CN215576722U - Thing networking intelligence key cabinet control system - Google Patents
Thing networking intelligence key cabinet control system Download PDFInfo
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- CN215576722U CN215576722U CN202121182473.XU CN202121182473U CN215576722U CN 215576722 U CN215576722 U CN 215576722U CN 202121182473 U CN202121182473 U CN 202121182473U CN 215576722 U CN215576722 U CN 215576722U
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Abstract
The utility model discloses an Internet of things intelligent key cabinet control system, which comprises: the intelligent control subsystem, the intelligent key subsystem and the electronic lock cylinder subsystem; the intelligent control subsystem is in communication connection with the intelligent key subsystem; the intelligent control subsystem comprises a data acquisition part and a data transmission part; the data acquisition part is in communication connection with the data transmission part; the data acquisition part comprises a first controller, a first power module, a water level sensing module, a travel switch module, a temperature and humidity sensing module, a flame sensing module, a timing module and a first wireless communication module; the data sending part comprises a second controller and a second wireless communication module; the second wireless communication module is electrically connected with the second controller and is in communication connection with the first wireless communication module. The utility model can realize remote monitoring and management of the intelligent key cabinet light delivery box and enhance the working reliability of the intelligent key cabinet light delivery box.
Description
Technical Field
The utility model relates to the technical field of optical cable handover, in particular to an Internet of things intelligent key cabinet control system.
Background
In recent years, communication industries are rapidly developed, companies such as mobile, Unicom and telecom construct a large number of infrastructures such as optical cable cross connecting boxes, base stations and well covers all over the country, and the increase of the number of equipment also brings series management problems of wide distribution range, large number, high supervision difficulty, equipment theft, door prying, lack of door opening and closing records, spark in the boxes, flood in low-lying areas and the like. Therefore, the condition in the optical cable cross connecting cabinet needs to be monitored remotely, and personnel entering and exiting the optical cable cross connecting cabinet are authorized by using a special electronic lock and a key, so that the purposes of monitoring and managing the optical cable cross connecting cabinet are met. Therefore, the utility model of the internet of things intelligent key cabinet control system becomes a problem to be solved urgently by technical personnel in the field.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem of providing an Internet of things intelligent key cabinet control system aiming at the defect of high supervision difficulty in the prior art.
The utility model discloses an Internet of things intelligent key cabinet control system, which comprises an intelligent control subsystem, an intelligent key subsystem and an electronic lock cylinder subsystem, wherein the intelligent control subsystem is connected with the intelligent key subsystem through a network; the intelligent control subsystem is in communication connection with the intelligent key subsystem; the intelligent control subsystem comprises a data acquisition part and a data transmission part; the data acquisition part is in communication connection with the data transmission part; the data acquisition part comprises a first controller, a first power module, a water level sensing module, a travel switch module, a temperature and humidity sensing module, a flame sensing module, a timing module and a first wireless communication module; the water level sensing module, the travel switch module, the temperature and humidity sensing module, the flame sensing module, the timing module and the first wireless communication module are respectively and electrically connected with the first power module, and the water level sensing module, the travel switch module, the temperature and humidity sensing module, the flame sensing module, the timing module and the first wireless communication module are respectively and electrically connected with the first controller; the data sending part comprises a second controller and a second wireless communication module; the second wireless communication module is electrically connected with the second controller and is in communication connection with the first wireless communication module.
Preferably, the data acquisition part further comprises a display module; the display module is electrically connected with the first power supply module and the first controller respectively.
Preferably, the data acquisition part further comprises a vibration sensing module, and the vibration sensing module is electrically connected with the first power module and the first controller respectively.
Preferably, the second wireless communication module is a GPRS module; the chip model of the GPRS module is SIM 900A.
Preferably, the smart key subsystem includes a second power module, a third controller and a third wireless communication module; the third controller and the third wireless communication module are respectively and electrically connected with the second power supply module; the third wireless communication module is electrically connected with the third controller.
