CN210666934U - LoRa access control ware - Google Patents
LoRa access control ware Download PDFInfo
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- CN210666934U CN210666934U CN201921858528.7U CN201921858528U CN210666934U CN 210666934 U CN210666934 U CN 210666934U CN 201921858528 U CN201921858528 U CN 201921858528U CN 210666934 U CN210666934 U CN 210666934U
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Abstract
The utility model discloses a loRa access control ware, including host system, loRa communication module, 4G communication module, first card reader control module that advances, second card reader control module, first card reader control module that gos out, second card reader control module that gos out, first button control module, second button control module, first door magnetism drive module, second door magnetism drive module, first door magnetism state detection module, second door magnetism state detection module, time delay protection module, power module, loRa basic station, the utility model discloses support line communication simultaneously, loRa communication, 4G communication, can satisfy the entrance guard's demand under the various scenes of different communities, can be used for two access control simultaneously, for example two-door two-way unit doors, saving equipment cost and installation cost.
Description
Technical Field
The invention relates to the field of intelligent communities, in particular to a LoRa access controller.
Background
The access control system is an important ring of the intelligent community, and the use condition of the access control system is directly related to community security and community resident trip experience. The existing access control technology mainly comprises a wired scheme, a common card swiping mode, a common face recognition mode and a common fingerprint recognition mode, wherein data are stored locally and transmitted in a local area network; secondly, a wireless scheme, such as cellular communication or NB-IoT communication, is high in cost, depends on a base station of an operator, and can only be suitable for a scene with good GPRS signal coverage; the above technical schemes have single function, and the same product cannot be compatible with multiple communication modes and cannot meet various scene requirements.
SUMMERY OF THE UTILITY MODEL
The utility model aims at overcoming not enough in the current product, provide a loRa access control ware.
In order to achieve the purpose, the utility model is realized by the following technical scheme:
a LoRa access control device comprises a main control module, a LoRa communication module, a 4G communication module, a first door entering card reader control module, a second door entering card reader control module, a first door exiting card reader control module, a second door exiting card reader control module, a first button control module, a second button control module, a first door magnetic driving module, a second door magnetic driving module, a first door magnetic state detection module, a second door magnetic state detection module, a time delay protection module, a power supply module and a LoRa base station, wherein the LoRa communication module, the 4G communication module, the first door entering card reader control module, the second door entering card reader control module, the first door exiting card reader control module, the second door exiting card reader control module, the first button control module, the second button control module, the first door magnetic driving module, the second door magnetic driving module, the first door magnetic state detection module, the second door magnetic state detection module, The second door magnetic state detection module, the time delay protection module and the power supply module are all in wired connection with the main control module, the loRa communication module is in wired connection with a loRa base station, the first door entry card reader control module, the first door exit card reader control module, the first button control module, the first door magnetic drive module and the first door magnetic state detection module are installed on the first door entry and exit, and the second door entry card reader control module, the second door exit card reader control module, the second button control module, the second door magnetic drive module and the second door magnetic state detection module are installed on the second door entry and exit.
The first door magnetic state detection module and the second door magnetic state detection module control module are used for detecting the state of the door lock.
The first door magnetic driving module and the second door magnetic driving module are used for executing door opening or door closing actions according to the instruction of the main control module.
The LoRa base station is used for communicating with the cloud server.
The main control module is internally provided with an STM32F107 chip.
The LoRa communication module adopts an S78S radio frequency chip.
The 4G communication module is in wired connection with the main control module through a Mini-PCI-E interface.
The utility model has the advantages as follows: the utility model discloses support wired communication simultaneously, loRa communication, 4G communication, can satisfy the entrance guard's demand under the various scenes of different communities, can be used for the control of two entrance guards simultaneously, for example two-way unit door of door, especially under the loRa communication mode, because under its transmission distance's advantage, a community only needs a loRa base station can manage all loRa access control wares, communicate through standard LoRaWAN wireless network between controller and the base station, the cost of construction wiring has greatly been saved, can also form advantage complementary with 4G communication mode; the double-door bidirectional mode is supported, and the double-door bidirectional mode can be used for community gates and community unit doors, so that the equipment cost and the installation cost are saved; first door magnetic state detection module, second door magnetic state detection module control module are used for detecting the state of lock, consequently detect the unusual state of lock and will in time report to host system when first door magnetic state detection module, second door magnetic state detection module control module, and host system reports through the loRa basic station and reports for high in the clouds server, then pushes away for relevant managers to reduce the potential safety hazard.
