WO2022024887A1 - Cylinder lock device and insert-type magnet key - Google Patents

Cylinder lock device and insert-type magnet key Download PDF

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Publication number
WO2022024887A1
WO2022024887A1 PCT/JP2021/027206 JP2021027206W WO2022024887A1 WO 2022024887 A1 WO2022024887 A1 WO 2022024887A1 JP 2021027206 W JP2021027206 W JP 2021027206W WO 2022024887 A1 WO2022024887 A1 WO 2022024887A1
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WO
WIPO (PCT)
Prior art keywords
magnet
key
insertion hole
case
key insertion
Prior art date
Application number
PCT/JP2021/027206
Other languages
French (fr)
Japanese (ja)
Inventor
裕文 米良
サムルーン ニワット
直之 山手
Original Assignee
株式会社ホンダロック
本田技研工業株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 株式会社ホンダロック, 本田技研工業株式会社 filed Critical 株式会社ホンダロック
Priority to JP2022540227A priority Critical patent/JP7353499B2/en
Priority to CN202180059370.0A priority patent/CN116133909A/en
Publication of WO2022024887A1 publication Critical patent/WO2022024887A1/en

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60RVEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
    • B60R25/00Fittings or systems for preventing or indicating unauthorised use or theft of vehicles
    • B60R25/01Fittings or systems for preventing or indicating unauthorised use or theft of vehicles operating on vehicle systems or fittings, e.g. on doors, seats or windscreens
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B17/00Accessories in connection with locks
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B17/00Accessories in connection with locks
    • E05B17/14Closures or guards for keyholes
    • E05B17/18Closures or guards for keyholes shaped as lids or slides
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B19/00Keys; Accessories therefor
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B47/00Operating or controlling locks or other fastening devices by electric or magnetic means
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B83/00Vehicle locks specially adapted for particular types of wing or vehicle

