CN202866407U - Lock device - Google Patents

Abstract

The utility model provides a lock device which comprises a casing, a lock head assembly, a latch bolt assembly, a rotating poke assembly and a push plate. The push plate is arranged between the lock head assembly and the rotating pick assembly, when one end of the push plate is pushed by a pushing part of the lock head, the other end of the push plate pushes a rotation driving part to rotate, so as to allow a hook-shaped part to push a convex part of a latch bolt, so that an external latch bolt enters into the casing from the exterior of the casing. The lock device provided by the utility model enables a user to unlock the latch bolt through a key, so that the operation process is simplified.

Description

Lock device

Technical field

The utility model is about a kind of lock device, especially about a kind of lock device of simplified operation step.

Background technology

Press, general lock device is in order to have better thief-proof effect, be typically provided with multiple protection mechanisms, such as latch bolt, square tongue and/or pick-proof tongue, if the user wants by release outdoors and opens the door and in the access door, then must rotate again outer handle and open latch bolt and pick-proof tongue first with key operated side's tongue, therefore use comparatively loaded down with trivial details; If similarly the user wants by release in the door and opens the door and leave, also must open respectively latch bolt, square tongue and/or pick-proof tongue, except complex steps and spended time, constantly also may involve life security if run into emergency escape.Be with, how to take into account antitheft consideration and to meet under the standard of various countries' lock device, can also see through the structure design of lock device and the operating procedure that simplify lock device is an important problem.

The utility model content

The technical problem that the utility model mainly solves is, for the prior art above shortcomings, provides a kind of lock device of simplified operation step, and it can see through key operated latch bolt.

The technical scheme that its technical problem that solves the utility model adopts provides a kind of lock device, it comprises housing, tapered end group, latch bolt group, rotates plectrum group and push pedal, this tapered end group comprises keyhole and tapered end pushing part, wherein, this keyhole is used for a key and is inserted wherein, and rotation that should key and rotating take one first center of rotation as rotating shaft; This tapered end pushing part is arranged at the outer rim of this first center of rotation, and rotation that should keyhole and being rotated around this first center of rotation; This latch bolt group comprises the latch bolt body, and this latch bolt body has outer latch bolt and the latch bolt protuberance at the two ends that are formed at respectively this latch bolt body; This rotation plectrum group is in order to rotating take one second center of rotation as rotating shaft, and comprises and rotate pushing part and hook portion, and this rotation pushing part is arranged at the outer rim of this second center of rotation; This hook portion is arranged at the outer rim of this second center of rotation, and is positioned at the adjacent place of this latch bolt protuberance; This push pedal is arranged between this tapered end group and this rotation plectrum group, with when the one end is promoted by this tapered end pushing part, its other end promotes this rotation pushing part and this rotation plectrum group is rotated, and then make this hook portion promote this latch bolt protuberance, so that should outer latch bolt be entered outward in this housing by this housing.

Preferably, this housing comprises at least one fixing hole that runs through this housing, and the set position sign of arbitrary this fixing hole is unified German lock body standard; Wherein, any one the set position in this tapered end group, this latch bolt group, this rotation plectrum group and this push pedal with and in the start process neither meeting cover arbitrary this fixing hole.

Preferably, this housing comprises the first cover plate, the second cover plate and bluff piece, and this bluff piece is between this first cover plate and this second cover plate, and perpendicular to the first cover plate and the second cover plate; Wherein, this bluff piece has the bluff piece inclined tongue hole, use at least part of this latch bolt group to be active in wherein, and in this first cover plate and the second cover plate at least one has the tapered end fixed part, uses for this tapered end group to be arranged at wherein.

Preferably, this latch bolt group also comprises compression elastic piece, and has the elastic component catch in this housing; Wherein, the two ends of this compression elastic piece are resisted against respectively this latch bolt body and this elastic component catch.

Preferably, have cover plate riveting post in this housing, and this rotation plectrum group also comprises the plectrum return springs; Wherein, the two ends of this plectrum return springs are individually fixed in this cover plate riveting post and this hook portion.

Preferably, described lock device also comprises outer handle and Internal handle, and this outer handle has outer rotation section, and a end that should outer rotation section is fixed in this rotation plectrum group and is positioned on this second center of rotation; This Internal handle has interior rotation section, and should in an end of rotation section be fixed in this rotation plectrum group and be positioned on this second center of rotation.

Preferably, this outer handle and this Internal handle also have respectively outer handle section and interior handle section, and should outer rotation section and should be outer handle section mutually link L-shaped, and should in rotation section and be somebody's turn to do interior handle section and mutually linked L-shaped.

Preferably, described lock device comprises also stopping that this outer latch bolt enters pick-proof group in this housing outward by this housing.

Preferably, this pick-proof group comprises:

Cover plate rivet arranges and is fixed in this housing;

The pick-proof base plate;

The pick-proof tongue is connected in this pick-proof base plate;

Pick-proof riveting post is arranged on this pick-proof base plate;

The pick-proof sheet is articulated in this cover plate rivet, and an end of this pick-proof sheet has the pick-proof gear point of the adjacent place that is positioned at this outer latch bolt;

Pick-proof sheet return springs is sheathed on this cover plate rivet; And

Pick-proof tongue return springs is sheathed on this pick-proof riveting post, and its two ends support respectively this pick-proof tongue and this cover plate riveting post, so that this pick-proof riveting post is supported this pick-proof gear point, and then makes this pick-proof gear point leave a mobile route of this outer latch bolt;

Wherein, when this pick-proof tongue entered in this housing outside by this housing, this pick-proof riveting post stopped to support this pick-proof gear point, and the elastic force that this pick-proof sheet return springs produces moves on this mobile route of this outer latch bolt this pick-proof gear point.

Preferably, this rotation plectrum group also comprises cam part, and this cam part is arranged at the outer rim of this second center of rotation, and is contacted with an other end of this pick-proof sheet; Wherein, when this hook portion promoted this latch bolt protuberance, this cam part promoted this pick-proof sheet, so that this pick-proof gear point leaves this mobile route of this outer latch bolt.

Preferably, this pick-proof base plate has the pick-proof spacing hole, and this pick-proof spacing hole passes wherein for this cover plate riveting post.

Preferably, described lock device is the side's of comprising tongue group also, and the party's tongue group side's of comprising tongue shift fork and square tongue body; Wherein, the party's tongue shift fork promotes in order to be promoted by this tapered end pushing part or to be rotated the plectrum group by this, and at least part of the party's tongue body is entered outward in this housing by this housing, or is to make at least part of the party's tongue body by shifting out outside this housing in this housing.

Preferably, the tongue shift fork rotating shaft of the party's tongue shift fork side of comprising, square tongue shift fork projection and square tongue shift fork recess, the rotating shaft of the party's tongue shift fork is articulated in this housing, and in order to rotate take one the 3rd center of rotation as rotating shaft; The party's tongue shift fork projection is formed at an elongated end of the party's tongue shift fork; The party's tongue shift fork recess is formed at the outer rim of the party's tongue shift fork, and uses for this contact of tapered end pushing part and promotion; The party's tongue body side of comprising tongue, square tongue body recess and square tongue body slide rail, the party's ligulate is formed in an end of the party's tongue body; The party's tongue body recess is formed at an other end of the party's tongue body, and in order to the rotating shaft of accommodating the party's tongue shift fork; The party's tongue body slide rail is formed between the party's tongue and the party's tongue body recess, and in order to accommodating the party's tongue shift fork projection.

Preferably, the party's tongue body also comprises first party tongue body projection and the second party tongue body projection on a surface that protrudes from respectively the party's tongue body, and this push pedal comprises the first push pedal spacing hole and the second push pedal spacing hole; Wherein, this first push pedal spacing hole and this second push pedal spacing hole are in order to be arranged at wherein for this first party tongue body projection and this second party tongue body projection respectively.

Preferably, this rotation plectrum group also comprises:

The hook-type plectrum, the plectrum protuberance that has the plectrum hole that penetrates this hook-type plectrum and be formed at this periphery, plectrum hole, and this hook portion is formed at an elongated end of this hook-type plectrum;

The outer shift fork of latch bolt, outer shift fork recess and outer shift fork protuberance with the lateral margin that is formed at respectively the outer shift fork of this latch bolt, and the outer shift fork rotating shaft that forms and be raised in the external surface of the outer shift fork of latch bolt, and should outer shift fork rotating shaft pass this plectrum hole, so that this hook-type plectrum is articulated in the outer shift fork of this latch bolt;

Tumbler has the external surface that protrudes from this tumbler and the rotation protuberance of an inner surface, and this rotation pushing part and this cam part are formed at respectively the outer rim of this tumbler;

Gear piece has the gear piece hole that penetrates this gear piece, the gear piece tooth section that is formed at this gear piece outer rim and formation and protrudes from an external surface of this gear piece and the gear piece riveting post of an inner surface; And

Shift fork in the latch bolt, have the interior shift fork recess and the interior shift fork protuberance that are formed at respectively the lateral margin of shift fork in this latch bolt, and the interior shift fork rotating shaft that forms and be raised in the external surface of shift fork in the latch bolt, and should interior shift fork rotating shaft pass this gear piece hole, so that this gear piece is articulated in the outer shift fork of this latch bolt;

Wherein, sequentially superimposed assembling of shift fork in this hook-type plectrum, the outer shift fork of this latch bolt, this tumbler, this gear piece and this latch bolt, and protrude between the two ends of this gear piece riveting post shift fork recess outside this of this external surface of this gear piece, protrude between the two ends of this gear piece riveting post shift fork recess in this of this inner surface of this gear piece, and protrude from this tumbler this external surface this rotation protuberance this plectrum protuberance and should outside between the shift fork protuberance.

