JP4235063B2 - Construction equipment - Google Patents

Description

In the present invention, for example, a construction master key (construction master key) is used for locking / unlocking the cylinder lock provided on the door during the construction work of a condominium or a detached house until the construction work is completed. After completion, rotate the cylinder plug 180 ° with the construction master key, and after removing the construction master key from the cylinder lock, only the owner key (also called resident key or child key) can be used. It is related with the construction apparatus of the cylinder lock comprised so that use of this would become impossible.

  As a general construction device, upper and lower tumblers 82 and 83 are respectively inserted into a plurality of columns of a cylinder body 80 and a cylinder plug 81, and a spherical shape is formed between some upper and lower tumblers 82 and 83 as shown in FIG. As shown in FIG. 30 (B) and FIG. 30 (C), which are wider than the construction master key 85, with a narrow construction master key (construction master key) 85 interposed therebetween. Some owner keys 86 can be used. The owner key 86 is wider than the width of the construction master key (construction master key) 85 by an amount corresponding to the diameter of the auxiliary tumbler 84, as shown in FIG. When the owner key 86 is inserted into the key hole 81 a, the auxiliary tumbler 84 moves while resisting the urging force of the spring 87 by the cylinder body 80. In this state, when the owner key 86 is rotated in the direction of arrow a and the hole 81b of the cylinder plug 81 is rotated to a position corresponding to the auxiliary tumbler 84, the auxiliary tumbler 84 falls into the hole 81b and is accommodated. The Then, when the owner key 86 is returned to the original state again, the auxiliary tumbler 84 is fitted in the hole 81b of the cylinder plug 81, so that the knitting of the cylinder is changed and the width of the auxiliary tumbler 84 is changed without replacing the cylinder lock 88. The narrow construction master key (construction master key) 85 cannot be used for locking and unlocking.

On the other hand, as shown in FIGS. 31 and 32, the plug hole 101 of the cylinder plug 100 is provided to change the code of the previously used key without changing the cylinder lock using the dimple key. A cord changing member (change pin) 106 formed with a diameter smaller than the diameter of the upper tumbler 105 is inserted between the lower tumbler 102 and the upper tumbler 105 provided in the cylinder hole 104 of the cylinder drum 103, and the cylinder lock 107 is fixed. A plurality of recesses (dimples) 109 (see FIG. 32) with which the lower tumbler 102 comes into contact with a key hole 108 formed in the cylinder plug 100 and a notch hole 111 into which a cord changing member (change pin) 106 is fitted are formed. A new key 110 is provided, and the new key 110 is inserted into the key hole 108 as shown in FIG. When the cylinder plug 100 is rotated in the direction of the arrow 31 (B), the cord is inserted into the cutout hole 111 of the key 110 in a state where the end surface of the upper tumbler 105 does not enter the inside of the shear line between the cylinder body 103 and the cylinder plug 100. When the change member (change pin) 106 is inserted and the cylinder plug 100 is rotated from this state in the direction of the arrow in FIG. 31C and the key 110 is pulled out of the cylinder plug 100 from this state, the cord change member together with the key 110 is inserted. Some (change pins) 106 are configured to be removed from the cylinder plug 100.
Japanese Patent Publication No. 7-45787

  However, there is a problem in crime prevention such that a new key 110 can be easily predicted from keys that have been used before, and many key differences cannot be obtained.

  The present invention has been made in consideration of the above-described matters, and an object of the present invention is to provide a cylinder lock construction device capable of improving crime prevention with a simple configuration.