Definitions

  • the present invention has a casing having a mechanical key insertion hole for inserting a mechanical key into a cylinder lock and a magnet key insertion hole for inserting a magnet key, a closing position for closing the mechanical key insertion hole, and the mechanical key insertion.
  • the shutter plate supported by the casing which enables operation between the opening positions for opening the holes, is unlocked according to the insertion of the magnet key into the magnet key insertion hole, and the unlocking is performed.
  • a cylinder lock device including a magnet lock that enables the shutter plate to operate to the opening position, a key case that can be inserted into the magnet key insertion hole of the magnet lock, and a plurality of magnets arranged in the key case.
  • the present invention relates to an insertable magnet key, which is used in such a cylinder lock device and has a mechanical key attached to the key case.
  • Patent Document 1 A cylinder lock device that can be operated to the opening position of the shutter plate by unlocking is known in Patent Document 1.
  • an insertable magnet key having a key case that can be inserted into a magnet key insertion hole of a magnet lock and a plurality of magnets arranged in the key case, and a mechanical key attached to the key case is described in Patent Document. Known as 2.
  • a plurality of magnets are arranged in the same arrangement on the magnet lock and the magnet key, and when the magnet key is inserted into the magnet key insertion hole, the magnet lock and the magnet key
  • the magnet lock is unlocked according to the combination of the position of the magnet and the arrangement of the magnetic poles in the magnet key, and the magnet key can be pushed further to operate the shutter plate to the open position.
  • the magnet is accommodated in the magnet accommodating recess provided on the outer surface of the key case, and a film covering the magnet is attached to the outer surface of the key case from the key case. Not only is there a risk that the magnet will fall off, but the degree of freedom in designing the outer surface of the key case will be narrowed.
  • the present invention has been made in view of such circumstances, and it is the first aspect of the present invention to provide a cylinder lock device capable of preventing the magnet pattern of a magnet lock from being read by a reading card and the magnet key being duplicated.
  • An insertable type that has the purpose of 1 and is used in such a cylinder lock device to prevent the magnet from falling off from the key case and to increase the degree of design freedom of the outer surface of the key case.
  • the second purpose is to provide a magnet key.
  • the present invention has a casing having a mechanical key insertion hole for inserting a mechanical key into a cylinder lock, a magnet key insertion hole for inserting a magnet key, and the mechanical key.
  • a shutter plate supported by the casing that enables operation between a closed position that closes the insertion hole and an opening position that opens the mechanical key insertion hole, and a solution depending on the insertion of the magnet key into the magnet key insertion hole.
  • a cylinder lock device including a magnet lock that is locked and enables the shutter plate to be operated to the opening position according to the unlocking, the magnetic pole reading card inserted in the magnet key insertion hole is pulled out.
  • a restoration magnet for restoring the reading magnetic pole of the magnetic pole reading card is arranged at a position corresponding to the magnet key insertion hole on the rear side of the magnet lock in the insertion direction of the magnet key into the magnet key insertion hole.
  • the first feature is that the magnet is fixed to the casing.
  • the magnet key and the magnet lock are each provided with three or more magnets, and at least two of the restore magnets are the same.
  • some of the magnets are arranged in a direction orthogonal to the moving direction of the magnet key in the magnet key insertion hole while corresponding to the arrangement in the magnet key insertion hole.
  • the second feature is that the magnet key is arranged at a position corresponding to the insertion hole.
  • the present invention is an insertion type magnet key used in the cylinder lock device of the first feature or the second feature, and is inserted into the magnet key insertion hole of the magnet lock.
  • a possible key case and a plurality of magnets arranged in the key case are provided, and a plurality of magnet accommodating recesses are provided on the inner surface of the key case, and the magnet accommodating recesses selected from the magnet accommodating recesses are provided.
  • the third feature is that the magnets are individually housed and fixed, and the mechanical key is attached to the key case.
  • the first case half body and the second case half body are joined to each other to form the key case, and the inner surface of the first case half body is formed.
  • the fourth feature is that the magnet accommodating recesses are provided, and among those magnet accommodating recesses, a film that at least closes the magnet accommodating recesses in which the magnets are accommodated is attached.
  • the fifth feature of the present invention is that, in addition to the configuration of the fourth feature, a support portion for supporting the mechanical key is provided on the inner surface of the first case half body.
  • the mechanical key is housed between the first case half body and the second case half body joined to each other.
  • a sixth feature is that the key case can be attached to the key case so that it can be switched between a state in which the key case protrudes from one side in the width direction.
  • the present invention has a seventh feature that, in addition to the configuration of the sixth feature, a key holder hole is formed on the side portion on the other side in the width direction of the key case.
  • the restoration magnet arranged corresponding to the magnet key insertion hole on the rear side of the magnet lock in the magnet key insertion direction is fixed to the casing, so that the magnet key insertion hole is fixed. Even if the magnet pattern of the magnet lock is read by the reading card inserted in, when the reading card is pulled out from the magnet key insertion hole, it will be restored by the restoration magnet, making it impossible to duplicate the magnet key. can do.
  • At least two restoration magnets corresponding to the arrangement in the magnet key insertion hole of some of the magnets possessed by the magnet key and the magnet lock are magnet keys. Since the magnet keys are lined up in a direction orthogonal to the moving direction of the magnet key in the insertion hole, the reading card can be efficiently restored.
  • the magnet is accommodated and fixed in the magnet accommodating recess provided on the inner surface of the key case, it is possible not only to prevent the magnet from falling off from the key case but also to prevent the magnet from falling off.
  • the degree of freedom in designing the outer surface of the key case can be increased.
  • a magnet accommodating recess is provided on the inner surface of the first case hemi-body that constitutes the key case in cooperation with the second case hemi-body, and the magnet is accommodated in the magnet. Since the accommodating recess is closed with the film attached to the inner surface of the first case, it is easy to assemble the magnet to the key case even though the magnet is provided on the inner surface side of the key case. It can enhance the sex.
  • the support portion for supporting the mechanical key is provided on the inner surface of the first case half body, the magnet and the mechanical key are assembled on the inner surface side of the first case half body. It is possible to further improve the assembling property.
  • the mechanical key can be switched between a state in which the mechanical key is housed between the first and second case halves and a state in which the mechanical key protrudes from the key case. It is possible to make the magnet key compact when it is not in use.
  • the magnet key is supported on the half body side of the first case, and the mechanical key protrudes from one side in the width direction of the key case, whereas the other side in the width direction of the key case. Since the key holder hole is formed on the side portion, it is possible to disperse the portion where the external force acts on the key case and contribute to the improvement of the durability of the key case.
  • FIG. 1 is a side view of a scooter type motorcycle.
  • FIG. 2 is a perspective view of a magnet key and a mechanical key.
  • FIG. 3 is an exploded perspective view of the magnet key and the mechanical key.
  • FIG. 4 is a front view of the cylinder lock device.
  • FIG. 5 is a perspective view of the cylinder lock device.
  • FIG. 6 is an exploded perspective view of the cylinder lock device.
  • FIG. 7 is a partial front view of the cylinder lock device in which the cover member is omitted while the shutter plate is in the open position.
  • FIG. 8 is a partial front view of the cylinder lock device with the shutter plate removed from FIG. 7.
  • FIG. 9 is a partial front view of the cylinder lock device with the inner cover member removed from FIG. FIG.
  • FIG. 10 is a perspective view of the shutter plate seen from the side opposite to the cover member.
  • FIG. 11 is a diagram showing a magnet lock and closing position regulating means in a state where the shutter plate is in the closed position while omitting the casing.
  • FIG. 12 is a 12-arrow view of FIG.
  • FIG. 13 is a perspective view for showing a connection configuration of the magnet lock, the slide case, and the second regulating member.
  • FIG. 14 is a view taken along the arrow 14 of FIG. 4 in a state where the cover member and the lid member are omitted.
  • FIG. 15 is an exploded perspective view of the driven piece and the slide member.
  • FIG. 16 is a sectional view taken along line 16-16 of FIG.
  • FIG. 17 is an exploded perspective view of the seat opener.
  • FIG. 1 the switching mode of the ignition switch (not shown) is switched, and the steering 16 is locked and unlocked.
  • the mechanical key 18 for unlocking the cylinder lock 15 is attached to the key case 20 of the insertable magnet key 19, and the magnet key 19 is
  • the key case 20 is provided with a plurality of magnets 21 arranged in the key case 20.
  • the key case 20 is formed in a flat rectangular shape having a rectangular cross-sectional shape and is long in one direction, and a plurality of magnets (four in this embodiment) are housed on the inner surface of one end portion in the longitudinal direction of the key case 20.
  • the concave portions 22 are provided, and the magnets 21 are individually accommodated and fixed in three or more (three in this embodiment) magnet accommodating recesses 22 selected from the magnet accommodating recesses 22. ..
  • the key case 20 is configured by joining a first case half body 23 made of synthetic resin and a second case half body 24 made of synthetic resin to each other, and is a length of the key case 20.
  • the magnet accommodating recess 22 is provided on the inner surface of the first case half body 23 at a portion corresponding to one end in the direction, and at least the magnet accommodating recess 22 in which the magnet 21 is accommodated is closed among the magnet accommodating recesses 22.
  • the first film 25, that is, in this embodiment, the first film 25 that closes all the magnet accommodating recesses 22, is attached to the inner surface of the first case half body 23.
  • a cylindrical support portion 26 for supporting the mechanical key 18 is integrally projected on the inner surface of the first case half body 23 at a portion corresponding to the other end of the key case 20 in the longitudinal direction.
  • the support portion 26 is fitted into the mounting hole 27 provided in the mechanical key 18.
  • the support portion 26 also functions as a boss portion for fastening the first case half body 23 and the second case half body 24, and the portion corresponding to the support portion 26 is the second portion.
  • the first screw member 29 inserted into the first insertion hole 28 formed in the case half body 24 is screwed into the support portion 26, and by tightening the first screw member 29, the first case half
  • the body 23 and the second case half body 24 are fastened.
  • the mechanical key 18 supported by the support portion 26 of the key case 20 is housed between the first case half body 23 and the second case half body 24 joined to each other, and FIG. As shown by the arrow, it is possible to switch between a protruding state in which the key case 20 protrudes from one side in the width direction and is linearly arranged in the key case 20, and the mechanical key 18 is in the housing state. And, the protruding state can be switched, and the key case 20 is attached to the key case 20.
  • a key holder hole 34 is formed in the key case 20.
  • the key holder hole 34 is arranged at the other end of the key case 20 in the longitudinal direction and on the other side of the key case 20 in the width direction, that is, on the side opposite to the side on which the mechanical key 18 is projected. In this way, the key case 20 is formed, and the first and second case halves 22 and 23 are formed with holes 34a and 34b that cooperate with each other to form the key holder holes 34. To.
  • the cylinder lock device 17 includes a casing 35 having a mechanical key insertion hole 37 for inserting the mechanical key 18 and allowing the magnet key 19 to be inserted.
  • a shutter plate 36 that can be operated between a closed position that closes the mechanical key insertion hole 37 and an opening position that opens the mechanical key insertion hole 37 is supported by the casing 35.
  • the casing 35 covers the body 38 to which the cylinder body 15a (see FIG. 6) of the cylinder lock 15 is integrally connected, and the body 38 so as to cover the body 38 from the side opposite to the cylinder body 15a. It is composed of a cover member 39 to be fastened and an inner cover member 40 to be fastened to the body 38 so as to be covered with the cover member 39.
  • the casing 35 accommodates the shutter plate 36 so as to be able to operate between a closed position for closing the mechanical key insertion hole 37 and an open position for opening the mechanical key insertion hole 37. Is arranged between the cover member 39 and the inner cover member 40.
  • the cover member 39 covers the body 38 so as to fit the side of the body 38 opposite to the cylinder lock 15, and is formed in a substantially rectangular bowl shape.
  • Engagement holes 41 are formed at a plurality of locations spaced apart from each other in the circumferential direction of the peripheral edge portion of the cover member 39, and are projected at a plurality of locations on the peripheral edge portion of the body 38 corresponding to the engaging holes 41.
  • the engaging protrusion 42 is engaged with the engaging hole 41.
  • the inner cover member 40 is fixed to the body 38 so as to be in sliding contact with the shutter plate 36, and the inner cover member 40 positioned and engaged with the body 38 at a plurality of locations is the first. It is fastened to the body 38 by the screw member 43 of 2.
  • the mechanical key insertion hole 37 is composed of a circular first hole 44 provided in the inner cover member 40 and a circular second hole 45 provided in the cover member 39 corresponding to the first hole 44.
  • the shutter plate 36 closes the mechanical key insertion hole 37 by interposing between the first hole 44 and the second hole 45.
  • the shutter plate 36 is formed in a fan shape and has a rotating base portion 36a having a circular support hole 47 at a position corresponding to a main part of the fan, and a radius of the support hole 47.
  • a connecting arm portion 36b extending from the rotating base portion 36a along the direction, a lid portion 36c having a shape capable of closing the mechanical key insertion hole 37, and a lid portion 36c connected to the connecting arm portion 36b, and a lid thereof.
  • the regulation arm portion 36d extending from the lid portion 36c is integrally formed so as to sandwich the mechanical key insertion hole 37 with the rotation base portion 36a. Formed to have.
  • the shutter plate 36 is a support shaft 48 inserted into the support hole 47 so as to be able to operate between a closed position for closing the mechanical key insertion hole 37 and an open position for opening the mechanical key insertion hole 37.
  • the support shaft 48 is rotatably supported by the inner cover member 40 so as to project integrally with the first regulating member 57, which will be described later, and is arranged so as to penetrate the inner cover member 40.
  • a locking protrusion 49 extending in an arc shape around the central axis of the support hole 47 and the support shaft 48 is integrally projected on the surface of the rotation base 36a facing the inner cover member 40 side. Further, an operation shaft 50 is integrally projected on the surface of the rotation base 36a facing the cover member 39 side, and a second insertion hole 51 through which the operation shaft 50 is inserted is a support hole 47 and the support shaft.
  • the cover member 39 is provided so as to be formed in an arc shape centered on the central axis of 48.
  • the closed position of the shutter plate 36 is regulated by the closed position regulating means 56, and the closed position regulating means 56 places the shutter plate 36 in the closed position. It is possible to switch between the regulated state that regulates the shutter plate 36 and the regulated release state that allows the shutter plate 36 to operate at the opening position, and includes a first regulating member 57 and a second regulating member 58.
  • the first regulating member 57 penetrates the flat plate-shaped rotating plate portion 57a arranged between the body 38 and the inner cover member 40 and the first through hole 59 provided in the inner cover member 40.
  • the support shaft 48 is erected on the rotating plate portion 57a so as to be inserted into the support hole 47 of the shutter plate 36, and the circumferential end portion 49a of the locking protrusion 49 of the shutter plate 36.
  • the first engaging protrusion 57b that is erected on the rotating plate portion 57a so as to be able to abut and engage with the support shaft 48 is coaxially provided with the rotating plate portion 57a at a right angle.
  • the cylindrical portion 57c that is rotatably inserted into the body 38 and the first pressure receiving protrusion 57d that protrudes outward in the radial direction from the axial intermediate portion of the cylindrical portion 57c.
  • the inner cover member 40 has an elongated hole 60 through which the first engaging protrusion 57b is inserted so that the first engaging protrusion 57b can rotate around the central axis of the support shaft 48. It is provided so as to extend in an arc shape around the central axis of.
  • the second regulating member 58 allows the flat plate-shaped connecting plate portion 58a arranged between the body 38 and the inner cover member 40 to engage with the locking recess 53, and the inner cover member 40.
  • the second engaging protrusion 58b projecting from one end of the connecting plate portion 58a so as to penetrate the second through hole 61 provided in the above, and the connecting portion 58b extending in parallel with the support shaft 48. It is formed so as to have a rod-shaped portion 58c inserted into the body 38 from the other end of the plate portion 58a, and a second pressure receiving protrusion 58d protruding outward in the radial direction from the rod-shaped portion 58c.
  • the shutter plate 36 is urged toward the opening position side by a coil-shaped first torsion spring 62, and the first torsion spring 62 is the rotation base 36a and the inside of the shutter plate 36.
  • the support shaft 48 is arranged between the cover members 40 so as to surround the support shaft 48, and one end portion 62a of the first torsion spring 62 is engaged with the inner cover member 40 and the other end portion 62b of the first torsion spring 62 is engaged. Is in contact with and engaged with the other end portion 49b in the circumferential direction of the locking protrusion 49 of the shutter plate 36.
  • the shutter plate 36 can be subjected to a urging force toward the closed position side by a coil-shaped second torsion spring 63 that exerts a larger urging force than the first torsion spring 62.
  • the second torsion spring 63 is provided between the cylindrical portion 57c and the body 38 so that a part thereof is inserted into the cylindrical portion 57c, and one end portion 63a of the second torsion spring 63 is provided. Is engaged with the body 38, and the other end of the second torsion spring 63 extends axially and is engaged with a groove (not shown) formed on the inner surface of the cylindrical portion 57c.
  • the second torsion spring 63 is the first regulating member in a state where the first engaging protrusion 57b of the first regulating member 57 is in contact with the circumferential end portion 49a of the locking protrusion 49 of the shutter plate 36. Together with 57, the shutter plate 36 exerts a spring force for urging the shutter plate 36 toward the closed position side, and the first restricting member 57 is urged toward the direction in which the rotating plate portion 57a approaches the inner cover member 40. It also exerts an axial spring force.
  • the spring force of the second torsion spring 63 that urges the shutter plate 36 toward the closed position side is larger than the spring force of the first torsion spring 62 that urges the shutter plate 36 toward the open position side.
  • a first coil spring 64 is contracted between the rod-shaped portion 58c of the second regulating member 58 and the body 38, and the second regulation is performed by the spring force exerted by the first coil spring 64.
  • the member 58 is urged to the side where the second engaging protrusion 58b protrudes from the inner cover member 40, and the second engaging protrusion 58b engages with the locking recess 53 of the shutter plate 36.
  • the shutter plate 36 is also restricted at the closed position.
  • the restricted state of the shutter plate 36 at the closed position by the closed position regulating means 56 can be released by the restricted state releasing means 65, and the restricted state releasing means 65 is unlocked by the magnet key 19.
  • the magnet lock 66 is included, and is configured to operate in response to a pushing operation of the magnet key 19 in the unlocked state of the magnet lock 66 to release the restricted state of the closing position regulating means 56.
  • the casing 35 has a first magnet key insertion hole 67 that allows the magnet key 19 to be inserted, and the first magnet key insertion hole 67 is the mechanical as shown in FIG. It is arranged on one side of one virtual plane IP including the central axis of the key insertion hole 37.
  • one virtual plane IP extending in the front-rear direction of the vehicle and including the central axis of the mechanical key insertion hole 37 is formed in a long rectangular shape in a direction parallel to the virtual plane IP on the right side in the vehicle width direction.
  • the first magnet key insertion hole 67 is provided in the casing 35.
  • the first magnet key insertion hole 67 is provided in the cover member 39 and the inner cover member 40 of the casing 35, and is a rectangle constituting the first magnet key insertion hole 67 in cooperation with each other. Holes 68 and 69 are provided in the cover member 39 and the inner cover member 40.
  • a slide support hole 71 corresponding to the first magnet key insertion hole 67 extends parallel to the central axis of the support shaft 48 and has a rectangular cross-sectional shape. It will be provided. Further, on the back surface of the cover member 39, a lid plate 72 that closes the rectangular hole 68 of the cover member 39 is rotatably supported via a pin 73, and the lid plate 72 is closed by a spring 74. Be urged.
  • the magnet lock 66 includes a rotor 75 rotatably supported by the body 38 of the casing 35, which the rotor 75 has a disk portion 75a and a disk portion 75a.
  • a flange portion 75b protruding outward in the radial direction from one end, a connecting arm portion 75c extending outward from one location in the circumferential direction of the flange portion 75b, and the same side as the disk portion 75a from the outer end of the connecting arm portion 75c.
  • It integrally has a third engaging protrusion 75d protruding from the surface, and is formed of a non-magnetic material.
  • the body 38 of the casing 35 is fitted with a fitting recess 76 for rotatably fitting the flange portion 75b and the connecting arm portion 75c of the rotor 75.
  • a circular fitting hole 77 (see FIG. 6) in which the outer end is opened in the recess 76 and the inner end is opened on the side surface of the slide support hole 71 to rotatably fit the disk portion 75a of the rotor 75.
  • An elongated hole 78 having an outer end opened in the fitting recess 76 and an inner end opened on the side surface of the slide support hole 71 is provided so that the third engaging protrusion 75d is inserted.
  • the elongated hole 78 is formed in an arc shape centered on the rotation axis of the rotor 75 so as to allow the rotor 75 to rotate in the fitting recess 76 and the fitting hole 77. Will be done.
  • the fitting recess 76 is closed by a lid member 79 that fits into the disk portion 75a of the rotor 75 and supports the rotation of the rotor 75.
  • the 79 is fastened to the body 38 with a third screw member 80, and an O-ring 81 is interposed between the lid member 79 and the rotor 75.
  • three or more plurality of, for example, three pin-shaped magnets 83 engage with three of the four locking recesses 84 provided in the disk portion 75a of the rotor 75. Slidably fitted to allow movement between positions and positions where they are disengaged, the magnet 83 is on the side that engages the rotor 75 by an individually associated second coil spring 85. Is urged to fire.
  • the three magnets 83 are arranged at positions corresponding to the three magnets 21 of the magnet key 19 when the magnet key 19 is arranged to face the disk portion 75a of the rotor 75. It is fitted into the locking recess 84. Moreover, the magnet 83 is arranged so that the same pole as the pole on the magnet lock 66 side of the magnet 21 in the magnet key 19 is arranged on the inner end side of the locking recess 84, and the rotor 75 is arranged. By arranging the regular magnet key 19 at a position facing the disk portion 75a in the above, the side that disengages the magnet 83 from the rotor 75 against the elastic force of the second coil spring 85. It can be moved to, which allows the rotor 75 to rotate.
  • a slide case 86 that moves together with the magnet key 19 in response to the insertion of the magnet key 19 into the casing 35 is slidably accommodated.
  • the slide case 86 is formed in a rectangular box shape so as to be provided with a second magnet key insertion hole 87 having a bottom and a rectangular cross-sectional shape, and the second slide case 86 is the second.
  • the magnet key 19 is inserted into the magnet key insertion hole 87 by opening the lid plate 72 from the first magnet key insertion hole 67 of the cover member 39 of the casing 35 and the inner cover member 40.
  • an opening 89 for allowing the magnet key 19 inserted in the second magnet key insertion hole 87 to face the magnet lock 66 side is provided in the slide support hole 71.
  • the slide case 86 is formed long along the extending direction of the magnet key 19, and moves together with the magnet key 19 in response to the insertion of the magnet key 19 so as to be on the outer surface of the closed end of the rotor 75 in the magnet lock 66.
  • a movable engaging member 90 that is engaged with the third engaging protrusion 75d of the rotor 75 while being restricted from moving by the rotor 75 in the locked state of the magnet lock 66 is provided.
  • a fourth coil spring that is held and exerts an elastic force that presses the movable engaging member 90 on the side that rotationally drives the rotor 75 in response to the movement of the slide case 86 to the pushing position side. 91 is provided between the slide case 86 and the movable engaging member 90.
  • the movable engaging member 90 has a locking groove 92 for engaging the third engaging protrusion 75d, and is formed in a substantially C shape open to the connecting arm portion 75c side of the rotor 75. Further, in the slide case 86, a storage hole 93 having an opening on the side of the second regulating member 58 and the side of the third engaging protrusion 75d of the rotor 75 closes both ends of the slide support hole 71 in the extending direction.
  • the movable engaging member 90 is accommodated in the accommodating hole 93, and the fourth coil spring 91 accommodated in the accommodating hole 93 is provided with the slide case 86 and the movable engaging member. It is reduced between the combined members 90.
  • the pressing force due to the movement of the slide case 86 is connected to the rotor 75 via the fourth coil spring 91 and the movable engaging member 90.
  • the rotor 75 which is transmitted to the arm portion 75c and is in a rotatable state when the magnet lock 66 is in the unlocked state, rotates in response to the movement of the movable engaging member 90.
  • the slide case 86 is provided with a first pressing protrusion 86a that can engage with the first pressure receiving protrusion 57d provided on the cylindrical portion 57c of the first regulating member 57 from the rotation base portion 36a side.
  • the slide case 86 in which the first pressing protrusion 86a is engaged with the first pressure receiving protrusion 57d is further removed from the unlocked position.
  • the first restricting member 57 is pushed down against the axial elastic force of the second torsional spring 63, so that the first engaging protrusion 57b of the first regulating member 57 becomes the shutter plate.
  • the 36 moves to a position where the engagement with the locking protrusion 49 is released, and the regulation of the first regulating member 57 that regulates the shutter plate 36 at the closed position is released. At this time, the support shaft 48 of the first regulating member 57 does not separate from the support hole 47 of the shutter plate 36, and the rotational support of the shutter plate 36 by the support shaft 48 is maintained.
  • the movable engaging member 90 has a second pressing protrusion 90a that can engage with the second pressure receiving protrusion 58d provided on the rod-shaped portion 58c of the second regulating member 58 from the connecting plate portion 58a side. It is provided so as to protrude from the movable engaging member 90 on the side opposite to the locking groove 92, and is provided in the second pressure receiving protrusion 58d in response to pushing the slide case 86 with the magnet key 19.