Preferably, the intelligent key subsystem further comprises a key module and a buzzer module; the key module and the buzzer module are respectively and electrically connected with the second power supply module, and the key module and the buzzer module are respectively and electrically connected with the third controller.
The control system of the Internet of things intelligent key cabinet has the following beneficial effects that: the intelligent control subsystem, the intelligent key subsystem and the electronic lock cylinder subsystem; the intelligent control subsystem is in communication connection with the intelligent key subsystem; the intelligent control subsystem comprises a data acquisition part and a data transmission part; the data acquisition part is in communication connection with the data transmission part; the data acquisition part comprises a first controller, a first power module, a water level sensing module, a travel switch module, a temperature and humidity sensing module, a flame sensing module, a timing module and a first wireless communication module; the water level sensing module, the travel switch module, the temperature and humidity sensing module, the flame sensing module, the timing module and the first wireless communication module are respectively and electrically connected with the first power module, and the water level sensing module, the travel switch module, the temperature and humidity sensing module, the flame sensing module, the timing module and the first wireless communication module are respectively and electrically connected with the first controller; the data sending part comprises a second controller and a second wireless communication module; the second wireless communication module is electrically connected with the second controller and is in communication connection with the first wireless communication module. The data acquisition part is used for acquiring sensing data and working information data in the light cross-connecting box body; the data sending part is used for receiving the sensing data and the working information data and sending the sensing data and the working information data to a remote server; the intelligent key subsystem is used for carrying out data interaction with the electronic lock cylinder subsystem, namely password matching; in the data acquisition part, the first power supply module is used for providing rated working voltage for the data acquisition part and the data transmission part; the water level sensing module is used for detecting the height of the water level in the light traffic box; the travel switch module is used for sending a travel switch touch signal to the first controller; the temperature and humidity sensing module is used for detecting the temperature and humidity condition in the optical communication box; the flame sensing module is used for detecting whether sparks occur in the light cross box; the timing module is used for realizing a timing function; the first wireless communication module is used for realizing wireless data transmission with the data sending part; in the data sending part, the second controller is used for controlling the second wireless communication module to realize wireless data transmission with a remote server. Therefore, the utility model can realize the remote monitoring and management of the intelligent key cabinet light delivery box and enhance the working reliability of the intelligent key cabinet light delivery box.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive efforts according to the accompanying drawings:
fig. 1 is a schematic block diagram of an internet of things smart key cabinet control system according to a preferred embodiment of the present invention;
fig. 2 is a schematic block diagram of an internet of things smart key cabinet control system according to another preferred embodiment of the present invention;
fig. 3 is a circuit diagram of a timing module of an internet of things smart key cabinet control system according to a preferred embodiment of the present invention;
fig. 4 is a circuit diagram of a vibration sensing module of an internet of things smart key cabinet control system according to a preferred embodiment of the present invention;
fig. 5 is a circuit diagram of an electronic lock cylinder subsystem of an internet of things intelligent key cabinet control system according to a preferred embodiment of the utility model.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.