Preferably, the party's tongue shift fork side of comprising hyoid tooth section, and the party's hyoid tooth section is engaged in this gear piece tooth section.

Preferably, described lock device also comprises automatically controlled group, and this automatically controlled group comprises control element and at least one switch element, and this at least one switch element is arranged on the mobile route of the party's tongue body, and corresponding generation is exported an electric signal to this automatically controlled group with the mobile status of sensing the party tongue body.

Preferably, described lock device also comprises automatically controlled group, and this automatically controlled group comprises control element and at least one switch element, and this at least one switch element is arranged on the mobile route of this latch bolt body or on the mobile route of this tapered end pushing part, and corresponding generation output electric signal is to this automatically controlled group with the mobile status of the mobile status of this latch bolt body of sensing or this tapered end pushing part.

Preferably, described lock device also comprises automatically controlled group, and this automatically controlled group comprise control element and automatically controlled push jack, and this control element is controlled on the rotation path that this automatically controlled push jack moves to this rotation plectrum group, rotates to stop this rotation plectrum group.

The utility model also provides a kind of lock device, and it comprises housing, tapered end group, latch bolt group, rotates plectrum group and push pedal, and this housing comprises at least one fixing hole that runs through this housing, and the set position sign of arbitrary this fixing hole is unified German lock body standard; This tapered end group comprises the tapered end pushing part; This push pedal is arranged between this tapered end group and this rotation plectrum group, when one end of this push pedal is promoted by this tapered end pushing part, its other end promotes this rotation plectrum group and rotates, and is entered outward in this housing by this housing in order to do making this rotation plectrum group drive at least part of this latch bolt group; Wherein, any one the set position in this tapered end group, this latch bolt group, this rotation plectrum group and this push pedal with and in the start process neither meeting cover arbitrary this fixing hole.

Preferably, this tapered end group comprises keyhole and tapered end pushing part, this keyhole is used for a key and is inserted wherein, and rotation that should key and rotating take one first center of rotation as rotating shaft, this tapered end pushing part is arranged at the outer rim of this first center of rotation, and rotation that should keyhole and being rotated around this first center of rotation; This latch bolt group comprises the latch bolt body, and this latch bolt body has outer latch bolt and the latch bolt protuberance at the two ends that are formed at respectively this latch bolt body; This rotation plectrum group is in order to rotating take one second center of rotation as rotating shaft, and comprises and rotate pushing part and hook portion, and this rotation pushing part is arranged at the outer rim of this second center of rotation; This hook portion is arranged at the outer rim of this second center of rotation, and is positioned at the adjacent place of this latch bolt protuberance; Wherein, when an end of this push pedal is promoted by this tapered end pushing part, one other end of this push pedal promotes this rotation pushing part and this rotation plectrum group is rotated, and then makes this hook portion promote this latch bolt protuberance, in order to do this outer latch bolt is entered outward in this housing by this housing.

Preferably, described lock device also comprises outer handle and Internal handle, and this outer handle has outer rotation section, and a end that should outer rotation section is fixed in this rotation plectrum group and is positioned on this second center of rotation; This Internal handle has interior rotation section, and should in an end of rotation section be fixed in this rotation plectrum group and be positioned on this second center of rotation.

Preferably, described lock device comprises also stopping that this outer latch bolt enters pick-proof group in this housing outward by this housing.

Preferably, described lock device is the side's of comprising tongue group also, and the party's tongue group side's of comprising tongue shift fork and square tongue body; Wherein, the party's tongue shift fork promotes in order to be promoted by this tapered end pushing part or to be rotated the plectrum group by this, and at least part of the party's tongue body is entered outward in this housing by this housing, or is to make at least part of the party's tongue body by shifting out outside this housing in this housing.

Preferably, this rotation plectrum group also comprises:

The hook-type plectrum, the plectrum protuberance that has the plectrum hole that penetrates this hook-type plectrum and be formed at this periphery, plectrum hole, and this hook portion is formed at an elongated end of this hook-type plectrum;

The outer shift fork of latch bolt, outer shift fork recess and outer shift fork protuberance with the lateral margin that is formed at respectively the outer shift fork of this latch bolt, and the outer shift fork rotating shaft that forms and be raised in the external surface of the outer shift fork of latch bolt, and should outer shift fork rotating shaft pass this plectrum hole, so that this hook-type plectrum is articulated in the outer shift fork of this latch bolt;

Tumbler has the external surface that protrudes from this tumbler and the rotation protuberance of an inner surface, and this rotation pushing part and this cam part are formed at respectively the outer rim of this tumbler;

Gear piece has the gear piece hole that penetrates this gear piece, the gear piece tooth section that is formed at this gear piece outer rim and formation and protrudes from an external surface of this gear piece and the gear piece riveting post of an inner surface; And

Shift fork in the latch bolt, have the interior shift fork recess and the interior shift fork protuberance that are formed at respectively the lateral margin of shift fork in this latch bolt, and the interior shift fork rotating shaft that forms and be raised in the external surface of shift fork in the latch bolt, and should interior shift fork rotating shaft pass this gear piece hole, so that this gear piece is articulated in the outer shift fork of this latch bolt;

Wherein, sequentially superimposed assembling of shift fork in this hook-type plectrum, the outer shift fork of this latch bolt, this tumbler, this gear piece and this latch bolt, and protrude between the two ends of this gear piece riveting post shift fork recess outside this of this external surface of this gear piece, protrude between the two ends of this gear piece riveting post shift fork recess in this of this inner surface of this gear piece, and protrude from this tumbler this external surface this rotation protuberance this plectrum protuberance and should outside between the shift fork protuberance.

Preferably, described lock device also comprises automatically controlled group, and this automatically controlled group comprises control element and at least one switch element, and this at least one switch element is arranged on the mobile route of this latch bolt group or on the mobile route of this tapered end pushing part, and corresponding generation output electric signal is to this automatically controlled group with the mobile status of the mobile status of this latch bolt group of sensing or this tapered end pushing part; Or be this automatically controlled group and comprise control element and automatically controlled push jack, this control element moves in order to control this automatically controlled push jack on the rotation path of this rotation plectrum group, rotates to stop this rotation plectrum group.

The utility model also provides a kind of lock device, and it comprises housing, tapered end group, rotates plectrum group, latch bolt group and push pedal; This tapered end group comprises keyhole and tapered end pushing part, and this keyhole uses for a key and insert wherein and rotate, and then this tapered end pushing part is rotated synchronously; This push pedal is arranged between this tapered end group and this rotation plectrum group, wherein, has continuous action relation between this rotation plectrum group and this latch bolt group, be used to that this tapered end pushing part promotes an end of this push pedal and so that the other end of this push pedal when promoting this rotation plectrum group, at least part of this latch bolt group is synchronously by mobile in export-oriented this housing of this housing.

Preferably, this keyhole is used for this key and is inserted wherein, and rotation that should key and rotating take one first center of rotation as rotating shaft; Wherein, this tapered end pushing part is arranged at the outer rim of this first center of rotation, and rotation that should keyhole and being rotated around this first center of rotation.

Preferably, this latch bolt group comprises the latch bolt body, and this latch bolt body has outer latch bolt and the latch bolt protuberance at the two ends that are formed at respectively this latch bolt body, and this rotation plectrum group should be promoted by this push pedal and rotate take one second center of rotation as rotating shaft, and this rotation plectrum group comprises rotation pushing part and the hook portion of the outer rim that is arranged at this second center of rotation; Wherein, this hook portion is contacted with this latch bolt protuberance, forms this continuous action relation between plectrum group and this latch bolt group so that should rotate.

Preferably, described lock device also comprises outer handle and Internal handle, and this outer handle has outer rotation section, and a end that should outer rotation section is fixed in this rotation plectrum group and is positioned on this second center of rotation; This Internal handle has interior rotation section, and should in an end of rotation section be fixed in this rotation plectrum group and be positioned on this second center of rotation.

Preferably, described lock device comprises also stopping that this outer latch bolt enters pick-proof group in this housing outward by this housing.

Preferably, described lock device is the side's of comprising tongue group also, and the party's tongue group side's of comprising tongue shift fork and square tongue body; Wherein, the party's tongue shift fork promotes in order to be promoted by this tapered end pushing part or to be rotated the plectrum group by this, and at least part of the party's tongue body is entered outward in this housing by this housing, or is to make at least part of the party's tongue body by shifting out outside this housing in this housing.

Preferably, this rotation plectrum group also comprises:

The hook-type plectrum, the plectrum protuberance that has the plectrum hole that penetrates this hook-type plectrum and be formed at this periphery, plectrum hole, and this hook portion is formed at an elongated end of this hook-type plectrum;

The outer shift fork of latch bolt, outer shift fork recess and outer shift fork protuberance with the lateral margin that is formed at respectively the outer shift fork of this latch bolt, and the outer shift fork rotating shaft that forms and be raised in the external surface of the outer shift fork of latch bolt, and should outer shift fork rotating shaft pass this plectrum hole, so that this hook-type plectrum is articulated in the outer shift fork of this latch bolt;

Tumbler has the external surface that protrudes from this tumbler and the rotation protuberance of an inner surface, and this rotation pushing part and this cam part are formed at respectively the outer rim of this tumbler;

Gear piece has the gear piece hole that penetrates this gear piece, the gear piece tooth section that is formed at this gear piece outer rim and formation and protrudes from an external surface of this gear piece and the gear piece riveting post of an inner surface; And

Shift fork in the latch bolt, have the interior shift fork recess and the interior shift fork protuberance that are formed at respectively the lateral margin of shift fork in this latch bolt, and the interior shift fork rotating shaft that forms and be raised in the external surface of shift fork in the latch bolt, and should interior shift fork rotating shaft pass this gear piece hole, so that this gear piece is articulated in the outer shift fork of this latch bolt;

Wherein, sequentially superimposed assembling of shift fork in this hook-type plectrum, the outer shift fork of this latch bolt, this tumbler, this gear piece and this latch bolt, and protrude between the two ends of this gear piece riveting post shift fork recess outside this of this external surface of this gear piece, protrude between the two ends of this gear piece riveting post shift fork recess in this of this inner surface of this gear piece, and protrude from this tumbler this external surface this rotation protuberance this plectrum protuberance and should outside between the shift fork protuberance.