  • the second engaging protrusions 58b of the second regulating member 58 are subjected to the locking recess 53 of the shutter plate 36.
  • the first restricting member 57 regulates the shutter plate 36 at the closed position according to the movement of the slide case 86.
  • the rotor 75 of the magnet lock 66 does not rotate and the movement of the movable engaging member 90 is also prevented, so that the slide case 86 compresses the fourth coil spring 91.
  • the regulation by the second regulating member 58 at the closed position of the shutter plate 36 is not released, and the shutter plate 36 remains regulated at the closed position.
  • the spring force of the second torsion spring 63 is applied to the shutter plate 36 in a state where the restricted state of the closed position regulating means 56 that regulates the shutter plate 36 to the closed position is released by the restricted state releasing means 65.
  • the shutter plate 36 does not act, and as shown in FIG. 9, the shutter plate 36 automatically rotates toward the opening position side by the spring force of the first torsion spring 62.
  • the locking protrusion 49 of the shutter plate 36 is located close to and facing the first engaging protrusion 57b of the first regulating member 57 in the direction along the axis of the support shaft 48, from the slide case 8648.
  • the slide case 86 returns to its original position by the spring force of the third coil spring 88, so that the pushing pressure acting on the first pressure receiving protrusion 57d from the first pressing protrusion 86a
  • the first restricting member 57 remains pushed down by the first engaging protrusion 57b coming into contact with the locking protrusion 49 of the shutter plate 36 in the axial direction even after the release.
  • the second regulating member 58 returns to the original position by the spring force of the first coil spring 64 by releasing the pressing force acting on the second pressing projection portion 58d from the second pressing projection portion 90a.
  • the transmission of the urging force from the second torsion spring 63 to the shutter plate 36 is controlled by the closed position side urging force control means 95, and the closed position side urging force control means 95 is at least the shutter plate 36.
  • the closed position side urging force control means 95 is at least the shutter plate 36.
  • the closed position side urging force control means 95 includes a disc-shaped cam plate 96 rotatably housed between the body 38 and the inner cover member 40, and the cam plate 96. Sliding in the radial direction of the cam plate 96 with the lever member 97 arranged on the outer side of the cam plate 96 so as to be arranged between the first and second regulating members 57 and 58 in the circumferential direction.
  • a push plate 98 that is fitted to the cam plate 96 as possible, a driven piece 99 that comes into contact with the push plate 98 when the cam plate 96 is in the rotation position corresponding to the lock position, and the driven piece. It includes a slide member 100 connected to 99.
  • the cam plate 96 is connected to the inner cylinder (not shown) of the cylinder lock 15 in a relative non-rotatable manner, and has a radius from the disk portion 96a and the end portion of the disk portion 96a on the body 38 side. It is formed so as to integrally have a flange portion 96b that projects outward in the direction. Moreover, the rotating plate portion 57a of the first regulating member 57 is arranged between the flange portion 96b and the inner cover member 40.
  • the lever member 97 makes it possible to bring one end portion 97a into contact with the outer periphery of the flange portion 96b of the cam plate 96, and the other end portion 97b hits the rotating plate portion 57a of the first regulating member 57.
  • the pin 101 is rotatably supported by the body 38 by a pin 101 parallel to the support shaft 48 so as to be in contact with the pin 101, and the pin 101 is integrally formed with the lever member 97.
  • a recess 102 is formed on the outer periphery of the flange portion 75b to accommodate one end of the lever member 97 when the cam plate 96 is in the rotation position corresponding to the lock position, and the cam plate 96 is in the lock position.
  • the lever member 97 When the lever member 97 is rotated to the off position or the on position, the one end portion 97a of the lever member 97 is separated from the recess 102 and is rotated so as to be slidably contacted with the outer periphery of the flange portion 96b. Further, the other end portion 97b of the lever member 97 is opposed to the rotation direction of the first regulation member 57 by the urging force of the second torsion spring 63, and the rotation plate portion of the first regulation member 57 is opposed to the rotation direction. It abuts on 57a.
  • a rectangular through hole 103 corresponding to the mechanical key insertion hole 37 is formed with a rectangular cross-sectional shape, an inner end is opened in the through hole 103, and an outer end is described.
  • a fitting groove 104 opened on the outer periphery of the disk portion 96a is provided so as to extend in the radial direction of the cam plate 96, and the push plate 98 is slidably fitted into the fitting groove 104 to form a pair.
  • the spring 105 is provided between the cam plate 96 and the push plate 98 so as to urge the push plate 98 on the side that closes the through hole 103, that is, inward in the radial direction of the cam plate 96.
  • the inner end portion of the push plate 98 is formed so as to be able to close the through hole 103, and the outer end portion of the push plate 98 is formed in an arc shape having the same curvature as the outer circumference of the disk portion 96a in the cam plate 96.
  • the outer end portion of the push plate 98 is located inward from the outer circumference of the disk portion 96a, and the inner end portion of the push plate 98 is located.
  • the through hole 103 is open, the outer end portion of the push plate 98 is flush with the outer periphery of the disk portion 96a.
  • the driven piece 99 is arranged on the side opposite to the second regulating member 58 with respect to the cam plate 96, and has a connecting pin 99a at one end thereof and the cam plate.
  • a driven piece main portion 99b that extends along the outer periphery of the 96 and is capable of partially overlapping the flange portion 96b of the cam plate 96, and the cam plate 96 from the other end of the driven piece main portion 99b. It integrally has a fitting portion 99c extending toward the disk portion 96a and a short cylindrical portion 99d connected to the other end of the driven piece main portion 99b so as to be arranged outside the flange portion 96b.
  • a spring locking recess 106 is formed on the side surface of the driven piece main portion 99b on the side opposite to the fitting portion 99c.
  • the tip of the fitting portion 99c can abut on the outer periphery of the disk portion 96a of the cam plate 96, and when the cam plate 96 is in the locked position, the tip of the fitting portion 99c is pushed. It abuts on the outer edge of the plate 98.
  • the other end 108b of the third torsion spring 108 which surrounds the support protrusion 107 having a circular cross section provided on the body 38 and one end 108a is engaged with the body 38, partially covers the body 38.
  • the spring force exerted by the third torsion spring 108 is the spring force exerted by the third torsion spring 108, which is in contact with and engaged with the short cylindrical portion 99d at the other end of the driven piece 99 so as to be accommodated in the spring locking recess 106.
  • the fitting portion 99c of the driven piece 99 acts on the driven piece 99 in a direction of pressing the fitting portion 99c against the outer periphery of the disk portion 96a of the cam plate 96 and in a direction of pressing the driven piece 99 toward the first regulating member 57.
  • the tip portion of the short cylindrical portion 99d of the driven piece 99 is fitted to the body 38.
  • a guide recess 110 is formed.
  • the slide member 100 is arranged between the driven piece 99 and the first regulating member 57, and is supported by the body 38 so as to be able to slide in the direction of proximity and separation from the first regulating member 57.
  • the slide member 100 is provided with a bottomed fitting hole 109 for rotatably fitting the connecting pin 99a of the driven piece 99.
  • the rotating plate portion 57a of the first regulating member 57 is rotated by the second torsion spring 63 with respect to the first regulating member 57.
  • a contact portion 100a that can abut from the same direction as the urging direction is integrally provided so as to be able to overlap with the flange portion 95b of the cam plate 96 in the axial direction.
  • one end portion 97a of the lever member 97 is the outer periphery of the flange portion 96b in the cam plate 9695.
  • the driven piece 99 is housed in the recess 102, and the driven piece 99 is in a state where the fitting portion 99c is in contact with the outer end portion of the push plate 98 at a position where the through hole 103 is closed, and the first regulation is applied.
  • the first engaging protrusion 57b of the member 57 is in contact with the locking protrusion 49 of the shutter plate 36 in a direction along the axis of the support shaft 48.
  • the lever member 97 disengages one end portion 97a from the recess 102 of the flange portion 96b of the cam plate 96, and the outer periphery of the flange portion 96b.
  • the other end portion 97b of the lever member 97 rotates the rotating plate portion 57a of the first restricting member 57 in the clockwise direction of FIG.
  • the first restricting member 57 is at a position where the first engaging protrusion 57b can abut and engage with the circumferential end portion 49a of the locking protrusion 49 in the shutter plate 36, and the support shaft.
  • the slide case 86 In the circumferential direction of 48, the slide case 86 is rotated to a position where the first pressure receiving protrusion 57d is displaced from the first pressing protrusion 86a, and the first engaging protrusion 57b is the shutter plate at the locked position.
  • the first restricting member 57 In response to the release of the state of being in contact with the locking protrusion 49 of 36, the first restricting member 57 causes the rotating plate portion 57a to move with the axial elastic force of the second torsion spring 63.
  • the first engaging protrusion 57b moves closer to the shutter plate 36, and the first engaging protrusion 57b approaches and faces the circumferential end portion 49a of the first locking protrusion 49 in the circumferential direction of the support shaft 48, and further, the second The spring force of the torsion spring 63 abuts and engages with one end of the first locking protrusion 49 in the circumferential direction.
  • the shutter plate 36 is moved to the closed position side by the spring force of the second torsion spring 63 acting on the shutter plate 36 from the first regulating member 57. Although it is urged to rotate, the rotation of the first regulating member 57 is blocked by the lever member 97 and the slide member 100. That is, when the rotating plate portion 57a of the first regulating member 57 is rotated in the clockwise direction of FIG. 9 by the lever member 97 at the off position, a part of the rotating plate portion 57a is the slide member.
  • the first regulating member 57 is an axial bullet of the second torsion spring 63.
  • the contact portion 99a rotates the first regulating member 57 by the spring force of the second torsion spring 63. It abuts on the rotating plate portion 57a so as to face the force direction, and the rotation of the first regulating member 57 is prevented.
  • the other end portion 97b of the lever member 97 remains in contact with the rotating plate portion 57a of the first regulating member 57, and the one end portion 97a of the lever member 97 is the flange portion 96b of the cam plate 96. Since it is in contact with the outer periphery of the first regulating member 57, the rotation of the first regulating member 57 is also prevented by the lever member 97.
  • the push plate 98 of the cam plate 96 returns to the position where the through hole 102 is closed, so that the slide member 100 is moved through the driven piece 99. 1
  • the position returns to the position where the engagement with the regulating member 57 is released, and the recess 102 on the outer periphery of the flange portion 96b in the cam plate 96 becomes the position corresponding to the one end portion 97a of the lever member 97, so that the first regulation is performed.
  • the member 57 can rotate and drive the lever member 97 so that one end portion 97a thereof is accommodated in the recess 102, whereby the shutter plate 36 is seconded from the spring force of the second torsion spring 63.
  • the spring force obtained by subtracting the spring force of the torsion spring 62 of 1 automatically rotates to the closed position, and the rotation to the closed position of the shutter plate 36 causes the regulated arm portion of the shutter plate 36 to rotate.
  • the inclined surface 54 at the tip of the 36d abuts on the second engaging protrusion 58b of the second regulating member 58 and pushes down the second regulating member 58 against the urging force of the first coil spring 64.
  • the second engaging protrusion 58b of the second regulating member 58 is engaged with the locking recess 53 at the tip of the arm portion 36d.
  • the closing position side urging force control means 95 stops the function of the first torsion spring 62 when the shutter plate 36 operates from the closed position to the opening position, and the shutter plate 36 is in the opening position.
  • the urging force of the first torsion spring 62 is applied to the shutter plate 36 in response to the pulling operation from the mechanical key insertion hole 37 at the lock position of the mechanical key 18.
  • the mechanical key 18 may be pulled out from the mechanical key insertion hole 37 at an off position.
  • the closing position side urging force control means 95 causes the urging force of the second torsion spring 63 to act on the shutter plate 36. Therefore, the shutter plate 36 does not automatically rotate to the closed position side in the off position. Therefore, it is possible to rotate the shutter plate 36 to the closed position by rotating the protruding portion of the operation shaft 50 from the casing 35, but at this time, the first regulating member 57 is said to have the same. Since the rotation is blocked by the slide member 100 and the lever member 97, the shutter plate 36 rotates with the first regulating member 57 left behind, and the shutter plate 36 is closed.
  • the magnet 21 may be inserted into the slide case 86 and pushed down, and the second regulating member 58 is pushed down so that the second engaging protrusion 58b is pushed down from the locking recess 53. Is released, the restriction at the closed position of the shutter plate 36 by the second restricting member 58 is released, and the spring force of the second torsion spring 63 does not act on the shutter plate 36. Will automatically rotate to the open position by the spring force of the first torsion spring 62.
  • the magnet pattern of the magnet lock 66 is read by a reading card, and is inserted into the first magnet key insertion hole 67 provided in the casing 35 in order to prevent the magnet key 19 from being duplicated.
  • the restoration magnet 112 for restoring the reading magnetic pole of the magnetic pole reading card when the magnetic pole reading card is pulled out is larger than the magnet lock 66 in the insertion direction 113 of the magnet key 19 into the first magnet key insertion hole 67. It is arranged at a position corresponding to the first magnet key insertion hole 67 on the rear side and fixed to the casing 35.
  • the restore magnet 112 is attached to the inner cover member 40 of the casing 35 at a position corresponding to the rectangular hole 69 of the first magnet key insertion hole 67. It is fixed. Moreover, at least two (two in this embodiment) of the restoration magnets 112 are the second magnets 21 and 83 of the magnets 21 and 83 of the magnet key 19 and the magnet lock 66, respectively.
  • the first magnet key insertion hole is arranged in a direction orthogonal to the insertion direction 113 of the magnet key 19 in the first magnet key insertion hole 67 while corresponding to the arrangement in the magnet key insertion hole 87. It is arranged at a position corresponding to the rectangular hole 69 which constitutes a part of 67.
  • two restore magnet accommodating recesses 114 arranged in a direction orthogonal to the insertion direction 113 of the magnet key 19 are formed, and these restore magnet accommodating recesses 114 are formed.
  • the second film 115 covering the restore magnet 112 individually housed in the recess 114 is attached to the inner case member 40, so that the restore magnet 112 is fixed to the inner case member 40. ..
  • this cylinder locking device is an operation made of synthetic resin in which the locked state of the passenger seat 116 (see FIG. 1) provided to be openable and closable at the rear part of the vehicle body B in the scooter type motorcycle is operably supported by the casing 35.
  • a seat opener 118 that can be released in response to an operation of the child 117 is provided, and as shown in FIG. 4, the casing 35 is on one side of one virtual plane IP including the central axis of the mechanical key insertion hole 37. (In this embodiment, on the right side in the vehicle width direction), the operator 117 that can be slid in the vehicle width direction and the first magnet key insertion hole 67 having a rectangular cross-sectional shape are arranged.
  • the seat opener 118 is configured to release the locked state of the passenger seat 116 in response to a slide operation of the operator 117.
  • the operator 117 and the cable 120 that transmits the force for releasing the locked state of the riding seat 116 are operated so as to be towed in response to the slide operation of the operator 117, and the operator 117 and the cable 120. It is provided with a transmission mechanism 119 provided between them.
  • the first magnet key insertion hole 67 is formed in a long rectangular shape along the virtual plane IP in a direction orthogonal to the axis of the first mechanical key insertion hole 67, whereas the operator. 117 is arranged adjacent to the magnet key insertion hole 67 in the longitudinal direction of the first magnet key insertion hole 67, and the cover member 39 in the casing 35 has the first magnet key.
  • a guide hole 121 adjacent to the insertion hole 67 is formed to guide the slide operation of the operator 117.
  • the guide hole 121 is formed long in the direction orthogonal to the longitudinal direction of the first magnet key insertion hole 67 and in the direction orthogonal to the virtual plane IP, that is, in the vehicle width direction, and is a knob portion protruding from the guide hole 121.
  • the operator 117 having the 117a can slide in the direction in which the knob 117a moves in the guide hole 121, that is, in the direction orthogonal to the virtual plane IP.
  • the transmission mechanism 119 is rotatably supported by a lever 124 rotatably supported by the body 38 of the casing 35 and rotatably supported by the body 38 in response to the rotation of the lever 124.
  • One end portion 124a of the lever 124 is slidably penetrated through the inner cover member 40 and molded and coupled to the operator 117, and the cable 120 is attached to the rotating member 125. Be concatenated.
  • a third insertion hole 126 is provided in the intermediate portion in the longitudinal direction of the lever 124, and a fourth screw member 127 inserted into the third insertion hole 126 is screwed into the body 38, and the fourth insertion hole 126 is screwed into the body 38.
  • the lever 124 is rotatably supported by the body 38 with the screw member 127 as a support shaft, and the operator 117 is attached to the body 38 of the casing 35 via the lever 124 and the fourth screw member 127. Be supported.
  • the rotating member 125 has a pressure receiving portion 125a that abuts on the pressing portion 124b provided at the other end of the lever 124 at one end and a cable connecting portion 125b at the other end.
  • a fifth screw member 129 inserted into a fourth insertion hole 128 provided in the intermediate portion of the member 125 is screwed into the body 38, and the lever 124 is the body with the fifth screw member 129 as a support shaft. It is rotatably supported by 38.
  • a third torsion spring 130 centered on the axis of the fifth screw member 129 is provided between the rotating member 125 and the body 38, and the spring force of the third torsion spring 130 causes the third torsion spring 130 to be provided.
  • the rotating member 125 is rotationally urged in a direction in which the pressure receiving portion 125a at one end thereof is brought into contact with the pressing portion 124b of the lever 124.
  • the cable 120 is a push-pull cable, includes an outer cable 131 and an inner cable 132 movably inserted into the outer cable 131, and the end of the outer cable 131 on the cylinder lock device side is a guide tube 133.
  • the engaging piece 134 which is fixed to the body 38 and provided at the end of the inner cable 132 on the cylinder lock device side, engages with and is connected to the cable connecting portion 125b of the rotating member 125.
  • the end of the cable 120 opposite to the cylinder lock device is connected to the seat lock device 135, and the cable 120 is towed to cause the seat lock device 135. , The locked state of the passenger seat 116 is released.
  • the seat opener 118 uses the operator 117 having the grip portion 117a at the end of the guide hole 121 on the mechanical key insertion hole 37 side when the riding seat 126 is in the locked state.
  • the lever 124 and the rotating member 125 rotate against the spring force of the third torsion spring 130, thereby rotating the lever 124 and the rotating member 125.
  • the cable 120 is towed to release the locked state of the riding seat 126, and the operator 117 is slid on the cover member 39 of the casing 35 on the side separated from the mechanical key insertion hole 37.
  • a protrusion 136 on which the operator's finger is placed is projected, and the protrusion 136 is integrally formed with the cover member 39 by being connected to the end of the guide hole 121 on the side opposite to the mechanical key insertion hole 37. Will be done.
  • At least a part of the transmission mechanism 119 of the seat opener 118 is attached to the magnet lock 6666 as shown in FIG. 14 when viewed from a direction orthogonal to the axis of the mechanical key insertion hole 37 along the virtual plane IP.
  • a side cover member 137 that is arranged at an overlapping position and covers the transmission mechanism 119 from the side is fastened to the body 38.
  • the magnet key 19 for unlocking the magnet lock 66 included in the cylinder lock device is the first and second magnet key insertion holes 67, 87 in the magnet lock 66.
  • a key case 20 that can be inserted into the key case 20 and a plurality of magnets 21 arranged in the key case 20 are provided, and a mechanical key 18 is attached to the key case 20, but a plurality of magnets 21 are attached to the inner surface of the key case 20. Since the magnet accommodating recess 22 is provided and the magnet 21 is individually accommodated and fixed in the magnet accommodating recess 22 selected from the magnet accommodating recesses 22, the magnet 21 is prevented from falling off from the key case 20. Not only can this be done, but the degree of freedom in designing the outer surface of the key case 20 can be increased.
  • first case half body 23 and the second case half body 24 are joined to each other to form the key case 20, and the magnet accommodating recess 22 is provided on the inner surface of the first case half body 23, and they are provided. Since the first film 25 that at least closes the magnet accommodating recess 22 in which the magnet 21 is accommodated is attached, the magnet 21 is provided on the inner surface side of the key case 20. Instead, the magnet 21 can be easily assembled to the key case 20, and the assembling property can be improved.
  • the support portion 26 for supporting the mechanical key 18 is provided on the inner surface of the first case half body 23, the magnet 21 and the mechanical key 18 are assembled on the inner surface side of the first case half body 23. It is possible to further improve the assembling property.
  • the mechanical key 18 is housed between the first case half body 23 and the second case half body 24 joined to each other, and protrudes from one side of the key case 20 in the width direction. Since the state can be switched and attached to the key case 20, the magnet key 19 can be made compact when the mechanical key 18 is not used.
  • the key holder hole 34 is formed on the side portion of the key case 20 on the other side in the width direction, the magnet key 19 is supported on the first case half body 23 side, and the mechanical key 18 is the key case 20.
  • the key case 20 is dispersed with a portion on which an external force acts. Therefore, it can contribute to the improvement of the durability of the key case 20.
  • the restoration magnet 112 for restoring the reading magnetic pole of the magnetic pole reading card when the magnetic pole reading card inserted into the first magnet key insertion hole 67 is pulled out is a magnet key to the first magnet key insertion hole 67. Since it is fixed to the casing 35 while being arranged at a position corresponding to the first magnet key insertion hole 67 on the rear side of the magnet lock 66 in the insertion direction 113 of 19, the first magnet key insertion hole 67 is used. Even if the magnet pattern of the magnet lock 66 is read by the inserted reading card, when the reading card is pulled out from the first magnet key insertion hole 67, it will be restored by the restoration magnet 112. It is possible to make duplication of the magnet key 19 impossible.
  • the magnet key 19 and the magnet lock 66 are each provided with three or more magnets 21, 83, and at least two of the restore magnets 112 are the magnet key 19 and the magnet lock 66.
  • the cylinder lock device includes a casing 35 having a mechanical key insertion hole 37 for inserting the mechanical key 18 and first and second magnet key insertion holes 67 and 87 capable of inserting the magnet key 19.
  • a shutter plate 36 supported by the casing 35 so as to be able to operate between a closed position for closing the mechanical key insertion hole 37 and an open position for opening the mechanical key insertion hole 37, and the first magnet key 19.
  • the magnet lock 66 that is unlocked according to the insertion into the second magnet key insertion holes 67 and 87 and enables the shutter plate 36 to be operated to the opening position according to the unlocking, and a riding use.
  • the seat opener 118 is provided with a seat opener 118 capable of releasing the locked state of the seat 116 in response to an operation of the operator 117 operably supported by the casing 35, and the seat opener 118 is provided with a slide operation of the operator 117.
  • the operator 117 which is configured to release the locked state of the passenger seat 116 and can be slidably operated on one side of one virtual plane IP including the central axis of the mechanical key insertion hole 37,
  • the first and second magnet key insertion holes 67 and 87 having a rectangular cross-sectional shape are arranged.
  • the operator 117 of the seat opener 118 is a slide type that requires less space for arrangement as compared with the seesaw type, and the first and second magnet key insertion holes 67 of the magnet lock 66, Even if the 87 has a rectangular shape that requires a relatively large space, the operator 117 and the first and second magnets are provided on one side of one virtual plane IP including the central axis of the mechanical key insertion hole 37. A space for arranging the key insertion holes 67 and 87 can be secured, and the casing 35 and thus the cylinder lock device can be made compact.
  • the seat opener 118 operates so as to pull the operator 117 and the cable 120 that transmits the force for releasing the locked state of the passenger seat 116 in response to the slide operation of the operator 117.
  • a transmission mechanism 119 provided between the child 117 and the cable 120 is provided, and the magnet lock 66 and the transmission mechanism 119 are provided along the virtual plane IP and from a direction orthogonal to the axis of the mechanical key insertion hole 37. As seen, at least a part of the transmission mechanism 119 is arranged at a position overlapping the magnet lock 66, so that the cylinder lock device can be made more compact.
  • the operator 117 is supported by the casing 35 so as to be able to slide in a direction orthogonal to the virtual plane IP, and the operator 117 is on the side where the seat opener 118 is separated from the mechanical key insertion hole 37. Since the structure is configured to release the locked state of the passenger seat 116 in response to the slide operation, the operability can be improved.
  • first and second magnet key insertion holes 67 and 87 are formed in a long rectangular shape in a direction orthogonal to the axis of the mechanical key insertion hole 37 along the virtual plane IP, and the operator 117 is formed. Since the first and second magnet key insertion holes 67, 87 are arranged adjacent to the magnet key insertion holes 67, 87 in the longitudinal direction, the first and second magnet key insertion holes 67, 87 The operator 117 can be made more compact by improving the design while avoiding a large arrangement space in the direction along the virtual plane IP.
  • a protrusion 136 on which the operator's finger is placed when the operator 117 is slid to be separated from the mechanical key insertion hole 37 is projected onto the casing 35, so that the protrusion 136 provided on the casing 35 is provided.
  • At least two restore magnets 112 correspond to the arrangement of the magnets 21 and 83 of the magnet key 19 and the magnet lock 66, respectively, within the first magnet key insertion hole 67. While arranging in the moving direction of the magnet key 19 in the first magnet key insertion hole 67, the magnet key 19 may be fixed to the casing 35 at a position corresponding to the first magnet key insertion hole 67. Then, the reading card can be reliably restored.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Lock And Its Accessories (AREA)