Fig. 1 shows a preferred embodiment of the present invention, which includes an intelligent control subsystem 1, an intelligent key subsystem 2 and an electronic lock cylinder subsystem 3; the intelligent control subsystem 1 is in communication connection with the intelligent key subsystem 2; the intelligent control subsystem 1 comprises a data acquisition part 11 and a data transmission part 12; the data acquisition part 11 is in communication connection with the data transmission part 12; the data acquisition part 11 comprises a first controller 111, a first power supply module 112, a water level sensing module 113, a travel switch module 114, a temperature and humidity sensing module 115, a flame sensing module 116, a timing module 117 and a first wireless communication module 118; the water level sensing module 113, the travel switch module 114, the temperature and humidity sensing module 115, the flame sensing module 116, the timing module 117, and the first wireless communication module 118 are electrically connected to the first power module 112, respectively, and the water level sensing module 113, the travel switch module 114, the temperature and humidity sensing module 115, the flame sensing module 116, the timing module 117, and the first wireless communication module 118 are electrically connected to the first controller 111, respectively; the data transmitting part 12 includes a second controller 121 and a second wireless communication module 122; the second wireless communication module 122 is electrically connected to the second controller 121, and the second wireless communication module 122 is communicatively connected to the first wireless communication module 118. The data acquisition part 11 is used for acquiring sensing data and working information data in the light cross-connecting box body; the data sending part 12 is used for receiving the sensing data and the working information data and sending the sensing data and the working information data to a remote server; the intelligent key subsystem 2 is used for data interaction with the electronic lock cylinder subsystem, namely password matching; in the data acquisition part 11, the first power module 112 is configured to provide a rated working voltage for the data acquisition part and the data transmission part; the water level sensing module 113 is used for detecting the height of the water level in the light cross-connecting box; the travel switch module 114 is used to send a travel switch touch signal to the first controller; the temperature and humidity sensing module 115 is used for detecting the temperature and humidity condition in the optical delivery box; the flame sensing module 116 is used for detecting whether sparks occur in the light cross box; the timing module 117 is configured to implement a timing function; the first wireless communication module 118 is used for realizing wireless data transmission with the data transmission part 12; in the data transmitting part 12, the second controller 121 is configured to control the second wireless communication module 122 to implement wireless data transmission with a remote server. Therefore, the utility model can realize the remote monitoring and management of the intelligent key cabinet light delivery box and enhance the working reliability of the intelligent key cabinet light delivery box.
Preferably, referring to fig. 2, the data acquisition part 11 further includes a display module 119; the display module 119 is electrically connected to the first power module 112 and the first controller 111, respectively. It can be understood that the display module 119 is used for displaying the operating parameters of the optical cross-connect box and implementing the auxiliary programming debugging function. In the present embodiment, the display module 119 displays through a liquid crystal LCD Nokia 411.
Preferably, referring to fig. 4, the data acquisition part 11 further includes a vibration sensing module 120, and the vibration sensing module 120 is electrically connected to the first power module 112 and the first controller 111, respectively. It can be understood that, in the present embodiment, the vibration sensing module 120 is used for detecting vibration and shock generated when the light cross box is stolen, and the chip model of the vibration sensing module 120 is MMA8452QR1H triaxial acceleration sensor.
Preferably, the second wireless communication module 122 is a GPRS module; the chip model of the GPRS module is SIM 900A.
Preferably, the first controller 111 and the second controller 121 are Single-Chip microcomputers (micro control units, which are also called Single Chip microcomputers) or Single-Chip microcomputers, which means that a CPU, a RAM, a ROM, a timing counter and various I/O interfaces of a computer are integrated on one Chip), and in this embodiment, the models of the first controller 111 and the second controller 121 are both STM32L152RBT 6. In another preferred embodiment, the chip types of the first controller 111 and the second controller 121 are not particularly limited.
Preferably, the smart key subsystem 2 includes a second power module 21, a third controller 22 and a third wireless communication module 23; the third controller 22 and the third wireless communication module 23 are electrically connected to the second power module 21, respectively; the third wireless communication module 23 is electrically connected to the third controller 22.
Preferably, the smart key subsystem 2 further comprises a key module 24 and a buzzer module 25; the key module 24 and the buzzer module 25 are electrically connected to the second power module 21, respectively, and the key module 24 and the buzzer module 25 are electrically connected to the third controller 22, respectively.
Specifically, referring to fig. 5, the electronic subsystem includes a fourth controller U1, an electromagnet unit, and a switch unit. And the fourth controller UI is used for carrying out communication matching password matching with the intelligent electronic subsystem, so that the high and low levels of an IO port of the single chip microcomputer are controlled to drive a PNP triode in the switch unit to control the current of the electromagnet unit, and the unlocking purpose is achieved. In the present embodiment, the model of the fourth controller U1 is ATmega88PA, and in another preferred embodiment, the model of the fourth controller U1 is not particularly limited.