Preferably, described lock device also comprises automatically controlled group, and this automatically controlled group comprises control element and at least one switch element, and this at least one switch element is arranged on the mobile route of this latch bolt group or on the mobile route of this tapered end group, and corresponding generation output electric signal is to this automatically controlled group with the mobile status of the mobile status of this latch bolt group of sensing or this tapered end group; Or be this automatically controlled group and comprise control element and automatically controlled push jack, this control element moves in order to control this automatically controlled push jack on the rotation path of this rotation plectrum group, rotates to stop this rotation plectrum group.

The utility model lock device passes through its structure design, so that the user can see through key operated its latch bolt, thus the step of simplifying the operation.

Description of drawings

Fig. 1: be the part-structure schematic diagram of the utility model lock device in the first preferred embodiment.

Fig. 2: be the three-dimensional exploded view of lock device shown in Figure 1.

Fig. 3: be lock device shown in Figure 1 view in the latch bolt group is unlocked process.

Fig. 4: be lock device shown in Figure 1 view when the latch bolt group has been opening.

Fig. 5: be the part-structure schematic diagram of the utility model lock device in the second preferred embodiment.

Fig. 6: be lock device shown in Figure 5 structural representation in another visual angle.

Fig. 7: be the part-structure schematic diagram of the utility model lock device in the 3rd preferred embodiment.

Fig. 8: be the three-dimensional exploded view of the part-structure of lock device shown in Figure 7.

Fig. 9: the view when being in the pick-proof state for the pick-proof group of lock device shown in Figure 7.

Figure 10: be another part structural representation of lock device shown in Figure 7.

Figure 11: be lock device shown in Figure 10 view when the latch bolt group is opening and pick-proof group and is non-pick-proof state.

Figure 12: be the part-structure schematic diagram of the utility model lock device in the 4th preferred embodiment.

Figure 13: be the square tongue group of lock device shown in Figure 12 and the structural representation of tapered end group.

Figure 14: for the square tongue group of lock device shown in Figure 12 is in square tongue group when not yet being unlocked and the view of tapered end group.

Figure 15: be the part-structure schematic diagram of the utility model lock device in the 5th preferred embodiment.

Figure 16: for rotation plectrum group shown in Figure 15 in the three-dimensional exploded view at a visual angle.

Figure 17: for rotation plectrum group shown in Figure 15 in the three-dimensional exploded view at another visual angle.

Figure 18: for lock device shown in Figure 15 has been in view when being closed in square tongue group.

Figure 19: be lock device shown in Figure 180 view in square tongue group, latch bolt group and pick-proof group are unlocked process.

Figure 20: for lock device shown in Figure 180 all is in view when being unlocked in square tongue group, latch bolt group and pick-proof group.

Figure 21: be the part-structure schematic diagram of lock device shown in Figure 15.

Figure 22: for lock device shown in Figure 21 has been in view when being closed in square tongue group.

Figure 23: be lock device shown in Figure 22 view in square tongue group, latch bolt group and pick-proof group are unlocked process.

Figure 24: for lock device shown in Figure 22 all is in view when being unlocked in square tongue group, latch bolt group and pick-proof group.

Figure 25: be the part-structure schematic diagram of the utility model lock device in the 6th preferred embodiment.

Figure 26: be automatically controlled group three-dimensional exploded view of lock device shown in Figure 25.

Figure 27: be the three-dimensional exploded view of the utility model lock device in the 6th preferred embodiment.

The specific embodiment

See also Fig. 1 and Fig. 2, Fig. 1 be the utility model lock device in the part-structure schematic diagram of the first preferred embodiment, Fig. 2 is the three-dimensional exploded view of lock device shown in Figure 1; Wherein, lock device 1000 shown in Figure 1 is illustrated by the visual angle in door outdoors, and the latch bolt group 15 of lock device 1000 shown in Figure 1 is in the state that not yet is unlocked.

Lock device 1000 comprises housing 11, tapered end group 12, push pedal 13, rotates plectrum group 14 and latch bolt group 15; Wherein, push pedal 13 is arranged at tapered end group 12 and rotates between the plectrum group 14, housing 11 comprises the first cover plate 111, the second cover plate 112 and bluff piece 113, bluff piece 113 is between the first cover plate 111 and the second cover plate 112, and perpendicular to the first cover plate 111 and the second cover plate 112, and bluff piece 113 has a bluff piece inclined tongue hole 1131, uses at least part of latch bolt group 15 to be active in wherein.

What specify is, housing 11 also comprises four fixing hole 114a～114d that run through housing 11, and is provided with on upper at least one of the first cover plate 111 and the second cover plate 112 to use for tapered end group 12 and is arranged at wherein tapered end fixed part 115 and elastic component catch 116.

Again, tapered end group 12 comprises a keyhole 121 and a tapered end pushing part 122, keyhole 121 usefulness are inserted wherein for key, and answer the rotation of key and rotate take the first center of rotation Z1 as rotating shaft, and tapered end pushing part 122 is arranged at the outer rim of the first center of rotation Z1, and when keyhole 121 rotates, can drive synchronously tapered end pushing part 122 and be rotated around the first center of rotation Z1.

In addition, latch bolt group 15 comprises latch bolt body 151 and compression elastic piece 152, and latch bolt body 151 has outer latch bolt 1511 and the latch bolt protuberance 1512 at the two ends that are formed at respectively latch bolt body 151, and compression elastic piece 152 is arranged between latch bolt body 151 and the elastic component catch 116, so that the two ends of compression elastic piece 152 are resisted against respectively latch bolt body 151 and elastic component catch 116.

Again, rotate plectrum group 14 in order to rotate take one second center of rotation Z2 as rotating shaft, and comprise and rotate pushing part 1431 and hook portion 1411, rotation pushing part 1431 and hook portion 1411 all are arranged at the outer rim of the second center of rotation Z2, and hook portion 1411 also is positioned at the adjacent place of the latch bolt protuberance 1512 of latch bolt group 15; Wherein, rotate pushing part 1431 and hook portion 1411 in order to be rotated around the second center of rotation Z2 synchronously.

Next start process with key operated latch bolt group 15 is described, and please consult synchronously Fig. 1, Fig. 3 and Fig. 4, Fig. 3 is the view of lock device in the latch bolt group is unlocked process shown in Figure 1, and Fig. 4 is the view of lock device when the latch bolt group has been opening shown in Figure 1.

At first, when the user inserted keyhole 121 with key and rotates key towards direction D1, tapered end pushing part 122 can be rotated towards direction D1 around the first center of rotation Z1, until contact and support an end P1 of push pedal 13; And when the user continued to rotate key towards direction D1, tapered end pushing part 122 can promote push pedals 13 and move towards direction D3, until the other end P2 of push pedal 13 contact and support and rotate pushing part 1431.

Again, when the user continues towards direction D1 rotation key once again, rotating pushing part 1431 can be promoted by the other end P2 of push pedal 13 and be rotated towards direction D1 around the second center of rotation Z2, this moment, hook portion 1411 also was rotated towards direction D1 around the second center of rotation Z2 synchronously, and then make latch bolt protuberance 1512 be drawn toward direction D4 by hook portion 1411 moving until the outer latch bolt 1511 of latch bolt body 151 moves in the housing 11 fully, so namely finish the program with key operated latch bolt group 15.

In addition, because latch bolt body 151 is drawn toward direction D4 and is moved, so compression elastic piece 152 can produce the first elastic force, when the user stops application of force rotation key, the first elastic force can promote latch bolt body 151 and move and set back toward direction D5, and then makes latch bolt group 15 recover the state that is not unlocked.

Preferably, also have cover plate riveting post 1121 on the second cover plate 112, and rotation plectrum group 14 more comprises plectrum return springs 146; Wherein, the two ends of plectrum return springs 146 are individually fixed in cover plate riveting post 1121 and hook portion 1411, and when hook portion 1411 can produce the second elastic force around the second center of rotation Z2 when direction D1 is rotated, draw past direction D2 to be rotated hook portion 1411 when rotating key to stop the application of force in the user, so can remedy the deficiency of the first elastic force, make that latch bolt body 151 is easier to be moved and set back toward direction D5.

See also Fig. 5 and Fig. 6, Fig. 5 be the utility model lock device in the part-structure schematic diagram of the second preferred embodiment, Fig. 6 is that lock device shown in Figure 5 is in the structural representation at another visual angle; Wherein, the second preferred embodiment roughly is similar to person described in the first preferred embodiment, is namely no longer given unnecessary details at this.

The second preferred embodiment and aforementioned the first preferred embodiment difference are, lock device 1001 more comprises outer handle 16 and Internal handle 17, outer handle 16 has outer rotation section 161 and outer handle section 162, and outer rotation section 161 and outer handle section 162 link L-shaped mutually, and Internal handle 17 has interior rotation section 171 and interior handle section 172, and interior rotation section 171 and interior handle section 172 also link L-shaped mutually.

