JP4295542B2 - Security thumb turn - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a crime prevention thumb turn used for a door locking / unlocking operation, or a crime prevention thumb turn for covering an existing thumb turn.
[0002]
[Prior art]
  For example, a locking device provided on a door can be used to insert a dead key that has been advanced and retracted from the door end of the door by inserting a key into the keyhole of a cylinder lock that is exposed to the outside and turning it. Engage and disengage from the strike provided on the door to lock and unlock the door, and from the indoor side, simply rotate the thumb-turn knob to move the deadbolt forward and backward to easily lock and unlock the door. I am doing so.
[0003]
  However, in recent years, there has been an increase in unauthorized unlocking that unlocks locking devices by inserting a rod or wire from a small hole opened by a post port or a machine tool, locking it to a thumb turn that is easy to rotate, and rotating it. Yes.
[0004]
  For example, there is a security cover for thumb turn disclosed in Patent Document 1 described below to prevent the thumb turn from being locked and rotated.
  As shown in FIGS. 12 and 13, the security cover 1 is formed with a fitting hole 3 into which the thumb turn 2 is fitted, and a portion covering the outer surface 2 a of the thumb turn 2 that draws a circular locus 2 b during rotation is circular. It is formed in a circular shape along the shape locus. Then, set screws 4 and 4 are provided which are screwed into the fitting holes 3 to come into contact with the side surfaces of the thumb turn 2 and are clamped from both sides.
  The security cover 1 having such a configuration is configured such that the thumb turn 2 is covered with the thumb turn 2 by inserting the thumb turn 2 into the insertion hole 3. Thereafter, the security cover 1 is fixed to the thumb turn 2 by screwing the set screws 4 and 4 into place. Therefore, it becomes difficult to lock the wire or the like by the crime prevention cover 1 placed on the thumb turn 2 and rotate it.
[0005]
  Further, as another aspect of the security cover described above, as shown in FIG. 14, a security cover 1 constituted by an attachment portion 5 and a main body portion 6 is disclosed. The attachment portion 5 is formed so that the outer shape of the crime prevention cover 1 is easily operated by hand, and is provided with a locking projection 5a that the main body portion 6 locks. The mounting portion 5 can easily rotate the thumb turn 2 in a state where it is covered with the thumb turn 2. Moreover, the main-body part 6 has the latching | locking part 6a which can be latched to the latching protrusion 5a.
  By doing in this way, the crime prevention cover 1 can be attached or detached by a simple operation called a locking operation. Furthermore, when the main body 6 is idled by the locking portion 6a, it becomes impossible to lock and rotate the wire or the like.
[0006]
  Furthermore, as another aspect of the above-described crime prevention cover, as shown in FIG. 15, a spring member 8 is provided in the locking portion 6 a between the locking protrusion 5 a and a plurality of outer peripheral edges on the main body 6 side. The thing provided with the engagement recessed part 5b and the engagement convex part 6b which can be engaged with this engagement recessed part 5b is disclosed.
  With such a configuration, the main body 6 can always be left attached. That is, when the main body 6 is idled by the locking projection 5a and the locking portion 6a and the thumb turn 2 is to be rotated at all times, the main body 6 is pressed by hand and the engaging protrusion 6b is attached to the mounting portion 5. The thumb turn 2 could be rotated by engaging with the engaging recess 5b and rotating the main body 6 in this engaged state.
[0007]
[Patent Document 1]
          Japanese Utility Model Publication No. 4-40362
[0008]
[Problems to be solved by the invention]
  However, since the outer shape of the crime prevention cover shown in FIGS. 12 and 13 is a cylindrical body, when it is put on the thumb turn, it is originally an oval shape, so that the thumb turn can be visually recognized according to its rotational position or not locked. There is a problem that the state becomes invisible and the operability of locking and unlocking is lowered.
  Further, the crime prevention cover shown in FIG. 14 is composed of an attachment portion that enables the thumb turn to rotate, and a main body portion that idles and is detachable with respect to the attachment portion, but the main body portion has been dropped. In some cases, crime prevention may be lost.
  Furthermore, the crime prevention cover shown in FIG. 15 is only required to press the main body at an arbitrary rotational position when it is desired to rotate the thumb turn. Crime prevention could not be improved sufficiently.
[0009]
  The present invention has been made in view of the above situation, and the first object thereof is to prevent the rotation of the thumb turn by a wire, a rod or the like, and it is impossible to input the rotational operation force to the lock box mechanism part only by the pressing operation. Or, it is to provide a crime prevention thumb turn in which rotation input to an existing thumb turn cannot be performed, and to further improve the crime prevention performance. In addition, the second purpose is to switch between a crime prevention state and a state in which normal operation can be performed, and further provide a crime prevention thumb turn in which the rotation position of the thumb turn can be easily seen, thereby improving operability. There is.
[0010]
[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 security thumb turn according to claim 1 of the present invention includes a clutch 12 attached to a knob 61 of an existing thumb turn 60,
  A rotary coupling body 39 which is disposed so as to be able to come into contact with and separate from the clutch 12 and has an engaging means 43 for preventing relative rotation with the clutch 12;
  A control piece 48 that is provided on the rotary coupling body 39 and is made of a magnet that is movable between an advanced position that restricts engagement with the clutch 12 and a reverse position that allows engagement with the clutch 12. When,
  An operating body 52 that includes a magnet 54 having a magnetic force to move the control piece 48 to the retracted position, and is detachable from the rotary coupling body 39;
  WithThe
[0011]
  Claim1The described security thumb turn includes the clutch 12 attached to the knob 61 of the existing thumb turn 60,
  A cylindrical body 19 that surrounds and covers the existing thumb turn 60 and rotatably supports the clutch 12 at the tip;
  A rotary connecting body 39 that is disposed so as to be able to come into contact with and separate from the clutch 12 and has an engaging means 43 that prevents relative rotation with the clutch 12;
  A rotation operation unit 30 that is rotatably provided in the cylindrical body 19 and supports the rotation coupling body 39;
  A control piece 48 that is provided on the rotary coupling body 39 and is made of a magnet that is movable between an advanced position that restricts engagement with the clutch 12 and a retracted position that allows engagement with the clutch 12. When,
  An operating body that includes a magnet 54 having a magnetic force to move the control piece 48 to the retracted position, is detachably attached to the rotary connecting body 39, and is detachable from the rotary operating portion 30. 52,
  It is characterized by comprising.
[0012]
  According to such a security thumb turn, the existing thumb turn 60 is obscured, and even if a wire, a rod or the like is used, the input of rotational force is prevented by sliding. Then, in order to transmit the operating force to the knob 61 of the existing thumb turn 60, the control piece 48 disposed on the rotary connecting body 39 using the operating body 52 configured separately is used by the repulsive force or the attracting force by the magnetic force. Since the rotation operation unit 30 has to be rotated after the rotation coupling body 39 has been moved after being moved, the engagement with the clutch 12 can be permitted, If there is no body operating body 52, the operation is impossible, and the rotary operation unit 30 is only idling. Moreover, if the magnet 48 built in the operation body 52 corresponds to each control piece 48 provided in the rotary coupling body 39 and does not have a magnetic force (magnetic pole) that can move each control piece 48, The pressing operation is also impossible, and the unlocking operation cannot be performed.
[0013]
  That is, since a separate member called the operating body 52 is required, unlocking is difficult by an operating method other than using the operating body 52, and unlocking using a wire or a bar is impossible. Further, if the configuration of the magnet 54 built in the operation body 52 itself is not a configuration corresponding to each control piece 48 of the rotary coupling body 39, the operation is impossible and the unlocking is impossible. Then, by using the regular operation body 52, the operation body 52 is attached to the rotation operation unit 30, and the rotation coupling body 39 and the clutch 12 are engaged with each other while being prevented from relative rotation. Unlocking is performed by an easy operation such as a rotation operation with the fingers of the fingers, and a locking / unlocking operation with no sense of incongruity becomes possible.
[0014]
  The crime prevention thumb turn according to claim 3 includes a clutch 72 attached to a knob 61 of an existing thumb turn 60,
  A rotary connecting body 90 that is disposed so as to be able to contact and separate with respect to the clutch 72 and has an engaging means 99 that prevents relative rotation with the clutch 72;
  A control piece 110 made of a magnet provided on the rotary connecting body 90 and movable between an advance position for restricting engagement with the clutch 72 and a reverse position for allowing engagement with the clutch 72. When,
  An operating body 115 provided with a magnet 131 having a magnetic force to move the control piece 110 to the retracted position, and detachable so as to cover the rotary coupling body 90;
  It comprises.
