JPH0510669U - Cylinder lock - Google Patents

Abstract

(57) [Abstract] [Purpose] Protects the cylinder lock from being broken by freely rotating the key cylinder during unlocking. [Structure] When a regular key 11 is inserted into the key cylinder 13, a tumbler 14 and a sleeve 16 in the key cylinder 13 are inserted.
The engagement with the key cylinder 13 is released, and the key cylinder 13 can move in the longitudinal direction with respect to the case 17. Key cylinder 1
When 3 is moved inward, the actuating projection 13d connects the key cylinder 13 and the rotor 19 and the locking member 19d of the rotor 19 is moved inward, and the lever 19 is passed through the lever 19. 21 is rotatable to a locked position or an unlocked position. When a different type of key is inserted into the key cylinder 13, the key cylinder 13 is moved by the tumbler 14 into the sleeve 1.
6 is held in a locked state. Therefore, the key cylinder 13 cannot move in the length direction with respect to the case 17. The key cylinder 13 is lever-21 through the rotor 19.
Therefore, the lever 21 is prevented from rotating and unauthorized unlocking is prevented.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

  This invention relates to a locking device, especially a cylinder lock having a large resistance to breakage. To do.

[0002]

[Prior art]

  Conventional cylinder locks are keyed with a tumbler that engages a groove formed in the case. It is possible to rotate a regular key on the cylinder to the locked or unlocked position. . A conventional tumbler that engages with a groove in the case prevents rotation of the key cylinder. The cylinder lock has a risk of being unlocked improperly by breaking the tumbler. Therefore, For example, as disclosed in Japanese Unexamined Patent Publication No. 1-315569, a key cylinder rotates. A freewheel type series that allows the key cylinder to rotate freely when unlocked by applying force. Underground tablets have been proposed. This cylinder lock is a sleeve that is rotatably arranged in the case. It is provided with a sleeve and a key cylinder rotatably supported in the sleeve.

[0003]   If you insert a regular key into the key cylinder, the tumbler inside the key cylinder will slide. -Remove the groove from the groove and rotate the key cylinder relative to the sleeve. can do. This causes the sliding ring to engage the locking piece actuating member and lock. You can operate the device. Also, a different type of key is inserted in the key cylinder. The key cylinder is held by the tumbler in the state of being engaged with the sleeve. Therefore, the key cylinder rotates together with the sleeve. As a result, the lock piece operating member The lock device cannot be operated because it cannot be rotated.

[0004]   In such a free-turn type cylinder lock, when different keys are used, the key Linda rotates freely. Therefore, it is possible to apply a rotational force that destroys the tumbler. Since it cannot be done, it can give great resistance to destruction.

[0005]

[Problems to be solved by the device]   By the way, the locking device disclosed in Japanese Patent Laid-Open No. 1-315569 has different types. After the key is used, the key cylinder cannot rotate smoothly. That is, In order to automatically return the rotated key cylinder to the initial position in the locking device. A torsion spring is provided between the front plate and the key cylinder. Different keys are keyed When the sleeve and the key cylinder are freely rotated together as they are inserted into the The torsion spring generates a reaction force. However, if it rotates more than a certain angle, the torsion spring Therefore, the rotation of the key cylinder is restricted. Therefore, the torsion spring is damaged or destroyed. There is a risk of being However, if the torsion spring is not provided, a regular key will be used. When the key cylinder is rotated, the key cylinder will not automatically return to its initial position. Therefore, there is a disadvantage that smooth locking or unlocking operation becomes difficult.

[0006]   Further, in the locking device disclosed in the above publication, the sliding ring moves in the axial direction of the cylinder. Therefore, there is a problem that the locking device becomes large and the structure becomes complicated as a whole.   Therefore, the present invention eliminates the above-mentioned drawbacks, and the key cylinder is completely removed at the time of illegal unlocking. An object is to provide a cylinder lock that can freely rotate.

