 60 is in the locked state or the unlocked state from the indoor side.

  By the way, the thumb turn device 10 of this modification needs to engage the knob 60 and the thumb turn shaft 12 at the time of locking / unlocking as in the above embodiment, and the knob 60 and the thumb turn shaft 12 are engaged in the initial state. The knob 60 and the knob holder 35 are rotatable with respect to the thumb turn shaft 12. Therefore, in this initial state, even if the knob 60 and the knob holder 35 are rotated with a wire or a string from the outdoor side in order to perform unauthorized unlocking, the knob 60 and the knob holder 35 merely idle with respect to the thumb turn shaft 12. The thumb turn shaft 12 cannot be rotated, and unauthorized unlocking is prevented.

  That is, in the state shown in FIG. 11B, when the knob holder 35 is rotated without being pushed and the knob holder 35 is used for unauthorized unlocking, the knob holder 35 is inserted into the recess 110 of the knob holder 35 as the knob holder 35 rotates. The distal end portion 104 a of the pin member 104 that rides on the concave portion 110 is pushed into the proximal end side, that is, is pushed inward in the radial direction of the thumb-turn shaft 12 against the urging force of the coil spring 106. As a result, as shown in FIG. 12, the knob holder 35 idles with respect to the thumb turn shaft 12, and the thumb turn shaft 12 does not rotate and cannot be locked or unlocked.

  As shown in FIG. 12, the knob holder 35 rotates with respect to the thumb turn shaft 12 and the tip end of the pin member 104 escapes from the recess 110 of the knob holder 35 due to unauthorized unlocking. In this case, if the knob holder 35 is rotated until the pin member 104 engages with the recess 110, the initial state can be restored.

  As described above, in the above-described embodiment, the positioning of the knob holder 35 and the knob 60 in the circumferential direction is performed by using the magnet, but the circumferential direction can also be achieved by using the pin member 104 as in the present modification. It is possible to perform positioning.

  By the way, in this modified example, the concave portion 110 in which the pin member 104 is engaged is formed in the holder main body 40 of the knob holder 35. However, the concave portion can be formed in the holder guide 36 of the above-described embodiment. That is, in the above embodiment, the hole 38a for accommodating the magnet is formed in the holder guide 36. Instead, a recess into which the tip end portion 104a of the pin member 104 can be inserted may be formed at both ends in the radial direction.

  In this modification, the pin member 104 is provided on the thumb turn shaft 12 and the concave portion 110 is formed on the knob holder 35. However, as shown in FIG. 13, the pin member 104 is provided on the thumb holder 35 and the thumb turn shaft 12 is provided with the concave portion. 110 may be configured. That is, the circular holes 109 and 112 are formed at both ends in the radial direction of the small-diameter cylindrical portion 109 of the holder body 40 and open radially inward. Then, the pin member 104 is accommodated in each of the accommodation holes 112 while being urged radially inward by the coil spring 114. In addition, substantially conical recesses 110, 110 into which the tip end portion 104a of the pin member 104 can be inserted may be formed at both ends of the thumb turn shaft 12 in the radial direction.

Further, in this modification, the pin member 104 is urged in the radial direction of the thumb turn shaft 12, but as a structure that urges the pin member 104 in the axial direction of the thumb turn shaft 12, positioning means may be used as in this modification. Is possible.
In this modification, the pin member 104 has a short cylindrical shape, but the shape is not particularly limited, and may be a block shape or the like. Further, the shape of the distal end portion 104a of the pin member 104 and the recess 110 into which the distal end portion 104a is inserted is not particularly limited, and the shape can be appropriately changed as long as the circumferential positioning is possible.

The thumb turn device of the present invention is not limited to the configuration of the above embodiment, and can be changed as appropriate. For example, in the above embodiment, the number of the knob pieces 61 constituting the knob 60 is two, but the number is not limited to this, and can be changed as appropriate, for example, one.
Moreover, in the said Example, it was set as the structure which pushes the knob 60 to the axial direction front end side, after pushing in the radial inside of the thumb turn axis | shaft 12. FIG. However, the contact between the knob piece 61 and the stepped portions 72 and 46 of the knob holder 35 is omitted, and the knob 60 is pushed toward the tip end in the axial direction, and then pushed inward in the radial direction so that the knob 60 and the thumb-turn shaft 12 are connected. It does not matter as a structure to engage.

Furthermore, in the said Example, although it was set as the structure which provided the magnets 20, 21, and 39 in both the thumb turn axis | shaft 12 and the knob holder 35, the magnet was provided in one side, and the other was provided with the metal plate which can be magnetized with a magnet. It is good also as a structure which provides.
In the above embodiment, the button portion 65 of the knob 60 protrudes from the opening (hole) 49 of the knob holder 35. However, the knob 60 is exposed and pushed in from the opening of the knob holder 35. Thus, the button part 65 does not need to protrude, and the shape of the button part 65 is not particularly limited.
In addition, in the above embodiment, the engaged portion 18 is formed on the thumb turn shaft 12 and the engaging portion 70 is formed on the knob 60, but the shape and the like can be changed as appropriate.