Abstract

This cylinder lock device is provided with: a casing (35) which includes a mechanical key insertion hole (37) and a magnet key insertion hole (67); a shutter plate (36) which is supported on the casing in such a manner as to enable the mechanical key insertion hole (37) to open and close; and a magnet lock (66) which gets unlocked in response to the insertion of a magnet key (19) into the magnet key insertion hole (67) and which, as a result of the unlocking, enables operation of the shutter plate (36) toward an opening position. A restoration magnet (112) which, when a magnetic pole scanning card being inserted in the magnet key insertion hole (67) is pulled out, restores magnetic scanning poles of said magnetic pole scanning card, is fixed to the casing (35) while being placed into the magnet key insertion hole (67) on the rear side of the magnet lock (66) in an insertion direction (113) of the magnet key (19) in the magnet key insertion hole (67).

Description

シリンダ錠装置および挿入式のマグネットキーCylinder lock device and insertable magnet key
 本発明は、シリンダ錠にメカニカルキーを挿入するためのメカニカルキー挿入孔ならびにマグネットキーの挿入を可能としたマグネットキー挿入孔を有するケーシングと、前記メカニカルキー挿入孔を閉じる閉じ位置ならびに前記メカニカルキー挿入孔を開放する開き位置間で作動することを可能として前記ケーシングに支持されるシャッター板と、マグネットキーの前記マグネットキー挿入孔への挿入に応じて解錠されるとともにその解錠に応じて前記シャッター板の前記開き位置への作動を可能としたマグネット錠とを備えるシリンダ錠装置、および、マグネット錠のマグネットキー挿入孔に挿入可能なキーケースと、当該キーケースに配設される複数のマグネットとを備えてそのようなシリンダ錠装置に用いられるとともに、前記キーケースにメカニカルキーが取付けられる挿入式のマグネットキーとに関する。 The present invention has a casing having a mechanical key insertion hole for inserting a mechanical key into a cylinder lock and a magnet key insertion hole for inserting a magnet key, a closing position for closing the mechanical key insertion hole, and the mechanical key insertion. The shutter plate supported by the casing, which enables operation between the opening positions for opening the holes, is unlocked according to the insertion of the magnet key into the magnet key insertion hole, and the unlocking is performed. A cylinder lock device including a magnet lock that enables the shutter plate to operate to the opening position, a key case that can be inserted into the magnet key insertion hole of the magnet lock, and a plurality of magnets arranged in the key case. The present invention relates to an insertable magnet key, which is used in such a cylinder lock device and has a mechanical key attached to the key case.
 自動二輪車等に用いられるシリンダ錠へのユーザー以外のアクセスを防止するために、メカニカルキー挿入孔をシャッター板で閉じることを可能とし、マグネットキー挿入孔へのマグネットキーの挿入に応じてマグネット錠が解錠されることによって前記シャッター板の開き位置への作動を可能としたシリンダ錠装置が、特許文献1で知られている。 In order to prevent non-user access to the cylinder lock used for motorcycles, etc., it is possible to close the mechanical key insertion hole with a shutter plate, and the magnet lock can be inserted according to the insertion of the magnet key into the magnet key insertion hole. A cylinder lock device that can be operated to the opening position of the shutter plate by unlocking is known in Patent Document 1.
 また、マグネット錠のマグネットキー挿入孔に挿入可能なキーケースと、当該キーケースに配設される複数のマグネットとを備え、メカニカルキーが前記キーケースに取付けられる挿入式のマグネットキーが、特許文献2で知られている。 Further, an insertable magnet key having a key case that can be inserted into a magnet key insertion hole of a magnet lock and a plurality of magnets arranged in the key case, and a mechanical key attached to the key case is described in Patent Document. Known as 2.
日本特開2015-55094号公報Japanese Patent Application Laid-Open No. 2015-55094 日本特開2015-178701号公報Japanese Patent Application Laid-Open No. 2015-178701
 ところで、上記特許文献1で開示されたシリンダ錠装置では、マグネット錠およびマグネットキーに複数のマグネットが同じ配列で配設されており、マグネットキーをマグネットキー挿入孔に差し込んだときに、マグネット錠およびマグネットキーにおけるマグネットの位置および磁極の配列の組み合わせが一致するのに応じてマグネット錠が解錠され、マグネットキーをさらに押し込むことでシャッター板の開き位置への作動を可能としている。ところが、マグネットキー挿入孔に差し込んでマグネット錠のマグネットパターン(マグネットの配置および磁極配列)を読み取る読み取りカードが存在しており、この読み取りカードでマグネット錠のマグネットパターンが読み取られると、マグネットキーが複製され、不正にシャッター板を開けられてしまう。 By the way, in the cylinder lock device disclosed in Patent Document 1, a plurality of magnets are arranged in the same arrangement on the magnet lock and the magnet key, and when the magnet key is inserted into the magnet key insertion hole, the magnet lock and the magnet key The magnet lock is unlocked according to the combination of the position of the magnet and the arrangement of the magnetic poles in the magnet key, and the magnet key can be pushed further to operate the shutter plate to the open position. However, there is a reading card that reads the magnet pattern (magnet arrangement and magnetic pole arrangement) of the magnet lock by inserting it into the magnet key insertion hole, and when the magnet pattern of the magnet lock is read by this reading card, the magnet key is duplicated. And the shutter plate is opened illegally.
 また、上記特許文献2で開示されたマグネットキーでは、キーケースの外面に設けられたマグネット収容凹部にマグネットが収容され、マグネットを覆うフィルムがキーケースの外面に貼着されており、キーケースからのマグネットの脱落の虞があるだけでなく、キーケースの外面のデザインの自由度が狭められる。 Further, in the magnet key disclosed in Patent Document 2, the magnet is accommodated in the magnet accommodating recess provided on the outer surface of the key case, and a film covering the magnet is attached to the outer surface of the key case from the key case. Not only is there a risk that the magnet will fall off, but the degree of freedom in designing the outer surface of the key case will be narrowed.
 本発明は、かかる事情に鑑みてなされたものであり、マグネット錠のマグネットパターンが読み取りカードで読み取られ、マグネットキーが複製されるのを防止し得るようにしたシリンダ錠装置を提供することを第1の目的とし、また、そのようなシリンダ錠装置に用いられて、マグネットのキーケースからの脱落を防止するとともに、キーケースの外面のデザイン上の自由度を増大し得るようにした挿入式のマグネットキーを提供することとを第2の目的とする。 The present invention has been made in view of such circumstances, and it is the first aspect of the present invention to provide a cylinder lock device capable of preventing the magnet pattern of a magnet lock from being read by a reading card and the magnet key being duplicated. An insertable type that has the purpose of 1 and is used in such a cylinder lock device to prevent the magnet from falling off from the key case and to increase the degree of design freedom of the outer surface of the key case. The second purpose is to provide a magnet key.
 上記第1の目的を達成するために、本発明は、シリンダ錠にメカニカルキーを挿入するためのメカニカルキー挿入孔ならびにマグネットキーの挿入を可能としたマグネットキー挿入孔を有するケーシングと、前記メカニカルキー挿入孔を閉じる閉じ位置ならびに前記メカニカルキー挿入孔を開放する開き位置間で作動することを可能として前記ケーシングに支持されるシャッター板と、マグネットキーの前記マグネットキー挿入孔への挿入に応じて解錠されるとともにその解錠に応じて前記シャッター板の前記開き位置への作動を可能としたマグネット錠とを備えるシリンダ錠装置において、前記マグネットキー挿入孔に挿入された磁極読み取りカードの引き抜き時に当該磁極読み取りカードの読取り磁極をリストアさせるためのリストア用マグネットが、前記マグネットキー挿入孔への前記マグネットキーの挿入方向で前記マグネット錠よりも後方側で前記マグネットキー挿入孔に対応する位置に配置されつつ前記ケーシングに固定されることを第1の特徴とする。 In order to achieve the first object, the present invention has a casing having a mechanical key insertion hole for inserting a mechanical key into a cylinder lock, a magnet key insertion hole for inserting a magnet key, and the mechanical key. A shutter plate supported by the casing that enables operation between a closed position that closes the insertion hole and an opening position that opens the mechanical key insertion hole, and a solution depending on the insertion of the magnet key into the magnet key insertion hole. In a cylinder lock device including a magnet lock that is locked and enables the shutter plate to be operated to the opening position according to the unlocking, the magnetic pole reading card inserted in the magnet key insertion hole is pulled out. A restoration magnet for restoring the reading magnetic pole of the magnetic pole reading card is arranged at a position corresponding to the magnet key insertion hole on the rear side of the magnet lock in the insertion direction of the magnet key into the magnet key insertion hole. The first feature is that the magnet is fixed to the casing.
 また本発明は、第1の特徴の構成に加えて、前記マグネットキーおよび前記マグネット錠には、それぞれ3個以上の複数個のマグネットが配設され、少なくとも2個の前記リストア用マグネットが、前記マグネットキーおよび前記マグネット錠がそれぞれ有するマグネットのうち一部のマグネットの前記マグネットキー挿入孔内での配列に対応しつつ前記マグネットキー挿入孔での前記マグネットキーの移動方向と直交する方向に並んで、前記マグネットキー挿入孔に対応する位置に配置されることを第2の特徴とする。 Further, in the present invention, in addition to the configuration of the first feature, the magnet key and the magnet lock are each provided with three or more magnets, and at least two of the restore magnets are the same. Among the magnets of the magnet key and the magnet lock, some of the magnets are arranged in a direction orthogonal to the moving direction of the magnet key in the magnet key insertion hole while corresponding to the arrangement in the magnet key insertion hole. The second feature is that the magnet key is arranged at a position corresponding to the insertion hole.
 また上記第2の目的を達成するために、本発明は、第1の特徴または第2の特徴のシリンダ錠装置に用いられる挿入式のマグネットキーであって、マグネット錠のマグネットキー挿入孔に挿入可能なキーケースと、当該キーケースに配設される複数のマグネットとを備え、前記キーケースの内面に複数のマグネット収容凹部が設けられ、それらのマグネット収容凹部のうち選択されたマグネット収容凹部に、前記マグネットが個別に収容、固定され、前記キーケースにメカニカルキーが取付けられることを第3の特徴とする。 Further, in order to achieve the second object, the present invention is an insertion type magnet key used in the cylinder lock device of the first feature or the second feature, and is inserted into the magnet key insertion hole of the magnet lock. A possible key case and a plurality of magnets arranged in the key case are provided, and a plurality of magnet accommodating recesses are provided on the inner surface of the key case, and the magnet accommodating recesses selected from the magnet accommodating recesses are provided. The third feature is that the magnets are individually housed and fixed, and the mechanical key is attached to the key case.
 また本発明は、前記第3の特徴の構成に加えて、第1ケース半体および第2ケース半体が相互に接合されて前記キーケースが構成され、前記第1ケース半体の内面に、前記マグネット収容凹部が設けられるとともに、それらのマグネット収容凹部のうち前記マグネットが収容された前記マグネット収容凹部を少なくとも塞ぐフィルムが貼着されることを第4の特徴とする。 Further, in the present invention, in addition to the configuration of the third feature, the first case half body and the second case half body are joined to each other to form the key case, and the inner surface of the first case half body is formed. The fourth feature is that the magnet accommodating recesses are provided, and among those magnet accommodating recesses, a film that at least closes the magnet accommodating recesses in which the magnets are accommodated is attached.
 また本発明は、前記第4の特徴の構成に加えて、前記第1ケース半体の内面に、前記メカニカルキーを支持する支持部が設けられることを第5の特徴とする。 Further, the fifth feature of the present invention is that, in addition to the configuration of the fourth feature, a support portion for supporting the mechanical key is provided on the inner surface of the first case half body.
 また本発明は、前記第4または第5の特徴の構成に加えて、前記メカニカルキーが、相互に接合された前記第1ケース半体および前記第2ケース半体間に収容された状態と、前記キーケースの幅方向一側の側部から突出する状態とを切替え可能として、前記キーケースに取付けられることを第6の特徴とする。 Further, in the present invention, in addition to the configuration of the fourth or fifth feature, the mechanical key is housed between the first case half body and the second case half body joined to each other. A sixth feature is that the key case can be attached to the key case so that it can be switched between a state in which the key case protrudes from one side in the width direction.
 さらに本発明は、前記第6の特徴の構成に加えて、前記キーケースの幅方向他側の側部に、キーホルダ用孔が形成されることを第7の特徴とする。 Further, the present invention has a seventh feature that, in addition to the configuration of the sixth feature, a key holder hole is formed on the side portion on the other side in the width direction of the key case.
 本発明の第1の特徴によれば、マグネットキーの挿入方向でマグネット錠よりも後方側でマグネットキー挿入孔に対応して配置されるリストア用マグネットがケーシングに固定されるので、マグネットキー挿入孔に差し込まれた読み取りカードでマグネット錠のマグネットパターンが読み取られたとしても、その読み取りカードがマグネットキー挿入孔から引き抜かれるときにはリストア用マグネットでリストアされることになり、マグネットキーの複製を不可能とすることができる。 According to the first feature of the present invention, the restoration magnet arranged corresponding to the magnet key insertion hole on the rear side of the magnet lock in the magnet key insertion direction is fixed to the casing, so that the magnet key insertion hole is fixed. Even if the magnet pattern of the magnet lock is read by the reading card inserted in, when the reading card is pulled out from the magnet key insertion hole, it will be restored by the restoration magnet, making it impossible to duplicate the magnet key. can do.
 また本発明の第2の特徴によれば、マグネットキーおよびマグネット錠がそれぞれ有するマグネットのうち一部のマグネットのマグネットキー挿入孔内での配列に対応した少なくとも2個のリストア用マグネットが、マグネットキー挿入孔でのマグネットキーの移動方向と直交する方向に並ぶので、読み取り用カードのリストアを効率的に行うことができる。 Further, according to the second feature of the present invention, at least two restoration magnets corresponding to the arrangement in the magnet key insertion hole of some of the magnets possessed by the magnet key and the magnet lock are magnet keys. Since the magnet keys are lined up in a direction orthogonal to the moving direction of the magnet key in the insertion hole, the reading card can be efficiently restored.
 また本発明の第3の特徴によれば、キーケースの内面に設けられたマグネット収容凹部に、マグネットが収容、固定されるので、キーケースからのマグネットの脱落を抑止することができるだけでなく、キーケースの外面のデザインの自由度を増大することができる。 Further, according to the third feature of the present invention, since the magnet is accommodated and fixed in the magnet accommodating recess provided on the inner surface of the key case, it is possible not only to prevent the magnet from falling off from the key case but also to prevent the magnet from falling off. The degree of freedom in designing the outer surface of the key case can be increased.
 また本発明の第4の特徴によれば、キーケースを第2ケース半体と協働して構成する第1ケース半体の内面にマグネット収容凹部が設けられ、マグネットが収容された状態のマグネット収容凹部が、第1ケースの内面に貼着されるフィルムで塞がれるので、マグネットがキーケースの内面側に設けられるにもかかわらず、マグネットのキーケースへの組付けが容易となり、組付け性を高めることができる。 Further, according to the fourth feature of the present invention, a magnet accommodating recess is provided on the inner surface of the first case hemi-body that constitutes the key case in cooperation with the second case hemi-body, and the magnet is accommodated in the magnet. Since the accommodating recess is closed with the film attached to the inner surface of the first case, it is easy to assemble the magnet to the key case even though the magnet is provided on the inner surface side of the key case. It can enhance the sex.
 また本発明の第5の特徴によれば、第1ケース半体の内面にメカニカルキーを支持する支持部が設けられるので、マグネットおよびメカニカルキーを第1ケース半体の内面側に組付けるようにして組付け性をさらに高めることができる。 Further, according to the fifth feature of the present invention, since the support portion for supporting the mechanical key is provided on the inner surface of the first case half body, the magnet and the mechanical key are assembled on the inner surface side of the first case half body. It is possible to further improve the assembling property.
 また本発明の第6の特徴によれば、メカニカルキーが、第1および第2ケース半体間に収容された状態と、キーケースから突出した状態とを切替え可能であるので、メカニカルキーを用いないときのマグネットキーのコンパクト化が可能となる。 Further, according to the sixth feature of the present invention, the mechanical key can be switched between a state in which the mechanical key is housed between the first and second case halves and a state in which the mechanical key protrudes from the key case. It is possible to make the magnet key compact when it is not in use.
 さらに本発明の第7の特徴によれば、マグネットキーが第1ケース半体側に支持され、メカニカルキーがキーケースの幅方向一側から突出するのに対して、キーケースの幅方向他側の側部にキーホルダ用孔が形成されるので、キーケースに外力が作用する部位を分散させて、キーケースの耐久性向上に寄与することができる。 Further, according to the seventh feature of the present invention, the magnet key is supported on the half body side of the first case, and the mechanical key protrudes from one side in the width direction of the key case, whereas the other side in the width direction of the key case. Since the key holder hole is formed on the side portion, it is possible to disperse the portion where the external force acts on the key case and contribute to the improvement of the durability of the key case.
図1はスクータ型自動二輪車の側面図である。FIG. 1 is a side view of a scooter type motorcycle. 図2はマグネットキーおよびメカニカルキーの斜視図である。FIG. 2 is a perspective view of a magnet key and a mechanical key. 図3はマグネットキーおよびメカニカルキーの分解斜視図である。FIG. 3 is an exploded perspective view of the magnet key and the mechanical key. 図4はシリンダ錠装置の正面図である。FIG. 4 is a front view of the cylinder lock device. 図5はシリンダ錠装置の斜視図である。FIG. 5 is a perspective view of the cylinder lock device. 図6はシリンダ錠装置の分解斜視図である。FIG. 6 is an exploded perspective view of the cylinder lock device. 図7はシャッター板が開き位置にある状態でカバー部材を省略して示すシリンダ錠装置の部分正面図である。FIG. 7 is a partial front view of the cylinder lock device in which the cover member is omitted while the shutter plate is in the open position. 図8は図7からシャッター板を取外した状態でのシリンダ錠装置の部分正面図である。FIG. 8 is a partial front view of the cylinder lock device with the shutter plate removed from FIG. 7. 図9は図8から内側カバー部材を取外した状態でのシリンダ錠装置の部分正面図である。FIG. 9 is a partial front view of the cylinder lock device with the inner cover member removed from FIG. 図10はカバー部材とは反対側から見たシャッター板の斜視図である。FIG. 10 is a perspective view of the shutter plate seen from the side opposite to the cover member. 図11はケーシングを省略しつつシャッター板が閉じ位置にある状態でのマグネット錠および閉じ位置規制手段を示す図である。FIG. 11 is a diagram showing a magnet lock and closing position regulating means in a state where the shutter plate is in the closed position while omitting the casing. 図12は図11の12矢視図である。FIG. 12 is a 12-arrow view of FIG. 図13はマグネット錠、スライドケースおよび第2規制部材の連結構成を示すための斜視図である。FIG. 13 is a perspective view for showing a connection configuration of the magnet lock, the slide case, and the second regulating member. 図14はカバー部材および蓋部材を省略した状態での図4の14矢視図である。FIG. 14 is a view taken along the arrow 14 of FIG. 4 in a state where the cover member and the lid member are omitted. 図15は従動駒およびスライド部材の分解斜視図である。FIG. 15 is an exploded perspective view of the driven piece and the slide member. 図16は図4の16-16線断面図である。FIG. 16 is a sectional view taken along line 16-16 of FIG. 図17はシートオープナーの分解斜視図である。FIG. 17 is an exploded perspective view of the seat opener.
15・・・シリンダ錠
18・・・メカニカルキー
19・・・マグネットキー
20・・・キーケース
21,83・・・マグネット
22・・・マグネット収容凹部
23・・・第1ケース半体
24・・・第2ケース半体
25・・・フィルム
26・・・支持部
34・・・キーホルダ用孔
35・・・ケーシング
36・・・シャッター板
37・・・メカニカルキー挿入孔
66・・・マグネット錠
67,87・・・マグネットキー挿入孔
112・・・リストア用マグネット
113・・・挿入方向 15 ... Cylinder lock 18 ... Mechanical key 19 ... Magnet key 20 ... Key case 21,83 ... Magnet 22 ... Magnet accommodating recess 23 ... First case half body 24 ... 2nd case half body 25 ... film 26 ... support 34 ... key holder hole 35 ... casing 36 ... shutter plate 37 ... mechanical key insertion hole 66 ... magnet lock 67 , 87 ... Magnet key insertion hole 112 ... Restore magnet 113 ... Insertion direction
 以下、本発明の実施の形態について、添付の図1~図17を参照しながら説明すると、先ず図1において、イグニッションスイッチ(図示せず)のスイッチング態様の切替えならびにステアリング16のロックおよびアンロック状態の切替えを可能としたシリンダ錠15(図6参照)を有するシリンダ錠装置17が、鞍乗り型車両であるスクータ型自動二輪車の車体Bの前部に設けられる。 Hereinafter, embodiments of the present invention will be described with reference to FIGS. 1 to 17 attached. First, in FIG. 1, the switching mode of the ignition switch (not shown) is switched, and the steering 16 is locked and unlocked. A cylinder lock device 17 having a cylinder lock 15 (see FIG. 6) capable of switching between the two is provided on the front portion of the vehicle body B of the scooter type motorcycle which is a saddle-riding type vehicle.
 図2および図3を併せて参照して、前記シリンダ錠15を解錠操作するためのメカニカルキー18は、挿入式のマグネットキー19のキーケース20に取付けられており、前記マグネットキー19は、前記キーケース20と、当該キーケース20に配設される複数のマグネット21とを備える。 With reference to FIGS. 2 and 3, the mechanical key 18 for unlocking the cylinder lock 15 is attached to the key case 20 of the insertable magnet key 19, and the magnet key 19 is The key case 20 is provided with a plurality of magnets 21 arranged in the key case 20.
 前記キーケース20は、横断面形状を矩形として一方向に長い扁平矩形状に形成されており、このキーケース20の長手方向一端部の内面に複数(この実施の形態では4つ)のマグネット収容凹部22が設けられ、それらのマグネット収容凹部22のうち選択された3個以上の複数個(この実施の形態では3個)のマグネット収容凹部22に、前記マグネット21が個別に収容、固定される。 The key case 20 is formed in a flat rectangular shape having a rectangular cross-sectional shape and is long in one direction, and a plurality of magnets (four in this embodiment) are housed on the inner surface of one end portion in the longitudinal direction of the key case 20. The concave portions 22 are provided, and the magnets 21 are individually accommodated and fixed in three or more (three in this embodiment) magnet accommodating recesses 22 selected from the magnet accommodating recesses 22. ..
 前記キーケース20は、合成樹脂製の第1ケース半体23と、合成樹脂製の第2ケース半体24とが相互に接合されることで構成されるものであり、前記キーケース20の長手方向一端部に対応する部分で第1ケース半体23の内面に、前記マグネット収容凹部22が設けられ、それらのマグネット収容凹部22のうち前記マグネット21が収容された前記マグネット収容凹部22を少なくとも塞ぐ第1のフィルム25、この実施の形態では全ての前記マグネット収容凹部22を塞ぐ第1のフィルム25が、前記第1ケース半体23の内面に貼着される。 The key case 20 is configured by joining a first case half body 23 made of synthetic resin and a second case half body 24 made of synthetic resin to each other, and is a length of the key case 20. The magnet accommodating recess 22 is provided on the inner surface of the first case half body 23 at a portion corresponding to one end in the direction, and at least the magnet accommodating recess 22 in which the magnet 21 is accommodated is closed among the magnet accommodating recesses 22. The first film 25, that is, in this embodiment, the first film 25 that closes all the magnet accommodating recesses 22, is attached to the inner surface of the first case half body 23.
 前記キーケース20の長手方向他端部に対応する部分で前記第1ケース半体23の内面には、前記メカニカルキー18を支持するための円筒状の支持部26が一体に突設されており、前記メカニカルキー18に設けられる取付け孔27に前記支持部26が嵌入される。また前記支持部26は前記第1ケース半体23および前記第2ケース半体24を締結するためのボス部としての機能も発揮するものであり、前記支持部26に対応する部分で前記第2ケース半体24に形成される第1の挿通孔28に挿通される第1のねじ部材29が前記支持部26に螺合され、この第1のねじ部材29を締めつけることで前記第1ケース半体23および前記第2ケース半体24が締結される。 A cylindrical support portion 26 for supporting the mechanical key 18 is integrally projected on the inner surface of the first case half body 23 at a portion corresponding to the other end of the key case 20 in the longitudinal direction. The support portion 26 is fitted into the mounting hole 27 provided in the mechanical key 18. Further, the support portion 26 also functions as a boss portion for fastening the first case half body 23 and the second case half body 24, and the portion corresponding to the support portion 26 is the second portion. The first screw member 29 inserted into the first insertion hole 28 formed in the case half body 24 is screwed into the support portion 26, and by tightening the first screw member 29, the first case half The body 23 and the second case half body 24 are fastened.
 前記キーケース20の前記支持部26で支持された前記メカニカルキー18は、相互に接合された前記第1ケース半体23および前記第2ケース半体24間に収容された収容状態と、図2の矢印で示すように前記キーケース20の幅方向一側の側部から突出して当該キーケース20に直線状に並ぶ突出状態とを切替えることが可能であり、前記メカニカルキー18は、前記収容状態および前記突出状態を切替え可能として、前記キーケース20に取付けられることになる。 The mechanical key 18 supported by the support portion 26 of the key case 20 is housed between the first case half body 23 and the second case half body 24 joined to each other, and FIG. As shown by the arrow, it is possible to switch between a protruding state in which the key case 20 protrudes from one side in the width direction and is linearly arranged in the key case 20, and the mechanical key 18 is in the housing state. And, the protruding state can be switched, and the key case 20 is attached to the key case 20.
 前記メカニカルキー18の前記収容状態および前記突出状態を切替える操作を行う際にユーザーにクリック感を持たせるために、前記メカニカルキー18と、前記キーケース20における前記第1ケース半体23との間には、クリックばね31と、クリックボール32とを有するクリック機構33が設けられる。 Between the mechanical key 18 and the first case half body 23 in the key case 20 in order to give the user a click feeling when performing an operation of switching between the accommodation state and the protruding state of the mechanical key 18. Is provided with a click mechanism 33 having a click spring 31 and a click ball 32.
 前記キーケース20にはキーホルダ用孔34が形成される。このキーホルダ用孔34は、前記キーケース20の長手方向他端部かつ当該キーケース20の幅方向他側の側部すなわち前記メカニカルキー18が突出される側とは反対側の側部に配置されるようにして、前記キーケース20に形成されるものであり、第1および第2ケース半体22,23には、前記キーホルダ用孔34を協働して構成する孔34a,34bが形成される。 A key holder hole 34 is formed in the key case 20. The key holder hole 34 is arranged at the other end of the key case 20 in the longitudinal direction and on the other side of the key case 20 in the width direction, that is, on the side opposite to the side on which the mechanical key 18 is projected. In this way, the key case 20 is formed, and the first and second case halves 22 and 23 are formed with holes 34a and 34b that cooperate with each other to form the key holder holes 34. To.
 図4~図9を併せて参照して、前記シリンダ錠装置17は、前記メカニカルキー18を挿入するためのメカニカルキー挿入孔37を有するとともに前記マグネットキー19の挿入を可能としたケーシング35を備えており、前記メカニカルキー挿入孔37を閉じる閉じ位置ならびに前記メカニカルキー挿入孔37を開放する開き位置間で作動することを可能としたシャッター板36が、前記ケーシング35に支持される。 With reference to FIGS. 4 to 9, the cylinder lock device 17 includes a casing 35 having a mechanical key insertion hole 37 for inserting the mechanical key 18 and allowing the magnet key 19 to be inserted. A shutter plate 36 that can be operated between a closed position that closes the mechanical key insertion hole 37 and an opening position that opens the mechanical key insertion hole 37 is supported by the casing 35.
 前記ケーシング35は、前記シリンダ錠15のシリンダボディ15a(図6参照)が一体に連設されるボディ38と、該ボディ38を前記シリンダボディ15aとは反対側から覆うようにして前記ボディ38に締結されるカバー部材39と、該カバー部材39で覆われるようにして前記ボディ38に締結される内側カバー部材40とから成る。 The casing 35 covers the body 38 to which the cylinder body 15a (see FIG. 6) of the cylinder lock 15 is integrally connected, and the body 38 so as to cover the body 38 from the side opposite to the cylinder body 15a. It is composed of a cover member 39 to be fastened and an inner cover member 40 to be fastened to the body 38 so as to be covered with the cover member 39.
 前記ケーシング35には、前記メカニカルキー挿入孔37を閉じる閉じ位置ならびに前記メカニカルキー挿入孔37を開放する開き位置間で作動することを可能として前記シャッター板36が収容されており、このシャッター板36は前記カバー部材39および前記内側カバー部材40間に配置される。 The casing 35 accommodates the shutter plate 36 so as to be able to operate between a closed position for closing the mechanical key insertion hole 37 and an open position for opening the mechanical key insertion hole 37. Is arranged between the cover member 39 and the inner cover member 40.