[0007]

[Means for Solving the Problems]

  A cylinder lock according to the present invention comprises a sleeve rotatably arranged in a case, A key rotatably arranged in the sleeve and engageable with the sleeve by a tumbler. A cylinder, a rotor rotatably arranged in the case, and a rotor connected to the rotor. A bar, a locking member movably arranged in a hole formed in the rotor in a radial direction, and And a spring that presses the locking member outward. The locking member uses the elasticity of the spring. It protrudes to the outside of the rotor and is engaged with the locking groove of the case, and the regular key is closed. When it is inserted into the key cylinder, the key cylinder is moved in the length direction to form the key cylinder. The actuated protrusion thus formed is locked to the rotor. As a result, the rotor can be The key cylinder, rotor and lever can be rotated by moving the locking member of the inside. . The key cylinder resists the elastic force of the spring urged when a regular key is inserted. Be moved. The pair of locking members are pressed by springs in opposite directions.   Also, according to another embodiment of the present invention, the cylinder lock has a plurality of annular tumbler grooves. A case having a receiving hole formed therein and a case which is rotatable and movable in the longitudinal direction. Key cylinder having a tumbler disposed in the accommodation hole of the container and engaging with and disengaging from the tumbler groove. With Da.

[0008]

[Action]

  If you insert a regular key into the key cylinder, the tumbler and case inside the key cylinder will Alternatively, the engagement with the tumbler groove provided in the sleeve is released. In this state, key When is pressed, the key cylinder can be moved inward against the elasticity of the spring. . When the key cylinder is pressed and moved inward, the work formed on the key cylinder is The locking member of the rotor is moved inward by the moving protrusion, and the locking groove of the locking member and the case Is disengaged. When the key is rotated in this state, the key cylinder and rotor The lever rotates to the locked position or the unlocked position via.   On the other hand, even if a different type of key is inserted into the key cylinder, the tumbler will not engage with the tumbler groove. Holds in a stopped state, moves the key cylinder and connects the key cylinder to the rotor. Is blocked. When the key is rotated in this state, the key cylinder alone or in the sleeve It can freely rotate together with the lock to prevent unauthorized unlocking and damage to the cylinder lock. It

[0009]

【Example】

  An embodiment of the cylinder lock according to the present invention will be described below with reference to FIGS.   First, as shown in FIG. 1 to FIG. 3, the cylinder lock 10 according to the present invention includes a case 1 7 and a sleeve rotatably arranged in a housing hole 17a formed in the case 17. 16 and a key cylinder 13 rotatably arranged in the sleeve 16. The sleeve 16 has both the accommodation hole 16a formed in the length direction and the accommodation hole 16a. The tumbler groove 23 (FIGS. 2 and 3) formed in contact with each other and formed in the longitudinal direction, and the dieker. And a die-cutting hole 24 for strike forming. The key cylinder 13 is formed in the length direction. And a plurality of slots 13b formed in the radial direction. Key The cylinder 13 is rotatably arranged in the accommodation hole 16a of the sleeve 16.

[0010]   The rotor 19 is arranged coaxially with the key cylinder 13 in the accommodation hole 17a of the case 17. Has been done. As shown in FIGS. 1 and 2, the rotor 19 has a hole 1 formed in the axial direction. 9a and a hole 19b formed in the radial direction, and a pair of locking members 19d are provided in the hole 19b. And a spring 19f that presses these locking members 19d outward. Locking member Numeral 19d is projected to the outside of the rotor 19 by the elastic force of the spring 19f and is a locking groove for the case 17. 17b is engaged. An inclined surface 19e is formed in the hole 19a of the locking member 19d.

[0011]   The inner end of the key cylinder 13 is engageable with the hole 19a of the rotor 19 and is tilted. A pair of actuating protrusions 13d (FIGS. 2 to 4) that can contact the sloped surface 19e are provided. Compound A number of tumblers 14 slidably in each slot 13b of the key cylinder 13 and Arranged so as to project from the key cylinder 13 into the tumbler groove 23 of the outer sleeve 16. To be done. The tumbler spring 15 shown in FIG. 1 includes a tumbler 14 and a key cylinder. 13 and biases the tumbler 14 to the outside of the key cylinder 13. A plan for the protrusion 13c of the key cylinder 13 to pass through the inside of the sleeve 16 during assembly. The inner groove 25 is formed. The protrusion 19c of the rotor 19 is located in the hole 21a of the lever-21. Will be placed. To prevent the lever-21 from falling off, the E-ring 22 is projected by a known means. It is attached to the starting portion 19c.

