CN205330373U - Bank is with electromechanical two accuse fingerprint locks of safe box - Google Patents

Abstract

The utility model provides a bank is with electromechanical two accuse fingerprint locks of safe box, includes apron, casing, fingerprint electric control lock, tight latch fitting, mechanical lock, a holding chamber is connected and is constituteed to the apron with the casing, and wherein fingerprint electric control lock, tight latch fitting and mechanical lock setting are at this holding intracavity, tight latch fitting setting is in holding chamber bottom, and wherein fingerprint electric control lock and mechanical lock set up respectively above tight latch fitting, and fingerprint electric control lock and mechanical lock cooperate with tight latch fitting respectively to make tight latch fitting be in the motion of holding intracavity. The utility model discloses a two accuse lock core structures to on the safe box is installed to the tool to lock that will have this lock core structure, can make single accuse lock and use and to make two accuse locks again and use, the securities that have improved the safe box greatly.

Description

A kind of bank safe deposit box electromechanical double-control Fingerprint Lock

Technical field

This utility model relates to lock technology field, particularly to a kind of bank safe deposit box electromechanical double-control Fingerprint Lock。

Background technology

Safe deposit box is generally used for bank or insurance institution is leased to client's casing for keeping valuables specially, the lockset used in existing safe deposit box is Double-head interlocked lock mostly, the dead bolt of this Double-head interlocked lock and the linkage of two key integral types, it is necessary to two keys are inserted simultaneously into lock core and rotate simultaneously and just can unblank。But this traditional mechanical lock is owing to existing that coding repetitive rate is high, being very easy to stagger, and mechanical key is easy to configuration, causes that the safety of safe deposit box is substantially reduced, can not meet the requirement of client。

Summary of the invention

One of technical problem that this utility model is intended to solve in correlation technique at least to a certain extent。For this, a purpose of the present utility model is in that to provide a kind of bank safe deposit box electromechanical double-control Fingerprint Lock, it is intended to improve the safety of lockset。

For achieving the above object, this utility model provides a kind of bank safe deposit box electromechanical double-control Fingerprint Lock, including cover plate, housing, Finger-print electric controlled lock, tight latch fitting, mechanical lock, described cover plate is connected with housing and forms a containing cavity, and wherein Finger-print electric controlled lock, tight latch fitting and mechanical lock are arranged in this containing cavity；Described tight latch fitting is arranged on bottom containing cavity, and wherein Finger-print electric controlled lock and mechanical lock are separately positioned on above tight latch fitting, and Finger-print electric controlled lock and mechanical lock coordinate with tight latch fitting respectively, so that tight latch fitting moves in described containing cavity。

Preferably, described Finger-print electric controlled lock is made up of Finger-print electric controlled lock head, circuit board and motor, wherein Finger-print electric controlled lock head is arranged on the cover board, motor is fixed on case inside wall, the first end of described Finger-print electric controlled lock is socket end, the other end is link, and the socket end of this Finger-print electric controlled lock head is used for connecting fingerprint electric control key, and the link of Finger-print electric controlled lock head is connected with circuit board；Described circuit board is connected with motor, so that Finger-print electric controlled lock head controls electric machine rotation。

Preferably, described mechanical lock is made up of tapered end and eccentric shaft, and eccentric one end is flexibly connected with tapered end, and the other end is through tight latch fitting and is held in housing bottom, and wherein eccentric is used for supporting tapered end, and rotates with the rotation of tapered end。

Preferably, described tapered end and eccentric shaft offering the first groove and the second groove respectively, wherein the notch direction of the first groove and the second groove is identical, and cooperatively forms lockhole with cover plate。

Preferably, described tight latch fitting is made up of jam plate and the dead bolt being arranged on jam plate end, wherein offers spacing hole on jam plate, and dead bolt sets through housing sidepiece, and jam plate drives dead bolt to move in housing。