  In order to achieve the above object, a cylinder lock construction device of the present invention has a cylinder body and a cylinder plug accommodated in the cylinder body so as to be rotatable around an axis, and the cylinder body and the cylinder plug are provided. Upper and lower tumblers are respectively fitted to a pair of left and right columns formed in the longitudinal direction, and the boundary between the lower tumbler and the upper tumbler or the end surface on the lower tumbler side of the upper tumbler is connected to the cylinder body and the cylinder plug. Cylinder lock configured to rotate the cylinder plug when it matches the shear line of the machine, a construction master key (hereinafter referred to as CMK) used for locking and unlocking the cylinder lock during the construction period, and construction After the cylinder plug is rotated 180 ° with CMK after completion, it is replaced with CMK. It has an owner key (hereinafter referred to as OWK) used for the operation of locking and unlocking the da lock, and is configured to rotate the CMK within a range of less than 180 ° during the construction period. Each column is composed of a plug hole provided in the cylinder plug and a cylinder hole provided in the cylinder cylinder, the plug hole is provided with a lower tumbler, the cylinder hole is provided with an upper tumbler, The CMK is provided with a key pile corresponding to the upper and lower tumblers of at least one column where the positions of the plug hole and the body hole are the same among all the columns. The upper and lower tumblers operate according to the keystone of the CMK, and the boundary between the upper and lower tumblers coincides with the shear line between the cylinder barrel and the cylinder plug. While the upper tumbler is positioned in the body hole in a state of disagreement, the end surface on the lower tumbler side of the upper tumbler matches the shear line, and the cylinder plug is rotated while the lower tumbler is positioned in the plug hole. OWK is provided with key ridges corresponding to the upper and lower tumblers of all the columns and the positions of the plug holes and the body holes of all the columns after the cylinder plugs are rotated 180 ° by CMK after the completion of construction. Thus, after the completion of the construction, the upper and lower tumblers in all the columns are operated according to the key pile of OWK, and the cylinder plug is rotated with the boundary of the upper and lower tumblers coinciding with the shear line.

  In the present invention, during the construction period, the CMK is rotated within a range of less than 180 ° of the cylinder plug, and during use of the CMK, at least the positions of the cylinder holes and the plug holes coincide with each other. A key pile corresponding to the upper and lower tumblers of the column is provided in the CMK so that it acts on the key difference in one column and does not act on the key difference in the remaining columns where the positions of the body hole and the plug hole do not match. After the completion of construction, after the cylinder plug is rotated 180 ° by CMK, the positions of the cylinder holes and plug holes of all the columns are made to coincide with each other. The keypads corresponding to the upper and lower tumblers of the remaining column after the cylinder plug is rotated 180 ° are provided, so it is easier to predict OWK from CMK than in the past. Can no longer, also, it is possible to improve the crime prevention because it can provide a lot of key differences.

  Embodiments of the present invention will be described below with reference to the drawings. The present invention is not limited thereby.

  1 to 25 show an embodiment of the present invention. The cylinder lock construction device includes a cylindrical cylinder body 2 shown in FIG. 8 and a bottomed cylindrical cylinder plug 6 (see FIG. 9) accommodated inside the cylinder body 2 so as to be rotatable around an axis. The cylinder lock 1 includes a construction master key 12 and an owner key 8. As shown in FIGS. 13 and 14, the cylinder lock 1 includes a pair of left and right columns 10, 10 ′, 11, and 11 ′ formed in the longitudinal direction of the cylinder body 2 and the cylinder plug 6, respectively. When the tumbler 21 is fitted and the boundary between the lower tumbler 21 and the upper tumbler 20 or the end surface M on the lower tumbler side of the upper tumbler 20 coincides with the shear line between the cylinder body 2 and the cylinder plug 6 The cylinder lock 1 is configured so that the cylinder plug 6 rotates. A construction master key (hereinafter referred to as CMK) 12 is used for the locking / unlocking operation of the cylinder lock 1 during the construction period, and the rotation operation angle range is less than 180 °. An owner key (hereinafter referred to as OWK) 8 is used for locking / unlocking the cylinder lock 1 instead of the CMK 12 after the cylinder plug 6 is rotated 180 ° by the CMK 12 after completion of the construction.