Wherein, outer rotation section 161 and interior rotation section 171 are fixing and perpendicular on the not coplanar that rotates plectrum group 14 respectively, and outer rotation section 161 and interior rotation section 171 all are positioned on the second center of rotation Z2, to make the user order about outer rotation section 161 or interior rotation section 171 in pressing down and rotate outer handle section 162 or interior handle section 172 when rotating, drive synchronously hook portion 1411 and be rotated around the second center of rotation Z2, and then make latch bolt protuberance 1512 be drawn toward the direction of elastic component catch 116 by hook portion 1411 moving until the outer latch bolt 1511 of latch bolt body 151 moves in the housing 11 fully.

As seen from the above description, the user also can see through the outer handle 16 of operation or Internal handle 17 and open latch bolt group 15, certainly, when the user stops the application of force and rotates outer handle section 162 or interior handle section 172, the first elastic force that compression elastic piece 152 produces can promote latch bolt body 151 and move and set back toward housings 11 outer directions, and then makes latch bolt group 15 recover the state that is not unlocked.

What specify is, above-mentioned only is a preferred embodiment, and lock device 1001 also can only comprise the one in outer handle 16 and the Internal handle 17, and namely also non-limiting outer handle 16 and Internal handle 17 will exist jointly.

See also Fig. 7 and Fig. 8, Fig. 7 be the utility model lock device in the part-structure schematic diagram of the 3rd preferred embodiment, Fig. 8 is the three-dimensional exploded view of the part-structure of lock device shown in Figure 7; Wherein, the 3rd preferred embodiment roughly is similar to person described in the first and second preferred embodiment, namely no longer given unnecessary details at this, and in order more to clearly demonstrate the 3rd preferred embodiment, subelement in the lock device 1002 shown in Figure 7 (as rotating plectrum group 14, outer handle 16, Internal handle 17 and plectrum return springs 146 etc.) is not drawn.State when in addition, Fig. 7 has also illustrated that the pick-proof group 18 of lock device 1002 is in non-pick-proof.

Wherein, the 3rd preferred embodiment and the aforementioned first and second preferred embodiment difference are, lock device 1002 more comprises pick-proof group 18, and pick-proof group 18 has pick-proof tongue 181, pick-proof base plate 182, pick-proof sheet 183, pick-proof riveting post 184, cover plate rivet 185, pick-proof tongue return springs 186 and pick-proof sheet return springs 187, and bluff piece 113 has more a bluff piece pick-proof hole 1132, uses at least part of pick-proof group 18 to be active in wherein.

Again, cover plate rivet 185 is arranged on the second cover plate 112, and pick-proof tongue 181 is arranged on the pick-proof base plate 182 with pick-proof riveting post 184, and pick-proof tongue return springs 186 is sheathed on pick-proof riveting post 184, and pick-proof tongue 181 and cover plate riveting post 1121 are supported respectively in the two ends of pick-proof tongue return springs 186.In addition, pick-proof sheet 183 is articulated in cover plate rivet 185, and an end of pick-proof sheet 183 has the pick-proof gear point 1831 of the adjacent place that is positioned at outer latch bolt 1511, and pick-proof sheet return springs 187 is sheathed on cover plate rivet 185.

Moreover, when the pick-proof group 18 of lock device 1002 is in non-pick-proof state, pick-proof tongue 181 is revealed in outside the housing 11, and pick-proof riveting post 184 is answered the 3rd elastic force of pick-proof tongue return springs 186 and is supported the pick-proof gear point 1831 of pick-proof sheet 183, so that pick-proof gear point 1831 leaves the active path of outer latch bolt 1511, therefore when the external force F that past direction D4 is arranged put on outer latch bolt 1511, outer latch bolt 1511 can move in the housing 11 excessively fully.

Please consult synchronously Fig. 7 and Fig. 9, Fig. 9 is the view of the pick-proof group of lock device shown in Figure 7 when being in the pick-proof state.In pick-proof tongue 181 toward housing in the process of 11 interior movements, pick-proof base plate 182 and on pick-proof riveting post 184 can move toward direction D4 synchronously, so that pick-proof riveting post 184 is no longer supported the pick-proof gear point 1831 of pick-proof sheet 183, at this moment, pick-proof gear point 1831 is answered the 4th elastic force of pick-proof sheet return springs 187 and is rotated towards direction D1 around cover plate rivet 185, in the active path that moves to outer latch bolt 1511, so pick-proof gear point 1831 namely can stop outer latch bolt 1511 to reach the effect of pick-proof toward housing 11 interior movements.Certainly, if pick-proof tongue 181 homing once again, then pick-proof group 18 is removed the pick-proof states, and it is namely no longer given unnecessary details at this as shown in Figure 7.

The preferably, pick-proof base plate 182 has more a pick-proof spacing hole 1821, and pick-proof spacing hole 1821 usefulness are passed wherein for cover plate riveting post 1121, so pick-proof base plate 182 only can move in the two ends of pick-proof spacing hole 1821 spacing holes.

See also Figure 10, it is another part structural representation of lock device shown in Figure 7, and Figure 10 has illustrated to rotate the structural relation of 18 of plectrum group 14 and pick-proof groups especially, and pick-proof group 18 is in the state of pick-proof; Wherein, rotate plectrum group 14 and have the cam part 1432 of the other end that is contacted with pick-proof sheet 183, cam part 1432 is in order to be rotated around the second center of rotation Z2 synchronously with rotation pushing part 1431 and hook portion 1411.

Please consult synchronously Fig. 5, Fig. 6, Figure 10 and Figure 11, the view that Figure 11 is lock device shown in Figure 10 when the latch bolt group is opening and pick-proof group and is non-pick-proof state.Key is inserted keyhole 121 and screw key or press down when user's wish and rotate outer handle 16/ Internal handle 17 and during unlatching latch bolt group 15, cam part 1432, rotation pushing part 1431 and hook portion 1411 can be rotated towards direction D1 around the second center of rotation Z2 synchronously, cam part 1432 meetings this moment are moved with the other end P9 of its profile guiding pick-proof sheet 183, be rotated towards direction D2 around cover plate rivet 185 with the other end P9 that makes pick-proof sheet 183 and pick-proof gear point 1831, and then make pick-proof gear point 1831 leave the active path of outer latch bolt 1511.Be with, user can in key or outside handle 16/ Internal handle 17 open the pick-proof state of removing synchronously pick-proof group 18 in the process of latch bolt groups 15.

See also Figure 12 and Figure 13, Figure 12 be the utility model lock device in the part-structure schematic diagram of the 4th preferred embodiment, Figure 13 is the square tongue group of lock device shown in Figure 12 and the structural representation of tapered end group 12; Wherein, the 4th preferred embodiment roughly is similar to person described in the first～the 3rd preferred embodiment, is namely no longer given unnecessary details at this, and in addition, Figure 12 and Figure 13 have illustrated the square tongue group 19 of lock device 1003 to be in the state that has been unlocked.

Wherein, the 4th preferred embodiment and aforementioned first, second or the 3rd preferred embodiment difference are, lock device 1003 is the side's of comprising tongue group 19 more, and at least one in the first cover plate 111 and the second cover plate 112 has more side's tongue shift fork hole 117, and bluff piece 113 has more a bluff piece square bolt hole 1133, uses at least part of side's tongue group 19 to be active in wherein.

Again, side's tongue group 19 side's of comprising tongue bodies 191 and square tongue shift fork 192, side's tongue shift fork 192 has formation and the external surface of the side's of being raised in tongue shift fork 192 and the square tongue shift fork rotating shaft 1921 of inner surface, the square tongue shift fork projection 1922 of the elongated end of the side's of being formed at tongue shift fork 192 and the square tongue shift fork recess 1923 of the side's of being formed at tongue shift fork 192 outer rims, and square tongue body 191 has the square tongue 1911 of an end of the side's of being formed at tongue body 191, the square tongue body recess 1912 of the other end of the side's of being formed at tongue body 191, and the square tongue body slide rail 1913 between the side's of being formed at tongue 1911 and the square tongue body recess 1912; Wherein, tongue shift fork hole, tongue shift fork rotating shaft 1921 side of being articulated in, side 117, around side's tongue shift fork projection 1922 and square tongue shift fork recess 1923 sides of the being positioned at tongue shift fork rotating shaft 1921, and carry out time rotational in square tongue shift fork rotating shaft 1921 take the 3rd center of rotation Z3 as rotating shaft, be rotated around square tongue shift fork rotating shaft 1921 synchronously.Again, square tongue body slide rail 1913 is in order to accommodating side's tongue shift fork projection 1922, and square tongue body recess 1912 is in order to accommodating side's tongue shift fork rotating shaft 1921.

Preferably, side's tongue body 191 has more first party tongue body projection 1914 and second party tongue body projection 1915, and push pedal 13 has more the first push pedal spacing hole 131 and the second push pedal spacing hole 132, the first push pedal spacing hole 131 and the second push pedal spacing hole 132 so can limit the moving range of push pedal 13 in order to be arranged at wherein for first party tongue body projection 1914 and second party tongue body projection 1915 respectively; In addition, when square tongue body 191 moved toward direction D4 or direction D5, first party tongue body projection 1914 and second party tongue body projection 1915 can drive synchronously push pedal 13 and move toward direction D4 or direction D5.

Next start process with key operated side's tongue group 19 is described, and please consults synchronously Figure 12, Figure 13 and Figure 14 that Figure 14 is that the square tongue group of lock device shown in Figure 12 is in square tongue group when not yet being unlocked and the view of tapered end group.

At first, when the user inserted keyhole 121 with key and rotates key towards direction D1, tapered end pushing part 122 can be rotated towards direction D1 around the first center of rotation Z1, until an end P3 of contact and the side's of supporting tongue shift fork recess 1923; And when the user continues towards direction D1 rotation key, tapered end pushing part 122 can the side's of promotioning tongue shift fork recesses 1923 an end P3 so that square tongue shift fork rotating shaft 1921 is carried out rotation take the 3rd center of rotation Z3 as rotating shaft towards direction D2, therefore square tongue shift fork projection 1922 is understood synchronously around square tongue shift fork rotating shaft 1921 and is rotated towards direction D2.