 前記カバー部材39は、前記ボディ38の前記シリンダ錠15とは反対側を嵌合させるようにして該ボディ38を覆うものであり、略長方形の椀状に形成される。このカバー部材39の周縁部の周方向に間隔をあけた複数箇所には係合孔41が形成され、それらの係合孔41に対応して前記ボディ38の周縁部の複数箇所に突設される係合突起42が、前記係合孔41に係合される。 The cover member 39 covers the body 38 so as to fit the side of the body 38 opposite to the cylinder lock 15, and is formed in a substantially rectangular bowl shape. Engagement holes 41 are formed at a plurality of locations spaced apart from each other in the circumferential direction of the peripheral edge portion of the cover member 39, and are projected at a plurality of locations on the peripheral edge portion of the body 38 corresponding to the engaging holes 41. The engaging protrusion 42 is engaged with the engaging hole 41.
 前記内側カバー部材40は、前記シャッター板36を摺接させるようにして前記ボディ38に固定されるものであり、複数箇所で前記ボディ38に位置決め、係合された前記内側カバー部材40は、第2のねじ部材43で前記ボディ38に締結される。 The inner cover member 40 is fixed to the body 38 so as to be in sliding contact with the shutter plate 36, and the inner cover member 40 positioned and engaged with the body 38 at a plurality of locations is the first. It is fastened to the body 38 by the screw member 43 of 2.
 前記メカニカルキー挿入孔37は、前記内側カバー部材40に設けられる円形の第1孔44と、第1孔44に対応して前記カバー部材39に設けられる円形の第2孔45とで構成され、前記シャッター板36は、前記第1孔44および前記第2孔45間に介在することで前記メカニカルキー挿入孔37を閉じることになる。 The mechanical key insertion hole 37 is composed of a circular first hole 44 provided in the inner cover member 40 and a circular second hole 45 provided in the cover member 39 corresponding to the first hole 44. The shutter plate 36 closes the mechanical key insertion hole 37 by interposing between the first hole 44 and the second hole 45.
 図10を併せて参照して、前記シャッター板36は、扇状に形成されるとともにその扇の要部に対応した位置に円形の支持孔47を有する回動基部36aと、前記支持孔47の半径方向に沿って前記回動基部36aから延出される連結腕部36bと、前記メカニカルキー挿入孔37を閉じ得る形状を有して前記連結腕部36bに連設される蓋部36cと、この蓋部36cが前記メカニカルキー挿入孔37を開放した状態にあるときに前記メカニカルキー挿入孔37を前記回動基部36aとの間に挟むようにして前記蓋部36cから延出される規制腕部36dを一体に有するように形成される。 With reference to FIG. 10, the shutter plate 36 is formed in a fan shape and has a rotating base portion 36a having a circular support hole 47 at a position corresponding to a main part of the fan, and a radius of the support hole 47. A connecting arm portion 36b extending from the rotating base portion 36a along the direction, a lid portion 36c having a shape capable of closing the mechanical key insertion hole 37, and a lid portion 36c connected to the connecting arm portion 36b, and a lid thereof. When the mechanical key insertion hole 37 is in the open state of the portion 36c, the regulation arm portion 36d extending from the lid portion 36c is integrally formed so as to sandwich the mechanical key insertion hole 37 with the rotation base portion 36a. Formed to have.
 このシャッター板36は、前記メカニカルキー挿入孔37を閉じる閉じ位置と、前記メカニカルキー挿入孔37を開放する開き位置との間で作動することを可能として前記支持孔47に挿通される支軸48で回動可能に支持され、前記支軸48は、後述の第1規制部材57に一体に突設され、前記内側カバー部材40を貫通して配置される。 The shutter plate 36 is a support shaft 48 inserted into the support hole 47 so as to be able to operate between a closed position for closing the mechanical key insertion hole 37 and an open position for opening the mechanical key insertion hole 37. The support shaft 48 is rotatably supported by the inner cover member 40 so as to project integrally with the first regulating member 57, which will be described later, and is arranged so as to penetrate the inner cover member 40.
 前記回動基部36aの前記内側カバー部材40側に臨む面には、前記支持孔47および前記支軸48の中心軸線を中心として円弧状に延びる係止突部49が一体に突設される。また前記回動基部36aの前記カバー部材39側に臨む面には操作軸50が一体に突設され、この操作軸50を挿通させる第2の挿通孔51が、前記支持孔47および前記支軸48の中心軸線を中心とした円弧状に形成されるようにして前記カバー部材39に設けられる。 A locking protrusion 49 extending in an arc shape around the central axis of the support hole 47 and the support shaft 48 is integrally projected on the surface of the rotation base 36a facing the inner cover member 40 side. Further, an operation shaft 50 is integrally projected on the surface of the rotation base 36a facing the cover member 39 side, and a second insertion hole 51 through which the operation shaft 50 is inserted is a support hole 47 and the support shaft. The cover member 39 is provided so as to be formed in an arc shape centered on the central axis of 48.
 また前記規制腕部36dの先端部の前記内側カバー部材40側に臨む面には、係止凹部53と、その係止凹部53から前記規制腕部36dの先端側に向かうにつれて前記内側カバー部材40から遠ざかるように傾斜した傾斜面54とが形成される。 Further, on the surface of the tip of the restricting arm portion 36d facing the inner cover member 40 side, the locking recess 53 and the inner cover member 40 as the locking recess 53 toward the tip end side of the regulating arm portion 36d An inclined surface 54 inclined so as to move away from the surface is formed.
 図11および図12を併せて参照して、前記シャッター板36の前記閉じ位置は閉じ位置規制手段56で規制されるものであり、この閉じ位置規制手段56は、前記シャッター板36を前記閉じ位置に規制する規制状態と、前記シャッター板36の前記開き位置への作動を許容する規制解除状態とを切替え可能であり、第1規制部材57および第2規制部材58を備える。 With reference to FIGS. 11 and 12, the closed position of the shutter plate 36 is regulated by the closed position regulating means 56, and the closed position regulating means 56 places the shutter plate 36 in the closed position. It is possible to switch between the regulated state that regulates the shutter plate 36 and the regulated release state that allows the shutter plate 36 to operate at the opening position, and includes a first regulating member 57 and a second regulating member 58.
 第1規制部材57は、前記ボディ38および前記内側カバー部材40間に配置される平板状の回動板部57aと、前記内側カバー部材40に設けられた第1貫通孔59を貫通しつつ前記シャッター板36の前記支持孔47に挿通されるようにして前記回動板部57aに立設される前記支軸48と、前記シャッター板36における前記係止突部49の周方向一端部49aに当接、係合することを可能として前記回動板部57aに立設される第1係合突部57bと、前記支軸48と同軸にして前記回動板部57aに直角に連設されて前記ボディ38内に回動自在に挿入される円筒部57cと、該円筒部57cの軸方向中間部から半径方向外方に突出する第1受圧突部57dとを有するように形成され、前記内側カバー部材40には、前記支軸48の中心軸線まわりに第1係合突部57bが回動することを可能として第1係合突部57bを挿通させる長孔60が、前記支軸48の中心軸線を中心として円弧状に延びるようにして設けられる。 The first regulating member 57 penetrates the flat plate-shaped rotating plate portion 57a arranged between the body 38 and the inner cover member 40 and the first through hole 59 provided in the inner cover member 40. The support shaft 48 is erected on the rotating plate portion 57a so as to be inserted into the support hole 47 of the shutter plate 36, and the circumferential end portion 49a of the locking protrusion 49 of the shutter plate 36. The first engaging protrusion 57b that is erected on the rotating plate portion 57a so as to be able to abut and engage with the support shaft 48 is coaxially provided with the rotating plate portion 57a at a right angle. The cylindrical portion 57c that is rotatably inserted into the body 38 and the first pressure receiving protrusion 57d that protrudes outward in the radial direction from the axial intermediate portion of the cylindrical portion 57c. The inner cover member 40 has an elongated hole 60 through which the first engaging protrusion 57b is inserted so that the first engaging protrusion 57b can rotate around the central axis of the support shaft 48. It is provided so as to extend in an arc shape around the central axis of.
 また第2規制部材58は、前記ボディ38および前記内側カバー部材40間に配置される平板状の連結板部58aと、前記係止凹部53に係合することを可能としつつ前記内側カバー部材40に設けられた第2貫通孔61を貫通するようにして前記連結板部58aの一端部に突設される第2係合突部58bと、前記支軸48と平行に延びるようにして前記連結板部58aの他端部から前記ボディ38内に挿入される棒状部58cと、該棒状部58cから半径方向外方に突出する第2受圧突部58dと有するように形成される。 Further, the second regulating member 58 allows the flat plate-shaped connecting plate portion 58a arranged between the body 38 and the inner cover member 40 to engage with the locking recess 53, and the inner cover member 40. The second engaging protrusion 58b projecting from one end of the connecting plate portion 58a so as to penetrate the second through hole 61 provided in the above, and the connecting portion 58b extending in parallel with the support shaft 48. It is formed so as to have a rod-shaped portion 58c inserted into the body 38 from the other end of the plate portion 58a, and a second pressure receiving protrusion 58d protruding outward in the radial direction from the rod-shaped portion 58c.
 前記シャッター板36は、コイル状の第1のねじりばね62で前記開き位置側に付勢されるものであり、この第1のねじりばね62は、前記シャッター板36の回動基部36aおよび前記内側カバー部材40間で前記支軸48を囲繞するように配置され、この第1のねじりばね62の一端部62aは前記内側カバー部材40に係合され、第1のねじりばね62の他端部62bは前記シャッター板36における係止突部49の周方向他端部49bに当接、係合される。 The shutter plate 36 is urged toward the opening position side by a coil-shaped first torsion spring 62, and the first torsion spring 62 is the rotation base 36a and the inside of the shutter plate 36. The support shaft 48 is arranged between the cover members 40 so as to surround the support shaft 48, and one end portion 62a of the first torsion spring 62 is engaged with the inner cover member 40 and the other end portion 62b of the first torsion spring 62 is engaged. Is in contact with and engaged with the other end portion 49b in the circumferential direction of the locking protrusion 49 of the shutter plate 36.
 また前記シャッター板36には、第1のねじりばね62よりも大きな付勢力を発揮するコイル状の第2のねじりばね63で前記閉じ位置側に向けての付勢力を及ぼすことが可能である。この第2のねじりばね63は、その一部を前記円筒部57c内に挿入するようにして該円筒部57cおよび前記ボディ38間に設けられており、この第2のねじりばね63の一端部63aは前記ボディ38に係合され、第2のねじりばね63の他端部は、軸方向に延びて前記円筒部57cの内面に形成される溝(図示せず)に係合される。 Further, the shutter plate 36 can be subjected to a urging force toward the closed position side by a coil-shaped second torsion spring 63 that exerts a larger urging force than the first torsion spring 62. The second torsion spring 63 is provided between the cylindrical portion 57c and the body 38 so that a part thereof is inserted into the cylindrical portion 57c, and one end portion 63a of the second torsion spring 63 is provided. Is engaged with the body 38, and the other end of the second torsion spring 63 extends axially and is engaged with a groove (not shown) formed on the inner surface of the cylindrical portion 57c.
 第2のねじりばね63は、前記第1規制部材57の第1係合突部57bが前記シャッター板36の係止突部49の周方向一端部49aに当接した状態で前記第1規制部材57とともに前記シャッター板36を前記閉じ位置側に付勢するばね力を発揮するとともに、前記第1規制部材57をその回動板部57aが前記内側カバー部材40に近接させる方向に向けて付勢する軸方向ばね力も発揮する。 The second torsion spring 63 is the first regulating member in a state where the first engaging protrusion 57b of the first regulating member 57 is in contact with the circumferential end portion 49a of the locking protrusion 49 of the shutter plate 36. Together with 57, the shutter plate 36 exerts a spring force for urging the shutter plate 36 toward the closed position side, and the first restricting member 57 is urged toward the direction in which the rotating plate portion 57a approaches the inner cover member 40. It also exerts an axial spring force.
 前記シャッター板36を前記閉じ位置側に付勢する第2のねじりばね63のばね力が、前記シャッター板36を前記開き位置側に付勢する第1のねじりばね62のばね力よりも大きいので、第1規制部材57の第1係合突部57bが前記シャッター板36の係止突部49の周方向一端部49aに当接した状態では、前記閉じ位置に在る前記シャッター板36の前記開き位置側への回動は規制され、前記シャッター板36は前記閉じ位置で規制されることになる。 Since the spring force of the second torsion spring 63 that urges the shutter plate 36 toward the closed position side is larger than the spring force of the first torsion spring 62 that urges the shutter plate 36 toward the open position side. In a state where the first engaging protrusion 57b of the first regulating member 57 is in contact with the circumferential end portion 49a of the locking protrusion 49 of the shutter plate 36, the shutter plate 36 in the closed position is said to have the same. The rotation to the open position side is restricted, and the shutter plate 36 is restricted at the closed position.
 また前記第2規制部材58の前記棒状部58cおよび前記ボディ38間には、第1のコイルばね64が縮設されており、この第1のコイルばね64が発揮するばね力により、第2規制部材58は前記第2係合突部58bを前記内側カバー部材40から突出させる側に付勢され、前記第2係合突部58bが前記シャッター板36の前記係止凹部53に係合することによっても前記シャッター板36が前記閉じ位置で規制されることになる。 Further, a first coil spring 64 is contracted between the rod-shaped portion 58c of the second regulating member 58 and the body 38, and the second regulation is performed by the spring force exerted by the first coil spring 64. The member 58 is urged to the side where the second engaging protrusion 58b protrudes from the inner cover member 40, and the second engaging protrusion 58b engages with the locking recess 53 of the shutter plate 36. The shutter plate 36 is also restricted at the closed position.
 前記閉じ位置規制手段56による前記シャッター板36の前記閉じ位置での規制状態は規制状態解除手段65によって解除し得るものであり、この規制状態解除手段65は、前記マグネットキー19で解錠されるマグネット錠66を含み、該マグネット錠66の解錠状態での前記マグネットキー19の押し込み操作に応じて作動して前記閉じ位置規制手段56の規制状態を解除するように構成される。 The restricted state of the shutter plate 36 at the closed position by the closed position regulating means 56 can be released by the restricted state releasing means 65, and the restricted state releasing means 65 is unlocked by the magnet key 19. The magnet lock 66 is included, and is configured to operate in response to a pushing operation of the magnet key 19 in the unlocked state of the magnet lock 66 to release the restricted state of the closing position regulating means 56.
 ところで前記ケーシング35は、前記マグネットキー19の挿入を可能とした第1のマグネットキー挿入孔67を有しており、この第1のマグネットキー挿入孔67は、図4で示すように、前記メカニカルキー挿入孔37の中心軸線を含む1つの仮想平面IPの一側に配置される。この実施の形態では、車両前後方向に延びて前記メカニカルキー挿入孔37の中心軸線を含む1つの仮想平面IPの車幅方向右側に、前記仮想平面IPと平行な方向に長い矩形状に形成される前記第1のマグネットキー挿入孔67が前記ケーシング35に設けられる。 By the way, the casing 35 has a first magnet key insertion hole 67 that allows the magnet key 19 to be inserted, and the first magnet key insertion hole 67 is the mechanical as shown in FIG. It is arranged on one side of one virtual plane IP including the central axis of the key insertion hole 37. In this embodiment, one virtual plane IP extending in the front-rear direction of the vehicle and including the central axis of the mechanical key insertion hole 37 is formed in a long rectangular shape in a direction parallel to the virtual plane IP on the right side in the vehicle width direction. The first magnet key insertion hole 67 is provided in the casing 35.
 前記第1のマグネットキー挿入孔67は、前記ケーシング35のうち前記カバー部材39および前記内側カバー部材40に設けられるものであり、前記第1のマグネットキー挿入孔67を協働して構成する矩形孔68,69が、前記カバー部材39および前記内側カバー部材40に設けられる。 The first magnet key insertion hole 67 is provided in the cover member 39 and the inner cover member 40 of the casing 35, and is a rectangle constituting the first magnet key insertion hole 67 in cooperation with each other. Holes 68 and 69 are provided in the cover member 39 and the inner cover member 40.
 前記ケーシング35の前記ボディ38には、前記第1のマグネットキー挿入孔67に対応したスライド支持孔71が、前記支軸48の中心軸線と平行に延びるとともに矩形の横断面形状を有するようにして設けられる。また前記カバー部材39の裏面には、当該カバー部材39の前記矩形孔68を閉じる蓋板72がピン73を介して回動可能に支持されており、この蓋板72はばね74によって閉じ側に付勢される。 In the body 38 of the casing 35, a slide support hole 71 corresponding to the first magnet key insertion hole 67 extends parallel to the central axis of the support shaft 48 and has a rectangular cross-sectional shape. It will be provided. Further, on the back surface of the cover member 39, a lid plate 72 that closes the rectangular hole 68 of the cover member 39 is rotatably supported via a pin 73, and the lid plate 72 is closed by a spring 74. Be urged.
 図13を併せて参照して、前記マグネット錠66は、前記ケーシング35の前記ボディ38で回動可能に支持されるロータ75を備え、このロータ75は、円盤部75aと、該円盤部75aの一端から半径方向外方に張り出す鍔部75bと、その鍔部75bの周方向1箇所から外側方に延びる連結腕部75cと、該連結腕部75cの外端から前記円盤部75aと同一側に突出する第3係合突部75dとを一体に有し、非磁性材料によって形成される。 With reference to FIG. 13, the magnet lock 66 includes a rotor 75 rotatably supported by the body 38 of the casing 35, which the rotor 75 has a disk portion 75a and a disk portion 75a. A flange portion 75b protruding outward in the radial direction from one end, a connecting arm portion 75c extending outward from one location in the circumferential direction of the flange portion 75b, and the same side as the disk portion 75a from the outer end of the connecting arm portion 75c. It integrally has a third engaging protrusion 75d protruding from the surface, and is formed of a non-magnetic material.
 図14を併せて参照して、前記ケーシング35の前記ボディ38には、前記ロータ75の前記鍔部75bおよび前記連結腕部75cを回動可能に嵌合させる嵌合凹部76と、該嵌合凹部76に外端を開口するとともに前記スライド支持孔71の側面に内端を開口させて前記ロータ75の前記円盤部75aを回動可能に嵌合する円形の嵌合孔77(図6参照)と、前記第3係合突部75dが挿入されるようにして前記嵌合凹部76に外端を開口するとともに前記スライド支持孔71の側面に内端を開口させた長孔78とが設けられており、前記長孔78は、前記嵌合凹部76および前記嵌合孔77内での前記ロータ75の回動を許容するようにして該ロータ75の回動軸線を中心とした円弧状に形成される。 With reference to FIG. 14, the body 38 of the casing 35 is fitted with a fitting recess 76 for rotatably fitting the flange portion 75b and the connecting arm portion 75c of the rotor 75. A circular fitting hole 77 (see FIG. 6) in which the outer end is opened in the recess 76 and the inner end is opened on the side surface of the slide support hole 71 to rotatably fit the disk portion 75a of the rotor 75. An elongated hole 78 having an outer end opened in the fitting recess 76 and an inner end opened on the side surface of the slide support hole 71 is provided so that the third engaging protrusion 75d is inserted. The elongated hole 78 is formed in an arc shape centered on the rotation axis of the rotor 75 so as to allow the rotor 75 to rotate in the fitting recess 76 and the fitting hole 77. Will be done.
 前記嵌合凹部76は、図6で示すように、前記ロータ75の前記円盤部75a内に嵌合して前記ロータ75の回動を支持する蓋部材79で閉じられるものであり、この蓋部材79は、第3のねじ部材80で前記ボディ38に締結され、前記蓋部材79および前記ロータ75間にはOリング81が介装される。 As shown in FIG. 6, the fitting recess 76 is closed by a lid member 79 that fits into the disk portion 75a of the rotor 75 and supports the rotation of the rotor 75. The 79 is fastened to the body 38 with a third screw member 80, and an O-ring 81 is interposed between the lid member 79 and the rotor 75.
 前記蓋部材79には、3個以上の複数個たとえば3個のピン状のマグネット83が、前記ロータ75における前記円盤部75aに設けられる4つの係止凹部84のうちの3つに係合する位置ならびにその係合を解除する位置間での移動を可能として摺動可能に嵌合されており、前記マグネット83は、個別に対応した第2のコイルばね85によって前記ロータ75に係合する側に弾発付勢される。 In the lid member 79, three or more plurality of, for example, three pin-shaped magnets 83 engage with three of the four locking recesses 84 provided in the disk portion 75a of the rotor 75. Slidably fitted to allow movement between positions and positions where they are disengaged, the magnet 83 is on the side that engages the rotor 75 by an individually associated second coil spring 85. Is urged to fire.
 3つの前記マグネット83は、前記ロータ75における前記円盤部75aに前記マグネットキー19が対向配置されたときに、該マグネットキー19が有する3つのマグネット21に対応する位置に配置されるようにして前記係止凹部84に嵌合される。しかも前記マグネットキー19における前記マグネット21の前記マグネット錠66側の極と同一極が前記係止凹部84の内端側に配置されるようにして、前記マグネット83が配置されており、前記ロータ75における前記円盤部75aに対向する位置に正規のマグネットキー19を配置することで第2のコイルばね85の弾発付勢力に抗して前記マグネット83を前記ロータ75との係合を解除する側に移動させることができ、それによって前記ロータ75の回動が許容されることになる。 The three magnets 83 are arranged at positions corresponding to the three magnets 21 of the magnet key 19 when the magnet key 19 is arranged to face the disk portion 75a of the rotor 75. It is fitted into the locking recess 84. Moreover, the magnet 83 is arranged so that the same pole as the pole on the magnet lock 66 side of the magnet 21 in the magnet key 19 is arranged on the inner end side of the locking recess 84, and the rotor 75 is arranged. By arranging the regular magnet key 19 at a position facing the disk portion 75a in the above, the side that disengages the magnet 83 from the rotor 75 against the elastic force of the second coil spring 85. It can be moved to, which allows the rotor 75 to rotate.
 前記ケーシング35における前記ボディ38の前記スライド支持孔71には、前記ケーシング35への前記マグネットキー19の挿入に応じて該マグネットキー19とともに移動するスライドケース86がスライド可能に収容される。 In the slide support hole 71 of the body 38 in the casing 35, a slide case 86 that moves together with the magnet key 19 in response to the insertion of the magnet key 19 into the casing 35 is slidably accommodated.
 このスライドケース86は、有底かつ矩形の横断面形状を有する第2のマグネットキー挿入孔87が設けられるようにして矩形の箱状に形成されるものであり、このスライドケース86の前記第2のマグネットキー挿入孔87には、前記ケーシング35の前記カバー部材39および前記内側カバー部材40の第1のマグネットキー挿入孔67から前記蓋板72を開けて前記マグネットキー19が挿入される。 The slide case 86 is formed in a rectangular box shape so as to be provided with a second magnet key insertion hole 87 having a bottom and a rectangular cross-sectional shape, and the second slide case 86 is the second. The magnet key 19 is inserted into the magnet key insertion hole 87 by opening the lid plate 72 from the first magnet key insertion hole 67 of the cover member 39 of the casing 35 and the inner cover member 40.
 前記マグネットキー19における前記キーケース20が前記第2のマグネットキー挿入孔87に挿入されたとき、そのキーケース20の一端部は、前記第2のマグネットキー挿入孔87の閉塞端壁に当接されるものであり、前記マグネットキー19を押し込むことで前記スライドケース86は前記スライド支持孔71内をスライド移動する。しかもこのスライドケース86と、前記カバー部材39と反対側の前記スライド支持孔71の端部との間には、たとえば一対の第3のコイルばね88が縮設されており、第3のコイルばね88が発揮するばね力により前記スライドケース86は前記カバー部材39に近接する側にばね付勢されている。 When the key case 20 in the magnet key 19 is inserted into the second magnet key insertion hole 87, one end of the key case 20 abuts on the closed end wall of the second magnet key insertion hole 87. By pushing the magnet key 19, the slide case 86 slides in the slide support hole 71. Moreover, for example, a pair of third coil springs 88 are contracted between the slide case 86 and the end of the slide support hole 71 on the opposite side of the cover member 39, and the third coil spring The slide case 86 is spring-forced to the side close to the cover member 39 by the spring force exerted by the 88.
 前記スライドケース86の前記マグネット錠66側に臨む側壁には、前記第2のマグネットキー挿入孔87に挿入されたマグネットキー19を前記マグネット錠66側に臨ませる開口部89が前記スライド支持孔71の延出方向に沿って長く形成されており、前記スライドケース86は、前記マグネットキー19の挿入に応じて該マグネットキー19とともに移動することで前記マグネット錠66における前記ロータ75の閉塞端外面に前記マグネットキー19を対向させることによって前記マグネット錠66を解錠する解錠位置までの前記マグネットキー19の挿入操作を可能とするだけでなく、前記解錠位置から前記マグネットキー19をさらに押し込むことによる押し込み位置まで移動することが可能である。 On the side wall of the slide case 86 facing the magnet lock 66 side, an opening 89 for allowing the magnet key 19 inserted in the second magnet key insertion hole 87 to face the magnet lock 66 side is provided in the slide support hole 71. The slide case 86 is formed long along the extending direction of the magnet key 19, and moves together with the magnet key 19 in response to the insertion of the magnet key 19 so as to be on the outer surface of the closed end of the rotor 75 in the magnet lock 66. By facing the magnet key 19, not only the magnet key 19 can be inserted up to the unlocking position where the magnet lock 66 is unlocked, but also the magnet key 19 is further pushed in from the unlocking position. It is possible to move to the pushing position by.
 前記スライドケース86には、前記マグネット錠66の鎖錠状態では前記ロータ75で移動が規制されるようにしつつ該ロータ75の第3係合突部75dに係合される可動係合部材90が保持されており、前記スライドケース86の前記押し込み位置側への移動に応じて前記ロータ75を回動駆動する側に前記可動係合部材90を押圧する弾発力を発揮する第4のコイルばね91が前記スライドケース86および前記可動係合部材90間に設けられる。 In the slide case 86, a movable engaging member 90 that is engaged with the third engaging protrusion 75d of the rotor 75 while being restricted from moving by the rotor 75 in the locked state of the magnet lock 66 is provided. A fourth coil spring that is held and exerts an elastic force that presses the movable engaging member 90 on the side that rotationally drives the rotor 75 in response to the movement of the slide case 86 to the pushing position side. 91 is provided between the slide case 86 and the movable engaging member 90.
 前記可動係合部材90は、前記第3係合突部75dを係合させる係止溝92を有して前記ロータ75の前記連結腕部75c側に開放した略C字状に形成される。また前記スライドケース86には、前記第2規制部材58側ならびに前記ロータ75の前記第3係合突部75d側を開口させた収容孔93が、前記スライド支持孔71の延出方向両端を閉じるようにして設けられており、前記可動係合部材90は該収容孔93内に収容され、この収容孔93内に収容される前記第4のコイルばね91が、前記スライドケース86および前記可動係合部材90間に縮設される。 The movable engaging member 90 has a locking groove 92 for engaging the third engaging protrusion 75d, and is formed in a substantially C shape open to the connecting arm portion 75c side of the rotor 75. Further, in the slide case 86, a storage hole 93 having an opening on the side of the second regulating member 58 and the side of the third engaging protrusion 75d of the rotor 75 closes both ends of the slide support hole 71 in the extending direction. The movable engaging member 90 is accommodated in the accommodating hole 93, and the fourth coil spring 91 accommodated in the accommodating hole 93 is provided with the slide case 86 and the movable engaging member. It is reduced between the combined members 90.
 前記マグネットキー19および前記スライドケース86を前記解錠位置からさらに押し込むと、前記スライドケース86の移動による押圧力が第4のコイルばね91および前記可動係合部材90を介して前記ロータ75の連結腕部75cに伝達され、前記マグネット錠66が解錠状態にあることで回動可能な状態にある前記ロータ75が、前記可動係合部材90の移動に応じて回動する。 When the magnet key 19 and the slide case 86 are further pushed in from the unlocked position, the pressing force due to the movement of the slide case 86 is connected to the rotor 75 via the fourth coil spring 91 and the movable engaging member 90. The rotor 75, which is transmitted to the arm portion 75c and is in a rotatable state when the magnet lock 66 is in the unlocked state, rotates in response to the movement of the movable engaging member 90.
 また前記スライドケース86には、前記第1規制部材57の前記円筒部57cに設けられた第1受圧突部57dに前記回動基部36a側から係合し得る第1押圧突部86aが突設されており、前記マグネットキー19で前記スライドケース86を押し込むのに応じて、第1受圧突部57dに第1押圧突部86aを係合させた前記スライドケース86が、前記解錠位置からさらに押し込まれると、第2のねじりばね63の軸方向弾発力に抗して前記第1規制部材57が押し下げられることで、第1規制部材57の第1係合突部57bが、前記シャッター板36の係止突部49との係合を解除する位置まで移動することになり、シャッター板36を閉じ位置で規制する第1規制部材57の規制が解除される。この際、第1規制部材57の前記支軸48が前記シャッター板36の前記支持孔47から離脱することはなく、シャッター板36の前記支軸48による回動支持は維持される。 Further, the slide case 86 is provided with a first pressing protrusion 86a that can engage with the first pressure receiving protrusion 57d provided on the cylindrical portion 57c of the first regulating member 57 from the rotation base portion 36a side. In response to pushing the slide case 86 with the magnet key 19, the slide case 86 in which the first pressing protrusion 86a is engaged with the first pressure receiving protrusion 57d is further removed from the unlocked position. When pushed in, the first restricting member 57 is pushed down against the axial elastic force of the second torsional spring 63, so that the first engaging protrusion 57b of the first regulating member 57 becomes the shutter plate. The 36 moves to a position where the engagement with the locking protrusion 49 is released, and the regulation of the first regulating member 57 that regulates the shutter plate 36 at the closed position is released. At this time, the support shaft 48 of the first regulating member 57 does not separate from the support hole 47 of the shutter plate 36, and the rotational support of the shutter plate 36 by the support shaft 48 is maintained.