[0015]
  Claim3The described crime prevention thumb turn includes a clutch 72 that is attached to a knob 61 of an existing thumb turn 60 and has a shaft portion 74 that is coaxial with the rotation center of the knob 61.
  A rotary connecting body 90 having an engagement means 99 that is rotatably inserted in the shaft portion 74 and is movable in the axial direction and is non-detachable and prevents relative rotation with the clutch 72;
  A control piece 110 made of a magnet provided on the rotary connecting body 90 and movable between an advance position for restricting engagement with the clutch 72 and a reverse position for allowing engagement with the clutch 72. When,
  A cylindrical operating body 115 that includes a magnet 131 having a magnetic force to move the control piece 110 to the retracted position and is detachable so as to cover the rotary connecting body 90;
  It is characterized by comprising.
[0016]
  According to such a crime prevention thumb turn 70, the existing thumb turn 60 is obscured, and even if a wire, a rod, or the like is used, the rotational connecting body 90, which is normally rotatable, can input rotational force due to idling or sliding. Is blocked. In order to transmit the operating force to the knob 61 of the existing thumb turn 60, the control piece 110 provided on the rotary connecting body 90 is moved by a magnetic force such as a repulsive force using a separate cylindrical operating body 115. Since the engagement with the clutch 72 must be allowed and the rotary connecting body 90 must be pushed together with the cylindrical operating body 115 and then rotated, the unlocking operation using a wire or the like can be performed separately. If the cylindrical operation body 115 is not provided, the operation cannot be performed, and the rotary connecting body 90 is only idling. In addition, the magnet 131 built in the cylindrical operation body 115 corresponds to each control piece 110 provided in the rotary coupling body 90 and does not have a magnetic force and a magnetic pole that can move each control piece 110. The pressing operation is also impossible and the unlocking operation cannot be performed.
[0017]
  That is, since a separate member called the cylindrical operating body 115 is required, unlocking is difficult by an operating method other than using this cylindrical operating body 115, and unlocking using a wire or a bar is not possible. It becomes possible. Further, if the arrangement position configuration of the magnet 131 built in the cylindrical operation body 115 itself does not correspond to the arrangement position of each control piece 110 of the rotary coupling body 90, the operation is impossible and the unlocking is impossible. is there. Then, by using the regular cylindrical operating body 115, the rotational coupling body 90 and the clutch 72 are prevented from being relatively rotated by the operation of attaching the rotational coupling body 90 so as to cover the cylindrical operating body 115. In other words, unlocking is performed by an easy operation of rotating the cylindrical operation body 115 with fingers, and an unlocking / unlocking operation without a sense of incongruity becomes possible.
[0018]
  Of the present inventionThe security thumb-turn is a thumb-turn shaft that inputs rotational operation force to the lock box mechanism,
  A clutch disposed at an end of the thumb turn shaft opposite to the lock box mechanism;
  A rotary coupling body that is disposed so as to be able to contact with and separate from the clutch and has an engagement means for preventing relative rotation with the clutch;
  A control piece that is provided on the rotary coupling body and is made of a magnet that is movable between an advance position that restricts engagement with the clutch and a reverse position that allows engagement with the clutch;
  An operating body that includes a magnet having a magnetic force to move the control piece to the retracted position, and is detachable from the rotary coupling body;
  WithIt can be configured.
[0019]
  Of the present inventionThe security thumb-turn is a thumb-turn shaft that inputs rotational operation force to the lock box mechanism,
  A clutch disposed at an end of the thumb turn shaft opposite to the lock box mechanism;
  A cylinder that rotatably supports the clutch;
  A rotationally coupled body that is disposed so as to be able to contact with and separate from the clutch and has an engaging means for preventing relative rotation with the clutch;
  A rotation operation unit that is rotatably provided in the cylindrical body and supports the rotation coupling body;
  A control piece made of a magnet, which is provided on the rotary coupling body and is movable between an advance position for restricting engagement with the clutch and a retreat position for allowing engagement with the clutch;
  An operating body that includes a magnet having a magnetic force to move the control piece to the retracted position, is detachable with respect to the rotating coupling body, and is detachable with respect to the rotating operation section;
  It can be set as the structure which comprises.
[0020]
  Of the present inventionThe security thumb-turn is a thumb-turn shaft that inputs rotational operation force to the lock box mechanism,
  A clutch disposed at an end of the thumb turn shaft opposite to the lock box mechanism;
  A rotationally coupled body that is disposed so as to be able to contact with and separate from the clutch and has an engaging means for preventing relative rotation with the clutch;
  A control piece that is provided on the rotary coupling body and is made of a magnet that is movable between an advance position that restricts engagement with the clutch and a reverse position that allows engagement with the clutch;
  An operating body that includes a magnet having a magnetic force to move the control piece to the retracted position, and is detachable so as to cover the rotary coupling body;
  WithIt can be configured.
[0021]
  Of the present inventionThe security thumb-turn is a thumb-turn shaft that inputs rotational operation force to the lock box mechanism,
  A clutch disposed at an end of the thumb turn shaft opposite to the lock box mechanism;
  A shaft portion coaxial with the thumb turn shaft and extending from the clutch;
  A rotary coupling body having engagement means that is rotatable on the shaft portion and movable in the axial direction and is externally inserted so as not to be removable, and prevents relative rotation with the clutch;
  A control piece that is provided on the rotary coupling body and is made of a magnet that is movable between an advance position that restricts engagement with the clutch and a reverse position that allows engagement with the clutch;
  A cylindrical operating body that includes a magnet having a magnetic force to move the control piece to the retracted position, and is detachable so as to cover the rotary coupling body;
  WithIt can be configured.
[0022]
  According to such a security thumb turn, as described above, even if a wire, a rod, or the like is used, the input of the rotational operation force to the lock box mechanism portion is prevented by idling or sliding. In order to transmit the rotational operation force to the lock box mechanism, the control piece provided on the rotational coupling body is moved by a magnetic force using a separate operation body or a cylindrical operation body, and is engaged with the clutch. Since the rotating coupling body must be rotated together with the operating body, even if an unauthorized unlocking operation is attempted with a wire or the like, the operation cannot be performed without a separate operating body. Will idle. Moreover, if the magnet built in the operating body corresponds to each control piece provided on the rotary connecting body and does not have a magnetic force and a magnetic pole that can move each control piece, the pressing operation is also impossible. Yes, the unlocking operation cannot be performed.
[0023]
  Claim4The crime prevention thumb turn described is the claim3In the crime prevention thumb turn described above, a tip end of the shaft portion 74 penetrates the rotary connecting body 90, and the cylindrical operation body 115 is provided with a locking means 121 that can be engaged with and disengaged from the shaft portion 74. Features.
[0024]
  In the crime prevention thumb turn 70, it is possible to constitute a constantly attached state by the locking means 121 in a state in which the cylindrical operation body 115 is attached so as to cover the rotary connecting body 90. By configuring in this way, for example, it is possible to maintain a state that is not in a crime prevention state, which is suitable when the user is at home or when there are many people going in and out.
[0025]
  Claim5The crime prevention thumb turn described is the claim3 or 4The crime prevention thumb turn described above is characterized in that a tip end of the shaft portion 74 penetrates the cylindrical operation body 115, and a rotational position display means 80 is provided on the tip end surface of the shaft portion 74.
[0026]
  Thus, by forming the through hole 118 at the center position of the cylindrical operating body 115, the rotational position display means 80 provided at the distal end of the shaft portion 74 can be visually recognized, thereby the clutch 72 and the cylindrical shape. The rotational position of the knob 61 of the existing thumb turn 60 or the rotational position of the thumb turn shaft that has become invisible due to being covered with the operating body 115 can be known via the rotational position display means 80, thereby improving operability. Is possible.
[0027]
  It should be noted that by configuring a plurality of control pieces 48 and 110 made of magnets, it is necessary to configure a plurality of magnets 54 and 131 of the operating bodies 52 and 115, and combining them by changing the direction of each magnetic pole. Thus, the operating bodies 52 and 115 can constitute the same key as the magnet key, and the crime prevention property as a thumb turn can be further improved. That is, by using the dedicated operation bodies 52 and 115, the thumb turn operation is a locking / unlocking operation only for the user.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, a preferred embodiment of a security thumb turn according to the present invention will be described in detail with reference to the drawings.