Preferably, described cover plate is respectively equipped with the first fixing post and the second fixing post, first fixing post and the second fixing post offer the first through hole and the second through hole respectively, wherein the first through hole and the second through hole extend through described cover plate, described Finger-print electric controlled lock head is arranged at the first through hole, and tapered end is arranged at the second through hole。

Preferably, described eccentric shaft is provided with swinging block, and this swinging block is limited in described spacing hole, so that swinging block rotates and drives jam plate to move。

Preferably, described cover plate corner offers gap, and housing bottom surrounding offers screw hole, wherein gap and screw hole one_to_one corresponding, it is simple to screw is through housing, and housing sidepiece offers notch, and described dead bolt is through notch and is limited in described notch。

Preferably, described housing bottom is respectively equipped with baffle plate and limited post, and wherein limited post through described spacing hole and is positioned at this spacing hole, and baffle plate is arranged on jam plate sidepiece, baffle plate and limited post and coordinates in order to control jam plate displacement。

Preferably, described motor is positioned at the top of jam plate, and is fixed on case inside wall, and wherein the rotating shaft of motor is provided with limited block, and this limited block is arranged between described baffle plate and jam plate, in order to limit jam plate displacement。

This utility model adopts Double control type lock core structure, and is installed in safe deposit box by the lockset with this lock core structure, can do single control lock use and can do again dual control lock use, substantially increase the safety of safe deposit box。

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to the structure according to these accompanying drawings obtains other accompanying drawing。

Fig. 1 is the structural representation of this utility model one embodiment；

Fig. 2 is the structural blast schematic diagram of this utility model one embodiment；

Fig. 3 is this utility model one embodiment housing interior structure schematic diagram。

Drawing reference numeral illustrates:

Label	Title	Label	Title
				10	Housing	401	Tapered end
101	Notch	402	Eccentric shaft
				102	Screw hole	403	First groove
20	Cover plate	404	Second groove
				201	Gap	50	Tight latch fitting
202	First fixing post	501	Dead bolt
				203	Second fixing post	502	Jam plate
204	First through hole	503	Spacing hole
				205	Second through hole	60	Spill spin block
30	Finger-print electric controlled lock	70	Limited block
				301	Finger-print electric controlled lock head	80	Baffle plate
302	Circuit board	90	Limited post
				303	Motor	100	Containing cavity
40	Mechanical lock	110	Lockhole

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present utility model, rather than whole embodiments。Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of this utility model protection。

Need explanation, in this utility model embodiment, directional instruction (such as up, down, left, right, before and after ...) is only for explaining relative position relation between each parts, motion conditions etc. under a certain particular pose (as shown in drawings), if this particular pose changes, then directionality instruction also correspondingly changes therewith。

In this utility model such as relating to the description of " first ", " second " etc. only for descriptive purposes, and it is not intended that instruction or imply its relative importance or the implicit quantity indicating indicated technical characteristic。Thus, define " first ", the feature of " second " can express or implicitly include at least one this feature。In description of the present utility model, " multiple " are meant that at least two, for instance two, three etc., unless otherwise expressly limited specifically。

In this utility model, unless otherwise clearly defined and limited, term " connection ", " fixing " etc. should be interpreted broadly, for instance, " fixing " can be fixing connection, it is also possible to is removably connect, or integral；Can be mechanically connected, it is also possible to be electrical connection；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, it is possible to be connection or the interaction relationship of two elements of two element internals, unless otherwise clear and definite restriction。For the ordinary skill in the art, it is possible to understand above-mentioned term concrete meaning in this utility model as the case may be。

Additionally; technical scheme between each embodiment of this utility model can be combined with each other; but must be based on those of ordinary skill in the art are capable of; when technical scheme combination occur conflicting maybe cannot realize time will be understood that the combination of this technical scheme is absent from, also not this utility model require protection domain within。

The utility model proposes a kind of bank safe deposit box electromechanical double-control Fingerprint Lock。