The cylinder body 2 has a longitudinal direction along the axis, and a plurality of body holes (for example, seven body holes) 4 and 5 are provided at left and right positions in the radial direction along the longitudinal direction. . A double arrow “a” indicates the left-right direction. The left and right body holes 4 and 4 facing each other, for example, in two rows on the right and left sides along the longitudinal direction on the key insertion side, are located on the same axis, while the remaining five rows on the left and right sides are arranged in a total of ten barrels. In the hole 5, the left and right body holes 5, 5 facing each other are not arranged coaxially. For example, as shown in FIG. 8 (A), the left and right cylinder pits 5, 5 opposite, and only the key insertion side from the axis X ₁ of the right cylinder pits 5 width Δ in the opposite direction (arrow e) The axis Y ₁ of the left body hole 5 is set at a shifted position.
The cylinder plug 6 has a longitudinal direction along the axis. A keyhole 7 is formed in the cylinder plug 6 by a notch formed along the longitudinal direction thereof. The cylinder plug 6 is provided with a plurality of plug holes (for example, seven plug holes) 4a and 5a at positions on the left and right in the radial direction along the longitudinal direction. And, for example, two rows of left and right plug holes 4a, 4a facing each other along the longitudinal direction on the key insertion side are located on the same axis, while the remaining five rows of left and right along the longitudinal direction are a total of ten plug holes. As for 5a, the left and right plug holes 5a, 5a are not arranged coaxially. That is, as shown in FIG. 9 (A), the opposite left and right plug hole 5a, in 5a, from the axis X ₂ of the right of the plug hole 5a and only the key insertion side width Δ in the opposite direction (arrow e) axis Y ₂ left in shifted position of the plug hole 5a is set.

  In this embodiment, seven body holes 4 and 5 and plug holes 4a and 5a are shown, but the number is not limited to seven. Moreover, although two body holes 4 and plug holes 4a located on the same axis are shown, the number is not limited to two. Further, the arrangement of the body hole 4 and the body hole 5 is not limited to the configuration shown in FIG. 8A, but can be arbitrarily set as appropriate, for example, the body hole 4 is positioned between the body holes 5 and 5. Further, the arrangement of the plug holes 4a and the plug holes 5a is not limited to the configuration shown in FIG. 9A, but can be arbitrarily set, for example, such that the plug holes 4a are positioned between the plug holes 5a and 5a.

FIG. 13A shows a state in which the cylinder plug 6 is accommodated in the cylinder body 2 with the open end 7 a of the keyhole 7 facing upward. The left column 10 and the right column 10 ′ are provided in two rows along the longitudinal direction. In the left column 10 and the right column 10 ′, the positions of the body hole 4 and the plug hole 4 a coincide with each other, and the upper tumbler 20 and the upper tumbler 20 are attached to the key hole 7 side in the body hole 4. A spring 22 is provided, and a lower tumbler 21 urged toward the keyhole 7 via the upper tumbler 20 is provided in the plug hole 4a. FIG. 10 shows a lower tumbler 21, an upper tumbler 20, and a spring 22 of three different types (lengths).
Further, the left column 11 and the right column 11 ′ are provided in five rows along the longitudinal direction. In the left column 11 and the right column 11 ′, the positions of the body hole 4 and the plug hole 4a do not coincide with each other, and the upper tumbler 20 is located in the body hole 4, and the lower tumbler side of the upper tumbler 20 The end face M of this corresponds to the shear line. The lower tumbler 21 is located in the plug hole 5a. That is, the upper tumbler 20 in the body hole 4 is urged toward the key hole 7 by the spring 22 provided in the body hole 4. The lower tumbler 21 in the plug hole 5a is urged toward the keyhole 7 via the upper tumbler 20 like the lower tumbler 21 of the columns 10 and 10 '. There is no play in the plug hole 5a.

The CMK 12 includes an upper tumbler 20 at the left and right columns 10 and 10 ′, in which the positions of the plug hole 4a and the body hole 4 are the same among all the 14 columns 10, 11, 10 ′ and 11 ′ on the left and right. Key piles 30, 31, and 30a (see FIG. 6B and FIG. 14A) corresponding to the lower tumbler 21 are provided on the right side and the left side. In this embodiment, as the CMK 12, the cylinder lock 1 is inserted into the key hole 7 with the open end 7a facing upward (see FIGS. 13B and 13C) in either the front or the back direction. A so-called reversible type key that can be operated is used. As shown in FIG. 6B, the CMK 12 has long grooves 32 formed in the longitudinal direction of the CMK 12 on the right side and the left side, and the open end 7a of the key hole 7 formed in the cylinder plug 6 faces upward. Plugged in the state.
For example, during a construction period such as a condominium or a detached house, when the CMK 12 is inserted into the keyhole 7 with the open end 7a facing upward, as shown in FIG. The upper and lower tumblers 20 and 21 of the columns 10 'and 10' in the (first row) operate according to the key piles 30 and 31 of the CMK 12, and for example, the upper and lower tumblers 20 and 21 of the column 10 in the left one (first row) are the CMK 12 The boundary between the upper and lower tumblers 20, 21 coincides with the shear line between the cylinder body 2 and the cylinder plug 6, and the positions of the plug holes 5a and the body holes 5 in the remaining five columns of the left and right columns The upper tumbler 20 is positioned in the body hole 5 while the upper tumbler 20 is not matched, and the lower tumbler side end face M of the upper tumbler 20 matches the shear line, and the lower tumbler 1 can rotate the cylinder plug 6 by CMK12 because it is a state located in the plug hole 5a. As shown in FIG. 13A, the lower tumbler 21 of the columns 11 and 11 ′ is in an idle state in the plug hole 5a, and the long groove 32 provided in the CMK 12 in a form of partitioning the left and right lower tumblers 21. Since the CMK 12 can be inserted via the CMK 12, the insertion operation of the CMK 12 is not impaired.