  In the first and second embodiments described below, a description will be given of a crime prevention thumb turn attached later to an existing thumb turn.
[0029]
  First embodiment
  First, the first embodiment will be described.
  FIG. 1 is a schematic perspective view of a first embodiment of a security thumb turn according to the present invention, FIG. 2 is an exploded side view of the security thumb turn, and FIG. 3 is a longitudinal sectional view during operation in the security thumb turn. It is explanatory drawing which represented sectional view to (b).
[0030]
  The crime prevention thumb turn 10 according to the first embodiment has, as main components, a clutch 12, a cylinder 19, a rotation operation unit 30, a rotation coupling body 39, a control piece 48, an operation shown in FIG. The body 52 is substantially constituted.
[0031]
  The clutch 12 has a base portion 13 that is attached to a knob 61 of an existing thumb turn 60. This deposition is performed by inserting the knob 61 into the insertion groove 14 (see FIG. 2) formed on the base end side surface of the base portion 13. The means for attaching the base portion 13 of the clutch 12 to the knob 61 is not limited to the method of inserting the knob 61 into the insertion groove 14, for example, a female screw penetrating perpendicularly to the insertion groove 14. And by attaching the set screw, the tip of the set screw may be pressed against the knob 61 of the existing thumb turn 60, or a method using an adhesive tape or adhesive may be used. There is no need to provide a female screw and a set screw.
[0032]
  A flange-shaped large-diameter portion 15 is formed on the outer peripheral surface of the front end side of the clutch 12. The large-diameter portion 15 is substantially circular at the outer peripheral edge thereof, and is locked to the cylindrical body 19 as will be apparent from the following description.
[0033]
  Further, the clutch 12 has a shaft-like convex portion 16 formed at the center of the front end surface of the base portion 12, and has a clutch-side engaging means 17 around the shaft-like convex portion 16. The clutch-side engagement means 17 is formed by arranging a plurality of teeth formed by projecting the distal end surface of the base portion 12 at equal intervals in the circumferential direction. The clutch side engaging means 17 meshes with a below-described connecting body side engaging means 43 provided on the rotary connecting body 39.
[0034]
  The cylindrical body 19 is formed in a substantially cylindrical shape that surrounds the existing thumb turn 60, and is substantially constituted by a covering portion 20, a support portion 21, and attachment claws 25. The covering portion 20 constitutes a substantially half portion on the proximal end side of the cylindrical body 19, is located around the existing thumb turn 60, and covers the existing thumb turn 60. The support portion 21 constitutes a substantially half portion on the distal end side of the cylindrical body 19, a rolling groove 22 is formed on the outer peripheral surface, and a support groove 23 is formed on the inner peripheral surface. A plurality of support balls 24 are arranged in the rolling groove 22, and a rotation operation unit 30 is attached to the outside of the support balls 24. That is, the rotation operation unit 30 is rotatably supported on the outer periphery of the cylindrical body 19 via the support ball 24. Further, the large-diameter portion 15 of the clutch 12 described above is fitted into the support groove 23 so as to support the rotation of the clutch 12 with respect to the cylindrical body 19. The attachment claw 25 is disposed on the inner peripheral surface of the base end side of the covering portion 20. The attachment claw 25 is formed in a substantially bowl shape with the tip protruding in the center direction, and is inserted into the gap between the decorative ring 62 of the existing thumb turn 60 and the door surface 63 and is locked to the decorative ring 62.
[0035]
  Further, the cylindrical body 19 is provided with a contact edge portion 26 that extends in a cylindrical shape at the tip edge of the support portion 21, and is mounted on the outer periphery of the contact edge portion 26. A groove 27 is formed. The abutting edge portion 26 is opposed to a rear end surface of the rotary coupling body 39 described later. One end of a biasing member 28 made of a compression coil spring is mounted in the mounting groove 27.
[0036]
  The rotation operation unit 30 is formed in a cylindrical shape, and has an outer diameter substantially equal to that of the cylindrical body 19, and a plurality of recesses 31 along the axial direction are formed on the outer peripheral surface as shown in FIG. 1. . These concave portions 31 are formed shallowly and are formed so as to easily hold the rotary operation unit 30 with fingers.
[0037]
  The rotation operation unit 30 is formed with a circumferentially continuous concave groove 32 formed on the inner peripheral surface on the proximal end side, facing the rolling groove 22 of the cylindrical body described above, and this cylinder via each support ball 24. It is provided so as to be rotatable with respect to the body 19 and to be sheathed on a substantially half portion on the distal end side of the cylindrical body 19.
[0038]
  In addition, a plurality of guide grooves 33 formed along the axial direction, that is, three guide grooves 33 as shown in FIG. 3 are formed on the inner peripheral surface on the front end side of the rotation operation unit 30. These guide grooves 33 support a rotationally connected body 39, which will be described later, so as not to rotate relative to each other, and are supported so as to be movable along the axial direction.
[0039]
  Furthermore, the rotation operation unit 30 is formed with a protrusion 35 that protrudes in the central direction at the inner edge of the opening portion at the tip and slightly narrows the opening diameter. The protrusion 35 constitutes a terminal end of the guide groove 33 and holds an operation body 52 described later.
  In addition, as shown in FIG. 1, the shape of this opening part is formed in the substantially C shape by which some circular shapes were notched, and the fitting part 36 is formed.
[0040]
  Next, the rotation coupling body 39 is substantially constituted by a coupling substrate 40 and a lid plate 41 in the present embodiment. The connection board 40 is formed in a substantially disc shape, and the cover plate 41 is formed in a thin plate shape that is fixed to the rear end face side of the connection board 40. The connecting substrate 40 and the cover plate 41 are integrally formed by a fixing means (not shown) such as a screw. The connection board 40 has a plurality of protrusions 42 on the outer peripheral edge, and is engaged with each guide groove 33 of the rotation operation unit 30. The protrusions 42 can be slid along the guide grooves 33. That is, the protrusions 42 are not rotatable relative to the rotation operation unit 30 and are slidable in the axial direction.
[0041]
  The connection board 40 has connection body side engagement means 43 as engagement means near the center of the rear end face. The coupling body side engaging means 43 is configured by a plurality of teeth arranged radially at equal intervals in the circumferential direction with respect to the center. The connecting body side engaging means 43 can mesh with the clutch side engaging means 17 described above.
[0042]
  In addition, the connection substrate 40 has a plurality of substantially oval concave portions 44 formed on the rear end surface. As shown in FIG. 3 (b), these recesses 44 are configured in six in this embodiment, are formed in a groove shape in which the axial direction is radial, and are arranged in parallel so as to be equidistant from each other. ing.
[0043]
  Each recess 44 is formed in a shape in which a large-diameter portion 44a and a small-diameter portion 44b are continuous, with the small-diameter portion 44b being the center side and the large-diameter portion 44a being the outer peripheral edge side. And the control piece mentioned later is inserted in the large diameter part 44a of each recessed part 44. FIG. In addition, an entrance portion 45 made of a ring-shaped concave groove is formed on the rear end surface of the connection substrate 40 so as to connect the outer peripheral side end portions of the concave portions 44.
[0044]
  The control piece 48 is made of a substantially cylindrical magnet, and is inserted into the large diameter portion 44 a of the recess 44 so as to be slidable in the longitudinal direction of the recess 44. In the present embodiment, the control piece 48 is not inserted into all the concave portions 44 described above, but is inserted into one or a plurality of selected locations. In the present embodiment, as shown in FIG. 3B, the control pieces 48 are inserted into the four concave portions 44. In the loaded state, each magnetic pole is set to be in the front and back direction of the connection board 40, that is, the axis of each control piece 48 and the axis of the connection board 40 are set in parallel. Further, when the control pieces 48 are inserted into the recesses 44, the directions of the magnetic poles may all be the same, or may be configured by combining various directions of the magnetic poles.
[0045]
  Each control piece 48 is provided with an advancing spring 50 as an advancing means. In this embodiment, the advance spring 50 is formed of a compression coil spring, and is disposed in the small diameter portion 44b of the recess 44, and has an urging force to advance the control piece 48 in the radial direction from the center of the connecting board 40. Yes. The connection board 40 is closed by the cover plate 41 in a state where the control piece 48 and the advance spring 50 are inserted in each recess 44. In the closed state, only the entry portion 45 on the rear end surface of the connection board 40 opens in a ring shape, and the connection body side engagement means 43 protrudes near the center.