Incorporated by reference to reference to Fig. 1, Fig. 2, a kind of bank safe deposit box electromechanical double-control Fingerprint Lock, including housing 10, cover plate 20, Finger-print electric controlled lock 30, mechanical lock 40, tight latch fitting 50, described cover plate 20 is connected with housing 10 and forms a containing cavity 100, and wherein Finger-print electric controlled lock 30, tight latch fitting 50 and mechanical lock 40 are arranged in this containing cavity 100；Described tight latch fitting 50 is arranged on bottom containing cavity 100, and wherein Finger-print electric controlled lock 30 and mechanical lock 40 are arranged on above tight latch fitting 50, and Finger-print electric controlled lock 30 and mechanical lock 40 coordinate with tight latch fitting 50 respectively, so that tight latch fitting 50 moves in described containing cavity 100。

In the present embodiment, described housing 10 can be metal material, and cover plate 20 can be metal material, and the periphery of its cover plate 20 is held in housing 10 medial wall, so that cover plate 20 and housing 10 are combined closely；Described cover plate 20 is respectively equipped with the first fixing post 202 and the second fixing post 203, first fixing post 202 and the second fixing post 203 offer the first through hole 204 and the second through hole 205 respectively, wherein the first through hole 204 and the second through hole 205 extend through described cover plate 20, this Finger-print electric controlled lock 30 described is limited in the first through hole 204, and mechanical lock 40 is limited in the second through hole 205 and rotates in the second through hole 205。

Refer to Fig. 2, described Finger-print electric controlled lock 30 is made up of Finger-print electric controlled lock head 301, circuit board 302 and motor 303, wherein Finger-print electric controlled lock head 301 is arranged on cover plate 20, motor 303 is arranged on housing 10 medial wall, described Finger-print electric controlled lock head 301 one end is socket end, the other end is link, and the socket end of this Finger-print electric controlled lock head 301 is used for connecting fingerprint electric control key (figure is for showing), and the link of Finger-print electric controlled lock head 301 is connected with circuit board 302；Described circuit board 302 is connected with motor 303, so that Finger-print electric controlled lock head 301 controls motor 303 and rotates。

In the present embodiment, described Finger-print electric controlled lock head 301 is arranged at the first through hole 204, wherein the first through hole 204 correspondence position is provided with circuit board 302, this circuit board 302 is connected with the link of Finger-print electric controlled lock head 301, circuit board 302 is connected with motor 303, when Finger-print electric controlled lock head 301 connects with fingerprint electric control key, Finger-print electric controlled lock head 301 accepts the signal instruction of the switch lock that electric control key sends, and switch lock signal is sent to circuit board 302, the signal received is transferred to motor 303 by circuit board 302, so that motor 303 is started working。

Referring once again to Fig. 2, described mechanical lock 40 is made up of tapered end 401 and eccentric shaft 402, and wherein eccentric shaft 402 one end is flexibly connected with tapered end 401, and the other end is through tight latch fitting 50 and is held in bottom housing 10, and eccentric shaft 402 is used for supporting and connect described tapered end 401。

In the present embodiment, described tapered end 401 is arranged in the second through hole 205, and rotate in this second through hole 205, described tapered end 401 is flexibly connected with eccentric shaft 402, wherein tapered end 401 and eccentric shaft 402 offer the first groove 403 and the second groove 404 respectively, and first groove 403 identical with the notch direction of the second groove 404, because tapered end 401 is arranged in the second through hole 205, so that the first groove 403 offered on tapered end 401 is limited in the second through hole 205, the notch of this first groove 403 and the sidewall of the second through hole 205 cooperatively form lockhole 110, so that key inserts。