Again, in the time of square tongue shift fork projection 1922 rotation, side's tongue shift fork projection 1922 can promotion side's tongue body slide rails 1913 with the side's of guiding tongue group 19 and push pedal 13(for more clearly demonstrating Figure 14, do not indicate among Figure 14) move toward direction D4, so that square tongue 1911 by housing 11 outer entering fully in the housing 11, is so namely finished the program with the key side of closing tongue group 19.

Certainly, the user more can rotate key and open the pick-proof state of latch bolt group 15 and releasing pick-proof group 18 again and then towards direction D1 this moment, and person described in its detailed start process such as aforementioned the first～the 3rd preferred embodiment is namely no longer given unnecessary details at this.

On the contrary, when the user wants with the key side of closing tongue group 19, then key can be inserted keyhole 121 and rotate key towards direction D2, be rotated towards direction D2 around the first center of rotation Z1 to make tapered end pushing part 122, until the other end P4 of contact and the side's of supporting tongue shift fork recess 1923; Again, when the user continues towards direction D2 rotation key, tapered end pushing part 122 can the side's of promotioning tongue shift fork recesses 1923 other end P4 so that square tongue shift fork rotating shaft 1921 is carried out rotation take the 3rd center of rotation Z3 as rotating shaft towards direction D1, therefore square tongue shift fork projection 1922 is understood synchronously around square tongue shift fork rotating shaft 1921 and is rotated towards direction D1.

Again, in the time of square tongue shift fork projection 1922 rotation, side's tongue shift fork projection 1922 can promotion side's tongue body slide rails 1913 with the side's of guiding tongue group 19 and push pedal 13(for more clearly demonstrating Figure 14, so do not indicate among Figure 14) move toward direction D5, so that square tongue 1911 by shifting out in the housing 11 outside the housing 11, is so namely finished the program with key operated side's tongue group 19.

See also Figure 15～Figure 17, Figure 15 is that the utility model lock device is in the part-structure schematic diagram of the 5th preferred embodiment, Figure 16 be rotation plectrum group shown in Figure 15 in the three-dimensional exploded view at a visual angle, Figure 17 is that rotation plectrum group shown in Figure 15 is in the three-dimensional exploded view at another visual angle; Wherein, the 5th preferred embodiment roughly is similar to person described in the first～the 4th preferred embodiment, namely no longer given unnecessary details at this, and in order more to clearly demonstrate the 5th preferred embodiment, subelement in the lock device 1004 shown in Figure 15 (push pedal 13, such as outer handle 16, Internal handle 17 and plectrum return springs 146 etc.) is not drawn, and the subelement of rotating in the plectrum group indicates with different dotted lines respectively.In addition, Figure 15 has illustrated the square tongue group 19 of lock device 1004 to be in the state that has been unlocked.

Wherein, the 5th preferred embodiment and the aforementioned first, second, third or the 4th preferred embodiment difference are, the rotation plectrum group 14 ' of lock device 1004 sequentially more comprises shift fork 145 in shift fork 142 outside hook-type plectrum 141, the latch bolt, tumbler 143, gear piece 144 and the latch bolt by the direction in door outdoors, and square tongue shift fork 192 have more the side's of being formed at tongue shift fork 192 outer rims and the side's of being positioned at tongue shift fork rotating shaft 1921 around square hyoid tooth section 1924; Wherein, hook portion 1411 is formed at the extended spot of hook-type plectrum 141, rotates the outer rim that pushing part 1431 and cam part 1432 are formed at respectively tumbler 143.

Again, the hook-type plectrum 141 plectrum protuberance 1413 that has more the plectrum hole 1412 that penetrates hook-type plectrum 141 and be formed at 1412 peripheries, plectrum hole; The outer shift fork 142 of latch bolt has outer shift fork recess 1421 and outer shift fork protuberance 1422 and the formation of outer shift fork 142 lateral margins of the latch bolt of being formed at and is raised in the outer shift fork rotating shaft 1423 of outer shift fork 142 external surfaces of latch bolt; Tumbler 143 has more the external surface that protrudes from tumbler 143 and the rotation protuberance 1433 of inner surface; Gear piece 144 has the gear piece hole 1441 that penetrates gear piece 144, be formed at the gear piece tooth section 1442 of the peripheral and side's of the being engaged in hyoid tooth section 1924 of gear piece 144 and form and protrude from the external surface of gear piece 144 and the gear piece riveting post 1443 of inner surface; The interior shift fork 145 of latch bolt has interior shift fork recess 1451 and interior shift fork protuberance 1452 and the formation of shift fork 145 lateral margins in the latch bolt of being formed at and is raised in the interior shift fork rotating shaft 1453 of shift fork 145 external surfaces in the latch bolt.

Again, shift fork 145 sequentially is superimposed on together in hook-type plectrum 141, the outer shift fork 142 of latch bolt, tumbler 143, gear piece 144 and the latch bolt, and plectrum hole 1412 usefulness of hook-type plectrum 141 are placed in wherein for the outer shift fork rotating shaft 1423 of the outer shift fork 142 of latch bolt, so that hook-type plectrum 141 is articulated in the outer shift fork 142 of latch bolt, and gear piece hole 1441 usefulness of gear piece 144 are placed in wherein for the interior shift fork rotating shaft 1453 of shift fork in the latch bolt 145, so that gear piece 144 is articulated in shift fork 145 in the latch bolt.

Again, the gear piece riveting post 1443 that protrudes from the external surface of gear piece 144 is between the two ends of the outer shift fork recess 1421 of shift fork 142 outside the latch bolt, and the gear piece riveting post 1443 that protrudes from the inner surface of gear piece 144 is between the two ends of the interior shift fork recess 1451 of shift fork 145 in the latch bolt, and the plectrum protuberance 1413 that the rotation protuberance 1433 that protrudes from the external surface of tumbler 143 is active in hook-type plectrum 141 and latch bolt are outward between the outer shift fork protuberance 1422 of shift fork 142.

Again, please consult synchronously Fig. 5, Figure 15 and Figure 16, the outer shift fork rotating shaft 1423 of shift fork 142 is centered close to the second center of rotation Z2 upward and has an outer shaft hole 14231 outside the latch bolt, use the outer rotation section 161 for outer handle 16 to be embedded in wherein, therefore when rotate the outer rotation section 161 of outer handle 16, can drive synchronously the outer shift fork 142 of latch bolt and rotate.

Again, please consult synchronously Fig. 6, Figure 15 and Figure 17, the center of the interior shift fork rotating shaft 1453 of shift fork 145 also is positioned at the second center of rotation Z2 upward and has a shaft hole 14531 in the latch bolt, use the interior rotation section 171 for Internal handle 17 to be embedded in wherein, therefore when rotated the interior rotation section 171 of Internal handle 17, shift fork 145 rotated in the drive latch bolt synchronously.

Next the start process of handle 16 side's of closing tongue groups 19 beyond the explanation, and please consult synchronously Fig. 5, Figure 15, Figure 16 and Figure 18, to be lock device shown in Figure 15 be in view when being closed in square tongue group to Figure 18.When rotate towards direction D2 rotation section 161 outside driving synchronously when carrying outer handle section 162 on user's application of force, outer 142 of the shift forks of latch bolt rotate towards direction D2 synchronously, one end P5 of the outer shift fork recess 1421 of the outer shift fork 142 of latch bolt this moment can support and promote the gear piece riveting post 1443 of gear piece 144, so that gear piece 144 also rotates towards direction D2.

Again, because the square hyoid tooth section 1924 of gear piece tooth section 1442 side's of being engaged in tongue shift forks 192 of gear piece 144, so can being driven, square tongue shift fork 192 rotates toward direction D1, therefore even square tongue shift fork rotating shaft 1921 is carried out rotation with the 3rd center of rotation Z3 towards direction D1, square tongue shift fork projection 1922 can be synchronously be rotated towards direction D1 around square tongue shift fork rotating shaft 1921.

Again, in the time of square tongue shift fork projection 1922 rotation, side's tongue shift fork projection 1922 meeting promotion side tongue body slide rails 1913, and then the side's of guiding tongue group 19 and push pedal 13(are for more clearly demonstrating Figure 18, so do not indicate among Figure 18) move toward direction D5, so that square tongue 1911 by shifting out in the housing 11 outside the housing 11, is so namely finished the in addition program of handle 16 side's of closing tongue groups 19.

Next the start process of 16 while of handle opening square tongue group 19, latch bolt group 15 and pick-proof group 18 beyond illustrating again, and please consult synchronously Figure 18～Figure 20, Figure 19 is the view of lock device in square tongue group, latch bolt group and pick-proof group are unlocked process shown in Figure 180, and to be lock device shown in Figure 180 all be in view when being unlocked in square tongue group, latch bolt group and pick-proof group to Figure 20.

Process by Figure 18～Figure 19 has been illustrated, when the user presses down outer handle section 162 and when rotate towards direction D1 rotation section 161 outside driving synchronously, outer 142 of the shift forks of latch bolt rotate towards direction D1 synchronously, until the other end P6 of the outer shift fork recess 1421 of the outer shift fork 142 of latch bolt contacts and supports the gear piece riveting post 1443 of gear piece 144, and the rotation protuberance 1433 that the outer shift fork protuberance 1422 meeting promotions of the outer shift fork 142 of latch bolt protrude from the external surface of tumbler 143 rotates towards direction D1, until protrude from the plectrum protuberance 1413 that the rotation protuberance 1433 of the external surface of tumbler 143 contacted and supported hook-type plectrum 141.