[0046]
  The rotation coupling body 39 is disposed in the rotation operation unit 30, and the projections 42 are guided in the guide grooves 33 so that the rotation coupling body 39 can slide in the axial direction. A peripheral edge portion of the rear end surface of the rotary connecting body 39 faces the mounting groove 27 of the cylindrical body 19 and an urging member 28 is interposed. As a result, the rotary coupling body 39 is always urged in the direction of detachment from the cylindrical body 19 in the rotation operation unit 30, and the rotation coupling body 39 is projected on the protrusion of the rotation operation unit 30. It will be held at position 35. Further, the entry portion 45 of the rotary coupling body 39 faces the contact edge portion 26 of the cylindrical body 19.
[0047]
  Next, the operation body 52 is formed in a substantially disc shape and includes a knob portion 53 and a magnet 54. The operating body 52 has an outer diameter substantially the same as that of the rotary coupling body 39, and a locking protrusion 55 that is continuous in the circumferential direction is formed on the rear end face side of the outer peripheral edge. The locking ridge 55 is adapted to engage with a ridge 35 formed in the opening of the rotation operation unit 30. The operating body 52 has a knob 53 protruding from a part of the outer edge. As shown in FIG. 1, the knob 53 is formed in a substantially trapezoidal shape, and is formed in a tab shape that enables the operation body 52 to be held. The knob portion 53 can be fitted into the fitting portion 36 of the rotation operation unit 30 and allows the rotation operation unit 30 to specify the mounting direction so as not to rotate relative to the rotation operation unit 30.
[0048]
  The magnet 54 provided in the operating body 52 is provided so as to be built in the operating body 52. The magnets 54 are configured in the same number as the control pieces 48 so as to correspond to the control pieces 48 provided on the rotary coupling body 39 described above. Further, these magnets 54 correspond to the arrangement positions of the control pieces 48, are arranged radially with respect to the center of the operating body 52, and the direction of the magnetic poles is radial. In addition, the arrangement position of each magnet 54 is the state in which the operation body 52 is attached to the rotation operation section 30, that is, the knob section 53 is made to coincide with the fitting section 36 of the rotation operation section 30. The position corresponding to each control piece 48 of the rotationally connected body 39 in a state where the position 39 is overlapped.
[0049]
  In order to attach the security thumb turn 10 configured as described above to the knob 61 of the existing thumb turn 60, first, the cylindrical body 19, the rotary operation unit 30, the clutch 12, and the rotary connecting body 39 are assembled together in advance. The cylinder 19 is attached to the decorative ring 62 as being extrapolated. At the time of this attachment, the fitting groove 14 of the clutch 12 is set along the knob 61 of the existing thumb turn 60 so that the cylinder 19 is pressed against the door surface 63. By this pressing, the mounting claws 25 of the cylindrical body 19 enter the gap between the door surface 63 and the decorative ring 62 and are attached.
  In the case where the clutch 12 is provided with a female screw, the clutch 12 is fixed to the knob 61 of the existing thumb turn 60 by screwing a set screw and tightening with a tool such as a hexagon wrench.
  Thereby, the attachment of the security thumb turn 10 is completed. Further, the operating body 52 is not attached to the existing thumb turn 60 side, that is, the rotary connecting body 39, but is stored separately.
[0050]
  Next, the operation of the security thumb turn 10 attached to the knob 61 of the existing thumb turn 60 will be described.
  In the security thumb turn 10, the rotation operation unit 30 is rotatable with respect to the cylindrical body 19 at normal times. On the other hand, the clutch 12 located in the cylinder 19 does not rotate. In addition, the rotation coupling body 39 rotates together with the rotation operation unit 30. As shown in FIGS. 4 (a) and 4 (b), the rotary connecting body 39 is configured such that the control pieces 48 in the recesses 44 are urged by the entry springs 50 in the outer peripheral direction. Since it has advanced into the entry portion 45, the contact edge portions 26 of the cylindrical body 19 cannot enter into the entry portion 45 and come into contact with each other, so that they cannot move (push) in the axial direction.
[0051]
  Next, during the unlocking operation, the operating body 52 is brought close to the rotary connecting body 39. At this time, the knob 53 of the operation body 52 is aligned with the fitting portion 36 of the rotation operation section 30 (see FIG. 6C), and the rotation coupling body 39 and the operation body 52 are overlapped as shown in FIG. Try to match.
[0052]
  Then, the magnets 54 of the operating body 52 cause the control pieces 48 of the rotary coupling body 39 to move inside the large-diameter portion 44a of the recess 44 against the urging force of the entry spring 50 by the mutual repulsive force and attracting force. It moves backward and moves in the direction approaching the small diameter portion 44b. When each control piece 48 is moved by magnetic force, the entry portion 45 connecting each recess 44 is opened, and the contact edge portion 26 of the cylindrical body 19 can enter (see FIG. 6B).
[0053]
  When the contact edge portion 26 enters the entry portion 45, the rotary coupling body 39 can move in the axial direction along the guide groove 33 of the rotation operation portion 30. When the rotary connecting body 39 moves, the connecting body side engaging means 43 provided on the rotating connecting body 39 meshes with the clutch side engaging means 17 of the clutch 12, and relative rotation between the rotary connecting body 39 and the clutch 12 is performed. Is regulated (see FIG. 6A). At this time, the operation body 52 is moved in the axial direction together with the rotary coupling body 39, the locking protrusion 55 of the operation body 52 is engaged with the protrusion 35 of the rotation operation section 30, and the opening portion of the rotation operation section 30 is The operating body 52 is engaged so as to be fitted. That is, the operation body 52 is pushed into the rotation operation unit 30, and the rotation operation unit 30 and the operation body 52 are substantially integrated. As a result, the rotational operation force of the rotational operation unit 30 can be transmitted to the clutch 12.
[0054]
  Then, when the rotation operation unit 30 is picked and the rotation operation is performed, the clutch 12 is rotated, and the knob 61 of the existing thumb turn 60 attached to the clutch 12 is unlocked and rotated.
[0055]
  After the unlocking operation, by removing the operating body 52, the rotary connecting body 39 is detached from the clutch 12 by the biasing force of the biasing member 28, that is, the clutch side engaging means 17 and the connecting body side engaging means 43 are connected. The meshing is released, and the rotational operation force of the rotational operation unit 30 is not transmitted to the clutch 12. At the same time, since the magnets 54 are separated from each other, each control piece 48 is moved in the recess 44 by the urging force of the advance spring 50. In addition, at the time of this removal, it can be easily removed by putting a finger on the outer front edge of the knob 53 and pulling it forward.
[0056]
  The locking method can be performed in the same manner as this unlocking method.
[0057]
  Thus, according to the above-described crime prevention thumb turn 10, the existing thumb turn 60 is covered, and even if a wire, a rod, or the like is used, the input of rotational force is prevented by sliding. In order to transmit the operation force to the knob 61 of the existing thumb turn 60, the control piece 48 disposed on the rotary coupling body 39 is moved by the magnetic force using the separate operation body 52, and the clutch 12 Since the rotation operation unit 30 must be rotated after the rotation coupling body 39 is pushed in, the separate operation body 52 is not required even if the unlocking operation is illegally performed by the wire. In this case, the operation is impossible, and the rotation operation unit 30 is only idling. Moreover, if the magnet 48 built in the operation body 52 corresponds to each control piece 48 provided in the rotary coupling body 39 and does not have a magnetic force (magnetic pole) that can move each control piece 48, The pressing operation is also impossible, and the unlocking operation cannot be performed.
[0058]
  That is, since a separate member called the operating body 52 is required, unlocking is difficult by an operating method other than using the operating body 52, and unlocking using a wire or a bar is impossible. Further, if the configuration of the magnet 54 built in the operation body 52 itself is not a configuration corresponding to each control piece 48 of the rotary coupling body 39, the operation is impossible and the unlocking is impossible.
[0059]
  Then, by using the regular operation body 52, the rotation body 39 and the clutch 12 are engaged with each other in a state in which relative rotation is prevented by the operation of fitting the operation body 52 over the entire surface of the rotation operation unit 30 to rotate. Unlocking is performed by an easy operation such as a rotation operation with fingers of the operation unit 30, and an unlocking / unlocking operation without a sense of incongruity becomes possible.
[0060]
  The central position of the rotary coupling body 39 and the operation body 52 is a transparent member, and the rotational position display means is provided on the shaft-like convex portion 16 at the center of the front end surface of the clutch 12, so that the clutch 12, the rotary coupling body 39 and the operation body 52 are operated. The rotational position of the knob 61 that is no longer visible by being covered with the body 52 can be known via the rotational position display means, and the operability can be improved.