By the way, the CMK 12 is configured to rotate the cylinder plug 6 within a range of less than 180 ° during the construction period. That is, the cylinder bar 42 as shown in FIGS. 1 and 24 that moves together with the cylinder lock 1 is inserted into the dead hub 41 (see FIG. 24) of the lock body 99 to perform the locking / unlocking operation. In FIG. 24 (A)] and in the unlocking operation (see FIG. 24 (B)), it is configured to rotate within a range of less than 180 °, for example, only 90 ° to the left and right. ), The CMK 12 is returned to the original position by 90 ° and pulled out (see FIG. 24B). At this time, the dead hub 41 is kept unlocked. Accordingly, during the construction work, the CMK 12 rotates only 90 ° to the left and right, for example, and the cylinder plug does not rotate 180 °. In addition, in FIG. 1, 40 is a thumb turn and 52 is a thumb turn bar. The thumb turn bar 52 has a cross shape in cross section, and is engaged with the dead hub 41 without play. During the construction period, as described above, the open end 7a of the key hole 7 formed in the cylinder plug 6 faces upward (see FIG. 11D). After the construction work is completed, the thumb turn 40 and the cylinder lock 1 are temporarily removed from the door 45 (see FIGS. 1 and 2), and the cylinder plug 6 is rotated 180 ° by the CMK 12 to remove the removed cylinder lock 1 to lock the key hole 7. The open end 7a is directed downward (see FIG. 12D), and the CMK 12 is pulled out (see FIG. 15A). That is, when the cylinder plug 6 is rotated 180 ° from the state of FIG. 13 by the CMK 12, and the open end 7a of the keyhole 7 is directed downward and the CMK 12 is pulled out as shown in FIGS. 15 (B) and 15 (C). As shown in FIG. 15 (A), the positions of the plug holes 5a and the body holes 5 of the remaining left and right columns 11, 11 'also coincide with each other, so that all the lower tumblers 21 are within the plug holes 4a by the urging force of the springs 22. Move to. In this state, even if the CMK 12 is inserted into the key hole 7, the upper and lower tumblers 20 and 21 in the left and right columns 10, 10 'are in accordance with the key piles 30, 31, 30a of the CMK 12, as shown in FIG. In the remaining five columns 11 and 11 'on the left and right, only the lower tumblers 21 of the columns 11 and 11' are in contact with the long grooves 32 of the CMK 12, and the upper and lower tumblers 20 and 21 of the columns 11 and 11 'are merely operated. Or the end surface M on the lower tumbler side of the upper tumbler 20 of the columns 11 and 11 ′ does not coincide with the shear line, and the cylinder plug cannot be rotated by the CMK 12.
Then, the removed cylinder lock 1 is attached to the door 45 again. The OWK 8 is used for locking and unlocking the cylinder lock 1 instead of the CMK 12 after the cylinder plug 6 is rotated 180 ° by the CMK 12 after the construction work is completed.
In FIG. 24, FIG. 25, and FIG. 7, 47 is dead and 48 is a hook. 1 and 2, 49 is a knob, 50 is a thumb turn seat, 51 is a mounting post, and 52 is a thumb turn shaft. In FIG. 7, reference numeral 53 denotes an insertion hole for the mounting column 51. In FIG. 4, reference numeral 54 denotes a mounting screw for the thumb turn seat 50.