[0012]   At the front of the case 17, the key cylinder 13 and the sleeve 16 are prevented from falling off. Therefore, the cap 12 is attached. A rotor 19 is provided inside the case 17. The lever 21 which is operatively connected to the lock device is connected to the E-ring 22 on the rotor 19. Installed more. A spring 18 is provided between the key cylinder 13 and the rotor 19. Is arranged, and the key cylinder 13 is always urged to the outside. Formed on case 17 After the lever 21 is rotated in the concave portion 30, a bullet that automatically returns to the initial position is formed. A return spring 20 for applying force is arranged.

[0013]   As shown in FIG. 3, the recess 16b and the case 1 formed on the outer surface of the sleeve 16 are formed. A roller 27 is arranged in the hole 26 formed in the roller 7, and the roller 27 is attached to the plate 29. It is pressed radially inward by the spring 28 arranged inside. Roller 27 When a rotational force is applied to the sleeve 16, it gives an elastic moderation.

[0014]   In the above configuration, when the key 11 is not inserted into the key cylinder 13, the tank The bra 14 projects into the tumbler groove 23 of the sleeve 16. Also, the rotor 19 The locking member 19d of the above projects into the locking groove 17b.   Insert the regular key 11 into the key groove 13a of the key cylinder 13 as shown in FIG. Then, the engagement between each tumbler 14 and the tumbler groove 23 of the sleeve 16 is released, Each of the plurality of tumblers 14 moves to the retracted position where they do not project from the key cylinder 13. To do. The engagement between the tumbler 14 and the tumbler groove 23 is released, and the spring 18 The key cylinder 13 and the key cylinder 13 can be pressed inward in the axial direction against the force. It When the key cylinder 13 is pressed inward in the axial direction, the key cylinder 13 is mounted on the key cylinder 13. The projected protrusion 13c is guided along a guide groove 17c formed inside the case 17, As the key cylinder 13 moves inward, the operating protrusion 13d of the key cylinder 13 tilts. The key cylinder 13 and the rotor 19 are connected to each other by abutting against the surface 19e and sliding. At the same time as binding, the locking member 19d of the rotor 19 is moved inward. This , The engagement between the engagement member 19d and the engagement groove 17b is released, and the key cylinder 13 and the rotor are released. 19 and lever-21 can be rotated to a locked or unlocked position.

[0015]   When the key 11 is rotated, the lever 21 passes through the key cylinder 13 and the rotor 19. Is rotated. The protrusion 13c of the key cylinder 13 is rotated along the guide groove 17c, Lever-21 can be rotated to a locked or unlocked position. Key Release the key 13 after the Linda 13, rotor 19 and lever-21 are rotated. With the return spring 20, the lever-21, the rotor 19, and the key cylinder. 13 is automatically returned to the initial position.

[0016]   Inserting a different type of key into the key cylinder 13 causes the tumbler 14 to move into the sleeve 16. The tumbler 14 is engaged with the tumbler groove 23 without being separated from the tumbler groove 23. Retained. Therefore, since the key cylinder 13 cannot be moved in the length direction, the rotor cannot be moved. No connection with 19 is made. Also, the locking member 19d of the rotor 19 is on the case 17 side. Since it is engaged with the locking groove 17b of the lever 21, rotation of the lever 21 is prevented via the rotor 19. Be stopped.

[0017]   Therefore, the sleeve 16 does not resist the elasticity of the spring 28 even if a different type of key is rotated. As a result, the key cylinder 13 and the rotor 19 are not connected. In addition, Since the locking member 19d of the rotor 19 is engaged with the locking groove 17b, the rotor 19 is not attached. It is possible to prevent normal rotation and unauthorized unlocking.