[0061]
  Second embodiment
  Next, a second embodiment will be described.
  FIG. 7 is a schematic perspective view of a second embodiment of the security thumb turn according to the present invention, (a), an explanatory view showing a back cross-sectional view of the cylindrical operating body, and FIG. 8 is a diagram of the security thumb turn. FIG. 9 is an exploded side view, and FIG. 9 is an explanatory view showing a longitudinal sectional view at the time of operation of the security thumb turn, and (a) showing a front sectional view.
[0062]
  The crime prevention thumb turn 70 according to the second embodiment has a clutch 72 shown in FIG. 8, a clutch cover 90 as a rotary coupling body, a control piece 110, and a cylindrical operation body 115 as main components. is doing.
[0063]
  The clutch 72 has a circular base portion 73, and a shaft portion 74 that is coaxial with the rotation center of the knob 61 of the existing thumb turn 60 protrudes from the circular base portion 73. In the present embodiment, the circular base portion 73 and the shaft portion 74 are configured separately and are fastened and fixed by fixing means 78 such as screws, as shown in FIG.
[0064]
  A flange-shaped large-diameter portion 75 is formed on the distal end side of the shaft portion 74, and a stepped portion 76 is formed. As will be apparent from the following description, the stepped portion 76 comes into contact with the clutch cover 90 and restricts the movement of the clutch cover 90 in the axial direction.
[0065]
  Further, the shaft portion 74 has an end 77 having a slightly small diameter at the tip. A circumferential groove 79 is formed in the middle of the end 77, and a slide knob 121 of a cylindrical operating body 115 described later is fitted therein. Further, a rotational position display means 80 is provided on the distal end surface of the end portion 77. The rotation position display means 80 is used for marking by minute unevenness, printing or marking, or color coding by partial coloring. For example, as shown in FIG. 7, the rotational position display means 80 is in a vertically long shape when unlocked, and when it is locked, that is, when rotated 90 degrees clockwise, it becomes a horizontally long shape. It is possible to easily identify the time, and these directions are provided so as to coincide with the direction of a fitting groove described later.
[0066]
  The clutch 72 has a circular base 73 attached to the knob 61 of the existing thumb turn 60. In this attachment, a fitting groove 81 into which the knob 61 is fitted is formed on the surface of the circular base portion 73 opposite to the projecting side surface of the shaft portion 74, and a set screw 83 is inserted into the female screw passing through the fitting groove 81. Are screwed together so that the tip of the set screw 83 is pressed against the knob 61 of the existing thumb turn 60. Note that an adhesive tape or an adhesive may be used for this deposition, and in this case, the above-described female screw and set screw may not be provided.
[0067]
  The clutch 72 has a clutch-side engaging means 85 on the surface of the circular base portion 73 on the protruding side of the shaft portion 74. The clutch-side engaging means 85 is formed by arranging a plurality of teeth with the peripheral edge of the circular base portion 73 protruding in the axial direction at equal intervals in the circumferential direction. The clutch side engaging means 85 meshes with a cover side engaging means 99 described later provided on the clutch cover 90.
[0068]
  A restricting claw 87 is provided around the clutch side engaging means 85 of the clutch 72. The restricting claws 87 are formed by projecting a plurality of fork-shaped protrusions on a ring-shaped annular substrate 88, and in the present embodiment, have four rectangular plate shapes. Each restricting claw 87 is located around each tooth of the clutch side engaging means 85 and protrudes in the same direction as the shaft portion 74. The restricting claws 87 are not fixed to the clutch 72, and the annular substrate 88 is rotatable around the clutch-side engaging means 85 in a sliding contact state.
[0069]
  In the present embodiment, the clutch cover 90 has a two-part structure of a proximal end side cover 90A and a distal end side cover 90B. The proximal end cover 90A is formed in a substantially cylindrical shape, and the distal end side cover 90B is formed in a substantially disk shape. The base end side cover 90A and the front end side cover 90B are integrally connected by a fixing means 91 such as a screw. In addition, the screw 91 which is a fixing means for connecting each other is screwed from within the base end side cover 90A, and the screw head does not appear on the surface.
[0070]
  The base end side cover 90 </ b> A is hollow inside, and the rear end is a cylindrical flare portion 92. In addition, on the distal end side of the base end side cover 90A, a plurality of convex portions 93 are formed on the peripheral edge, and in this embodiment, as shown in FIGS. 7 and 9, four convex portions 93 are formed on the peripheral edge. The As shown in FIG. 9, each convex part 93 is comprised by what is formed in a substantially semicircle and what is formed in a substantially rectangular shape. Two of the convex portions 93 are penetrated by the fixing means (screws) 91. In addition, a through hole 94 is formed in the center on the distal end side of the base end side cover 90A, and the shaft portion 74 of the clutch 72 passes through and is rotatably inserted. The peripheral edge portion on the front end side of the through hole 94 comes into contact with the stepped portion 76 that is the rear end of the large diameter portion 75 of the shaft portion 74.
[0071]
  The distal end side cover 90B includes convex portions 96 having the same outer shape as the four convex portions 93 of the proximal end side cover 90A. Further, the tip side cover 90 </ b> B is formed with a through hole 97 at the center and is externally inserted at the tip of the shaft portion 74. The through hole 97 is a large-diameter through hole having an inner diameter substantially equal to the outer diameter of the large-diameter portion 75 of the shaft portion 74 on the rear end surface side, and an inner diameter substantially equal to the outer diameter of the end portion 77 of the shaft portion 74 on the front-end surface side. It is a small diameter through hole. The base end side cover 90 </ b> A and the distal end side cover 90 </ b> B that are extrapolated to the shaft portion 74 are prevented from being removed from the shaft portion 74.
[0072]
  The through hole 94 of the base end side cover 90 </ b> A is extrapolated so as to be movable in the axial direction of the shaft portion 74. That is, the clutch cover 90 is rotatably attached to the shaft portion 74 and is movable in the axial direction so as not to be removed by the step portion 76 of the shaft portion 74. Further, the movement stroke of the clutch cover 90 with respect to the shaft portion 74 is a length that is the depth in the axial direction of the large-diameter through hole of the tip side cover 90B. Further, the end portion 77 of the shaft portion 74 advances and retreats from the small diameter through hole of the distal end side cover 90B. When the end 77 protrudes from the front end side cover 90B, the circumferential groove 79 is exposed from the surface of the front end side cover 90B.
[0073]
  The base end side cover 90A has cover side engaging means 99 as engaging means inside. The cover side engaging means 99 is formed by arranging a plurality of teeth at equal intervals in the circumferential direction at the same center as the through hole 94. The cover side engaging means 99 can be engaged with the clutch side engaging means 85 described above. The proximal end cover 90A is provided with a plurality of through slits 101 in the vicinity of the outer peripheral edge. Each through slit 101 corresponds to the restriction claw 87, and each restriction claw 87 is in an inserted state.
[0074]
  Each of the restricting claws 87 to be inserted is located along the curved outer surface 102 located between the convex portions 93 of the base end side cover 90A, and the outer side is covered with each peripheral wall portion 103 extending to the distal end side cover 90B. Is called. Each peripheral wall portion 103 is formed along the curved outer surface 102, and a concave groove 104 continuous with the through slit 101 is formed on the inner surface facing the curved outer surface 102. Each restricting claw 87 that penetrates the through slit 101 is inserted into the concave groove 104. Each curved outer surface 102 covered with the peripheral wall 103 is provided with a control piece 110 described later.
[0075]
  As described above, the clutch cover 90 is connected and fixed by the screw 91 in a state where the convex portions 93 and 96 of the base end side cover 90A and the front end side cover 90B are overlapped in the axial direction, and the shaft portion 74 by the through hole 94. It is attached by being extrapolated so as not to be removable. A compression spring 105 as an urging means is disposed between the clutch 72 and the clutch cover 90 attached in this manner, and the compression spring 105 urges the clutch cover 90 in the protruding direction of the shaft portion 74. In the present embodiment, the compression spring 105 is attached to the hole 106 formed in the two convex portions 93 of the base end side cover 90A, and is interposed between the hole 106 and the annular substrate 88 on the clutch 72 side. The Therefore, the clutch cover 90 is moved in the direction approaching the clutch 72 against the urging force of the compression spring 105 (leftward in FIG. 9A) by pushing. The clutch 72 and the clutch cover 90 are engaged with each other so that the clutch-side engaging means 85 and the cover-side engaging means 99 are engaged to restrict relative rotation. Further, at the time of pressing, the restricting claw 87 passes through the through slit 101 and enters the concave groove 104, so that it is moved along the axial direction.