After the cylinder work 6 is rotated 180 ° by the CMK 12 after the construction work is completed, the positions of the plug holes 5a and the body holes 5 of the remaining left and right columns 11, 11 ′ are also coincident, In this state, the positions of the plug holes 4a and the body holes 4 of the columns 10, 10 ′ are matched. The OWK 8 includes key piles 30, 31, 33 corresponding to the upper and lower tumblers 20, 21 of all the columns 10, 10 ', 11, 11' in which the positions of the plug holes 4a, 5a and the body holes 4, 5 coincide. , 34, 35, 36, 30a, 37, 38, 39, 40 are provided. In this embodiment, a so-called reversible type key is used as the OWK 8 so that the cylinder lock 1 can be operated regardless of whether the key lock 7 is inserted in the front or back direction.
Therefore, after the construction work is completed, when the OWK 8 is inserted into the keyhole 7 with the open end 7a facing downward, as shown in FIG. 16, the upper and lower tumblers in all the columns 10, 10 ′, 11, 11 ′. 20 and 21 operate according to the key piles 30, 31, 33, 34, 35, 36, 30a, 37, 38, 39, and 40 of the OWK8, and the lower tumbler of the upper tumbler 20 or 21 or the upper tumbler 20 The cylinder plug 6 can be rotated with the side end face M coinciding with the shear line.

  Thus, during the construction work, the CMK 12 is rotated within a range of less than 180 ° of the cylinder plug, and after the construction work is completed, the cylinder plug 6 is rotated with the CMK 12 or OWK 8 to use the CMK 12. The columns 10 and 10 in which the positions of the body hole 4 and the plug hole 4a are not aligned with each other and the positions of the body hole 4 and the plug hole 4a are the same so that the columns 11 and 11 'are not aligned with each other. In order to act on the key difference, the key piles 30, 31, 30a corresponding to the upper and lower tumblers 20, 21 of the columns 10, 10 'are provided on the CMK 12, and the cylinder plug 6 is rotated 180 ° by the CMK 12 after the construction work is completed. After that, the positions of the body hole 4 and the plug hole 4a of the columns 11 and 11 ′ are matched with each other. 0, 31, 30a, and key piles 33, 34, 35, 36, 37, 38, 39, corresponding to the upper and lower tumblers 20, 21 of the columns 11, 11 ′ after the cylinder plug 6 is rotated 180 ° by the CMK 12. Therefore, the crime prevention performance can be remarkably improved by making it impossible to predict the OWK 8 from the CMK 12 more easily and taking a large number of key differences.

  Note that both the CMK 12 and the OWK 8 have sensing holes 65 in the keys 12, 8 and the cylinder body 2 and the cylinder plug 6 so that the cylinder plug 6 does not turn unless the keys 12, 8 are completely inserted into the key hole 7. , 62, 66 are provided, and a locking pin 69 is provided. When the keys 12 and 8 are inserted incompletely, as shown in FIG. 22, one end of the locking pin 69 does not fit into the sensing hole 65 provided in the keys 12 and 8, and the sensing hole The cylinder plug 6 does not rotate. When the keys 12 and 8 are completely inserted, as shown in FIG. 23, one end of the locking pin 69 is fitted into the sensing hole 65, and the other end of the locking pin 69 is inserted. It operates to pass through the sensing hole 62.

  In FIG. 13E, reference numeral 70 denotes a click hole provided in each of the cylinder body 2 and the cylinder plug 6 [see FIG. 19E], and reference numeral 71 denotes a click ball.

  In the above, what provided the cylinder hole in the right and left of the cylinder body 2 was shown. 26 to 29 show another embodiment of the present invention in which a cylinder hole is provided in the upper part in addition to the left and right sides of the cylinder cylinder 2. 26 to 29, the same reference numerals as those shown in FIGS. 1 to 25 are the same or equivalent.

  26 to 29, FIG. 26 and FIG. 27 show a state in which the CMK 12 is inserted into the keyhole 7 with the open end 7a facing upward during the construction period, respectively, and FIG. 14B corresponds to FIG. 14C, FIG. 27A corresponds to FIG. 14D, and FIG. 27B corresponds to FIG. 14 (F). FIG. 28 and FIG. 29 show a state in which the OWK 8 is inserted into the key hole 7 with the open end 7a facing downward after the cylinder plug 6 is rotated 180 ° by the CMK 12 after completion of the construction work. 28 (A) corresponds to FIG. 16, FIG. 28 (B) corresponds to FIG. 17, FIG. 29 (A) corresponds to FIG. 19 (A), and FIG. This corresponds to FIG.