Again, process by Figure 19～Figure 20 has been illustrated, when the user continues to press down outer handle section 162 and when driving synchronously that outer rotation section 161 is lasting rotates towards direction D1 again, outer 142 of the shift forks of latch bolt also rotate towards direction D1 synchronously, so that the other end P6 of the outer shift fork recess 1421 of the outer shift fork 142 of latch bolt promotes the gear piece riveting post 1443 of gear piece 144, and then make gear piece 144 also rotate towards direction D1; Simultaneously, the outer shift fork protuberance 1422 meeting promotions of the outer shift fork 142 of latch bolt protrude from the rotation protuberance 1433 of the external surface of tumbler 143, promote the plectrum protuberance 1413 of hook-type plectrum 141 so that protrude from the rotation protuberance 1433 of the external surface of tumbler 143, and then make hook-type plectrum 141 also rotate towards direction D1.

Again, because the square hyoid tooth section 1924 of the gear piece tooth section 1442 of gear piece 144 and square hyoid tooth section 1924 side's of being engaged in tongue shift forks 192, so can being driven, square tongue shift fork 192 gear pieces 144 rotate toward direction D2, even square tongue shift fork rotating shaft 1921 is carried out rotation take the 3rd center of rotation Z3 as rotating shaft towards direction D2, therefore square tongue shift fork projection 1922 can be synchronously be rotated towards direction D2 around square tongue shift fork rotating shaft 1921, and in the time of square tongue shift fork projection 1922 rotation, side's tongue shift fork projection 1922 meeting promotion side tongue body slide rails 1913, and then the side's of guiding tongue group 19 and push pedal 13(are for more clearly demonstrating Figure 18, do not indicate among Figure 18) move toward direction D4, so that square tongue 1911 by housing 11 outer entering fully in the housing 11, is so namely finished the in addition program of handle 16 opening square tongue groups 19.

Simultaneously, because hook-type plectrum 141 rotates towards direction D1, so latch bolt group 15 and pick-proof group 18 can be unlocked simultaneously, person described in its detailed start process such as aforementioned the 3rd preferred embodiment is namely no longer given unnecessary details at this.

Next start process with Internal handle 17 side's of closing tongue groups 19 is described, and please consult synchronously Fig. 6, Figure 17, Figure 21 and Figure 22, Figure 21 is the part-structure schematic diagram of lock device shown in Figure 15, and to be lock device shown in Figure 21 be in view when being closed in square tongue group to Figure 22.In order more to clearly demonstrate this start process, subelement in Figure 21 and the lock device shown in Figure 22 1004 (such as hook-type plectrum 141, the outer shift fork 142 of latch bolt etc.) is not drawn.

The process of Figure 21～Figure 22 has been illustrated, when rotate towards direction D2 rotation section 171 in driving synchronously when carrying interior handle section 172 on user's application of force, 145 of shift forks rotate towards direction D2 synchronously in the latch bolt, one end P7 of the interior shift fork recess 1451 of the interior shift fork 145 of latch bolt this moment can support and promote the gear piece riveting post 1443 of gear piece 144, so that gear piece 144 also rotates towards direction D2, so square tongue 1911 can (its detailed start process be same as the aforementioned in addition start process of handle 16 side's of closing tongue groups 19, is namely no longer given unnecessary details at this outside the housing 11 by shifting out in the housing 11.), so namely finish the program with Internal handle 17 side's of closing tongue groups 19.

Next start process with 17 while of Internal handle opening square tongue group 19, latch bolt group 15 and pick-proof group 18 is described again, and please consult synchronously Figure 22～Figure 24, Figure 23 is the view of lock device in square tongue group, latch bolt group and pick-proof group are unlocked process shown in Figure 22, and to be lock device shown in Figure 22 all be in view when being unlocked in square tongue group, latch bolt group and pick-proof group to Figure 24.

Process by Figure 22～Figure 23 has been illustrated, when the user presses down interior handle section 172 and when rotate towards direction D1 rotation section 171 in driving synchronously, 145 of shift forks rotate towards direction D1 synchronously in the latch bolt, until the other end P8 of the interior shift fork recess 1451 of the interior shift fork 145 of latch bolt contacts and supports the gear piece riveting post 1443 of gear piece 144, and the rotation protuberance 1433 that the interior shift fork protuberance 1452 meeting promotions of the interior shift fork 145 of latch bolt protrude from the inner surface of tumbler 143 rotates towards direction D1, until protrude from the plectrum protuberance 1413 that the rotation protuberance 1433 of the external surface of tumbler 143 contacted and supported hook-type plectrum 141.

Again, process by Figure 23～Figure 24 has been illustrated, when the user continues to press down interior handle section 172 and rotation section 171 is lasting in driving synchronously when rotating towards direction D1 again, 145 of shift forks also rotate towards direction D1 synchronously in the latch bolt, so that the other end P8 of the interior shift fork recess 1451 of shift fork 145 promotes the gear piece riveting post 1443 of gear piece 144 in the latch bolt, and then make gear piece 144 also rotate towards direction D1; Simultaneously, the interior shift fork protuberance 1452 meeting promotions of shift fork 145 protrude from the rotation protuberance 1433 of the inner surface of tumbler 143 in the latch bolt, so that protrude from the plectrum protuberance 1413 that the rotation protuberance 1433 of the external surface of tumbler 143 promotes hook-type plectrum 141, and then make hook-type plectrum 141 also rotate towards direction D1, so, side's tongue 1911 can be by housing 11 outer entering in the housing 11 fully, and latch bolt group 15 and pick-proof group 18 can be unlocked simultaneously, its detailed start process is same as simultaneously opening square tongue group 19 of aforementioned in addition handle 16, the start process of latch bolt group 15 and pick-proof group 18 is namely no longer given unnecessary details at this.

See also Figure 25～Figure 26, Figure 25 is that the utility model lock device is in the structural representation of the 6th preferred embodiment, Figure 26 is automatically controlled group 10 three-dimensional exploded view of lock device shown in Figure 25, and Figure 27 is that the utility model lock device is in the three-dimensional exploded view of the 6th preferred embodiment.

The 6th preferred embodiment roughly is similar to person described in the first～the 5th preferred embodiment, is namely no longer given unnecessary details at this.In addition, Figure 25 has illustrated latch bolt group 15, pick-proof group 18 and the square tongue group 19 of lock device 1005 all to be in the state of closing, and automatically controlled group 10 automatically controlled push jack 105 of lock device 1005 is in the state that is pushed downwards out.

Wherein, the 6th preferred embodiment and the aforementioned first, second, third, fourth or the 5th preferred embodiment difference are, lock device 1005 more comprises one automatically controlled group 10, comprise control element 101, the first switch element 102, second switch element 103, the 3rd switch element 104 and automatically controlled push jack 105 for automatically controlled group 10, and the first switch element 102, second switch element 103 and the 3rd switch element 104 are electrically connected at respectively control element 101.

Again, the first switch element 102, second switch element 103 and the 3rd switch element 104 are arranged at respectively the latch bolt body 151 of latch bolt group 15, on the mobile route of the square tongue body 191 of side's tongue group 19 and the tapered end pushing part 122 of tapered end group 12, therefore when latch bolt group 15 is converted to opening by closed condition, latch bolt body 151 can press the first switch element 102 and produce output the first electric signal to control element 101, when square tongue group 19 is converted to opening by closed condition, side's tongue body 191 can press second switch element 103 and produce output the second electric signal to control element 101, and in the process with key operated latch bolt group 15, tapered end pushing part 122 can press the 3rd switch element 104 and produce output the 3rd electric signal to control element 101,101 foundation the first electric signals of control element, the second electric signal and/or the 3rd electric signal and corresponding execution one control behavior.

In addition, when automatically controlled group 10 automatically controlled push jack 105 is in the state that is pushed downwards out, automatically controlled push jack 105 is positioned on the mobile route of the outer shift fork protuberance of shift fork 142 outside the latch bolt, so the time user can't be by outer handle 16 opening square tongue groups 19, because the outer shift fork 142 of latch bolt can't be rotated by 105 groups of shelves of automatically controlled push jack; And when automatically controlled push jack 105 is answered the driving of control element 101 and is moved up a specific range, 105 of automatically controlled push jacks leave the mobile route of the outer shift fork protuberance 1422 of the outer shift fork 142 of latch bolt, by automatically controlled push jack 105 group shelves can not rotated because of the outer shift fork 142 of latch bolt this moment, so the user can be by outer handle 16 opening square tongue groups 19.The preferably, when sensing a certain electric magnetic card for automatically controlled group 10, control element 101 drives automatically controlled push jack 105 this specific range that moves up.

What specify is that in above-mentioned the first～the 6th preferred embodiment, the arbitrary fixing hole 114 set positions in the lock device can meet a German lock body standard, such as standards such as DIN 18250 series or DIN 18251 series; And the set position of each element and cover four fixing hole 114a～114b on the housing 11 in the neither meeting in the start process of each element in the lock device; In addition, more than only be embodiment, namely the quantity of fixing hole is not limited to four, but no matter how much quantity of fixing hole is, the set position of arbitrary fixing hole all can meet German lock body standard.Certainly, the utility model is not limited in the lock device that meets German lock body standard.

The above only is preferred embodiment of the present utility model, be not to limit claim scope of the present utility model, therefore all other do not break away from the equivalence of finishing under the spirit that the utility model discloses and changes or modify, all should be contained in of the present utility model in.