  Moreover, although the structure which uses a magnet or a pin member as a circumferential direction positioning means was demonstrated, if it is a mechanism in which the knob 60 (knob holder 35) is positioned with respect to the thumb turn axis | shaft 12, it will be set as another structure. It is also possible.

It is a longitudinal cross-sectional view of the door lock provided with one Example of the thumb turn apparatus of this invention, and has shown the state cut | disconnected by the surface along the thickness direction of a door. It is a perspective view which shows the state in which the door lock provided with the thumb turn apparatus of FIG. 1 was attached to the door. It is a front view which shows the principal part of the thumb turn apparatus of FIG. FIG. 4 is a partial cross-sectional view of FIG. 3, wherein (a) is a vertical cross-sectional view, (b) is a cross-sectional view, (c) is a cross-sectional view taken along line AA in (a), and (d) is a cross-sectional view taken along B-- in (a). It is B sectional drawing. It is a component diagram showing the thumb-turn shaft, (a) is a front view, (b) is a plan view, (c) is a left side view, (d) is a right end view, and (e) is a CC cross section of (b). FIG. It is component drawing which shows a holder guide, (a) is a front view, (b) is a top view, (c) is a left view, (d) is DD sectional drawing of (c). It is a perspective view which shows a holder piece. It is a component diagram showing the knob piece, (a) is a front view, (b) is a plan view, (c) is a left side view, (d) is a right side view, (e) is a rear view, and (f) is a rear view. (A) EE sectional drawing, (g) is FF sectional drawing of (a). It is a partial cross section figure of the principal part which showed the modification of the thumb turn apparatus of FIG. 1, (a) is a longitudinal cross-sectional view, (b) is a cross-sectional view, (c) is GG cross section of (a). (D) is a HH sectional view of (a). It is a perspective view which shows the holder piece of the thumb turn apparatus of FIG. It is a schematic sectional drawing which shows the circumferential direction positioning state of the thumb holder of the thumb turn apparatus of FIG. 9, (a) has shown the unlocked state, (b) has shown the locked state. It is a schematic sectional drawing which shows the state which is going to carry out unauthorized unlocking from the state of FIG.11 (b). It is a partial schematic sectional drawing which shows another modification of the thumb turn apparatus of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Thumb turn device 12 Thumb turn shaft 18 Groove 20, 20, Magnet 32 Coil spring 35 Knob holder 36 Holder guide 39 Magnet 40 Holder main body 49 Hole 54 Holder piece 60 Knob 61 Knob piece 65 Button part 70 Projection 72 Step part 80 Coil spring 85 Thumb turn body 88 Cover 100 Door 103 Accommodating hole 104 Pin member 106 Coil spring 110 Recess

Claims (6)

A thumb turn shaft that advances and retracts the deadbolt by rotation,
The thumb turn shaft is detachable and includes a knob that engages with the thumb turn shaft and rotates the thumb turn shaft.
The knob is biased toward the base end side of the thumb turn shaft so as to release the engagement with the thumb turn shaft, and is biased radially outward of the thumb turn shaft.
A thumb turn device, wherein the knob is engaged with the thumb turn shaft by pushing the knob radially inward with respect to the urging force and pushing the knob radially inward with respect to the thumb turn shaft. Inside the hollow knob holder provided at the base end of the thumb turn shaft, the knob is provided to be movable in the radial direction and the axial direction of the thumb turn shaft,
The knob is exposed from the opening formed in the knob holder,
With this exposed portion pushed inward in the radial direction of the thumb turn shaft, the knob can be moved to the tip end side of the thumb turn shaft relative to the knob holder, and the tip of the knob can be engaged with the thumb turn shaft. The thumb turn device according to claim 1, wherein The knob holder is rotatable relative to the thumb turn shaft, and is rotatable integrally with the knob.
3. The knob holder is positioned in a circumferential direction with respect to a thumb turn shaft by a circumferential positioning means, and a tip end portion of the knob can be engaged with the thumb turn shaft at the circumferential position. Thumb turn device. The knob holder is rotatable relative to the thumb turn shaft, and is rotatable integrally with the knob.
A magnet is provided on at least one of the thumb turn shaft or the knob holder,
The circumferential position of the knob holder with respect to the thumb turn shaft of the knob holder is determined by the magnetizing force of the magnet, and the tip of the knob can be engaged with the thumb turn shaft at this circumferential position. Thumb turn device. A pin member biased toward the other side is provided on one of the thumb turn shaft or the knob holder,
The pin member engages with a recess provided on the other of the thumb turn shaft or the knob holder, thereby positioning the knob holder in the circumferential direction with respect to the thumb turn shaft.
The thumb turn device according to claim 3, wherein when the knob holder rotates relative to the thumb turn shaft, the pin member rides on the recess against the urging force. The knob comprises a pair of knob pieces,
Each knob piece is provided in a state of being biased so as to be separated from each other at both ends in the radial direction of the thumb turn shaft.
Each knob piece is pushed in the direction close to each other, so that the thumb holder can be pushed toward the tip end side of the thumb turn shaft in the axial direction, and the engaging portion formed at the tip end portion of the knob piece is pushed by the thumb turn. The thumb turn device according to any one of claims 3 to 5, wherein the thumb turn device is engaged with an engaged portion of the shaft.

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