Preferably, in the electronic lock cylinder subsystem 3, on one hand, the electromagnetic field of the electronic lock cylinder is controlled to attract and arrange the secondary magnetic cores, so as to realize the closing control of the electronic lock cylinder; on the other hand, the electronic lock cylinder subsystem and the intelligent key subsystem need to be subjected to password matching; the electronic lock cylinder subsystem is powered by the intelligent key subsystem 2; the electronic lock cylinder subsystem stores a user unlocking password, and the password can be replaced through a downloader; the user password of unblanking is applied to normally unblanking the operation, and the user can also carry out password modification outside normally unblanking the operation. The user grants the corresponding password of the intelligent key subsystem 2 to open different light traffic boxes, and each electronic lock cylinder subsystem uses different passwords; when the interface of the intelligent key subsystem 2 and the interface of the electronic lock cylinder subsystem are in butt joint, a key on the key module 24 is pressed, the intelligent key subsystem 2 sends an unlocking password to the electronic lock cylinder subsystem 3, and if the password matching is completed, the electronic lock cylinder subsystem 3 feeds back a matching success code, so that the unlocking is successful; the key module is provided with an on-off key and a door opening key, and the on-off key is used for shifting the on-off key to electrify the electronic key; and when the door opening key is pressed down, the intelligent key subsystem 2 and the electronic lock cylinder subsystem perform data interaction, and simultaneously start to transmit identity information to the third controller 22, and the password pairing is successful and the key is turned to open the door through the prompt of the indicator lamp. In this embodiment, after the smart key subsystem 2 reads the password from the electronic lock cylinder subsystem, it compares the password with its own rights library. After successful pairing, the bolt is pulled out of the driving coil of the electronic lock cylinder subsystem 3, and the key can be rotated to unlock. When the electronic key is opened, the electronic key and the third controller 22 need to store the identity of the electronic key in the internal memory of the third controller, wait for uploading together with other data through the second wireless communication module 122 in the data sending part 12, and add the opening time and the identity of the opening key in the uploaded data.
Preferably, referring to fig. 3, the model of the third controller of this embodiment is ATmega88 PA; the chip model of the temperature and humidity sensing module 115 is DTH11, the chip models of the second wireless communication module 122 and the third wireless communication module 23 are nRF24L01, and the chip model of the timing module is RX 8025; the water level sensing module 113 and the flame sensing module 116 are triggered, and the output end of the water level sensing module is electrically connected with the IO port of the first controller by sending a switching value number 01.
In summary, the control system of the internet of things intelligent key cabinet provided by the utility model comprises an intelligent control subsystem 1, an intelligent key subsystem 2 and an electronic lock cylinder subsystem 3; the intelligent control subsystem 1 is in communication connection with the intelligent key subsystem 2; the intelligent control subsystem 1 comprises a data acquisition part 11 and a data transmission part 12; the data acquisition part 11 is in communication connection with the data transmission part 12; the data acquisition part 11 comprises a first controller 111, a first power supply module 112, a water level sensing module 113, a travel switch module 114, a temperature and humidity sensing module 115, a flame sensing module 116, a timing module 117 and a first wireless communication module 118; the water level sensing module 113, the travel switch module 114, the temperature and humidity sensing module 115, the flame sensing module 116, the timing module 117, and the first wireless communication module 118 are electrically connected to the first power module 112, respectively, and the water level sensing module 113, the travel switch module 114, the temperature and humidity sensing module 115, the flame sensing module 116, the timing module 117, and the first wireless communication module 118 are electrically connected to the first controller 111, respectively; the data transmitting part 12 includes a second controller 121 and a second wireless communication module 122; the second wireless communication module 122 is electrically connected to the second controller 121, and the second wireless communication module 122 is communicatively connected to the first wireless communication module 118. The data acquisition part 11 is used for acquiring sensing data and working information data in the light cross-connecting box body; the data sending part 12 is used for receiving the sensing data and the working information data and sending the sensing data and the working information data to a remote server; the intelligent key subsystem 2 is used for data interaction with the electronic lock cylinder subsystem, namely password matching; in the data acquisition part 11, the first power module 112 is configured to provide a rated working voltage for the data acquisition part and the data transmission part; the water level sensing module 113 is used for detecting the height of the water level in the light cross-connecting box; the travel switch module 114 is used to send a travel switch touch signal to the first controller; the temperature and humidity sensing module 115 is used for detecting the temperature and humidity condition in the optical delivery box; the flame sensing module 116 is used for detecting whether sparks occur in the light cross box; the timing module 117 is configured to implement a timing function; the first wireless communication module 118 is used for realizing wireless data transmission with the data transmission part 12; in the data transmitting part 12, the second controller 121 is configured to control the second wireless communication module 122 to implement wireless data transmission with a remote server. Therefore, the utility model can realize the remote monitoring and management of the intelligent key cabinet light delivery box and enhance the working reliability of the intelligent key cabinet light delivery box.
