CN202055653U - Lock tongue detecting system - Google Patents
Lock tongue detecting system Download PDFInfo
- Publication number
- CN202055653U CN202055653U CN2011201485177U CN201120148517U CN202055653U CN 202055653 U CN202055653 U CN 202055653U CN 2011201485177 U CN2011201485177 U CN 2011201485177U CN 201120148517 U CN201120148517 U CN 201120148517U CN 202055653 U CN202055653 U CN 202055653U
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- China
- Prior art keywords
- dead bolt
- reflection optoelectronic
- optoelectronic switch
- external reflection
- infrared external
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
The utility model provides a lock tongue detecting system, which comprises a warning host provided with a built-in processor, an infrared reflection optoelectronic switch detecting unit and a plurality of lock tongues. The warning host and the lock tongues are respectively connected with the infrared reflection optoelectronic switch detecting unit. The infrared reflection optoelectronic switch detecting unit comprises a control module and a plurality of infrared reflection optoelectronic switches; the control module is connected with the warning host; the infrared reflection optoelectronic switches are respectively connected with the control module; and the infrared reflection optoelectronic switches are connected with the lock tongues in a one-to-one corresponding way. The infrared reflection optoelectronic switch detecting unit is arranged on a doorframe. The lock tongue detecting system adopts a non-touch type detection way; the service life and the reliability of the detecting unit are improved; and the action load of the lock tongue added additionally is reduced simultaneously.
Description
Technical field
The utility model relates to a kind of gate control system, particularly a kind of dead bolt detection system.
Background technology
On the current market, the kind of door is very many, and door and people's life is closely bound up.According to the mode classification of conventional door, mainly comprise metal door and nonmetal door.Described metal door mainly is meant the door that security door etc. is made with metal material.But not metal door refers to that mainly timber, glass door etc. are as the door that cuts off or guarantee functions such as privacy.Conventional door comprises security door, and timber etc. all are provided with lockset on it, breaks in to prevent thief or other people, and operated by rotary motion has dead bolt on the lockset, and that controls dead bolt usually stretches closing and opening of control gate.
Present intelligence door comprises three ingredients: door body, doorframe and gate control module, and door main body is provided with lockset, wherein, offers gate control module accommodation space on doorframe; The gate control module is arranged in the gate control module accommodation space, and its front is provided with the dead bolt accommodation space, is provided with the pcb board and the dead bolt detector that include processor in gate control module accommodation space.Main dead bolt and insurance dead bolt are set on the lockset at least, and generally speaking, lockset is provided with main dead bolt, insurance dead bolt and oblique dead bolt; Corresponding main dead bolt detector, insurance dead bolt detector and oblique dead bolt detector are set in the position of the corresponding dead bolt of dead bolt accommodation space, and the dead bolt detector is used for whether dead bolt puts in the dead bolt accommodation space and the accommodation space that whether contracts judges whether the state of dead bolt changes by detecting.Processor is connected respectively to each dead bolt detector, being used to receive the detection signal that the dead bolt detector sends shows when dead bolt puts in the dead bolt accommodation space, for example: processor connects main dead bolt detector, oblique dead bolt detector and insurance dead bolt detector respectively, being used to receive the detection signal that main dead bolt detector sends shows when main dead bolt puts in the dead bolt accommodation space, enable the operation of deploying troops on garrison duty of going out of intelligent subsystem, receive detection signal that main dead bolt detector sends and show the main dead bolt dead bolt idle space that contracts, enable the destruction operation of deploying troops on garrison duty of going out of intelligent subsystem; The detection signal that receives the transmission of insurance dead bolt detector shows when the insurance dead bolt puts in the dead bolt accommodation space, enable the state of deploying troops on garrison duty of being in of intelligent subsystem, the detection signal that receives the transmission of insurance dead bolt detector shows that the state of deploying troops on garrison duty of being in that enables intelligent subsystem was cancelled state when the insurance dead bolt contracted the dead bolt accommodation space; The detection signal that receives oblique dead bolt detector transmission shows when oblique dead bolt puts in the dead bolt accommodation space, do not have illegally by the displacement detecting of responding to oblique dead bolt and to swarm into, the detection signal that receives oblique dead bolt detector transmission shows when oblique dead bolt contracts the dead bolt accommodation space, breaks in by the displacement detecting of responding to oblique dead bolt.