Drawings
Fig. 1 is a system block diagram of the present invention.
Detailed Description
The technical scheme of the utility model is further explained by combining the attached drawings of the specification:
as shown in fig. 1, a LoRa access controller includes a main control module 1, a LoRa communication module 2, a 4G communication module 3, a first entry card reader control module 4, a second entry card reader control module 5, a first exit card reader control module 6, a second exit card reader control module 7, a first button control module 8, a second button control module 9, a first door magnetic driving module 10, a second door magnetic driving module 11, a first door magnetic state detecting module 12, a second door magnetic state detecting module 13, a time-delay protection module 14, a power supply module 15, and a LoRa base station 16, where the LoRa communication module 2, the 4G communication module 3, the first entry card reader control module 4, the second entry card reader control module 5, the first exit card reader control module 6, the second exit card reader control module 7, the first button control module 8, the second button control module 9, The first door magnetic driving module 10, the second door magnetic driving module 11, the first door magnetic state detecting module 12, the second door magnetic state detecting module 13, the time delay protection module 14 and the power supply module 15 are all in wired connection with the main control module 1, the LoRa communication module 2 is in wired connection with the LoRa base station 16, the first door entering card reader control module 4, the first door exiting card reader control module 6, the first button control module 8, the first door magnetic driving module 10 and the first door magnetic state detecting module 12 are installed on a first door, and the second door entering card reader control module 5, the second door exiting card reader control module 7, the second button control module 9, the second door magnetic driving module 11 and the second door magnetic state detecting module 13 are installed on a second door.
The first door magnetic state detection module 12 and the second door magnetic state detection module 13 are used for detecting the state of the door lock. The first door magnetic state detection module 12 is used for detecting the state of a first door lock of the access door, the second door magnetic state detection module 12 is used for detecting the state of a second door lock of the access door, and the first door magnetic drive module 10 and the second door magnetic drive module 11 are both used for executing door opening or door closing actions according to instructions of the main control module 1. The LoRa base station 16 is configured to communicate with a cloud server.
The main control module 1 is internally provided with an STM32F107 chip. The main control module 1 is responsible for information processing and control of the whole system, is internally provided with an STM32F107 chip and has strong data processing capacity and computing capacity; the large-capacity Flash memory can store offline data and keep the offline data from being lost permanently.
The LoRa communication module 2 employs an S78S rf chip. LoRa communication module mainly receives and dispatches signal by radio frequency chip S78S, connects through serial ports and host system downwards, realizes data interaction, upwards carries out data communication through LoRaWAN wireless network and LoRa base station.
The 4G communication module 3 is in wired connection with the main control module 1 through a Mini-PCI-E interface.
The first button control module 8 and the second button control module 9 are connected with the door opening button through two core wires, and send a door magnetic signal of the door opening button to the main control module.
The first door card reader control module and the second door card reader control module convert the read intelligent card information into electric signals and then send the electric signals to the main control module, and the first door card reader control module and the second door card reader control module are installed on the outer side of the door.
The first going-out card reader control module 6 and the second going-out card reader control module 7 convert the read smart card information into electric signals and send the electric signals to the main control module, and the first going-out card reader control module 6 and the second going-out card reader control module 7 are both installed on the inner side of the door.
The first door magnetic driving module 10 and the second door magnetic driving module 11 both execute door opening or door closing actions according to the instruction of the main control module.
And the power module is power supply equipment of the whole system and has an overcurrent and overvoltage protection function.