[0018]   The embodiment of the present invention can be modified without being limited to the above embodiment. An example For example, in the above embodiment, the sleeve 16 is provided with the tumbler groove 23. , The sleeve 16 is omitted, and a plurality of annular tabs are formed on the inner wall of the housing hole 17a of the case 17. A tumbler groove is formed to allow the tumbler to rotate freely in the annular tumbler groove when locked. It may be configured to do so. Further, in the above example, the operating protrusion of the key cylinder 13 The engaging portion 19d engages the engaging member 19d of the rotor 19 with the engaging groove 17b of the case 17. However, the tip of the key 11 is brought into contact with the locking member 19d so that the locking groove 1 It may be separated from 7b.

[0019]

[Effect of device]

  As described above, the cylinder lock according to the present invention has a large resistance to breakage. Since you can obtain the cylinder lock you have, you can effectively prevent crimes such as unauthorized intrusion or theft. It becomes possible.

[Brief description of drawings]

FIG. 1 is an exploded perspective view of a cylinder lock according to the present invention.

FIG. 2 is a sectional view taken along the length direction.

3 is a sectional view taken along the line AA of FIG.

FIG. 4 is a sectional view showing a state in which a key is inserted in FIG.

5 is a sectional view taken along line BB of FIG.

[Explanation of symbols]

10. ． Cylinder lock, 11 ... key, 13. ． Key cylinder, 13c. ． Protrusions, 13d. ． Operating protrusion, 14. ．
Tumbler, 16. ． Sleeve, 17. ． Case, 17a
..Accommodation holes, 17b .... Locking grooves, 18. ． spring,
19. ． Rotor, 19b ... hole, 19f ... locking member, 2
1. ． Lever, 23 ... Tumbler groove,

Claims (6)

[Scope of utility model registration request] 1. A sleeve rotatably arranged in a case.
A sleeve, a key cylinder rotatably disposed in the sleeve and engageable with a tumbler groove of the sleeve by a tumbler, a rotor rotatably disposed in the case, and a rotor. A lever connected to the rotor, a locking member movably arranged in a hole formed in the rotor in a radial direction, and a spring for pressing the locking member to the outside. When the elastic force of the spring protrudes to the outside of the rotor and engages with the locking groove of the case, a regular key is inserted into the key cylinder, and the engagement between the tumbler and the tumbler groove is released, By moving the key cylinder in the length direction, the operating protrusion formed on the key cylinder is locked to the rotor, and the locking member of the rotor is moved inward by this operating protrusion. A cylinder lock characterized by being able to rotate a key cylinder, a rotor and a lever. 2. The cylinder lock according to claim 1, wherein the key cylinder is moved against the elastic force of a biased spring when a regular key is inserted. 3. The cylinder lock according to claim 1, wherein the pair of locking members are pressed by springs in opposite directions. 4. A case having an accommodating hole in which a plurality of annular tumbler grooves are formed, and a case rotatably and movably in the longitudinal direction disposed in the accommodating hole of the case and disengaged from the tumbler groove. Key cylinder having a tumbler, a rotor rotatably disposed in the case housing hole, a lever connected to the rotor, and a hole formed in the rotor in the radial direction. An engaging member movably arranged inside and a spring for pressing the engaging member to the outside are provided, and the engaging member protrudes to the outside of the rotor by the elastic force of the spring to form an engaging groove of the case. When the key cylinder is engaged, the regular key is inserted into the key cylinder, and when the engagement between the tumbler and the tumbler groove is released, the key cylinder is moved in the longitudinal direction to form the operation formed on the key cylinder. The projection is locked to the rotor, and the locking member of the rotor is moved inward by this operating projection. By, key - cylinder, Russia - motor and lever - cylinder lock, characterized in that can be rotated. 5. The cylinder lock according to claim 4, wherein the key cylinder is moved against the elastic force of the biased spring when the regular key is inserted. 6. The cylinder lock according to claim 4, wherein the pair of locking members are pressed by springs in opposite directions.