At present, in intelligent lock, the dead bolt detection system adopts usually utilizes control circuit to control the action of dead bolt detector.Control circuit is in the needs of FEEDBACK CONTROL when executable operations, will detect whether putting in place of dead bolt action usually, and the detection and localization of dead bolt action realizes by mechanical type electric shock switch usually.Because mechanical type electric shock switch is comparatively responsive to dust and humidity in long-term use, causes easily getting an electric shock and lost efficacy in advance, switch shortening in application life.One of way of improving is exactly to increase electric shock pressure, thereby the dynamics of the action of switch also will strengthen, and causing increases extra load to the action of dead bolt.Particularly loom large the light load momentum dead bolt of this problem in the small intelligent lockset that adopts powered battery and electricity-saving type.Therefore improve the working life and the reliability of checkout gear, reduce the action load that increases extra dead bolt simultaneously and just seem very necessary.
The utility model content
The purpose of this utility model is to be to provide a kind of dead bolt detection system, increases extra dead bolt action load and the technical problem that working life is low, reliability is low in the prior art to solve.
For achieving the above object, the utility model has adopted following technical scheme:
A kind of dead bolt detection system comprises alarm host machine, infrared external reflection optoelectronic switch detecting unit and some dead bolts of internal processor, and described alarm host machine is connected with described infrared external reflection optoelectronic switch detecting unit respectively with described some dead bolts.
Preferably, described infrared external reflection optoelectronic switch detecting unit comprises control module and some infrared external reflection optoelectronic switches, described control module is connected with described alarm host machine, described some infrared external reflection optoelectronic switches are connected to respectively on the control module, and described infrared external reflection optoelectronic switch and described dead bolt connect one to one.
Preferably, described infrared external reflection optoelectronic switch detecting unit is arranged on the doorframe
Owing to adopted above technical characterictic, made the utility model have following advantage and good effect than prior art:
The utility model provides a kind of dead bolt detection system, control module control infrared external reflection optoelectronic switch emission infrared rays, when dead bolt does not stretch out, the infrared external reflection optoelectronic switch does not receive reflected infrared ray, the infrared external reflection optoelectronic switch is in " disconnection " state, control module is informed alarm host machine to " disconnection " state, and alarm host machine can be sent the corresponding action instruction; When dead bolt stretched out, the infrared external reflection optoelectronic switch received reflected infrared ray, and the infrared external reflection optoelectronic switch is in " closure " state, and control module is informed alarm host machine to " closure " state, and alarm host machine can be sent the corresponding action instruction.
Description of drawings
Fig. 1 is the structural representation of a kind of dead bolt detection system of the utility model.
The specific embodiment
Below in conjunction with accompanying drawing the utility model is described in detail.
Please investigate Fig. 1, a kind of dead bolt detection system of the utility model, comprise alarm host machine 1, infrared external reflection optoelectronic switch detecting unit 2 and some dead bolts 3, alarm host machine 1 is connected with infrared external reflection optoelectronic switch detecting unit 2 respectively with some dead bolts 3, dead bolt 3 is arranged on the door, and corresponding infrared external reflection optoelectronic switch detecting unit 2 is arranged on the doorframe.
Be provided with processor in the alarm host machine 1, being connected to being connected of processor and infrared external reflection optoelectronic switch detecting unit 2 of alarm host machine 1 and infrared external reflection optoelectronic switch detecting unit 2; Infrared external reflection optoelectronic switch detecting unit 2 comprises control module 21 and some infrared external reflection optoelectronic switches 22, and control module 21 is connected with alarm host machine 1; Some infrared external reflection optoelectronic switches 22 are connected to respectively on the control module 21, and infrared external reflection optoelectronic switch 22 connects one to one with dead bolt 3.Each infrared external reflection optoelectronic switch 22 detects stretching out and indentation of corresponding dead bolt 3, and by control module 21 notice alarm host machine 1, alarm host machine 1 is deployed troops on garrison duty and withdrawn a garrison according to dead bolt 3 states the state that detects.
In the utility model, some dead bolts 3 are main dead bolt, insurance dead bolt and oblique wherein at least a in the dead bolt, and in the present embodiment, some dead bolts are main dead bolt, insurance dead bolt and oblique dead bolt.Therefore, infrared external reflection optoelectronic switch detecting unit 2 comprises 3 infrared external reflection optoelectronic switches, corresponding with main dead bolt is main dead bolt infrared external reflection optoelectronic switch, and corresponding with the insurance dead bolt is insurance dead bolt infrared external reflection optoelectronic switch, and corresponding with oblique dead bolt is oblique dead bolt infrared external reflection optoelectronic switch.