Claims (34)

1. a lock device is characterized in that, comprising:

Housing;

The tapered end group comprises:

Keyhole is used for a key and is inserted wherein, and rotation that should key and rotating take one first center of rotation as rotating shaft; And

The tapered end pushing part is arranged at the outer rim of this first center of rotation, and rotation that should keyhole and being rotated around this first center of rotation;

The latch bolt group comprises the latch bolt body, and this latch bolt body has outer latch bolt and the latch bolt protuberance at the two ends that are formed at respectively this latch bolt body;

Rotate the plectrum group, in order to rotate as rotating shaft take one second center of rotation, comprising:

Rotate the pushing part, be arranged at the outer rim of this second center of rotation; And

Hook portion is arranged at the outer rim of this second center of rotation, and is positioned at the adjacent place of this latch bolt protuberance; And

Push pedal, be arranged between this tapered end group and this rotation plectrum group, with when the one end is promoted by this tapered end pushing part, its other end promotes this rotation pushing part and this rotation plectrum group is rotated, and then make this hook portion promote this latch bolt protuberance, so that should outer latch bolt be entered outward in this housing by this housing.

2. lock device as claimed in claim 1 is characterized in that, this housing comprises at least one fixing hole that runs through this housing, and the set position sign of arbitrary this fixing hole is unified German lock body standard; Wherein, any one the set position in this tapered end group, this latch bolt group, this rotation plectrum group and this push pedal with and in the start process neither meeting cover arbitrary this fixing hole.

3. lock device as claimed in claim 1 is characterized in that, this housing comprises the first cover plate, the second cover plate and bluff piece, and this bluff piece is between this first cover plate and this second cover plate, and perpendicular to the first cover plate and the second cover plate; Wherein, this bluff piece has the bluff piece inclined tongue hole, use at least part of this latch bolt group to be active in wherein, and in this first cover plate and the second cover plate at least one has the tapered end fixed part, uses for this tapered end group to be arranged at wherein.

4. lock device as claimed in claim 1 is characterized in that, this latch bolt group also comprises compression elastic piece, and has the elastic component catch in this housing; Wherein, the two ends of this compression elastic piece are resisted against respectively this latch bolt body and this elastic component catch.

5. lock device as claimed in claim 1 is characterized in that, has cover plate riveting post in this housing, and this rotation plectrum group also comprises the plectrum return springs; Wherein, the two ends of this plectrum return springs are individually fixed in this cover plate riveting post and this hook portion.

6. lock device as claimed in claim 1 is characterized in that, also comprises:

Outer handle has outer rotation section, and a end that should outer rotation section is fixed in this rotation plectrum group and is positioned on this second center of rotation; And

Internal handle has interior rotation section, and should in an end of rotation section be fixed in this rotation plectrum group and be positioned on this second center of rotation.

7. lock device as claimed in claim 6, it is characterized in that, should outer handle and this Internal handle also have respectively outer handle section and interior handle section, and should outer rotation section and should be outer handle section mutually link L-shaped, and should interior rotation section and be somebody's turn to do interior handle section and mutually linked L-shaped.

8. lock device as claimed in claim 1 is characterized in that, comprises also stopping that this outer latch bolt enters pick-proof group in this housing outward by this housing.

9. lock device as claimed in claim 8 is characterized in that, this pick-proof group comprises:

Cover plate rivet arranges and is fixed in this housing;

The pick-proof base plate;

The pick-proof tongue is connected in this pick-proof base plate;

Pick-proof riveting post is arranged on this pick-proof base plate;

The pick-proof sheet is articulated in this cover plate rivet, and an end of this pick-proof sheet has the pick-proof gear point of the adjacent place that is positioned at this outer latch bolt;

Pick-proof sheet return springs is sheathed on this cover plate rivet; And

Pick-proof tongue return springs is sheathed on this pick-proof riveting post, and its two ends support respectively this pick-proof tongue and this cover plate riveting post, so that this pick-proof riveting post is supported this pick-proof gear point, and then makes this pick-proof gear point leave a mobile route of this outer latch bolt;

Wherein, when this pick-proof tongue entered in this housing outside by this housing, this pick-proof riveting post stopped to support this pick-proof gear point, and the elastic force that this pick-proof sheet return springs produces moves on this mobile route of this outer latch bolt this pick-proof gear point.

10. lock device as claimed in claim 9 is characterized in that, this rotation plectrum group also comprises cam part, and this cam part is arranged at the outer rim of this second center of rotation, and is contacted with an other end of this pick-proof sheet; Wherein, when this hook portion promoted this latch bolt protuberance, this cam part promoted this pick-proof sheet, so that this pick-proof gear point leaves this mobile route of this outer latch bolt.

11. lock device as claimed in claim 9 is characterized in that, this pick-proof base plate has the pick-proof spacing hole, and this pick-proof spacing hole passes wherein for this cover plate riveting post.

12. lock device as claimed in claim 1 is characterized in that, the also side's of comprising tongue group, and the party tongue group side's of comprising tongue shift fork and square tongue body; Wherein, the party's tongue shift fork promotes in order to be promoted by this tapered end pushing part or to be rotated the plectrum group by this, and at least part of the party's tongue body is entered outward in this housing by this housing, or is to make at least part of the party's tongue body by shifting out outside this housing in this housing.

13. lock device as claimed in claim 12 is characterized in that, the party's tongue shift fork comprises:

Side's tongue shift fork rotating shaft is articulated in this housing, and in order to rotate take one the 3rd center of rotation as rotating shaft;

Side's tongue shift fork projection is formed at an elongated end of the party's tongue shift fork; And

Side's tongue shift fork recess is formed at the outer rim of the party's tongue shift fork, and uses for this contact of tapered end pushing part and promotion;

The party's tongue body comprises:

Side's tongue is formed at an end of the party's tongue body;

Side's tongue body recess is formed at the other end of the party's tongue body, and in order to the rotating shaft of accommodating the party's tongue shift fork; And

Side's tongue body slide rail is formed between the party's tongue and the party's tongue body recess, and in order to accommodating the party's tongue shift fork projection.

14. lock device as claimed in claim 13, it is characterized in that, the party's tongue body also comprises first party tongue body projection and the second party tongue body projection on a surface that protrudes from respectively the party's tongue body, and this push pedal comprises the first push pedal spacing hole and the second push pedal spacing hole; Wherein, this first push pedal spacing hole and this second push pedal spacing hole are in order to be arranged at wherein for this first party tongue body projection and this second party tongue body projection respectively.

15. lock device as claimed in claim 12 is characterized in that, this rotation plectrum group also comprises:

The hook-type plectrum, the plectrum protuberance that has the plectrum hole that penetrates this hook-type plectrum and be formed at this periphery, plectrum hole, and this hook portion is formed at an elongated end of this hook-type plectrum;

The outer shift fork of latch bolt, outer shift fork recess and outer shift fork protuberance with the lateral margin that is formed at respectively the outer shift fork of this latch bolt, and the outer shift fork rotating shaft that forms and be raised in the external surface of the outer shift fork of latch bolt, and should outer shift fork rotating shaft pass this plectrum hole, so that this hook-type plectrum is articulated in the outer shift fork of this latch bolt;

Tumbler has the external surface that protrudes from this tumbler and the rotation protuberance of an inner surface, and this rotation pushing part and this cam part are formed at respectively the outer rim of this tumbler;

Gear piece has the gear piece hole that penetrates this gear piece, the gear piece tooth section that is formed at this gear piece outer rim and formation and protrudes from an external surface of this gear piece and the gear piece riveting post of an inner surface; And

Shift fork in the latch bolt, have the interior shift fork recess and the interior shift fork protuberance that are formed at respectively the lateral margin of shift fork in this latch bolt, and the interior shift fork rotating shaft that forms and be raised in the external surface of shift fork in the latch bolt, and should interior shift fork rotating shaft pass this gear piece hole, so that this gear piece is articulated in the outer shift fork of this latch bolt;

Wherein, sequentially superimposed assembling of shift fork in this hook-type plectrum, the outer shift fork of this latch bolt, this tumbler, this gear piece and this latch bolt, and protrude between the two ends of this gear piece riveting post shift fork recess outside this of this external surface of this gear piece, protrude between the two ends of this gear piece riveting post shift fork recess in this of this inner surface of this gear piece, and protrude from this tumbler this external surface this rotation protuberance this plectrum protuberance and should outside between the shift fork protuberance.

16. lock device as claimed in claim 15 is characterized in that, the party's tongue shift fork side of comprising hyoid tooth section, and the party's hyoid tooth section is engaged in this gear piece tooth section.

17. lock device as claimed in claim 12, it is characterized in that, also comprise automatically controlled group, and this automatically controlled group comprises control element and at least one switch element, and this at least one switch element is arranged on the mobile route of the party's tongue body, and corresponding generation is exported an electric signal to this automatically controlled group with the mobile status of sensing the party tongue body.

18. lock device as claimed in claim 1, it is characterized in that, also comprise automatically controlled group, and this automatically controlled group comprises control element and at least one switch element, and this at least one switch element is arranged on the mobile route of this latch bolt body or on the mobile route of this tapered end pushing part, and corresponding generation output electric signal is to this automatically controlled group with the mobile status of the mobile status of this latch bolt body of sensing or this tapered end pushing part.

19. lock device as claimed in claim 1, it is characterized in that, also comprise automatically controlled group, and this automatically controlled group comprises control element and automatically controlled push jack, this control element is controlled on the rotation path that this automatically controlled push jack moves to this rotation plectrum group, rotates to stop this rotation plectrum group.

20. a lock device is characterized in that, comprising:

Housing comprises at least one fixing hole that runs through this housing, and the set position sign of arbitrary this fixing hole is unified German lock body standard;

The tapered end group comprises the tapered end pushing part;

The latch bolt group;

Rotate the plectrum group; And

Push pedal, be arranged between this tapered end group and this rotation plectrum group, when one end of this push pedal was promoted by this tapered end pushing part, its other end promoted this rotation plectrum group and rotates, and was entered outward in this housing by this housing so that this rotation plectrum group drives at least part of this latch bolt group;

Wherein, any one the set position in this tapered end group, this latch bolt group, this rotation plectrum group and this push pedal with and in the start process neither meeting cover arbitrary this fixing hole.