 また前記可動係合部材90には、第2規制部材58の前記棒状部58cに設けられた第2受圧突部58dに前記連結板部58a側から係合し得る第2押圧突部90aが、前記係止溝92と反対側で前記可動係合部材90から突出するようにして設けられており、前記マグネットキー19で前記スライドケース86を押し込むのに応じて、第2受圧突部58dに第2押圧突部90aを係合させた前記スライドケース86が、前記解錠位置からさらに押し込まれると、第2規制部材58の第2係合突部58bが、前記シャッター板36の係止凹部53との係合を解除する位置まで移動することになり、シャッター板36を閉じ位置で規制する第2規制部材58の規制も解除される。なおマグネット錠66が解錠されないままで前記スライドケース86を異種キーや不正部材で無理やり押し込むと、スライドケース86の移動に応じて第1規制部材57による前記シャッター板36の閉じ位置での規制は解除されるが、マグネット錠66の前記ロータ75が回動することはなく、前記可動係合部材90の移動も阻止されているので、前記スライドケース86は第4のコイルばね91を圧縮しつつスライドすることになり、第2規制部材58による前記シャッター板36の閉じ位置での規制が解除されることはなく、シャッター板36は閉じ位置で規制されたままである。 Further, the movable engaging member 90 has a second pressing protrusion 90a that can engage with the second pressure receiving protrusion 58d provided on the rod-shaped portion 58c of the second regulating member 58 from the connecting plate portion 58a side. It is provided so as to protrude from the movable engaging member 90 on the side opposite to the locking groove 92, and is provided in the second pressure receiving protrusion 58d in response to pushing the slide case 86 with the magnet key 19. When the slide case 86 with the two pressing protrusions 90a engaged is further pushed in from the unlocking position, the second engaging protrusions 58b of the second regulating member 58 are subjected to the locking recess 53 of the shutter plate 36. It will move to the position where the engagement with the shutter plate 36 is released, and the regulation of the second regulating member 58 that regulates the shutter plate 36 at the closed position is also released. If the slide case 86 is forcibly pushed in with a different key or an illegal member without the magnet lock 66 being unlocked, the first restricting member 57 regulates the shutter plate 36 at the closed position according to the movement of the slide case 86. Although released, the rotor 75 of the magnet lock 66 does not rotate and the movement of the movable engaging member 90 is also prevented, so that the slide case 86 compresses the fourth coil spring 91. As a result, the regulation by the second regulating member 58 at the closed position of the shutter plate 36 is not released, and the shutter plate 36 remains regulated at the closed position.
 前記シャッター板36を前記閉じ位置に規制した前記閉じ位置規制手段56の規制状態が、上述の規制状態解除手段65で解除された状態で前記シャッター板36には第2のねじりばね63のばね力は作用しておらず、前記シャッター板36は、図9で示したように、第1のねじりばね62のばね力で開き位置側に自動的に回動する。 The spring force of the second torsion spring 63 is applied to the shutter plate 36 in a state where the restricted state of the closed position regulating means 56 that regulates the shutter plate 36 to the closed position is released by the restricted state releasing means 65. The shutter plate 36 does not act, and as shown in FIG. 9, the shutter plate 36 automatically rotates toward the opening position side by the spring force of the first torsion spring 62.
 この際、シャッター板36の係止突部49は第1規制部材57の第1係合突部57bに、前記支軸48の軸線に沿う方向で近接、対向する位置となり、前記スライドケース8684からマグネットキー19を抜き取ることで、前記スライドケース86が第3のコイルばね88のばね力で元の位置に戻ることによって第1押圧突部86aから第1受圧突部57dに作用していた押圧力が解除されても、シャッター板36の係止突部49に前記第1係合突部57bが軸方向で当接することにより、第1規制部材57は押し下げられたままである。また前記第2規制部材58は、第2押圧突部90aから第2受圧突部58dに作用していた押圧力の解除によって元の位置まで第1のコイルばね64のばね力で復帰する。 At this time, the locking protrusion 49 of the shutter plate 36 is located close to and facing the first engaging protrusion 57b of the first regulating member 57 in the direction along the axis of the support shaft 48, from the slide case 8648. By pulling out the magnet key 19, the slide case 86 returns to its original position by the spring force of the third coil spring 88, so that the pushing pressure acting on the first pressure receiving protrusion 57d from the first pressing protrusion 86a The first restricting member 57 remains pushed down by the first engaging protrusion 57b coming into contact with the locking protrusion 49 of the shutter plate 36 in the axial direction even after the release. Further, the second regulating member 58 returns to the original position by the spring force of the first coil spring 64 by releasing the pressing force acting on the second pressing projection portion 58d from the second pressing projection portion 90a.
 第2のねじりばね63から前記シャッター板36への付勢力伝達は、閉じ位置側付勢力制御手段95によって制御されるものであり、この閉じ位置側付勢力制御手段95は、少なくとも前記シャッター板36の前記閉じ位置から前記開き位置への作動時には第1のねじりばね62の機能を停止するとともに、前記シャッター板36が開き位置にある状態での前記メカニカルキー18の所定回動位置での前記メカニカルキー挿入孔37からの引き抜き操作に応じて、第2のねじりばね63の付勢力を前記シャッター板36に作用させる。 The transmission of the urging force from the second torsion spring 63 to the shutter plate 36 is controlled by the closed position side urging force control means 95, and the closed position side urging force control means 95 is at least the shutter plate 36. When operating from the closed position to the open position, the function of the first torsion spring 62 is stopped, and the mechanical key 18 is in a predetermined rotation position with the shutter plate 36 in the open position. The urging force of the second torsion spring 63 is applied to the shutter plate 36 in response to the pulling operation from the key insertion hole 37.
 図9に注目して、前記閉じ位置側付勢力制御手段95は、前記ボディ38および前記内側カバー部材40間に回動可能に収容される円板状のカムプレート96と、該カムプレート96の周方向で第1および第2規制部材57,58間に配置されるようにして前記カムプレート96の外側方に配置されるレバー部材97と、前記カムプレート96の半径方向に摺動することを可能としてカムプレート96に嵌合されるプッシュプレート98と、前記カムプレート96がロック位置に対応した回動位置にあるときに前記プッシュプレート98に当接するようにした従動駒99と、該従動駒99に連結されるスライド部材100とを備える。 Focusing on FIG. 9, the closed position side urging force control means 95 includes a disc-shaped cam plate 96 rotatably housed between the body 38 and the inner cover member 40, and the cam plate 96. Sliding in the radial direction of the cam plate 96 with the lever member 97 arranged on the outer side of the cam plate 96 so as to be arranged between the first and second regulating members 57 and 58 in the circumferential direction. A push plate 98 that is fitted to the cam plate 96 as possible, a driven piece 99 that comes into contact with the push plate 98 when the cam plate 96 is in the rotation position corresponding to the lock position, and the driven piece. It includes a slide member 100 connected to 99.
 前記カムプレート96は、前記シリンダ錠15のインナシリンダ(図示せず)に相対回動不能に連結されるものであり、円盤部96aと、該円盤部96aの前記ボディ38側の端部から半径方向外方に張り出す鍔部96bとを一体に有するように形成される。しかも前記第1規制部材57の前記回動板部57aは、前記鍔部96bおよび前記内側カバー部材40間に配置される。 The cam plate 96 is connected to the inner cylinder (not shown) of the cylinder lock 15 in a relative non-rotatable manner, and has a radius from the disk portion 96a and the end portion of the disk portion 96a on the body 38 side. It is formed so as to integrally have a flange portion 96b that projects outward in the direction. Moreover, the rotating plate portion 57a of the first regulating member 57 is arranged between the flange portion 96b and the inner cover member 40.
 前記レバー部材97は、その一端部97aを前記カムプレート96における鍔部96bの外周に当接させることを可能とするとともに他端部97bを前記第1規制部材57における回動板部57aに当接させるようにして前記支軸48と平行なピン101で前記ボディ38に回動可能に支持され、前記ピン101は前記レバー部材97に一体に形成される。前記鍔部75bの外周には、前記カムプレート96がロック位置に対応する回動位置にあるときに前記レバー部材97の一端部を収容する凹部102が形成され、前記カムプレート96が前記ロック位置から前記オフ位置または前記オン位置に回動すると、前記レバー部材97の一端部97aを前記凹部102から離脱させて前記鍔部96bの外周に摺接させるように回動することになる。また前記レバー部材97の他端部97bは、第2のねじりばね63の付勢力による前記第1規制部材57の回動方向に対向するようにして前記第1規制部材57の前記回動板部57aに当接する。 The lever member 97 makes it possible to bring one end portion 97a into contact with the outer periphery of the flange portion 96b of the cam plate 96, and the other end portion 97b hits the rotating plate portion 57a of the first regulating member 57. The pin 101 is rotatably supported by the body 38 by a pin 101 parallel to the support shaft 48 so as to be in contact with the pin 101, and the pin 101 is integrally formed with the lever member 97. A recess 102 is formed on the outer periphery of the flange portion 75b to accommodate one end of the lever member 97 when the cam plate 96 is in the rotation position corresponding to the lock position, and the cam plate 96 is in the lock position. When the lever member 97 is rotated to the off position or the on position, the one end portion 97a of the lever member 97 is separated from the recess 102 and is rotated so as to be slidably contacted with the outer periphery of the flange portion 96b. Further, the other end portion 97b of the lever member 97 is opposed to the rotation direction of the first regulation member 57 by the urging force of the second torsion spring 63, and the rotation plate portion of the first regulation member 57 is opposed to the rotation direction. It abuts on 57a.
 前記カムプレート96の中央部には、メカニカルキー挿入孔37に対応した矩形の透孔103が横断面形状を矩形として形成されるとともに、内端を前記透孔103に開口させるとともに外端を前記円盤部96aの外周に開口させた嵌合溝104がカムプレート96の半径方向に延びるようにして設けられており、前記プッシュプレート98は前記嵌合溝104に摺動可能に嵌合され、一対のばね105が、前記透孔103を閉鎖する側すなわち前記カムプレート96の半径方向内方に前記プッシュプレート98を付勢するようにして前記カムプレート96および前記プッシュプレート98間に設けられる。 In the central portion of the cam plate 96, a rectangular through hole 103 corresponding to the mechanical key insertion hole 37 is formed with a rectangular cross-sectional shape, an inner end is opened in the through hole 103, and an outer end is described. A fitting groove 104 opened on the outer periphery of the disk portion 96a is provided so as to extend in the radial direction of the cam plate 96, and the push plate 98 is slidably fitted into the fitting groove 104 to form a pair. The spring 105 is provided between the cam plate 96 and the push plate 98 so as to urge the push plate 98 on the side that closes the through hole 103, that is, inward in the radial direction of the cam plate 96.
 前記プッシュプレート98の内端部は前記透孔103を塞ぎ得るように形成され、前記プッシュプレート98の外端部は前記カムプレート96における前記円盤部96aの外周と同一曲率の円弧状に形成される。このプッシュプレート98の内端部が前記透孔103を塞ぐ位置にあるときにはプッシュプレート98の外端部は前記円盤部96aの外周よりも内方位置に在り、前記プッシュプレート98の内端部が前記透孔103を開放する位置にあるときには該プッシュプレート98の外端部は前記円盤部96aの外周に面一に連なる位置にある。 The inner end portion of the push plate 98 is formed so as to be able to close the through hole 103, and the outer end portion of the push plate 98 is formed in an arc shape having the same curvature as the outer circumference of the disk portion 96a in the cam plate 96. To. When the inner end portion of the push plate 98 is in a position to close the through hole 103, the outer end portion of the push plate 98 is located inward from the outer circumference of the disk portion 96a, and the inner end portion of the push plate 98 is located. When the through hole 103 is open, the outer end portion of the push plate 98 is flush with the outer periphery of the disk portion 96a.
 図15を併せて参照して、前記従動駒99は、前記カムプレート96に関して前記第2規制部材58と反対側に配置されるものであり、一端部に連結ピン99aを有して前記カムプレート96の外周に沿って延びるとともに前記カムプレート96の前記鍔部96bに一部を重ねることを可能とした従動駒主部99bと、その従動駒主部99bの他端部からカムプレート96の前記円盤部96a側に延びる嵌合部99cと、前記鍔部96bの外方に配置されるようにして前記従動駒主部99bの他端部に連結される短円柱部99dとを一体に有し、前記従動駒主部99bの前記嵌合部99cとは反対側の側面にばね係止凹部106が形成される。 With reference to FIG. 15, the driven piece 99 is arranged on the side opposite to the second regulating member 58 with respect to the cam plate 96, and has a connecting pin 99a at one end thereof and the cam plate. A driven piece main portion 99b that extends along the outer periphery of the 96 and is capable of partially overlapping the flange portion 96b of the cam plate 96, and the cam plate 96 from the other end of the driven piece main portion 99b. It integrally has a fitting portion 99c extending toward the disk portion 96a and a short cylindrical portion 99d connected to the other end of the driven piece main portion 99b so as to be arranged outside the flange portion 96b. A spring locking recess 106 is formed on the side surface of the driven piece main portion 99b on the side opposite to the fitting portion 99c.
 前記嵌合部99cの先端部は前記カムプレート96における前記円盤部96aの外周に当接可能であり、前記カムプレート96がロック位置にあるときに、前記嵌合部99cの先端部は前記プッシュプレート98の外端部に当接する。 The tip of the fitting portion 99c can abut on the outer periphery of the disk portion 96a of the cam plate 96, and when the cam plate 96 is in the locked position, the tip of the fitting portion 99c is pushed. It abuts on the outer edge of the plate 98.
 しかも前記ボディ38に設けられた横断面円形の支持突部107を囲繞するとともに一端部108aが前記ボディ38に係合される第3のねじりばね108の他端部108bが、その一部を前記ばね係止凹部106に収容することを可能として前記従動駒99の他端部の短円柱部99dに当接、係合されており、この第3のねじりばね108が発揮するばね力は、前記従動駒99の前記嵌合部99cを前記カムプレート96の円盤部96aの外周に押しつける方向ならびに前記従動駒99を前記第1規制部材57側に押圧する方向で前記従動駒99に作用する。前記プッシュプレート98の移動ならびに前記カムプレート96の回動に伴う前記従動駒99の移動をガイドするために、前記ボディ38には、前記従動駒99における前記短円柱部99dの先端部を嵌合させるガイド凹部110が形成される。 Moreover, the other end 108b of the third torsion spring 108, which surrounds the support protrusion 107 having a circular cross section provided on the body 38 and one end 108a is engaged with the body 38, partially covers the body 38. The spring force exerted by the third torsion spring 108 is the spring force exerted by the third torsion spring 108, which is in contact with and engaged with the short cylindrical portion 99d at the other end of the driven piece 99 so as to be accommodated in the spring locking recess 106. The fitting portion 99c of the driven piece 99 acts on the driven piece 99 in a direction of pressing the fitting portion 99c against the outer periphery of the disk portion 96a of the cam plate 96 and in a direction of pressing the driven piece 99 toward the first regulating member 57. In order to guide the movement of the push plate 98 and the movement of the driven piece 99 accompanying the rotation of the cam plate 96, the tip portion of the short cylindrical portion 99d of the driven piece 99 is fitted to the body 38. A guide recess 110 is formed.
 前記スライド部材100は、前記従動駒99および前記第1規制部材57間に配置され、前記第1規制部材57に対する近接、離反方向でスライドすることを可能として前記ボディ38に支持されており、前記従動駒99の前記連結ピン99aを回動可能に嵌合する有底の嵌合孔109が前記スライド部材100に設けられる。 The slide member 100 is arranged between the driven piece 99 and the first regulating member 57, and is supported by the body 38 so as to be able to slide in the direction of proximity and separation from the first regulating member 57. The slide member 100 is provided with a bottomed fitting hole 109 for rotatably fitting the connecting pin 99a of the driven piece 99.
 このスライド部材100の前記第1規制部材57側の端部には、前記第1規制部材57の前記回動板部57aに、前記第1規制部材57に対する前記第2のねじりばね63による回動付勢方向と同一方向から当接し得る当接部100aが、前記カムプレート96の前記鍔部95bに軸方向で重なることを可能として一体に設けられる。 At the end of the slide member 100 on the side of the first regulating member 57, the rotating plate portion 57a of the first regulating member 57 is rotated by the second torsion spring 63 with respect to the first regulating member 57. A contact portion 100a that can abut from the same direction as the urging direction is integrally provided so as to be able to overlap with the flange portion 95b of the cam plate 96 in the axial direction.
 図9で示すように、前記シャッター板36が開き位置にあって前記カムプレート96がロック位置にあるときには、前記レバー部材97の一端部97aは前記カムプレート9695における前記鍔部96bの外周の前記凹部102に収容されており、前記従動駒99は、前記透孔103を閉じた位置にある前記プッシュプレート98の外端部に前記嵌合部99cを当接させた状態にあり、第1規制部材57の第1係合突部57bは前記シャッター板36の前記係止突部49に前記支軸48の軸線に沿う方向で当接した状態にある。この状態で、前記メカニカルキー挿入孔37および前記透孔103にメカニカルキー18を挿入すると、前記プッシュプレート98と、該プッシュプレート98の外端部に嵌合部99cを当接させた前記従動駒99とが、前記プッシュプレート98を付勢する前記ばね105のばね力に抗して前記カムプレート96の半径方向外方に押し出され、それによって前記スライド部材100が第1規制部材57に近接する側にスライド作動する。 As shown in FIG. 9, when the shutter plate 36 is in the open position and the cam plate 96 is in the lock position, one end portion 97a of the lever member 97 is the outer periphery of the flange portion 96b in the cam plate 9695. The driven piece 99 is housed in the recess 102, and the driven piece 99 is in a state where the fitting portion 99c is in contact with the outer end portion of the push plate 98 at a position where the through hole 103 is closed, and the first regulation is applied. The first engaging protrusion 57b of the member 57 is in contact with the locking protrusion 49 of the shutter plate 36 in a direction along the axis of the support shaft 48. In this state, when the mechanical key 18 is inserted into the mechanical key insertion hole 37 and the through hole 103, the push plate 98 and the driven piece in which the fitting portion 99c is brought into contact with the outer end portion of the push plate 98 are brought into contact with each other. 99 is pushed outward in the radial direction of the cam plate 96 against the spring force of the spring 105 that urges the push plate 98, whereby the slide member 100 approaches the first regulating member 57. It slides to the side.
 前記メカニカルキー18をロック位置からオフ位置に回動操作すると、前記レバー部材97が、その一端部97aを前記カムプレート96の前記鍔部96bの前記凹部102から離脱させて前記鍔部96bの外周に摺接させる位置に回動し、前記レバー部材97の他端部97bが、前記第1規制部材57の前記回動板部57aを図9の時計方向に回動させることになる。これによって第1規制部材57が、その第1係合突部57bを前記シャッター板36における前記係止突部49の周方向一端部49aに当接、係合させ得る位置であって前記支軸48の周方向で前記スライドケース86の第1押圧突部86aから第1受圧突部57dをずらせた位置に回動することになり、前記ロック位置において第1係合突部57bが前記シャッター板36の前記係止突部49に当接していた状態が解除されるのに応じて、第1規制部材57が第2のねじりばね63の軸方向弾発力で前記回動板部57aを前記シャッター板36に近接させる方向に移動し、第1係合突部57bが第1係止突部49の周方向一端部49aに前記支軸48の周方向で近接、対向し、さらに第2のねじりばね63のばね力で、第1係止突部49の周方向一端部に当接、係合することになる。 When the mechanical key 18 is rotated from the locked position to the off position, the lever member 97 disengages one end portion 97a from the recess 102 of the flange portion 96b of the cam plate 96, and the outer periphery of the flange portion 96b. The other end portion 97b of the lever member 97 rotates the rotating plate portion 57a of the first restricting member 57 in the clockwise direction of FIG. As a result, the first restricting member 57 is at a position where the first engaging protrusion 57b can abut and engage with the circumferential end portion 49a of the locking protrusion 49 in the shutter plate 36, and the support shaft. In the circumferential direction of 48, the slide case 86 is rotated to a position where the first pressure receiving protrusion 57d is displaced from the first pressing protrusion 86a, and the first engaging protrusion 57b is the shutter plate at the locked position. In response to the release of the state of being in contact with the locking protrusion 49 of 36, the first restricting member 57 causes the rotating plate portion 57a to move with the axial elastic force of the second torsion spring 63. The first engaging protrusion 57b moves closer to the shutter plate 36, and the first engaging protrusion 57b approaches and faces the circumferential end portion 49a of the first locking protrusion 49 in the circumferential direction of the support shaft 48, and further, the second The spring force of the torsion spring 63 abuts and engages with one end of the first locking protrusion 49 in the circumferential direction.
 この際、第1規制部材57の回動が許容されていれば、第1規制部材57から前記シャッター板36に作用する第2のねじりばね63のばね力で前記シャッター板36は閉じ位置側に回動付勢されるが、第1規制部材57の回動は前記レバー部材97および前記スライド部材100によって阻止される。すなわちオフ位置で前記レバー部材97によって前記第1規制部材57の前記回動板部57aが図9の時計方向に回動する際に、該回動板部57aは、その一部が前記スライド部材100の先端の前記当接部100aと、前記カムプレート96における鍔部96bとの間を通過するように回動するものであり、第1規制部材57が第2のねじりばね63の軸方向弾発力で前記回動板部57aを前記シャッター板36に近接させる方向に移動することで、前記当接部99aが、第2のねじりばね63のばね力による第1規制部材57の回動付勢方向に対向するようにして前記回動板部57aに当接し、第1規制部材57の回動は阻止されている。また前記レバー部材97の他端部97bは前記第1規制部材57の前記回動板部57aに当接したままであり、このレバー部材97の一端部97aは前記カムプレート96における前記鍔部96bの外周に当接しているので、このレバー部材97によっても第1規制部材57の回動は阻止される。 At this time, if the rotation of the first regulating member 57 is allowed, the shutter plate 36 is moved to the closed position side by the spring force of the second torsion spring 63 acting on the shutter plate 36 from the first regulating member 57. Although it is urged to rotate, the rotation of the first regulating member 57 is blocked by the lever member 97 and the slide member 100. That is, when the rotating plate portion 57a of the first regulating member 57 is rotated in the clockwise direction of FIG. 9 by the lever member 97 at the off position, a part of the rotating plate portion 57a is the slide member. It rotates so as to pass between the contact portion 100a at the tip of the 100 and the flange portion 96b in the cam plate 96, and the first regulating member 57 is an axial bullet of the second torsion spring 63. By moving the rotating plate portion 57a in a direction close to the shutter plate 36 by the force, the contact portion 99a rotates the first regulating member 57 by the spring force of the second torsion spring 63. It abuts on the rotating plate portion 57a so as to face the force direction, and the rotation of the first regulating member 57 is prevented. Further, the other end portion 97b of the lever member 97 remains in contact with the rotating plate portion 57a of the first regulating member 57, and the one end portion 97a of the lever member 97 is the flange portion 96b of the cam plate 96. Since it is in contact with the outer periphery of the first regulating member 57, the rotation of the first regulating member 57 is also prevented by the lever member 97.
 前記メカニカルキー18をオン位置まで回動すると、前記カムプレート96も回動するが、前記レバー部材97、前記従動駒99、前記スライド部材100は、オフ位置の状態と変化することはなく、第1規制部材57も回動することはない。 When the mechanical key 18 is rotated to the on position, the cam plate 96 also rotates, but the lever member 97, the driven piece 99, and the slide member 100 do not change from the off position, and the first 1 The regulating member 57 also does not rotate.
 前記メカニカルキー18をロック位置まで戻してメカニカルキー18を引き抜くと、前記カムプレート96のプッシュプレート98が前記透孔102を閉じる位置に戻るので、前記従動駒99を介して前記スライド部材100が第1規制部材57との係合を解除する位置まで戻り、また前記カムプレート96における前記鍔部96bの外周の凹部102が前記レバー部材97の一端部97aに対応する位置となるので、第1規制部材57は、前記レバー部材97をその一端部97aが前記凹部102に収容されるように回動駆動することができ、それによって前記シャッター板36が、第2のねじりばね63のばね力から第1のねじりばね62のばね力を減算したばね力で前記閉じ位置に自動的に回動することになり、このシャッター板36への閉じ位置への回動によって該シャッター板36の前記規制腕部36dの先端部の傾斜面54は、第2規制部材58の第2係合突部58bに当接して第2規制部材58を第1のコイルばね64の付勢力に抗して押し下げ、前記規制腕部36dの先端部の前記係止凹部53に第2規制部材58の第2係合突部58bが係合することになる。 When the mechanical key 18 is returned to the locked position and the mechanical key 18 is pulled out, the push plate 98 of the cam plate 96 returns to the position where the through hole 102 is closed, so that the slide member 100 is moved through the driven piece 99. 1 The position returns to the position where the engagement with the regulating member 57 is released, and the recess 102 on the outer periphery of the flange portion 96b in the cam plate 96 becomes the position corresponding to the one end portion 97a of the lever member 97, so that the first regulation is performed. The member 57 can rotate and drive the lever member 97 so that one end portion 97a thereof is accommodated in the recess 102, whereby the shutter plate 36 is seconded from the spring force of the second torsion spring 63. The spring force obtained by subtracting the spring force of the torsion spring 62 of 1 automatically rotates to the closed position, and the rotation to the closed position of the shutter plate 36 causes the regulated arm portion of the shutter plate 36 to rotate. The inclined surface 54 at the tip of the 36d abuts on the second engaging protrusion 58b of the second regulating member 58 and pushes down the second regulating member 58 against the urging force of the first coil spring 64. The second engaging protrusion 58b of the second regulating member 58 is engaged with the locking recess 53 at the tip of the arm portion 36d.
 すなわち閉じ位置側付勢力制御手段95は、前記シャッター板36の前記閉じ位置から前記開き位置への作動時には第1のねじりばね62の機能を停止し、前記シャッター板36が開き位置にある状態での前記メカニカルキー18のロック位置での前記メカニカルキー挿入孔37からの引き抜き操作に応じて第1のねじりばね62の付勢力を前記シャッター板36に作用させることになる。 That is, the closing position side urging force control means 95 stops the function of the first torsion spring 62 when the shutter plate 36 operates from the closed position to the opening position, and the shutter plate 36 is in the opening position. The urging force of the first torsion spring 62 is applied to the shutter plate 36 in response to the pulling operation from the mechanical key insertion hole 37 at the lock position of the mechanical key 18.
 前記メカニカルキー18をオフ位置でメカニカルキー挿入孔37から引き抜くこともあり、この場合、前記閉じ位置側付勢力制御手段95は第2のねじりばね63の付勢力を前記シャッター板36に作用させることはないので、オフ位置で前記シャッター板36が閉じ位置側に自動的に回動することはない。そこで前記操作軸50の前記ケーシング35からの突出部を回動操作することで、前記シャッター板36を閉じ位置に回動することは可能であるが、この際、第1規制部材57は、前記スライド部材100および前記レバー部材97で回動が阻止された状態にあるので、前記シャッター板36は第1規制部材57を置き去りにしたままで回動することになり、前記シャッター板36の閉じ位置は、その係止凹部53に前記第2規制部材58の第2係合突部58bが係合することで規制される。またシャッター板36を開く際には、前記スライドケース86に前記マグネット21を挿入して押し下げればよく、第2規制部材58が押し下げられることで前記係止凹部53から第2係合突部58bが離脱して第2規制部材58による前記シャッター板36の閉じ位置での規制が解除され、前記シャッター板36には第2のねじりばね63のばね力は作用していないので、前記シャッター板36は第1のねじりばね62のばね力で開き位置に自動的に回動することになる。 The mechanical key 18 may be pulled out from the mechanical key insertion hole 37 at an off position. In this case, the closing position side urging force control means 95 causes the urging force of the second torsion spring 63 to act on the shutter plate 36. Therefore, the shutter plate 36 does not automatically rotate to the closed position side in the off position. Therefore, it is possible to rotate the shutter plate 36 to the closed position by rotating the protruding portion of the operation shaft 50 from the casing 35, but at this time, the first regulating member 57 is said to have the same. Since the rotation is blocked by the slide member 100 and the lever member 97, the shutter plate 36 rotates with the first regulating member 57 left behind, and the shutter plate 36 is closed. Is regulated by engaging the second engaging protrusion 58b of the second regulating member 58 with the locking recess 53. Further, when opening the shutter plate 36, the magnet 21 may be inserted into the slide case 86 and pushed down, and the second regulating member 58 is pushed down so that the second engaging protrusion 58b is pushed down from the locking recess 53. Is released, the restriction at the closed position of the shutter plate 36 by the second restricting member 58 is released, and the spring force of the second torsion spring 63 does not act on the shutter plate 36. Will automatically rotate to the open position by the spring force of the first torsion spring 62.