  As shown in FIG. 27 (A), a plurality of body holes (for example, seven body holes) 45 are provided in the longitudinal direction in the upper portion of the cylinder body 2, and the cylinder plug 6 is connected to the plug holes 4a and 5a. In addition to the plug holes 4a and 5a, a plurality of plug holes (for example, seven plugs) are formed along the longitudinal direction at positions facing the notches that form the key holes 7 at positions with a circumferential angle of about 90 °. Holes) 45a are provided, and each barrel hole 45 is provided with a spring 22 'and an upper tumbler 20' biased by the spring 22 'toward the key hole 7, and each plug hole 45a has a lower hole. A tumbler 21 'is provided in a play state. An end face N on the key hole 7 side of the upper tumbler 20 ′ coincides with a shear line between the cylinder body 2 and the cylinder plug 6. FIG. 27A shows the positional relationship between the CMK 12, the upper tumbler 20 ′, and the lower tumbler 21 ′ when the CMK 12 is inserted into the keyhole 7 with the open end 7a facing upward during the construction period. . As described in detail in the above embodiment, as shown in FIG. 26A, the boundary between the lower tumbler 21 and the upper tumbler 20 or the end surface M on the lower tumbler side of the upper tumbler 20 is the cylinder body 2. And the end face N on the keyhole 7 side of the upper tumbler 20 'also matches the shear line, so that the cylinder plug 6 can be rotated by the CMK 12, The locking / unlocking operation of the cylinder lock 1 by the CMK 12 is performed. Then, after the construction work is completed, the cylinder plug 6 is rotated 180 ° by the CMK 12, and then the OWK 8 is inserted into the key hole 7 with the open end 7a facing downward as shown in FIG. 1 can be rotated. In this case, the plug hole 45a also rotates 180 ° as the cylinder plug 6 rotates 180 °. Then, the positions of the body hole 45 and the plug hole 45a coincide with each other, as shown in FIGS. 28 and 29. The boundary between the lower tumbler 21 and the upper tumbler 20 or the end surface M on the lower tumbler side of the upper tumbler 20 coincides with the shear line between the cylinder body 2 and the cylinder plug 6, and the OWK 8 Key ridges 90 corresponding to the tumblers 20 ′ and 21 ′ are provided, and the boundary between the lower tumbler 21 ′ and the upper tumbler 20 ′ coincides with the shear line between the cylinder body 2 and the cylinder plug 6. Locking / unlocking operation of the lock 1 by the OWK 8 is possible.

  Reference numeral 90 denotes a click hole provided in the cylinder body 2 (see FIGS. 26A and 28A), and a click ball 71 and a spring 91 that urges the ball 71 toward the key hole 7. Is provided. In addition, the Linda plug 6 has a fitting insertion hole 93 into which a fitting insertion member 92 having an engagement surface that engages with the ball 71 is inserted at a position corresponding to the click hole 90. The click ball 71, the spring 91, and the fitting member 92 constitute a click mechanism that can be stably held in a state where it can be inserted into and removed from the key hole 7 of the CMK 12 and the OWK 8 when the cylinder plug 6 is rotated. Is done.

  Even in this embodiment, crime prevention can be remarkably improved by making it impossible to predict the OWK 8 from the CMK 12 more easily and increasing the number of key differences.