Refer to Fig. 2, Fig. 3, described tight latch fitting 50 is made up of jam plate 502 and the dead bolt 501 being arranged on jam plate 502 end, wherein jam plate 502 offers spacing hole 503, described housing 10 sidewall offers notch 101, dead bolt 501 is through notch 101 and is limited in described notch 101, described eccentric shaft 402 one end is connected with swivel head 401, and the other end is through jam plate 502 and is held in bottom housing 10；Described eccentric shaft 402 is provided with swinging block 60, and this swinging block 60 is limited in described spacing hole 503。

In the present embodiment, described tapered end 401 rotates and drives eccentric shaft 402 to rotate together, eccentric shaft 402 rotates, the swinging block 60 being arranged on eccentric shaft 402 end also rotates therewith, because swinging block 60 is to be limited on jam plate 502 in the spacing hole 503 offered, when swinging block 60 rotates, this swinging block 60 rotates to corresponding position and contacts with jam plate 502, and promote jam plate 502 to produce displacement, thus dead bolt 501 is driven to move at notch 101 place。

Referring once again to Fig. 2, Fig. 3, described cover plate 20 4 jiaos offers gap 201, and bottom housing 10, surrounding offers screw hole 102, wherein gap 201 and screw hole 102 one_to_one corresponding, it is simple to screw is through housing 10, thus lock body being fixed in safe deposit box。

Described housing 10 inner bottom part is respectively equipped with baffle plate 80 and limited post 90, the spacing hole 503 that wherein limited post 90 is offered on jam plate 502, baffle plate 80 is arranged on the cooperation of jam plate 502 end, described baffle plate 80 and limited post 90 direction of displacement and displacement in order to control jam plate 502。

Described motor 303 is arranged on the top of jam plate 502, and the rotating shaft of this motor 303 is provided with limited block 70；Described limited block 70 arranges between baffle plate 80 and jam plate 502, and this limited block 70 and baffle plate 80, in order to limit the shift length of jam plate 503。

In the present embodiment, when unblanking, first fingerprint electric control key is inserted in Finger-print electric controlled lock head 301, coordinated with Finger-print electric controlled lock head 301 by fingerprint electric control key, Finger-print electric controlled lock head 301 accepts the unlocking signal instruction that fingerprint electric control key sends, and this unlocking signal is transferred to motor 303 by circuit board 302, and start motor 303 and start working, so that the rotating shaft of motor 303 is rotated clockwise, and drive limited block 70 to rotate to specific bit to postpone stopping, so that limited block 70 releases the displacement to jam plate 502 and limits, simultaneously, mechanical key (figure is for showing) is inserted in lockhole 110, and rotate clockwise tapered end 401, tapered end 401 rotates and drives eccentric shaft 402 to rotate together, thus driving swinging block 60 also to rotate therewith, because swinging block 60 is limited in spacing hole 503, in the process that swinging block 60 rotates clockwise, this swinging block 60 rotates to corresponding position and contacts and be held in jam plate 502 with jam plate 502, and then drive jam plate 502 along the radial direction of limited post 90 and near baffle plate 80 1 side shifting, jam plate 502 is in the process of movement, dead bolt 501 also moves therewith together, stop mobile after the side of jam plate 502 contacts with baffle plate 80, dead bolt 501 is to housing 10 contract, so that dead bolt 501 is positioned at containing cavity 100, complete to unblank；

When shutting, by using mechanical key to drive tapered end 401 to rotate counterclockwise, so that the swinging block 60 on eccentric shaft 402 starts to rotate, because swinging block 60 is limited in spacing hole 503, in the process that swinging block 60 rotates clockwise, this swinging block 60 rotates to corresponding position and contacts and be held in jam plate 502 with jam plate 502, and then drive jam plate 502 to be displaced outwardly, jam plate 502 is in the process of movement, its dead bolt 501 is through notch 101 and is displaced outwardly, after the contact aside of limited post 90 and spacing hole 503, it is mobile that jam plate 502 drives dead bolt 501 to stop, so that dead bolt 501 stretches out outside housing 10, then fingerprint electric control key is inserted in Finger-print electric controlled lock head 301, Finger-print electric controlled lock head 301 accepts the pass lock signal that fingerprint electric control key sends, and this pass lock signal is transferred to motor 303 by circuit board 302, motor 303 is started working, thus driving limited block 70 to rotate counterclockwise, its limited block 70 is made to fall into the gap between baffle plate 80 and jam plate 502, and resist jam plate 50, thus limited block 70 is by the offset qualification of jam plate 502, completely shut。