The internet of things intelligent key cabinet control system provided by the utility model is described in detail, a specific example is applied in the text to explain the principle and the implementation mode of the utility model, and the description of the embodiment is only used for helping to understand the method and the core idea of the utility model; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be a change in the specific implementation and application scope, and in summary, the content of the present specification is only an implementation of the present invention, and not a limitation to the scope of the present invention, and all equivalent structures or equivalent flow transformations made by the content of the present specification and the attached drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention. And should not be construed as limiting the utility model.
Claims (6)
1. An Internet of things intelligent key cabinet control system is characterized by comprising an intelligent control subsystem, an intelligent key subsystem and an electronic lock cylinder subsystem; the intelligent control subsystem is in communication connection with the intelligent key subsystem; the intelligent control subsystem comprises a data acquisition part and a data transmission part; the data acquisition part is in communication connection with the data transmission part; the data acquisition part comprises a first controller, a first power module, a water level sensing module, a travel switch module, a temperature and humidity sensing module, a flame sensing module, a timing module and a first wireless communication module; the water level sensing module, the travel switch module, the temperature and humidity sensing module, the flame sensing module, the timing module and the first wireless communication module are respectively and electrically connected with the first power module, and the water level sensing module, the travel switch module, the temperature and humidity sensing module, the flame sensing module, the timing module and the first wireless communication module are respectively and electrically connected with the first controller; the data sending part comprises a second controller and a second wireless communication module; the second wireless communication module is electrically connected with the second controller and is in communication connection with the first wireless communication module.
2. The internet of things intelligent key cabinet control system as claimed in claim 1, wherein the data acquisition part further comprises a display module; the display module is electrically connected with the first power supply module and the first controller respectively.
3. The internet of things intelligent key cabinet control system as claimed in claim 2, wherein the data acquisition part further comprises a vibration sensing module, and the vibration sensing module is electrically connected with the first power module and the first controller respectively.
4. The internet of things intelligent key cabinet control system according to claim 1, wherein the second wireless communication module is a GPRS module; the chip model of the GPRS module is SIM 900A.
5. The internet of things smart key cabinet control system of claim 1, wherein the smart key subsystem comprises a second power module, a third controller and a third wireless communication module; the third controller and the third wireless communication module are respectively and electrically connected with the second power supply module; the third wireless communication module is electrically connected with the third controller.
6. The internet of things smart key cabinet control system of claim 5, wherein the smart key subsystem further comprises a key module and a buzzer module; the key module and the buzzer module are respectively and electrically connected with the second power supply module, and the key module and the buzzer module are respectively and electrically connected with the third controller.
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CN202121182473.XU CN215576722U (en) | 2021-05-28 | 2021-05-28 | Thing networking intelligence key cabinet control system |
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CN202121182473.XU CN215576722U (en) | 2021-05-28 | 2021-05-28 | Thing networking intelligence key cabinet control system |
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