It is composition explanatory drawing which looked at the cylinder used by one Embodiment of this invention from the upper surface side. It is structure explanatory drawing seen from the side surface side of the cylinder used by the said embodiment. (A) is a front view which shows the state at the time of CMK use during the construction period of the cylinder lock used in the said embodiment. (B) is a front view showing a state when the cylinder lock used in the above embodiment is rotated 180 ° by the CMK after the completion of the construction of the cylinder lock and the OWK is used. It is a front view which shows the thumb turn of the lock | rock used by the said embodiment. (A) And (B) is the front view and side view which respectively show OWK used by the said embodiment. (A) And (B) is the front view and side view which respectively show CMK used by the said embodiment. (A), (B) and (C) are respectively a plan view, a front view and a side view showing the lock body used in the above embodiment. (A), (B), (C) and (D) are respectively a cross-sectional view showing the cylinder body used in the above embodiment, a cross-sectional view taken along line BB in FIG. 8 (A), and used in the above embodiment. It is the longitudinal cross-sectional view which shows the cylinder cylinder which was, and AA sectional drawing in FIG.8 (C). (A), (B), (C), (D), (E), and (F) are cross-sectional views showing the cylinder plug used in the above embodiment, respectively, BB in FIG. 9 (A) Sectional view, front view showing cylinder plug used in the above embodiment, longitudinal sectional view showing cylinder plug used in the above embodiment, AA sectional view in FIG. 9 (D) and cylinder plug used in the above embodiment FIG. (A), (B), and (C) are housed in the column used in the above embodiment, and are used to explain the first type of lower tumbler and spring, and are used in the above embodiment. Configuration explanatory diagram showing the second type of the upper tumbler and spring accommodated in the column and configuration explanation showing the third type of the upper tumbler and spring accommodated in the column used in the above embodiment FIG. (A), (B), (C), and (D) are a rear view, a top view, a bottom view, and a front view, respectively, showing the state when the cylinder lock is used in the CMK used in the above embodiment. (A), (B), (C), and (D) are a rear view, a top view, a bottom view, and a front view, respectively, showing the state when the cylinder lock is used in the OWK. (A), (B), (C), (D), (E), and (F) are cross-sectional views each showing a state in which the CMK is removed from the keyhole in the cylinder lock used in the above embodiment. XX sectional view in 13 (A), YY sectional view in FIG. 13 (A), longitudinal sectional view showing the cylinder lock used in the above embodiment, AA sectional view and figure in FIG. 13 (D) It is CC sectional drawing in 13 (D). (A), (B), (C), (D), (E), and (F) are cross-sectional views showing a state in which the CMK is inserted into the keyhole in the cylinder lock used in the above embodiment, respectively. XX sectional view in 14 (A), YY sectional view in FIG. 14 (A), longitudinal sectional view showing the cylinder lock used in the above embodiment, AA sectional view and figure in FIG. 14 (D) It is CC sectional drawing in 14 (D). (A), (B), (C), (D), (E), and (F) are respectively the cylinder locks used in the above embodiment, in which the CMK is inserted into the keyhole and the cylinder plug is rotated 180 °. , A cross-sectional view showing a state in which the CMK is removed from the keyhole with the open end of the keyhole facing downward, a cross-sectional view taken along line XX in FIG. 15A, a cross-sectional view taken along line YY in FIG. It is the longitudinal cross-sectional view which shows the cylinder lock used by embodiment, AA sectional drawing in FIG.15 (D), and CC sectional drawing in FIG.15 (D). It is a cross-sectional view which shows the state which inserted OWK in the keyhole in the state of FIG. 15 of the cylinder lock used in the said embodiment. It is XX sectional drawing in FIG. It is YY sectional drawing in FIG. (A), (B) and (C) are respectively a cross-sectional view showing a state in which the OWK is inserted into the keyhole in the cylinder lock used in the above embodiment, and a cross-sectional view taken along line AA in FIG. It is CC sectional drawing in 19 (A). (A), (B), and (C) are cross-sectional views showing a state where the OWK is removed from the keyhole and the CMK is inserted into the keyhole in the cylinder lock used in the above embodiment, and X in FIG. It is -X sectional drawing and YY sectional drawing in FIG. 20 (A). (A), (B), and (C) are longitudinal sectional views showing a state where the OWK is removed from the keyhole and the CMK is inserted into the keyhole in the cylinder lock used in the above embodiment, and A in FIG. -A sectional drawing and CC sectional drawing in FIG. 20 (A). (A) And (B) is the longitudinal cross-sectional view which shows the rotational position control mechanism of the cylinder lock used in the said embodiment, respectively, and CC sectional drawing in FIG. 22 (A). (A), (B) and (C) are respectively a longitudinal sectional view showing a click mechanism and a rotational position control mechanism of the cylinder lock used in the above embodiment, a sectional view taken along line AA in FIG. It is CC sectional drawing in 23 (A). (A) And (B) is a structure explanatory drawing which shows a state when it locks using the rotation control mechanism at the time of use of CMK used in the said embodiment, and unlocks, respectively. (A) And (B) is a structure explanatory drawing which shows a state when locking and unlocking using the rotation control mechanism at the time of use of OWK used by the said embodiment, respectively. (A) And (B) is the cross-sectional view which shows the state which inserted CMK in the cylinder lock used in other embodiment of this invention, respectively, and YY sectional drawing in FIG. 26 (A). (A) And (B) is the longitudinal cross-sectional view which shows the state which inserted CMK in the cylinder lock used in said other embodiment, respectively, and YY sectional drawing in FIG. 27 (A). (A) and (B) are respectively a cross-sectional view showing a state in which OWK is inserted into a cylinder lock used in another embodiment of the present invention, and a Y-X cross-sectional view in FIG. 28 (A). (A) And (B) is the longitudinal cross-sectional view which shows the state which inserted OWK in the cylinder lock used in said other embodiment, respectively, and XX sectional drawing in FIG. 29 (A). (A), (B) and (C) are respectively a longitudinal sectional view showing a state in which CMK is inserted into a cylinder lock in the conventional example, a longitudinal sectional view showing a state in which OWK is inserted into the cylinder lock in the conventional example, and a conventional one It is a longitudinal cross-sectional view which shows the state which inserted CMK in the cylinder lock after extracting OWK in an example. (A), (B), and (C) each show another conventional example, a configuration explanatory diagram showing a state in which the key is inserted into the keyhole, and a configuration explanatory diagram showing a state in which the cylinder plug is rotated by the key FIG. 32 is a structural explanatory diagram showing a state in which the cylinder plug is further rotated from the state of FIG. It is composition explanatory drawing which shows the cylinder lock in said other prior art example.