[0076]
  As shown in FIG. 9A, the clutch cover 90 is configured to cover the circular base portion 73 of the clutch 72 at the position urged by the compression spring 105 as shown in FIG. That is, the flare part 92 and the circular base part 73 are overhanging as shown in the figure.
  The flare 92 may be formed with a through hole in the side wall portion so that the through hole coincides with the female screw 82 of the circular base 73 at the position where the clutch cover 90 is pushed. .
[0077]
  The control piece 110 is provided on the curved outer surface 102 of the base end side cover 90 </ b> A constituting the clutch cover 90. The control piece 110 is made of a substantially cylindrical magnet, and is attached to a recessed hole 111 provided in each curved outer surface 102 so as to be freely advanced and retracted. The control piece 110 is urged in the advancing direction by an advancing spring 112 made of a compression coil spring disposed in the recessed hole 111. Note that the control piece 110 of the second embodiment may also be disposed in all the recessed holes 111, or may be disposed in at least one place, as in the first embodiment described above. And so on.
[0078]
  The control piece 110 disposed in the recessed hole 111 has the direction of both magnetic poles coincided with the axial direction of the recessed hole 111, and in the disposed state, the magnetic poles may all be in the same direction. Or you may comprise combining various directions of a magnetic pole.
  Each control piece 110 is advanced into the concave groove 104 of the peripheral wall portion 103 of the front end side cover 90 </ b> B in the state of being advanced by the urging force of the advance spring 112, and this concave groove 104 continuing from the through slit 101. The inside is closed, that is, the entry of the restricting claw 87 into the concave groove 104 is restricted.
[0079]
  Next, the cylindrical operation body 115 is formed in a substantially cylindrical shape, and has a shape in which the distal end side is closed and the covering surface 116 is provided. A plurality of shallow grooves 117 along the axial direction are formed on the outer peripheral side surface of the cylindrical operation body 115. A through hole 118 is formed in the center of the covering surface on the tip side. The through hole 118 is formed to have an inner diameter through which the end portion 77 of the shaft portion 74 can penetrate. The inner peripheral surface of the cylindrical operation body 115 has a concave shape corresponding to the outer shape of the clutch cover 90, that is, a plurality of concave grooves into which the convex portions 93 and 96 constituting the outer shape of the clutch cover 90 can be fitted. 119, and is detachably attached so as to cover the outer periphery of the front end side of the clutch cover 90. In a state where the cylindrical operation body 115 is attached to the clutch cover 90, the relative rotation is restricted by the convex portions 93 and 96 and the concave groove 119, that is, substantially integrated, and is connected to each other. .
[0080]
  A pair of sliding knobs 121 serving as locking means that are slidable in a direction orthogonal to the axis of the cylindrical operating body 115 are attached to the cylindrical operating body 115. The sliding knob 121 is disposed in a sliding groove 122 that is recessed in the inner surface of the covering surface 116 of the cylindrical operation body 115. The sliding groove 122 communicates with the through hole 118 at the center of the covering surface, and is formed in a pair with a radial outward direction with respect to the through hole 118, and in the slit-like insertion hole 123 that penetrates the outside. Communicate. The sliding groove 122 forms a substantially tubular space in the closing plate 125 attached to the inner surface of the covering surface 116. That is, each sliding knob 121 is disposed so as to be sandwiched between the inner surface of the covering surface 116 and the closing plate 125.
[0081]
  As shown in FIG. 7B, each sliding knob 121 is a plate-like member formed in a substantially U shape, and one end is an engaging portion 127 and the other end is an operation portion 128. . The operation portion 128 is curved at the outer end and is exposed to the outer peripheral surface from the insertion hole of the cylindrical operation body 115, the midway portion overhangs the half of the shaft portion 74, and the engagement portion 127 is the operation portion 128. With respect to the shaft portion 74, it is attached so as to extend to the opposite side.
[0082]
  The pair of sliding knobs 121 slide in the sliding groove 122 in a direction orthogonal to the axial direction of the shaft portion 74, and between the engagement portion 127 formed in the middle of the sliding groove 122. The operation portions 128 are urged away from each other by the attached compression spring 129. Therefore, the engaging portion 127 of the sliding knob 121 is locked in the circumferential groove 49 at the tip of the shaft portion 74 and is sandwiched between them, and restricts the movement of the cylindrical operation body 115 in the axial direction. . Further, in this state, each operation unit 128 is positioned slightly protruding from the outer peripheral surface of the cylindrical operation body 115 (see FIG. 7).
[0083]
  On the other hand, the sliding knob 121 is picked and slid in the direction in which the operation parts 128 approach each other, whereby the engaging part 127 is separated from the shaft part 74 and detached from the circumferential groove 79. That is, the movement restriction in the axial direction of the cylindrical operation body 115 is released. Thereby, the cylindrical operating body 115 is removed from the shaft portion 74.
[0084]
  As shown in FIG. 7, the position where the operation portion 128 of the slide knob 121 protrudes, that is, the position of the insertion hole 123 is the position of the groove 117 on the outside of the cylindrical operation body 115, and the cylindrical operation body 115. At the same time as picking itself, an operation of picking up the operation unit 128 can be performed.
  In this embodiment, the case where two sliding knobs 128 are provided has been described as an example. However, the security thumb turn according to the present invention has the same effect even if only one sliding knob 128 is provided. It is.
[0085]
  The cylindrical operating body 115 is provided with a magnet 131. The magnet 131 corresponds to the control piece 110 described above and is built in the side wall portion of the cylindrical operation body 115. In the present embodiment, the magnetic poles that are located slightly between the concave grooves 119 in the side wall portion of the cylindrical operating body 115 and that provide a repulsive force to the control piece 110 are directed toward the inner peripheral surface side. Respectively. That is, when the cylindrical operating body 115 is mounted so that the convex portions 93 and 96 and the concave grooves 119 coincide with each other so as to cover the clutch cover 90, the cylindrical operating body 115 is attached to the control pieces 110 provided on the clutch cover 90. The repulsive force due to the magnetic force is applied, and each control piece 110 is retracted into the recessed hole 111 against the urging force of the advance spring 112.
[0086]
  The security thumb turn 70 further includes a retrofit ring 135 that covers the knob 61 of the existing thumb turn 60, the clutch 72, a part of the clutch cover 90, and the decorative ring 62 of the existing thumb turn 60. The post-decoration ring 135 is formed in a conical cylinder shape, and is provided with a through hole 136 through which the set screw 83 is inserted. In addition, a plurality of hook-shaped locking claws 137 projecting inward are formed on the inner edge of the base end side.
[0087]
  The retrofit decorative ring 135 in the second embodiment can be selected according to the shape and size (outer diameter) of the decorative ring 62 of the existing thumb turn 60, that is, a shape that can be adapted to the existing decorative ring 62. Thus, it can be attached to the existing thumb turn 60 of any shape.
[0088]
  In order to attach the security thumb turn 70 configured as described above to the knob 61 of the existing thumb turn 60, first, the clutch 72 and the clutch cover 90 are assembled together in advance, and then the decorative ring 135 attached to the decorative ring 62 is removed. Install in the inserted state. Then, by using a regular cylindrical operating body 115 and attaching it to the clutch cover 90 and pressing it, the through hole of the clutch cover 90 is made to coincide with the through hole 136 of the retrofit decorative ring 135 and the female screw 82 of the clutch 72, The clutch 72 is fixed to the knob 61 of the existing thumb turn 60 by screwing the set screw 83 into the female screw 82 from the through hole of the retrofit ring 135 and tightening with a tool such as a hexagon wrench. Thereby, the attachment of the security thumb turn 70 is completed. In addition, it is preferable that a cap 138 or the like is fitted in the through hole 136 and closed. Further, the cylindrical operation body 115 is not attached to the existing thumb turn 60 side, that is, the clutch cover 90, but is stored separately.
[0089]
  Next, the operation of the security thumb turn 70 attached to the knob 61 of the existing thumb turn 60 will be described.