21. lock device as claimed in claim 20 is characterized in that,

This tapered end group comprises:

Keyhole is used for a key and is inserted wherein, and rotation that should key and rotating take one first center of rotation as rotating shaft; And

The tapered end pushing part is arranged at the outer rim of this first center of rotation, and rotation that should keyhole and being rotated around this first center of rotation;

This latch bolt group comprises the latch bolt body, and this latch bolt body has outer latch bolt and the latch bolt protuberance at the two ends that are formed at respectively this latch bolt body;

This rotates the plectrum group, in order to rotate as rotating shaft take one second center of rotation, comprising:

Rotate the pushing part, be arranged at the outer rim of this second center of rotation; And

Hook portion is arranged at the outer rim of this second center of rotation, and is positioned at the adjacent place of this latch bolt protuberance;

Wherein, when an end of this push pedal is promoted by this tapered end pushing part, one other end of this push pedal promotes this rotation pushing part and this rotation plectrum group is rotated, and then makes this hook portion promote this latch bolt protuberance, so that should outer latch bolt be entered outward in this housing by this housing.

22. lock device as claimed in claim 21 is characterized in that, also comprises:

Outer handle has outer rotation section, and a end that should outer rotation section is fixed in this rotation plectrum group and is positioned on this second center of rotation; And

Internal handle has interior rotation section, and should in an end of rotation section be fixed in this rotation plectrum group and be positioned on this second center of rotation.

23. lock device as claimed in claim 21 is characterized in that, comprises also stopping that this outer latch bolt enters pick-proof group in this housing outward by this housing.

24. lock device as claimed in claim 21 is characterized in that, the also side's of comprising tongue group, and the party tongue group side's of comprising tongue shift fork and square tongue body; Wherein, the party's tongue shift fork promotes in order to be promoted by this tapered end pushing part or to be rotated the plectrum group by this, and at least part of the party's tongue body is entered outward in this housing by this housing, or is to make at least part of the party's tongue body by shifting out outside this housing in this housing.

25. lock device as claimed in claim 24 is characterized in that, this rotation plectrum group also comprises:

The hook-type plectrum, the plectrum protuberance that has the plectrum hole that penetrates this hook-type plectrum and be formed at this periphery, plectrum hole, and this hook portion is formed at an elongated end of this hook-type plectrum;

The outer shift fork of latch bolt, outer shift fork recess and outer shift fork protuberance with the lateral margin that is formed at respectively the outer shift fork of this latch bolt, and the outer shift fork rotating shaft that forms and be raised in the external surface of the outer shift fork of latch bolt, and should outer shift fork rotating shaft pass this plectrum hole, so that this hook-type plectrum is articulated in the outer shift fork of this latch bolt;

Tumbler has the external surface that protrudes from this tumbler and the rotation protuberance of an inner surface, and this rotation pushing part and this cam part are formed at respectively the outer rim of this tumbler;

Gear piece has the gear piece hole that penetrates this gear piece, the gear piece tooth section that is formed at this gear piece outer rim and formation and protrudes from an external surface of this gear piece and the gear piece riveting post of an inner surface; And

Shift fork in the latch bolt, have the interior shift fork recess and the interior shift fork protuberance that are formed at respectively the lateral margin of shift fork in this latch bolt, and the interior shift fork rotating shaft that forms and be raised in the external surface of shift fork in the latch bolt, and should interior shift fork rotating shaft pass this gear piece hole, so that this gear piece is articulated in the outer shift fork of this latch bolt;

Wherein, sequentially superimposed assembling of shift fork in this hook-type plectrum, the outer shift fork of this latch bolt, this tumbler, this gear piece and this latch bolt, and protrude between the two ends of this gear piece riveting post shift fork recess outside this of this external surface of this gear piece, protrude between the two ends of this gear piece riveting post shift fork recess in this of this inner surface of this gear piece, and protrude from this tumbler this external surface this rotation protuberance this plectrum protuberance and should outside between the shift fork protuberance.

26. lock device as claimed in claim 21, it is characterized in that, also comprise automatically controlled group, and this automatically controlled group comprises control element and at least one switch element, and this at least one switch element is arranged on the mobile route of this latch bolt group or on the mobile route of this tapered end pushing part, and corresponding generation output electric signal is to this automatically controlled group with the mobile status of the mobile status of this latch bolt group of sensing or this tapered end pushing part; Or be this automatically controlled group and comprise control element and automatically controlled push jack, this control element moves in order to control this automatically controlled push jack on the rotation path of this rotation plectrum group, rotates to stop this rotation plectrum group.

27. a lock device is characterized in that, comprising:

Housing;

The tapered end group comprises keyhole and tapered end pushing part, and this keyhole uses for a key and insert wherein and rotate, and then this tapered end pushing part is rotated synchronously;

Rotate the plectrum group;

The latch bolt group; And

Push pedal is arranged between this tapered end group and this rotation plectrum group,

Wherein, has continuous action relation between this rotation plectrum group and this latch bolt group, be used to that this tapered end pushing part promotes an end of this push pedal and so that the other end of this push pedal when promoting this rotation plectrum group, at least part of this latch bolt group is synchronously by mobile in export-oriented this housing of this housing.

28. lock device as claimed in claim 27 is characterized in that, this keyhole is used for this key and is inserted wherein, and rotation that should key and rotating take one first center of rotation as rotating shaft; Wherein, this tapered end pushing part is arranged at the outer rim of this first center of rotation, and rotation that should keyhole and being rotated around this first center of rotation.

29. lock device as claimed in claim 28, it is characterized in that, this latch bolt group comprises the latch bolt body, and this latch bolt body has outer latch bolt and the latch bolt protuberance at the two ends that are formed at respectively this latch bolt body, and this rotation plectrum group should be promoted by this push pedal and rotate take one second center of rotation as rotating shaft, and this rotation plectrum group comprises rotation pushing part and the hook portion of the outer rim that is arranged at this second center of rotation; Wherein, this hook portion is contacted with this latch bolt protuberance, forms this continuous action relation between plectrum group and this latch bolt group so that should rotate.

30. lock device as claimed in claim 29 is characterized in that, also comprises:

Outer handle has outer rotation section, and a end that should outer rotation section is fixed in this rotation plectrum group and is positioned on this second center of rotation; And

Internal handle has interior rotation section, and should in an end of rotation section be fixed in this rotation plectrum group and be positioned on this second center of rotation.

31. lock device as claimed in claim 27 is characterized in that, comprises also stopping that this outer latch bolt enters pick-proof group in this housing outward by this housing.

32. lock device as claimed in claim 27 is characterized in that, the also side's of comprising tongue group, and the party tongue group side's of comprising tongue shift fork and square tongue body; Wherein, the party's tongue shift fork promotes in order to be promoted by this tapered end pushing part or to be rotated the plectrum group by this, and at least part of the party's tongue body is entered outward in this housing by this housing, or is to make at least part of the party's tongue body by shifting out outside this housing in this housing.

33. lock device as claimed in claim 27 is characterized in that, this rotation plectrum group also comprises:

The hook-type plectrum, the plectrum protuberance that has the plectrum hole that penetrates this hook-type plectrum and be formed at this periphery, plectrum hole, and this hook portion is formed at an elongated end of this hook-type plectrum;

The outer shift fork of latch bolt, outer shift fork recess and outer shift fork protuberance with the lateral margin that is formed at respectively the outer shift fork of this latch bolt, and the outer shift fork rotating shaft that forms and be raised in the external surface of the outer shift fork of latch bolt, and should outer shift fork rotating shaft pass this plectrum hole, so that this hook-type plectrum is articulated in the outer shift fork of this latch bolt;

Tumbler has the external surface that protrudes from this tumbler and the rotation protuberance of an inner surface, and this rotation pushing part and this cam part are formed at respectively the outer rim of this tumbler;

Gear piece has the gear piece hole that penetrates this gear piece, the gear piece tooth section that is formed at this gear piece outer rim and formation and protrudes from an external surface of this gear piece and the gear piece riveting post of an inner surface; And

Shift fork in the latch bolt, have the interior shift fork recess and the interior shift fork protuberance that are formed at respectively the lateral margin of shift fork in this latch bolt, and the interior shift fork rotating shaft that forms and be raised in the external surface of shift fork in the latch bolt, and should interior shift fork rotating shaft pass this gear piece hole, so that this gear piece is articulated in the outer shift fork of this latch bolt;

Wherein, sequentially superimposed assembling of shift fork in this hook-type plectrum, the outer shift fork of this latch bolt, this tumbler, this gear piece and this latch bolt, and protrude between the two ends of this gear piece riveting post shift fork recess outside this of this external surface of this gear piece, protrude between the two ends of this gear piece riveting post shift fork recess in this of this inner surface of this gear piece, and protrude from this tumbler this external surface this rotation protuberance this plectrum protuberance and should outside between the shift fork protuberance.

34. lock device as claimed in claim 27, it is characterized in that, also comprise automatically controlled group, and this automatically controlled group comprises control element and at least one switch element, and this at least one switch element is arranged on the mobile route of this latch bolt group or on the mobile route of this tapered end group, and corresponding generation output electric signal is to this automatically controlled group with the mobile status of the mobile status of this latch bolt group of sensing or this tapered end group; Or be this automatically controlled group and comprise control element and automatically controlled push jack, this control element moves in order to control this automatically controlled push jack on the rotation path of this rotation plectrum group, rotates to stop this rotation plectrum group.

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