The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every under inventive concept of the present utility model; utilize the equivalent structure transformation that this utility model description and accompanying drawing content are made, or directly/be indirectly used in other relevant technical fields and be included in scope of patent protection of the present utility model。

Claims (9)

1. bank's safe deposit box electromechanical double-control Fingerprint Lock, including cover plate, housing, Finger-print electric controlled lock, tight latch fitting, mechanical lock, it is characterized in that, described cover plate is connected with housing and forms a containing cavity, and wherein Finger-print electric controlled lock, tight latch fitting and mechanical lock are arranged in this containing cavity；Described tight latch fitting is arranged on bottom containing cavity, and wherein Finger-print electric controlled lock and mechanical lock are separately positioned on above tight latch fitting, and Finger-print electric controlled lock and mechanical lock coordinate with tight latch fitting respectively, so that tight latch fitting moves in described containing cavity。

2. a kind of bank according to claim 1 safe deposit box electromechanical double-control Fingerprint Lock, it is characterized in that, described Finger-print electric controlled lock is made up of Finger-print electric controlled lock head, circuit board and motor, wherein Finger-print electric controlled lock head is arranged on the cover board, motor is fixed on case inside wall, and the first end of described Finger-print electric controlled lock is socket end, and the other end is link, the socket end of this Finger-print electric controlled lock head is used for connecting fingerprint electric control key, and the link of Finger-print electric controlled lock head is connected with circuit board；Described circuit board is connected with motor, so that Finger-print electric controlled lock head controls electric machine rotation。

3. a kind of bank according to claim 1 safe deposit box electromechanical double-control Fingerprint Lock, it is characterized in that, described mechanical lock is made up of tapered end and eccentric shaft, eccentric one end is flexibly connected with tapered end, the other end is through tight latch fitting and is held in housing bottom, wherein eccentric is used for supporting tapered end, and rotates with the rotation of tapered end。

4. a kind of bank according to claim 3 safe deposit box electromechanical double-control Fingerprint Lock, it is characterized in that, offering the first groove and the second groove on described tapered end and eccentric shaft respectively, wherein the notch direction of the first groove and the second groove is identical, and cooperatively forms lockhole with cover plate。

5. a kind of bank according to claim 1 safe deposit box electromechanical double-control Fingerprint Lock, it is characterized in that, described tight latch fitting is made up of jam plate and the dead bolt being arranged on jam plate end, wherein offers spacing hole on jam plate, dead bolt is through housing sidepiece, and jam plate drives dead bolt to move in housing。

6. a kind of bank according to claim 1 safe deposit box electromechanical double-control Fingerprint Lock, it is characterized in that, described cover plate is respectively equipped with the first fixing post and the second fixing post, offering the first through hole and the second through hole respectively on first fixing post and the second fixing post, wherein the first through hole and the second through hole extend through described cover plate。

7. a kind of bank according to claim 3 safe deposit box electromechanical double-control Fingerprint Lock, it is characterised in that described eccentric shaft is provided with swinging block。

8. a kind of bank according to claim 1 safe deposit box electromechanical double-control Fingerprint Lock, it is characterised in that described housing bottom is respectively equipped with baffle plate and limited post。

9. a kind of bank according to claim 2 safe deposit box electromechanical double-control Fingerprint Lock, it is characterised in that described motor is positioned at the top of jam plate, and is fixed on case inside wall, and wherein the rotating shaft of motor is provided with limited block。