  First, as shown in FIG. 9, the crime prevention thumb turn 70 is normally not equipped with the cylindrical operation body 115, and the clutch cover 90 is rotatable with respect to the shaft portion 74. On the other hand, the clutch 72 does not rotate. Further, the clutch cover 90 is in a state in which each control piece 110 has advanced into the concave groove 104, so that the regulation claws 87 do not enter the concave groove 104 and come into contact with each other, It is impossible to move (push) in the axial direction. Further, as the clutch cover 90 rotates, the restricting claw 87 also rotates.
[0090]
  Next, at the time of unlocking operation, the concave grooves 119 of the cylindrical operating body 115 are aligned with the convex portions 93 and 96 of the clutch cover 90 so that the cylindrical operating body 115 covers the clutch cover 90. .
[0091]
  Then, as shown in FIG. 10A, the control pieces 110 of the clutch cover 90 are recessed against the urging force of the advance spring 112 by the repulsive force of the magnetic force by the magnets 131 of the cylindrical operating body 115. Moves backward in the hole 111. When each control piece 110 is moved by a magnetic force, the inside of the concave groove 104 is brought into a communication state from the through slit 101, and the regulation claw 87 can enter. In addition, the cylindrical operating body 115 is externally attached to the clutch cover 90, and at the same time, the operating portion 128 of each sliding knob 121 is picked. Thereby, the space between the engaging portions 127 of the sliding knobs 121 is expanded, and the end portion 77 of the shaft portion 74 enters between the engaging portions 127 (see FIG. 10B).
[0092]
  As a result of the operation described above, the cylindrical operating body 115 is in an exterior state with respect to the clutch cover 90, but at the same time, the clutch cover 90 is pushed in the axial direction, thereby urging the compression spring 105. As a result, the cover side engaging means 99 meshes with the clutch side engaging means 85, and the relative rotation between the clutch cover 90 and the clutch 72 is restricted (see FIG. 11A). Further, when the finger is released from each operation portion 128 in this meshing state, the engagement portion 127 of each slide knob 121 is engaged with the circumferential groove 79. Thereby, the cylindrical operating body 115 cannot be detached from the clutch cover 90 side and is held in a covered state, that is, the clutch cover 90 and the cylindrical operating body 115 are substantially integrated, and the clutch cover 90 side Can be transmitted to the clutch 72 side.
[0093]
  When the cylindrical operating body 115 is picked and rotated, the clutch 72 is rotated, and the knob 61 of the existing thumb turn 60 attached to the clutch 72 is unlocked and rotated.
[0094]
  When the unlocking operation is finished, the cylindrical operation body 115 is released from the clutch cover 90 by releasing the locking of the end portion 77 of the shaft portion 74 by picking the operation portion 128 of the sliding knob 121 and pulling it out. (Refer FIG.11 (b)). At the same time, the clutch cover 90 is moved in the axial direction by the urging force of the compression spring 105 and detached from the clutch 72. As a result, the clutch-side engagement means 85 and the cover-side engagement means 99 are disengaged, and the rotational operation force on the clutch cover 90 side is not transmitted to the clutch 72. Further, by removing the cylindrical operating body 115, the magnetic force with respect to each control piece 110 is released, and each control piece 110 advances by the advance spring 112 and closes the concave groove 104.
[0095]
  The locking method can be performed in the same manner as this unlocking method.
[0096]
  As described above, according to the above-described crime prevention thumb turn 70, the existing thumb turn 60 is covered, and even if a wire, a rod, or the like is used, the clutch cover 90, which is normally rotatable, can be rotated by slipping or sliding. Is blocked. In order to transmit the operating force to the knob 61 of the existing thumb turn 60, the control piece 110 provided on the clutch cover 90 is moved by a magnetic force using a separate cylindrical operating body 115, Since the engagement should be allowed, and the clutch cover 90 must be pushed together with the cylindrical operating body 115 and rotated, the separate cylindrical operating body 115 is not secured even if an unauthorized unlocking operation is attempted using a wire or the like. If it does not exist, the operation is impossible, and the clutch cover 90 is only idling. Moreover, if the magnet 131 built in the cylindrical operating body 115 corresponds to each control piece 110 provided on the clutch cover 90 and does not have a magnetic force and a magnetic pole capable of moving each control piece 110, The pressing operation is also impossible and the unlocking operation cannot be performed.
[0097]
  That is, since a separate member called the cylindrical operating body 115 is required, unlocking is difficult by an operating method other than using this cylindrical operating body 115, and unlocking using a wire or a bar is not possible. It becomes possible. Further, if the arrangement position configuration of the magnet 131 built in the cylindrical operation body 115 itself does not correspond to the arrangement position of each control piece 110 of the clutch cover 90, the operation is impossible and the unlocking is impossible. .
[0098]
  Then, by using the regular cylindrical operating body 115, the clutch cover 90 and the clutch 72 are engaged with each other in a state in which relative rotation is prevented by the operation of mounting the cylindrical operating body 115 on the clutch cover 90. Unlocking is performed by an easy operation such as a rotation operation with fingers of the shaped operation body 115, and an unlocking / unlocking operation without a sense of incongruity becomes possible.
[0099]
  Since the through hole 118 is formed at the center position of the cylindrical operation body 115, the rotation position display means 80 provided at the center of the front end surface of the shaft portion 74 of the clutch 72 can be visually recognized. , The rotation position of the knob 61 that has become invisible due to being covered with the clutch cover 90 and the cylindrical operation body 115 can be known via the rotation position display means 80, and the operability can be improved.
[0100]
  Further, in the security thumb turn 70 of the second embodiment, it is possible to constitute a constantly attached state by the sliding knob 121 in a state where the cylindrical operating body 115 is put on the clutch cover 90. By configuring in this way, for example, it is possible to maintain a state that is not in a crime prevention state, which is suitable when the user is at home or when there are many people going in and out.
[0101]
  In each of the above-described embodiments, an example is described in which a crime prevention thumb turn is configured as a retrofitting process to the existing thumb turn 60. However, the crime prevention thumb turn of the present invention is not limited to the configuration by retrofitting as described above. . That is, with respect to the lock box mechanism part constituting the locking / unlocking device disposed on the door, the thumb turn shaft for inputting the rotational operation force from the indoor side is configured to have the above-described structure of the security thumb turn.
[0102]
  That is, although not shown, a thumb-turn shaft provided in the lock box mechanism is provided with a clutch similar to the above-described embodiments at an end opposite to the lock box mechanism, and is brought into and out of contact with this clutch. A rotatable connecting body is provided. The rotary connecting body is provided with a control piece made of a magnet in the same manner as described above so as to freely advance and retract. And the operation body which can be attached or detached with respect to this rotation coupling body is comprised. The operating body includes a magnet having a magnetic force corresponding to the control piece and moving the control piece to the retracted position.
[0103]
  Further, the operating body may have a substantially disk shape or a cylindrical shape as in the above-described embodiments. Further, the control pieces and the magnets are combined in plural or at least one as in the above-described embodiments. In addition, by configuring a plurality of control pieces made of magnets, it is necessary to configure a plurality of magnets of the operating body, and by changing the direction of each magnetic pole, the operating body can be configured as a key by the combination, It becomes possible to further improve the crime prevention as a thumb turn. That is, by using a dedicated operation body, the thumb turn operation is a locking / unlocking operation only by the operator.
[0104]
  According to such a security thumb turn, as in the above-described embodiments, even if a wire, a bar, or the like is used, the input of the rotational operation force to the lock box mechanism portion is prevented by idling or sliding. In order to transmit the rotational operation force to the lock box mechanism, the control piece provided on the rotational coupling body is moved by magnetic force using a separate operation body, and the engagement with the clutch can be allowed. Since the rotating connecting body must be rotated together with the operating body, even if an unauthorized unlocking operation is attempted with a wire or the like, the operation cannot be performed without a separate operating body, and the rotating connecting body side only idles. Become. Moreover, if the magnet built in the operating body corresponds to each control piece provided on the rotary connecting body and does not have a magnetic force and a magnetic pole that can move each control piece, the pressing operation is also impossible. Yes, the unlocking operation cannot be performed.
[0105]
  In other words, since a separate member called an operating body is required, it is difficult to perform unlocking operations using an operating method other than using this operating body, and improper operation using a wire or a bar is impossible. Become. Further, if the configuration of the magnet built in the operating body itself is not a configuration corresponding to each control piece of the rotary coupling body, the operation is impossible and the unlocking is impossible. Then, by using the proper operating body, the operation body is attached to the rotary coupling body, and the clutch cover and the clutch are engaged with each other in a state where relative rotation is prevented. Locking is performed, and a locking / unlocking operation without a sense of incongruity becomes possible.