Please refer to Fig. 1, control module 21 control infrared external reflection optoelectronic switches 22 emission infrared rays, when dead bolt 3 does not stretch out (shown in the solid line), infrared external reflection optoelectronic switch 22 does not receive reflected infrared ray, infrared external reflection optoelectronic switch 22 is in " disconnection " state, and control module 21 is informed alarm host machine 1 to " disconnection " state; When dead bolt 3 stretches out (shown in the dotted line), infrared external reflection optoelectronic switch 22 receives reflected infrared ray, and infrared external reflection optoelectronic switch 22 is in " closure " state, and control module 21 is informed alarm host machine 1 to " closure " state, and is specific as follows:
The operation of going out to deploy troops on garrison duty/withdraw a garrison: when main dead bolt puts in dead bolt accommodation space in the doorframe, main dead bolt infrared external reflection optoelectronic switch receives reflected infrared ray, main dead bolt infrared external reflection optoelectronic switch is in " closure " state, control module 21 is informed alarm host machine 1 to " closure " state, and alarm host machine 1 is sent and gone out to deploy troops on garrison duty operation; During dead bolt accommodation space in main dead bolt contracts doorframe, main dead bolt infrared external reflection optoelectronic switch does not receive reflected infrared ray, main dead bolt infrared external reflection optoelectronic switch is in " disconnection " state, control module 21 is informed alarm host machine 1 to " disconnection " state, alarm host machine 1 is sent the destruction operation of deploying troops on garrison duty of going out, the operation of promptly going out to withdraw a garrison.
Be in and deploy troops on garrison duty/withdraw a garrison operation: when the insurance dead bolt puts in dead bolt accommodation space in the doorframe, insurance dead bolt infrared external reflection optoelectronic switch receives reflected infrared ray, insurance dead bolt infrared external reflection optoelectronic switch is in " closure " state, control module 21 is informed alarm host machine 1 to " closure " state, and alarm host machine 1 is sent the operation of deploying troops on garrison duty of being in; When the insurance dead bolt contracts dead bolt accommodation space in the doorframe, insurance dead bolt infrared external reflection optoelectronic switch does not receive reflected infrared ray, insurance dead bolt infrared external reflection optoelectronic switch is in " disconnection " state, control module 21 is informed alarm host machine 1 to " disconnection " state, alarm host machine 1 is sent the destruction operation of deploying troops on garrison duty of being in, the operation of withdrawing a garrison of promptly being in.
Have/do not have and illegally swarm into operation: when oblique dead bolt puts in dead bolt accommodation space in the doorframe, tiltedly dead bolt infrared external reflection optoelectronic switch receives reflected infrared ray, tiltedly dead bolt infrared external reflection optoelectronic switch is in " closure " state, control module 21 is informed alarm host machine 1 to " closure " state, and alarm host machine 1 is sent nothing and illegally swarmed into operation; During dead bolt accommodation space in oblique dead bolt contracts doorframe, tiltedly dead bolt infrared external reflection optoelectronic switch does not receive reflected infrared ray, tiltedly dead bolt infrared external reflection optoelectronic switch is in " disconnection " state, control module 21 is informed alarm host machine to " disconnection " state, and alarm host machine 1 has been sent and broken in operation.
The utility model adopts the non-contact detection mode, has improved the working life and the reliability of dead bolt detecting unit, has reduced the action load that increases extra dead bolt simultaneously.
More than disclosed only be the application's a specific embodiment, but the application is not limited thereto, any those skilled in the art can think variation, all should drop in the application's the protection domain.
Claims (3)
1. a dead bolt detection system is characterized in that, comprises alarm host machine, infrared external reflection optoelectronic switch detecting unit and some dead bolts of internal processor, and described alarm host machine is connected with described infrared external reflection optoelectronic switch detecting unit respectively with described some dead bolts.
2. a kind of dead bolt detection system as claimed in claim 1, it is characterized in that, described infrared external reflection optoelectronic switch detecting unit comprises control module and some infrared external reflection optoelectronic switches, described control module is connected with described alarm host machine, described some infrared external reflection optoelectronic switches are connected to respectively on the control module, and described infrared external reflection optoelectronic switch and described dead bolt connect one to one.
3. a kind of dead bolt detection system as claimed in claim 1 or 2 is characterized in that, described infrared external reflection optoelectronic switch detecting unit is arranged on the doorframe.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011201485177U CN202055653U (en) | 2011-05-11 | 2011-05-11 | Lock tongue detecting system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011201485177U CN202055653U (en) | 2011-05-11 | 2011-05-11 | Lock tongue detecting system |
Publications (1)
Publication Number | Publication Date |
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CN202055653U true CN202055653U (en) | 2011-11-30 |
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ID=45015628
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN2011201485177U Expired - Fee Related CN202055653U (en) | 2011-05-11 | 2011-05-11 | Lock tongue detecting system |
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Country | Link |
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CN (1) | CN202055653U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105041052A (en) * | 2015-08-27 | 2015-11-11 | 无锡市崇安区科技创业服务中心 | Door lock state transmission method |
-
2011
- 2011-05-11 CN CN2011201485177U patent/CN202055653U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105041052A (en) * | 2015-08-27 | 2015-11-11 | 无锡市崇安区科技创业服务中心 | Door lock state transmission method |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20111130 Termination date: 20140511 |