 ところで、前記第1および第2のマグネットキー挿入孔67,87に差し込んで前記マグネット錠66のマグネットパターン(マグネットの配置および磁極配列)を読み取る読み取りカードが存在しており、この読み取りカードで前記マグネット錠66のマグネットパターンが読み取られると、マグネットキー19が複製され、不正にシャッター板36を開けられてしまう。そこで、マグネット錠66のマグネットパターンが読み取りカードで読み取られ、マグネットキー19が複製されるのを防止するために、前記ケーシング35に設けられている前記第1のマグネットキー挿入孔67に挿入された磁極読み取りカードの引き抜き時に当該磁極読み取りカードの読取り磁極をリストアさせるためのリストア用マグネット112が、前記第1のマグネットキー挿入孔67への前記マグネットキー19の挿入方向113で前記マグネット錠66よりも後方側で前記第1のマグネットキー挿入孔67に対応する位置に配置されて、前記ケーシング35に固定される。 By the way, there is a reading card that is inserted into the first and second magnet key insertion holes 67 and 87 to read the magnet pattern (arrangement of magnets and magnetic pole arrangement) of the magnet lock 66, and the reading card is used to read the magnet. When the magnet pattern of the lock 66 is read, the magnet key 19 is duplicated and the shutter plate 36 is illegally opened. Therefore, the magnet pattern of the magnet lock 66 is read by a reading card, and is inserted into the first magnet key insertion hole 67 provided in the casing 35 in order to prevent the magnet key 19 from being duplicated. The restoration magnet 112 for restoring the reading magnetic pole of the magnetic pole reading card when the magnetic pole reading card is pulled out is larger than the magnet lock 66 in the insertion direction 113 of the magnet key 19 into the first magnet key insertion hole 67. It is arranged at a position corresponding to the first magnet key insertion hole 67 on the rear side and fixed to the casing 35.
 図14に注目して、前記リストア用マグネット112は、この実施の形態では、前記第1のマグネットキー挿入孔67のうち前記矩形孔69に対応する位置で前記ケーシング35の前記内側カバー部材40に固定される。しかも少なくとも2個(この実施の形態では2個)の前記リストア用マグネット112が、前記マグネットキー19および前記マグネット錠66がそれぞれ有するマグネット21,83のうち一部のマグネット21,83の前記第2のマグネットキー挿入孔87内での配列に対応しつつ前記第1のマグネットキー挿入孔67での前記マグネットキー19の前記挿入方向113と直交する方向に並んで、前記第1のマグネットキー挿入孔67の一部を構成する前記矩形孔69に対応する位置に配置される。前記内側カバー部材40の前記カバー部材39に対向する面には、前記マグネットキー19の前記挿入方向113と直交する方向に並ぶ2つのリストア用マグネット収容凹部114が形成され、それらのリストア用マグネット収容凹部114に個別に収容される前記リストア用マグネット112を覆う第2のフィルム115が、前記内側ケース部材40に貼着されることで、前記リストア用マグネット112が前記内側ケース部材40に固定される。 Focusing on FIG. 14, in this embodiment, the restore magnet 112 is attached to the inner cover member 40 of the casing 35 at a position corresponding to the rectangular hole 69 of the first magnet key insertion hole 67. It is fixed. Moreover, at least two (two in this embodiment) of the restoration magnets 112 are the second magnets 21 and 83 of the magnets 21 and 83 of the magnet key 19 and the magnet lock 66, respectively. The first magnet key insertion hole is arranged in a direction orthogonal to the insertion direction 113 of the magnet key 19 in the first magnet key insertion hole 67 while corresponding to the arrangement in the magnet key insertion hole 87. It is arranged at a position corresponding to the rectangular hole 69 which constitutes a part of 67. On the surface of the inner cover member 40 facing the cover member 39, two restore magnet accommodating recesses 114 arranged in a direction orthogonal to the insertion direction 113 of the magnet key 19 are formed, and these restore magnet accommodating recesses 114 are formed. The second film 115 covering the restore magnet 112 individually housed in the recess 114 is attached to the inner case member 40, so that the restore magnet 112 is fixed to the inner case member 40. ..
 またこのシリンダ錠装置は、スクータ型自動二輪車における車体Bの後部に開閉可能に設けられる乗車用シート116(図1参照)のロック状態を前記ケーシング35に作動可能に支持される合成樹脂製の操作子117の操作に応じて解除し得るシートオープナー118を備えており、図4で示すように、前記ケーシング35には、前記メカニカルキー挿入孔37の中心軸線を含む1つの仮想平面IPの一側(この実施の形態では車幅方向右側)に、車幅方向にスライド操作可能な前記操作子117と、横断面形状を矩形状とした前記第1のマグネットキー挿入孔67とが配置される。 Further, this cylinder locking device is an operation made of synthetic resin in which the locked state of the passenger seat 116 (see FIG. 1) provided to be openable and closable at the rear part of the vehicle body B in the scooter type motorcycle is operably supported by the casing 35. A seat opener 118 that can be released in response to an operation of the child 117 is provided, and as shown in FIG. 4, the casing 35 is on one side of one virtual plane IP including the central axis of the mechanical key insertion hole 37. (In this embodiment, on the right side in the vehicle width direction), the operator 117 that can be slid in the vehicle width direction and the first magnet key insertion hole 67 having a rectangular cross-sectional shape are arranged.
 図6、図16および図17を併せて参照して、前記シートオープナー118は、前記操作子117のスライド操作に応じて前記乗車用シート116のロック状態を解除する構造に構成されるものであり、前記操作子117と、前記乗車用シート116のロック状態を解除する力を伝達するケーブル120を前記操作子117のスライド操作に応じて牽引するように作動して前記操作子117および前記ケーブル120間に設けられる伝動機構119とを備える。 With reference to FIGS. 6, 16 and 17, the seat opener 118 is configured to release the locked state of the passenger seat 116 in response to a slide operation of the operator 117. , The operator 117 and the cable 120 that transmits the force for releasing the locked state of the riding seat 116 are operated so as to be towed in response to the slide operation of the operator 117, and the operator 117 and the cable 120. It is provided with a transmission mechanism 119 provided between them.
 ところで前記第1のマグネットキー挿入孔67が、前記仮想平面IPに沿って前記第1のメカニカルキー挿入孔67の軸線に直交する方向に長い矩形状に形成されるのに対して、前記操作子117は、その第1のマグネットキー挿入孔67の長手方向で当該マグネットキー挿入孔67に隣接して配置されるものであり、前記ケーシング35における前記カバー部材39には、前記第1のマグネットキー挿入孔67に隣接するガイド孔121が、前記操作子117のスライド作動をガイドするために形成される。このガイド孔121は、前記第1のマグネットキー挿入孔67の長手方向と直交するとともに前記仮想平面IPと直交する方向すなわち車幅方向に長く形成されており、前記ガイド孔121から突出する摘み部117aを有する前記操作子117は、その摘み部117aが前記ガイド孔121内で移動する方向すなわち前記仮想平面IPと直交する方向にスライドすることが可能である。 By the way, the first magnet key insertion hole 67 is formed in a long rectangular shape along the virtual plane IP in a direction orthogonal to the axis of the first mechanical key insertion hole 67, whereas the operator. 117 is arranged adjacent to the magnet key insertion hole 67 in the longitudinal direction of the first magnet key insertion hole 67, and the cover member 39 in the casing 35 has the first magnet key. A guide hole 121 adjacent to the insertion hole 67 is formed to guide the slide operation of the operator 117. The guide hole 121 is formed long in the direction orthogonal to the longitudinal direction of the first magnet key insertion hole 67 and in the direction orthogonal to the virtual plane IP, that is, in the vehicle width direction, and is a knob portion protruding from the guide hole 121. The operator 117 having the 117a can slide in the direction in which the knob 117a moves in the guide hole 121, that is, in the direction orthogonal to the virtual plane IP.
 前記伝動機構119は、前記ケーシング35の前記ボディ38に回動自在に支持されるレバー124と、当該レバー124の回動に応じて回動することを可能として前記ボディ38に回動自在に支持される回動部材125とを備え、前記レバー124の一端部124aは、前記内側カバー部材40をスライド可能に貫通して前記操作子117にモールド結合され、前記回動部材125に前記ケーブル120が連結される。 The transmission mechanism 119 is rotatably supported by a lever 124 rotatably supported by the body 38 of the casing 35 and rotatably supported by the body 38 in response to the rotation of the lever 124. One end portion 124a of the lever 124 is slidably penetrated through the inner cover member 40 and molded and coupled to the operator 117, and the cable 120 is attached to the rotating member 125. Be concatenated.
 前記レバー124の長手方向中間部には第3の挿通孔126が設けられており、この第3の挿通孔126に挿通される第4のねじ部材127が前記ボディ38にねじ込まれ、この第4のねじ部材127を支軸として前記レバー124が前記ボディ38に回動自在に支持され、前記操作子117は前記レバー124および前記第4のねじ部材127を介して前記ケーシング35の前記ボディ38に支持される。 A third insertion hole 126 is provided in the intermediate portion in the longitudinal direction of the lever 124, and a fourth screw member 127 inserted into the third insertion hole 126 is screwed into the body 38, and the fourth insertion hole 126 is screwed into the body 38. The lever 124 is rotatably supported by the body 38 with the screw member 127 as a support shaft, and the operator 117 is attached to the body 38 of the casing 35 via the lever 124 and the fourth screw member 127. Be supported.
 前記回動部材125は、前記レバー124の他端部に設けられた押圧部124bに当接する受圧部125aを一端部に有するとともにケーブル連結部125bを他端部に有しており、当該回動部材125の中間部に設けられた第4の挿通孔128に挿通される第5のねじ部材129が前記ボディ38にねじ込まれ、この第5のねじ部材129を支軸として前記レバー124が前記ボディ38に回動自在に支持される。 The rotating member 125 has a pressure receiving portion 125a that abuts on the pressing portion 124b provided at the other end of the lever 124 at one end and a cable connecting portion 125b at the other end. A fifth screw member 129 inserted into a fourth insertion hole 128 provided in the intermediate portion of the member 125 is screwed into the body 38, and the lever 124 is the body with the fifth screw member 129 as a support shaft. It is rotatably supported by 38.
 前記回動部材125および前記ボディ38間には、前記第5のねじ部材129の軸線を中心とする第3のねじりばね130が設けられており、この第3のねじりばね130のばね力によって、前記回動部材125は、その一端部の前記受圧部125aを前記レバー124の前記押圧部124bに当接させる方向に回動付勢される。 A third torsion spring 130 centered on the axis of the fifth screw member 129 is provided between the rotating member 125 and the body 38, and the spring force of the third torsion spring 130 causes the third torsion spring 130 to be provided. The rotating member 125 is rotationally urged in a direction in which the pressure receiving portion 125a at one end thereof is brought into contact with the pressing portion 124b of the lever 124.
 前記ケーブル120は、プッシュプルケーブルであり、アウターケーブル131と、そのアウターケーブル131内に移動自在に挿通されるインナーケーブル132とを備え、アウターケーブル131のシリンダ錠装置側の端部はガイドチューブ133を介して前記ボディ38に固定され、前記インナーケーブル132のシリンダ錠装置側の端部に設けられる係合駒134が前記回動部材125の前記ケーブル連結部125bに係合、連結される。 The cable 120 is a push-pull cable, includes an outer cable 131 and an inner cable 132 movably inserted into the outer cable 131, and the end of the outer cable 131 on the cylinder lock device side is a guide tube 133. The engaging piece 134, which is fixed to the body 38 and provided at the end of the inner cable 132 on the cylinder lock device side, engages with and is connected to the cable connecting portion 125b of the rotating member 125.
 このケーブル120の前記シリンダ錠装置とは反対側の端部は、図1で示すように、シートロック装置135に連結されており、前記ケーブル120が牽引されることで、前記シートロック装置135が、前記乗車用シート116のロック状態を解除する。 As shown in FIG. 1, the end of the cable 120 opposite to the cylinder lock device is connected to the seat lock device 135, and the cable 120 is towed to cause the seat lock device 135. , The locked state of the passenger seat 116 is released.
 ところで前記シートオープナー118は、前記乗車用シート126がロック状態にあるときに前記ガイド孔121の前記メカニカルキー挿入孔37側の端部に前記摘み部117aが在る前記操作子117を、前記メカニカルキー挿入孔37から離反する側に前記操作子117をスライド操作することで、前記第3のねじりばね130のばね力に抗して前記レバー124および前記回動部材125が回動し、それにより前記ケーブル120を牽引して乗車用シート126のロック状態を解除するものであり、前記ケーシング35の前記カバー部材39には、前記メカニカルキー挿入孔37から離隔する側に前記操作子117をスライド操作する際に操作者の指をかける突起136が突設され、この突起136は、前記ガイド孔121の前記メカニカルキー挿入孔37とは反対側の端部に連なって前記カバー部材39に一体に形成される。 By the way, the seat opener 118 uses the operator 117 having the grip portion 117a at the end of the guide hole 121 on the mechanical key insertion hole 37 side when the riding seat 126 is in the locked state. By sliding the operator 117 to the side away from the key insertion hole 37, the lever 124 and the rotating member 125 rotate against the spring force of the third torsion spring 130, thereby rotating the lever 124 and the rotating member 125. The cable 120 is towed to release the locked state of the riding seat 126, and the operator 117 is slid on the cover member 39 of the casing 35 on the side separated from the mechanical key insertion hole 37. A protrusion 136 on which the operator's finger is placed is projected, and the protrusion 136 is integrally formed with the cover member 39 by being connected to the end of the guide hole 121 on the side opposite to the mechanical key insertion hole 37. Will be done.
 前記シートオープナー118の前記伝動機構119の少なくとも一部は、前記仮想平面IPに沿いつつ前記メカニカルキー挿入孔37の軸線に直交する方向から見て、図14で示すように、前記マグネット錠6666に重なる位置に配置されるものであり、この伝動機構119を側方から覆う側部カバー部材137が前記ボディ38に締結される。 At least a part of the transmission mechanism 119 of the seat opener 118 is attached to the magnet lock 6666 as shown in FIG. 14 when viewed from a direction orthogonal to the axis of the mechanical key insertion hole 37 along the virtual plane IP. A side cover member 137 that is arranged at an overlapping position and covers the transmission mechanism 119 from the side is fastened to the body 38.
 次にこの実施の形態の作用について説明すると、シリンダ錠装置が備えるマグネット錠66を解錠操作するためのマグネットキー19は、前記マグネット錠66における第1および第2のマグネットキー挿入孔67,87に挿入可能なキーケース20と、当該キーケース20に配設される複数のマグネット21とを備え、メカニカルキー18が前記キーケース20に取付けられるのであるが、前記キーケース20の内面に複数のマグネット収容凹部22が設けられ、それらのマグネット収容凹部22のうち選択されたマグネット収容凹部22に、前記マグネット21が個別に収容、固定されるので、キーケース20からの前記マグネット21の脱落を抑止することができるだけでなく、キーケース20の外面のデザインの自由度を増大することができる。 Next, the operation of this embodiment will be described. The magnet key 19 for unlocking the magnet lock 66 included in the cylinder lock device is the first and second magnet key insertion holes 67, 87 in the magnet lock 66. A key case 20 that can be inserted into the key case 20 and a plurality of magnets 21 arranged in the key case 20 are provided, and a mechanical key 18 is attached to the key case 20, but a plurality of magnets 21 are attached to the inner surface of the key case 20. Since the magnet accommodating recess 22 is provided and the magnet 21 is individually accommodated and fixed in the magnet accommodating recess 22 selected from the magnet accommodating recesses 22, the magnet 21 is prevented from falling off from the key case 20. Not only can this be done, but the degree of freedom in designing the outer surface of the key case 20 can be increased.
 また第1ケース半体23および第2ケース半体24が相互に接合されて前記キーケース20が構成され、前記第1ケース半体23の内面に、前記マグネット収容凹部22が設けられるとともに、それらのマグネット収容凹部22のうち前記マグネット21が収容された前記マグネット収容凹部22を少なくとも塞ぐ第1のフィルム25が貼着されるので、前記マグネット21がキーケース20の内面側に設けられるにもかかわらず、前記マグネット21の前記キーケース20への組付けが容易となり、組付け性を高めることができる。 Further, the first case half body 23 and the second case half body 24 are joined to each other to form the key case 20, and the magnet accommodating recess 22 is provided on the inner surface of the first case half body 23, and they are provided. Since the first film 25 that at least closes the magnet accommodating recess 22 in which the magnet 21 is accommodated is attached, the magnet 21 is provided on the inner surface side of the key case 20. Instead, the magnet 21 can be easily assembled to the key case 20, and the assembling property can be improved.
 また前記第1ケース半体23の内面に、前記メカニカルキー18を支持する支持部26が設けられるので、前記マグネット21および前記メカニカルキー18を第1ケース半体23の内面側に組付けるようにして組付け性をさらに高めることができる。 Further, since the support portion 26 for supporting the mechanical key 18 is provided on the inner surface of the first case half body 23, the magnet 21 and the mechanical key 18 are assembled on the inner surface side of the first case half body 23. It is possible to further improve the assembling property.
 また前記メカニカルキー18が、相互に接合された前記第1ケース半体23および前記第2ケース半体24間に収容された状態と、前記キーケース20の幅方向一側の側部から突出する状態とを切替え可能として、前記キーケース20に取付けられるので、前記メカニカルキー18を用いないときのマグネットキー19のコンパクト化が可能となる。 Further, the mechanical key 18 is housed between the first case half body 23 and the second case half body 24 joined to each other, and protrudes from one side of the key case 20 in the width direction. Since the state can be switched and attached to the key case 20, the magnet key 19 can be made compact when the mechanical key 18 is not used.
 また前記キーケース20の幅方向他側の側部に、キーホルダ用孔34が形成されるので、前記マグネットキー19が第1ケース半体23側に支持され、前記メカニカルキー18が前記キーケース20の幅方向一側から突出するのに対して、前記キーケース20の幅方向他側の側部にキーホルダ用孔34が形成されることにより、前記キーケース20に外力が作用する部位を分散させて、前記キーケース20の耐久性向上に寄与することができる。 Further, since the key holder hole 34 is formed on the side portion of the key case 20 on the other side in the width direction, the magnet key 19 is supported on the first case half body 23 side, and the mechanical key 18 is the key case 20. By forming a key holder hole 34 on the other side of the key case 20 in the width direction, the key case 20 is dispersed with a portion on which an external force acts. Therefore, it can contribute to the improvement of the durability of the key case 20.
 また前記第1のマグネットキー挿入孔67に挿入された磁極読み取りカードの引き抜き時に当該磁極読み取りカードの読取り磁極をリストアさせるためのリストア用マグネット112が、第1のマグネットキー挿入孔67へのマグネットキー19の挿入方向113で前記マグネット錠66よりも後方側で前記第1のマグネットキー挿入孔67に対応する位置に配置されつつケーシング35に固定されるので、前記第1のマグネットキー挿入孔67に差し込まれた読み取りカードで前記マグネット錠66のマグネットパターンが読み取られたとしても、その読み取りカードが前記第1のマグネットキー挿入孔67から引き抜かれるときには前記リストア用マグネット112でリストアされることになり、前記マグネットキー19の複製を不可能とすることができる。 Further, the restoration magnet 112 for restoring the reading magnetic pole of the magnetic pole reading card when the magnetic pole reading card inserted into the first magnet key insertion hole 67 is pulled out is a magnet key to the first magnet key insertion hole 67. Since it is fixed to the casing 35 while being arranged at a position corresponding to the first magnet key insertion hole 67 on the rear side of the magnet lock 66 in the insertion direction 113 of 19, the first magnet key insertion hole 67 is used. Even if the magnet pattern of the magnet lock 66 is read by the inserted reading card, when the reading card is pulled out from the first magnet key insertion hole 67, it will be restored by the restoration magnet 112. It is possible to make duplication of the magnet key 19 impossible.
 また前記マグネットキー19および前記マグネット錠66には、それぞれ3個以上の複数個のマグネット21,83が配設され、少なくとも2個の前記リストア用マグネット112が、前記マグネットキー19および前記マグネット錠66がそれぞれ有するマグネット21,83のうち一部のマグネット21,83の前記マグネットキー挿入孔67内での配列に対応しつつ前記マグネットキー挿入孔67での前記マグネットキー19の移動方向と直交する方向に並んで、前記マグネットキー挿入孔67に対応する位置に配置されるので、読み取り用カードのリストアを効率的に行うことができる。 Further, the magnet key 19 and the magnet lock 66 are each provided with three or more magnets 21, 83, and at least two of the restore magnets 112 are the magnet key 19 and the magnet lock 66. A direction orthogonal to the moving direction of the magnet key 19 in the magnet key insertion hole 67 while corresponding to the arrangement of some of the magnets 21 and 83 in the magnet key insertion hole 67. Since it is arranged at a position corresponding to the magnet key insertion hole 67 alongside the above, the reading card can be efficiently restored.
 またシリンダ錠装置は、前記メカニカルキー18を挿入するためのメカニカルキー挿入孔37ならびに前記マグネットキー19の挿入を可能とした第1および第2のマグネットキー挿入孔67,87を有するケーシング35と、前記メカニカルキー挿入孔37を閉じる閉じ位置ならびに前記メカニカルキー挿入孔37を開放する開き位置間で作動することを可能として前記ケーシング35に支持されるシャッター板36と、前記マグネットキー19の前記第1および第2のマグネットキー挿入孔67,87への挿入に応じて解錠されるとともにその解錠に応じて前記シャッター板36の前記開き位置への作動を可能としたマグネット錠66と、乗車用シート116のロック状態を前記ケーシング35に作動可能に支持される操作子117の操作に応じて解除し得るシートオープナー118とを備えるのであるが、前記シートオープナー118が、前記操作子117のスライド操作に応じて前記乗車用シート116のロック状態を解除する構造に構成され、前記メカニカルキー挿入孔37の中心軸線を含む1つの仮想平面IPの一側に、スライド操作可能な前記操作子117と、横断面形状を矩形状とした前記第1および第2のマグネットキー挿入孔67,87とが配置される。したがって前記シートオープナー118の操作子117を、シーソー式に比べて配置スペースが少なくてすむスライド式のものとすることになり、前記マグネット錠66の前記第1および第2のマグネットキー挿入孔67,87を、比較的大きなスペースが必要となる矩形状としても、前記メカニカルキー挿入孔37の中心軸線を含む1つの仮想平面IPの一側に、操作子117と、前記第1および第2のマグネットキー挿入孔67、87とを配置するスペースを確保し、ケーシング35ひいてはシリンダ錠装置のコンパクト化を図ることができる。 Further, the cylinder lock device includes a casing 35 having a mechanical key insertion hole 37 for inserting the mechanical key 18 and first and second magnet key insertion holes 67 and 87 capable of inserting the magnet key 19. A shutter plate 36 supported by the casing 35 so as to be able to operate between a closed position for closing the mechanical key insertion hole 37 and an open position for opening the mechanical key insertion hole 37, and the first magnet key 19. And the magnet lock 66 that is unlocked according to the insertion into the second magnet key insertion holes 67 and 87 and enables the shutter plate 36 to be operated to the opening position according to the unlocking, and a riding use. The seat opener 118 is provided with a seat opener 118 capable of releasing the locked state of the seat 116 in response to an operation of the operator 117 operably supported by the casing 35, and the seat opener 118 is provided with a slide operation of the operator 117. The operator 117, which is configured to release the locked state of the passenger seat 116 and can be slidably operated on one side of one virtual plane IP including the central axis of the mechanical key insertion hole 37, The first and second magnet key insertion holes 67 and 87 having a rectangular cross-sectional shape are arranged. Therefore, the operator 117 of the seat opener 118 is a slide type that requires less space for arrangement as compared with the seesaw type, and the first and second magnet key insertion holes 67 of the magnet lock 66, Even if the 87 has a rectangular shape that requires a relatively large space, the operator 117 and the first and second magnets are provided on one side of one virtual plane IP including the central axis of the mechanical key insertion hole 37. A space for arranging the key insertion holes 67 and 87 can be secured, and the casing 35 and thus the cylinder lock device can be made compact.
 また前記シートオープナー118は、前記操作子117と、前記乗車用シート116のロック状態を解除する力を伝達するケーブル120を前記操作子117のスライド操作に応じて牽引するように作動して前記操作子117および前記ケーブル120間に設けられる伝動機構119とを備え、前記マグネット錠66と、前記伝動機構119とが、前記仮想平面IPに沿いつつ前記メカニカルキー挿入孔37の軸線に直交する方向から見て前記伝動機構119の少なくとも一部が前記マグネット錠66に重なる位置に配置されるので、シリンダ錠装置をよりコンパクト化することができる。 Further, the seat opener 118 operates so as to pull the operator 117 and the cable 120 that transmits the force for releasing the locked state of the passenger seat 116 in response to the slide operation of the operator 117. A transmission mechanism 119 provided between the child 117 and the cable 120 is provided, and the magnet lock 66 and the transmission mechanism 119 are provided along the virtual plane IP and from a direction orthogonal to the axis of the mechanical key insertion hole 37. As seen, at least a part of the transmission mechanism 119 is arranged at a position overlapping the magnet lock 66, so that the cylinder lock device can be made more compact.
 また前記操作子117が、前記仮想平面IPと直交する方向でスライドすることを可能として前記ケーシング35に支持され、前記シートオープナー118が、前記メカニカルキー挿入孔37から離隔する側に前記操作子117をスライド操作するのに応じて前記乗車用シート116のロック状態を解除する構造に構成されるので、操作性の向上を図ることができる。 Further, the operator 117 is supported by the casing 35 so as to be able to slide in a direction orthogonal to the virtual plane IP, and the operator 117 is on the side where the seat opener 118 is separated from the mechanical key insertion hole 37. Since the structure is configured to release the locked state of the passenger seat 116 in response to the slide operation, the operability can be improved.
 また前記第1および第2のマグネットキー挿入孔67,87が、前記仮想平面IPに沿って前記メカニカルキー挿入孔37の軸線に直交する方向に長い矩形状に形成され、前記操作子117が、その第1および第2のマグネットキー挿入孔67,87の長手方向それらのマグネットキー挿入孔67,87に隣接して配置されるので、前記第1および第2のマグネットキー挿入孔67,87と、前記操作子117とを、前記仮想平面IPに沿う方向での配置スペースが大きくなるのを回避しつつ、デザイン性を高めてコンパクト化することができる。 Further, the first and second magnet key insertion holes 67 and 87 are formed in a long rectangular shape in a direction orthogonal to the axis of the mechanical key insertion hole 37 along the virtual plane IP, and the operator 117 is formed. Since the first and second magnet key insertion holes 67, 87 are arranged adjacent to the magnet key insertion holes 67, 87 in the longitudinal direction, the first and second magnet key insertion holes 67, 87 The operator 117 can be made more compact by improving the design while avoiding a large arrangement space in the direction along the virtual plane IP.
 さらに前記メカニカルキー挿入孔37から離隔する側に前記操作子117をスライド操作する際に操作者の指をかける突起136が、前記ケーシング35に突設されるので、前記ケーシング35に設けられる突起136に指をかけることで操作子117をスライド操作し易くなり、操作性を高めることができる。 Further, a protrusion 136 on which the operator's finger is placed when the operator 117 is slid to be separated from the mechanical key insertion hole 37 is projected onto the casing 35, so that the protrusion 136 provided on the casing 35 is provided. By putting a finger on the casing, the operation element 117 can be easily slid and the operability can be improved.
 本発明の他の実施の形態として、少なくとも2個のリストア用マグネット112が、マグネットキー19およびマグネット錠66がそれぞれ有するマグネット21,83の第1のマグネットキー挿入孔67内での配列に対応しつつ前記第1のマグネットキー挿入孔67での前記マグネットキー19の移動方向に並んで、前記第1のマグネットキー挿入孔67に対応する位置でケーシング35に固定されるようにしてもよく、そうすれば、読み取り用カードのリストアを確実に行うことができる。 In another embodiment of the invention, at least two restore magnets 112 correspond to the arrangement of the magnets 21 and 83 of the magnet key 19 and the magnet lock 66, respectively, within the first magnet key insertion hole 67. While arranging in the moving direction of the magnet key 19 in the first magnet key insertion hole 67, the magnet key 19 may be fixed to the casing 35 at a position corresponding to the first magnet key insertion hole 67. Then, the reading card can be reliably restored.
 以上、本発明の実施の形態について説明したが、本発明は上記実施の形態に限定されるものではなく、特許請求の範囲に記載された本発明を逸脱することなく種々の設計変更を行うことが可能である。 Although the embodiments of the present invention have been described above, the present invention is not limited to the above embodiments, and various design changes are made without departing from the present invention described in the claims. Is possible.