The utility model discloses support wired communication simultaneously, loRa communication, 4G communication, can satisfy the entrance guard's demand under the various scenes of different communities, can be used for the control of two entrance guards simultaneously, for example two-way unit door of door, especially under the loRa communication mode, because under its transmission distance's advantage, a community only needs a loRa base station can manage all loRa access control wares, communicate through standard LoRaWAN wireless network between controller and the base station, the cost of construction wiring has greatly been saved, can also form advantage complementary with 4G communication mode; the double-door bidirectional mode is supported, and the double-door bidirectional mode can be used for community gates and community unit doors, so that the equipment cost and the installation cost are saved; first door magnetic state detection module, second door magnetic state detection module control module are used for detecting the state of lock, consequently detect the unusual state of lock and will in time report to host system when first door magnetic state detection module, second door magnetic state detection module control module, and host system reports through the loRa basic station and reports for high in the clouds server, then pushes away for relevant managers to reduce the potential safety hazard.
It should be noted that the above list is only one specific embodiment of the present invention. Obviously, the present invention is not limited to the above embodiments, and many modifications can be made, and in short, all modifications that can be directly derived or suggested by the person skilled in the art from the disclosure of the present invention should be considered as the protection scope of the present invention.
Claims (4)
1. The LoRa access control device is characterized by comprising a main control module (1), a LoRa communication module (2), a 4G communication module (3), a first door entering card reader control module (4), a second door entering card reader control module (5), a first door exiting card reader control module (6), a second door exiting card reader control module (7), a first button control module (8), a second button control module (9), a first door magnetic driving module (10), a second door magnetic driving module (11), a first door magnetic state detection module (12), a second door magnetic state detection module (13), a time delay protection module (14), a power supply module (15) and a LoRa base station (16), wherein the LoRa communication module (2), the 4G communication module (3), the first door entering card reader control module (4), the second door entering card reader control module (5), The door control system comprises a first door-out card reader control module (6), a second door-out card reader control module (7), a first button control module (8), a second button control module (9), a first door magnetic drive module (10), a second door magnetic drive module (11), a first door magnetic state detection module (12), a second door magnetic state detection module (13), a time-delay protection module (14) and a power supply module (15), wherein the first door magnetic state detection module (6), the second door magnetic drive module (7), the first door magnetic state detection module (12), the first door-in card reader control module (4), the first door-out card reader control module (6), the first button control module (8), the first door magnetic drive module (10) and the LoRa base station (16) are connected in a wired mode, the first door-in card reader control module (4), the first door-out card reader control module (6), the first button control module (8), the first door magnetic drive module (10) and the first door magnetic state detection module (12) are installed on a first door, and, The second button control module (9), the second door magnetic driving module (11) and the second door magnetic state detection module (13) are installed on the second access door.
2. The LoRa door access controller according to claim 1, wherein the first door magnetic state detection module (12) and the second door magnetic state detection module (13) are both configured to detect a state of a door lock.
3. The LoRa door access controller according to claim 1, wherein the first door magnetic driving module (10) and the second door magnetic driving module (11) are both configured to perform a door opening or closing action according to a command of the main control module (1).
4. A LoRa access controller according to claim 1, wherein the LoRa base station (16) is configured to communicate with a cloud server.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921858528.7U CN210666934U (en) | 2019-10-31 | 2019-10-31 | LoRa access control ware |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921858528.7U CN210666934U (en) | 2019-10-31 | 2019-10-31 | LoRa access control ware |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN210666934U true CN210666934U (en) | 2020-06-02 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201921858528.7U Active CN210666934U (en) | 2019-10-31 | 2019-10-31 | LoRa access control ware |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN210666934U (en) |
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2019
- 2019-10-31 CN CN201921858528.7U patent/CN210666934U/en active Active
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| TR01 | Transfer of patent right |
Effective date of registration: 20200902 Address after: No.308, 3rd floor, building 14, Huajiadi Beili, Chaoyang District, Beijing 100020 Patentee after: BEIJING YOUNUO TECHNOLOGY Co.,Ltd. Address before: 310000 room 919, building 1, No. 388, Fengtan Road, Gongshu District, Hangzhou City, Zhejiang Province Patentee before: Hangzhou Ji Lian Intelligent Technology Co.,Ltd. |