Explanation of symbols

1 Cylinder lock 2 Cylinder cylinder 4, 5 Cylinder hole 4a, 5a Plug hole 6 Cylinder plug 7 Key hole 7a Open end 8 Owner key (OWK)
10, 10 'two columns 11, 11' remaining columns 12 Construction Master Key (CMK)
20 Upper tumbler 21 Lower tumbler 30, 31, 33, 34, 35, 36, 30a, 37, 38, 39, 40
Kagiyama M End face

Claims (1)

A cylinder barrel and a cylinder plug accommodated inside the cylinder barrel so as to be rotatable about an axis center. The upper and lower tumblers are respectively fitted to a pair of left and right opposing columns formed in the longitudinal direction of the cylinder barrel and the cylinder plug. The cylinder plug is configured to rotate when the boundary between the lower tumbler and the upper tumbler or the end surface on the lower tumbler side of the upper tumbler matches the shear line between the cylinder body and the cylinder plug. Cylinder lock, construction master key used for locking / unlocking the cylinder lock during construction, and cylinder plug instead of construction master key after the cylinder plug is turned 180 ° by construction master key after construction is completed Owner key used for locking / unlocking operation The construction master key is configured to rotate the cylinder plug within a range of less than 180 ° during the construction period, and each column has a plug hole provided in the cylinder plug and a cylinder hole provided in the cylinder cylinder. The plug hole is provided with a lower tumbler, the trunk hole is provided with an upper tumbler, and the construction master key includes a plug hole and a trunk hole. Key piles corresponding to the upper and lower tumblers of at least one column having the same position are provided, and during the construction period, the upper and lower tumblers of the at least one column are operated according to the key piles of the construction master keys to The boundary coincides with the shear line between the cylinder body and cylinder plug, and the plug hole and body hole of the remaining column While the upper tumbler is positioned in the body hole in a state of mismatch, the end surface on the lower tumbler side of the upper tumbler matches the shear line, and the cylinder plug is rotated while the lower tumbler is positioned in the plug hole. The owner key includes all the column plug holes and the column holes in a state where the positions of the plug holes and the body holes of the column are the same after the cylinder plug is rotated 180 ° by the construction master key after the construction is completed. The cylinder holes are aligned and key piles corresponding to the upper and lower tumblers of all the columns are provided, so that after the construction is completed, the upper and lower tumblers in all the columns operate according to the key piles of the owner keys. Make sure that the cylinder plug is rotated with the tumbler boundary aligned with the shear line. A cylinder lock construction device characterized by the above.

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