Claims (7)

  1.  シリンダ錠(15)にメカニカルキー(18)を挿入するためのメカニカルキー挿入孔(37)ならびにマグネットキー(19)の挿入を可能としたマグネットキー挿入孔(67)を有するケーシング(35)と、前記メカニカルキー挿入孔(37)を閉じる閉じ位置ならびに前記メカニカルキー挿入孔(37)を開放する開き位置間で作動することを可能として前記ケーシング(35)に支持されるシャッター板(36)と、マグネットキー(19)の前記マグネットキー挿入孔(67)への挿入に応じて解錠されるとともにその解錠に応じて前記シャッター板(36)の前記開き位置への作動を可能としたマグネット錠(66)とを備えるシリンダ錠装置において、
     前記マグネットキー挿入孔(67)に挿入された磁極読み取りカードの引き抜き時に当該磁極読み取りカードの読取り磁極をリストアさせるためのリストア用マグネット(112)が、前記マグネットキー挿入孔(67)への前記マグネットキー(19)の挿入方向(113)で前記マグネット錠(66)よりも後方側で前記マグネットキー挿入孔(67)に対応する位置に配置されつつ前記ケーシング(35)に固定されることを特徴とするシリンダ錠装置。     A casing (35) having a mechanical key insertion hole (37) for inserting the mechanical key (18) into the cylinder lock (15) and a magnet key insertion hole (67) for inserting the magnet key (19). A shutter plate (36) supported by the casing (35) capable of operating between a closed position for closing the mechanical key insertion hole (37) and an open position for opening the mechanical key insertion hole (37). A magnet lock that is unlocked in response to the insertion of the magnet key (19) into the magnet key insertion hole (67) and enables the shutter plate (36) to be operated to the opening position in response to the unlocking. In the cylinder lock device provided with (66),
    The restoration magnet (112) for restoring the reading magnetic pole of the magnetic pole reading card when the magnetic pole reading card inserted into the magnet key insertion hole (67) is pulled out is the magnet into the magnet key insertion hole (67). It is characterized in that it is fixed to the casing (35) while being arranged at a position corresponding to the magnet key insertion hole (67) behind the magnet lock (66) in the insertion direction (113) of the key (19). Cylinder lock device.
  2.  前記マグネットキー(19)および前記マグネット錠(66)には、それぞれ3個以上の複数個のマグネット(21,83)が配設され、少なくとも2個の前記リストア用マグネット(112)が、前記マグネットキー(19)および前記マグネット錠(66)がそれぞれ有するマグネット(21,83)のうち一部のマグネット(21,83)の前記マグネットキー挿入孔(67)内での配列に対応しつつ前記マグネットキー挿入孔(67)での前記マグネットキー(19)の移動方向と直交する方向に並んで、前記マグネットキー挿入孔(67)に対応する位置に配置されることを特徴とする請求項1に記載のシリンダ錠装置。 The magnet key (19) and the magnet lock (66) are each provided with three or more magnets (21, 83), and at least two of the restore magnets (112) are the magnets. The magnet (21, 83) of the magnets (21, 83) of the key (19) and the magnet lock (66), respectively, corresponding to the arrangement of some of the magnets (21, 83) in the magnet key insertion hole (67). The first aspect of claim 1, wherein the magnet key (19) is arranged at a position corresponding to the magnet key insertion hole (67) so as to be arranged in a direction orthogonal to the movement direction of the magnet key (19) in the key insertion hole (67). The described cylinder lock device.
  3.  請求項1または請求項2に記載のシリンダ錠装置に用いられる挿入式のマグネットキーであって、
     マグネット錠(66)のマグネットキー挿入孔(67,87)に挿入可能なキーケース(20)と、当該キーケース(20)に配設される複数のマグネット(21)とを備え、前記キーケース(20)の内面に複数のマグネット収容凹部(22)が設けられ、それらのマグネット収容凹部(22)のうち選択されたマグネット収容凹部(22)に、前記マグネット(21)が個別に収容、固定され、前記キーケース(20)にメカニカルキー(18)が取付けられることを特徴とするマグネットキー。     An insertable magnet key used in the cylinder lock device according to claim 1 or 2.
    The key case is provided with a key case (20) that can be inserted into the magnet key insertion holes (67, 87) of the magnet lock (66), and a plurality of magnets (21) arranged in the key case (20). A plurality of magnet accommodating recesses (22) are provided on the inner surface of (20), and the magnets (21) are individually accommodated and fixed in the magnet accommodating recesses (22) selected from the magnet accommodating recesses (22). A magnet key, characterized in that a mechanical key (18) is attached to the key case (20).
  4.  第1ケース半体(23)および第2ケース半体(24)が相互に接合されて前記キーケース(20)が構成され、前記第1ケース半体(23)の内面に、前記マグネット収容凹部(22)が設けられるとともに、それらのマグネット収容凹部(22)のうち前記マグネット(21)が収容された前記マグネット収容凹部(22)を少なくとも塞ぐフィルム(25)が貼着されることを特徴とする請求項3に記載のマグネットキー。 The first case half body (23) and the second case half body (24) are joined to each other to form the key case (20), and the magnet accommodating recess is formed on the inner surface of the first case half body (23). (22) is provided, and among those magnet accommodating recesses (22), a film (25) that at least closes the magnet accommodating recess (22) in which the magnet (21) is accommodated is attached. The magnet key according to claim 3.
  5.  前記第1ケース半体(23)の内面に、前記メカニカルキー(18)を支持する支持部(26)が設けられることを特徴とする請求項4に記載のマグネットキー。 The magnet key according to claim 4, wherein a support portion (26) for supporting the mechanical key (18) is provided on the inner surface of the first case half body (23).
  6.  前記メカニカルキー(18)が、相互に接合された前記第1ケース半体(23)および前記第2ケース半体(24)間に収容された状態と、前記キーケース(20)の幅方向一側の側部から突出する状態とを切替え可能として、前記キーケース(20)に取付けられることを特徴とする請求項4または5に記載のマグネットキー。 The state in which the mechanical key (18) is housed between the first case half body (23) and the second case half body (24) joined to each other and one in the width direction of the key case (20). The magnet key according to claim 4 or 5, wherein the magnet key can be mounted on the key case (20) so as to be switchable from a state of protruding from the side portion.
  7.  前記キーケース(20)の幅方向他側の側部に、キーホルダ用孔(34)が形成されることを特徴とする請求項6に記載のマグネットキー。 The magnet key according to claim 6, wherein a key holder hole (34) is formed on a side portion of the key case (20) on the other side in the width direction.
PCT/JP2021/027206 2020-07-28 2021-07-20 Cylinder lock device and insert-type magnet key WO2022024887A1 (en)

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JPH07102836A (en) * 1993-09-30 1995-04-18 Alpha Corp Card lock device
JP2015178701A (en) * 2014-03-18 2015-10-08 株式会社ホンダロック Protective device of cylinder lock
JP2016089526A (en) * 2014-11-07 2016-05-23 株式会社ホンダロック Opening actuation regulation device for opening/closing apparatus

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JP5189346B2 (en) 2007-11-28 2013-04-24 株式会社ホンダロック Magnetic lock
JP7102836B2 (en) 2018-03-26 2022-07-20 凸版印刷株式会社 Packaging container

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JPH07102836A (en) * 1993-09-30 1995-04-18 Alpha Corp Card lock device
JP2015178701A (en) * 2014-03-18 2015-10-08 株式会社ホンダロック Protective device of cylinder lock
JP2016089526A (en) * 2014-11-07 2016-05-23 株式会社ホンダロック Opening actuation regulation device for opening/closing apparatus

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