[0106]
【The invention's effect】
  As described above, in the crime prevention thumb turn according to the present invention, according to the structure attached to the existing thumb turn, the existing thumb turn is obscured. Therefore, the unlocking operation is illegally performed using a wire or a rod. However, the input of the rotational operation force is prevented by the slip. And in order to transmit this rotational operating force to the knob of the existing thumb turn, the control piece arranged on the rotary connecting body is moved by the repulsive force or the attracting force by using the separate operating body, and the clutch Since it is necessary to perform the rotation operation after moving the rotary coupling body, there is no separate operation structure even if it is attempted to perform the unlocking operation illegally with the wire. Inoperable, that is, crime prevention can be obtained. Moreover, if the magnet built in the operating body corresponds to the control piece provided on the rotary coupling body and does not have a magnetic force and a magnetic pole that can move the control piece, a pressing operation or the like becomes impossible. It becomes impossible to perform the unlocking operation, and crime prevention can be obtained.
[0107]
  That is, since a separate member called an operating body is required, unlocking is difficult by an operating method other than using this operating body, and unauthorized unlocking using a wire, a bar, or the like is impossible. . Further, unless the configuration of the magnet built in the operating body itself is a configuration corresponding to the control piece of the rotationally connected body, the operation cannot be performed, and unlocking cannot be performed with an operating body that does not match. Then, by using the proper operating body, the rotating body and the clutch are engaged with each other in a state where relative rotation is prevented in the operation of attaching the operating body, and unlocking is performed by an easy operation such as a rotating operation with fingers. Therefore, the locking / unlocking operation without any sense of incongruity becomes possible.
[0108]
  The same applies to the configuration in which the operating body is a cylindrical operating body. By performing an operation of attaching the cylindrical operating body so as to cover the rotating connecting body, the rotary connecting body and the clutch rotate relative to each other. Are engaged with each other in a blocked state, and unlocking is performed by an easy operation such as a rotation operation with fingers of the cylindrical operation body, and a locking / unlocking operation without a sense of incongruity becomes possible.
[0109]
  Further, the same effect as described above can be obtained even in the case of a crime prevention thumb turn constituted by a thumb turn shaft linked to the lock box mechanism portion instead of the existing thumb turn described above.
[0110]
  In addition, according to the crime prevention thumb turn having a configuration in which the tip of the shaft portion penetrates the rotary connecting body and the cylindrical operating body is provided with a locking means that is detachable with respect to the shaft portion, the cylindrical operating body is connected to the rotary connecting body. In the state of being attached so as to cover, it is possible to constitute the always attached state by the locking means. By configuring in this way, for example, it is possible to maintain a state that is not in a crime prevention state, which is suitable when the user is at home or when there are many people going in and out.
[0111]
  Furthermore, if the tip of the shaft part penetrates the cylindrical operation body and the crime prevention thumb turn has a configuration in which the rotation position display means is provided at the tip of the shaft part, it becomes invisible by being covered with a clutch or a cylindrical operation body. The rotational position of the thumb thumb knob or the rotational position of the thumb turn shaft can be known via the rotational position display means, and the operability of locking and unlocking can be improved.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view of a first embodiment of a security thumb turn according to the present invention.
FIG. 2 is an exploded side view of the security thumb turn.
FIGS. 3A and 3B are explanatory views showing a longitudinal cross-sectional view at the time of operation in the crime prevention thumb turn, and FIG.
FIG. 4 is an explanatory view showing (a) a longitudinal sectional view, (b) a front sectional view, and (c) a front view at the time of operation in the security thumb turn.
FIG. 5 is a longitudinal sectional view at the time of operation in the crime prevention thumb turn.
FIG. 6 is an explanatory view showing a longitudinal sectional view (a), a front sectional view (b), and a front view (c) at the time of operation in the security thumb turn.
7A is a schematic perspective view of a second embodiment of the security thumb turn according to the present invention, and FIG. 7B is an explanatory view showing a back cross-sectional view of a cylindrical operating body in FIG. 7B.
FIG. 8 is an exploded side view of the security thumb turn.
FIG. 9 is an explanatory view showing a longitudinal sectional view at the time of operation of the crime prevention thumb turn in (a) and a BB line normal sectional view in (b).
FIGS. 10A and 10B are explanatory views showing longitudinal sectional views at the time of operation of the crime prevention thumb turn in FIGS.
11A and 11B are explanatory views showing a longitudinal sectional view and a front sectional view, respectively, when the crime prevention thumb turn is operated. FIG.
FIG. 12 is a perspective view showing a state in which a conventional security cover is attached to a door.
13 is a cross-sectional view showing the internal state of the security cover shown in FIG.
14 is a partially broken side view showing another aspect of the crime prevention cover shown in FIG. 12. FIG.
15 is a partially cutaway side view showing still another aspect of the crime prevention cover shown in FIG. 12. FIG.
[Explanation of symbols]
  10, 70 ... Security thumb turn
  12, 72 ... Clutch
  19 ... Cylinder
  30 ... Rotation operation part
  39: Rotating connector
  43 ... engaging means (connector side engaging means)
  48, 110 ... control piece
  52. Operation body
  54, 131 ... Magnet
  60 ... Existing thumb turn
  61 ... Picking
  74 ... Shaft
  80... Rotation position display means
  90 ... Rotating coupling (clutch cover)
  99 ... engaging means (cover side engaging means)
  115 ... cylindrical operating body
  121 ... Sliding knob

Claims (5)

A clutch attached to the pick of the existing thumb turn,
A cylinder that surrounds and covers the existing thumb turn, and rotatably supports the clutch at the tip;
A rotationally coupled body that is disposed so as to be able to contact and separate with respect to the clutch and has an engaging means for preventing relative rotation with the clutch;
Together provided rotatably in the cylindrical body, and a rotary operation portion of the substantially cylindrical supporting the rotary coupling member therein,
A control piece made of a magnet, which is provided on the rotary coupling body and is movable between an advance position for restricting engagement with the clutch and a retreat position for allowing engagement with the clutch;
An operating body that includes a magnet having a magnetic force to move the control piece to the retracted position, is detachable with respect to the rotating coupling body, and is detachable with respect to the rotating operation section;
Equipped with,
In a state where the operating body is separated from the rotary connecting body and the rotation operating portion, the engagement between the clutch and the rotating connecting body is separated, and the rotation operation of the thumb turn by the rotation of the rotary operating portion is impossible, In a state where the operating body is joined to the rotary connecting body and the rotary operating section, the clutch and the rotary connecting body are allowed to be engaged, and the thumb turn can be rotated by rotating the rotary operating section. Crime prevention thumb turn. A substantially circular opening through which the surface of the rotary coupling body is exposed is formed on the surface of the rotation operation part, and a fitting part made of a recess is formed in communication with a part of the substantially circular opening. The operating body has a substantially disc shape that fits into an opening on the surface of the rotary operation portion, and a knob portion that is shaped to fit into the fitting portion is formed on a part of the outer periphery thereof. The security thumb turn according to claim 1. A clutch that is attached to the knob of the existing thumb turn and has a shaft portion that is coaxial with the pivot center of the knob;
A rotary coupling body having engagement means that is rotatable on the shaft portion and movable in the axial direction and is externally inserted so as not to be removable, and prevents relative rotation with the clutch;
A control piece made of a magnet provided on the rotary coupling body and movable between an advancing position for restricting engagement with the clutch and a retracted position for allowing engagement with the clutch;
A cylindrical operating body that includes a magnet having a magnetic force to move the control piece to the retracted position, and is detachable so as to cover the rotary coupling body;
Comprising
In a state where the cylindrical operation body is separated from the rotary coupling body, the engagement between the clutch and the rotary coupling body is separated so that the thumb turn cannot be rotated by the rotation of the rotary coupling body. In a state where the body is joined so as to cover the rotation coupling body, the clutch and the rotation coupling body are allowed to be engaged, and the thumb turn can be rotated by the rotation of the cylindrical operation portion and the rotation coupling body. Crime prevention samu turn characterized by that. The crime prevention thumb turn according to claim 3 , wherein a tip end of the shaft portion penetrates the rotary coupling body, and the cylindrical operation body is provided with a locking means that is detachable from the shaft portion. The crime prevention thumb turn according to claim 3 or 4, wherein a tip end of the shaft portion penetrates the cylindrical operation body, and a rotation position display means is provided on a tip surface of the shaft portion.

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