CN219080152U - Intelligent building access control device - Google Patents

Abstract

The application relates to the field of intelligent buildings, in particular to an intelligent building access control device, which comprises a gate assembly, a control module and an identification module connected to the control module in a communication manner; the brake assembly comprises at least two brake bases and at least two rotation blocking pieces, the two rotation blocking pieces are respectively arranged on the adjacent sides of the two brake bases, and the control module is in communication connection with the rotation blocking pieces; the identification module comprises an entering identification unit and an exiting identification unit; the entrance identification unit comprises an entrance reading clip unit and an entrance number confirmation subunit which are respectively connected with the control module in a communication way; the outgoing identification unit comprises an outgoing button subunit and an outgoing number confirmation subunit which are respectively connected with the control module in a communication way; the system also comprises a timing module and a counting module which are respectively connected with the control module in a communication way. This application has the effect that promotes the convenience of business turn over entrance guard.

Description

Intelligent building access control device

Technical Field

The application relates to the field of intelligent buildings, in particular to an intelligent building access control device.

Background

The core of the intelligent building is a 5A system, the intelligent building organically integrates the 5 systems through a communication network system, and integrates the structure, the system, the service, the management and the optimal combination among the systems, so that the building has the characteristics of safety, convenience, high efficiency and energy conservation. Intelligent building is an discipline of edge crossing, involving computer technology, automation, communication technology, building technology, etc., and there are increasing new technologies applied in intelligent building.

In the existing community entrance guard, personnel passing through the entrance guard often adopt card swiping, face swiping, password inputting or other modes to enter and exit the community. However, when multiple people need to be queued into or out of a cell through the entrance guard, the entrance guard firstly identifies information of the first person, and then other people often adopt to directly follow the first person to enter or go out of the cell together. However, the time of the entrance guard when opening is usually fixed, after a certain opening time is reached, the entrance guard can be automatically closed, personnel can be clamped by the entrance guard, and the efficiency of personnel in turn identifying the entrance guard is lower, so that the convenience of the entrance guard is still to be improved.

Disclosure of Invention

In order to promote the convenience of business turn over entrance guard, this application provides an intelligent building entrance guard's device.

The application provides an intelligent building entrance guard device adopts following technical scheme:

an intelligent building access control device comprises a gate assembly, a control module and an identification module which is connected to the control module in a communication way; the brake assembly comprises at least two brake bases and at least two rotation blocking pieces, the two rotation blocking pieces are respectively arranged on the adjacent sides of the two brake bases, and the control module is in communication connection with the rotation blocking pieces and can control the rotation of the rotation blocking pieces; the identification module can identify personnel entering and exiting the gate seat; the identification module comprises an entering identification unit and an exiting identification unit;

the entrance identification unit comprises an entrance reading clip unit and an entrance number confirmation subunit which are respectively connected with the control module in a communication way; the outgoing identification unit comprises an outgoing button subunit and an outgoing number confirmation subunit which are respectively connected with the control module in a communication way; the entrance number confirming subunit and the exit number confirming subunit can be used for carrying out number identification;

the system also comprises a timing module and a counting module which are respectively connected with the control module in a communication way.

Through adopting above-mentioned technical scheme, when personnel get into the district, the person that advances the door confirms the subunit and confirms the person that advances the district, and the count module is recorded the person, and the timing module obtains a corresponding entrance guard and advances a time of opening, then personnel swipe the card on advancing the card reading unit, then two rotation blocking pieces between two floodgate frames of control module control rotate to the time of opening of entrance guard is controlled according to the person that gets into the district. Similarly, when a person goes out from the community, the people number of the outgoing community is confirmed by the people number confirmation subunit, the counting module records the people number, the timing module obtains corresponding time for opening the door access, then the person presses the door access button subunit, and the control module controls the two rotation blocking pieces between the two gate bases to rotate, so that the time for opening the door access is controlled according to the people number of the outgoing community. Therefore, the possibility that people are clamped due to the fact that the number of people is large is reduced, and convenience in entering and exiting the entrance guard is improved.

Optionally, the device further comprises a storage module, and the entrance recognition unit further comprises an entrance face recognition subunit;

the storage module and the entrance face recognition subunit are respectively in communication connection with the control module.

Through adopting above-mentioned technical scheme, memory module stores personnel's face information, and when personnel business turn over district, personnel also can pass through the entrance guard through face identification to provide the selection of face identification for personnel's business turn over, and then promote the convenience through the entrance guard.

Optionally, the entry recognition unit further comprises an entry codon unit communicatively coupled to the control module.

By adopting the technical scheme, when people enter and exit the cell, people can enter through inputting passwords on the entrance codon unit, and if people entering the cell do not enter a face or carry an identification card, people can enter the cell through inputting the passwords.

Optionally, the entrance number confirmation subunit and the exit number confirmation subunit are both selected as the portrait cameras.

Through adopting above-mentioned technical scheme, the portrait camera has better number recognition effect, can effectively discern the personnel that business turn over district and pass through the entrance guard.

Optionally, the brake assembly further comprises an infrared sensing module, wherein the infrared sensing module comprises an infrared emission unit and an infrared receiving unit which are respectively in communication connection with the control module;

the infrared emission unit and the infrared receiving unit are respectively arranged on the adjacent sides of the two brake bases, and the infrared rays emitted by the infrared emission unit can irradiate on the infrared receiving unit.

By adopting the technical scheme, when the infrared rays emitted by the infrared emission unit can irradiate on the infrared receiver, no personnel passes through the two gate bases. When the infrared rays emitted by the infrared emission unit cannot irradiate on the infrared receiver, personnel pass through the two gate bases. Therefore, the number of people passing through the two gate bases can be determined through the infrared emission unit and the infrared receiving unit, if the infrared rays of the infrared emission unit can irradiate on the infrared receiver for a long time, and when the opening time of the gate inhibition is not reached, the rotation blocking piece rotates, so that the gate inhibition is closed.

Optionally, a delay module is connected between the infrared receiving unit and the control module.

Through adopting above-mentioned technical scheme, when personnel pass through the entrance guard, through the time that delays entrance guard and close can reduce the possibility of pressing from both sides the people.

Optionally, the infrared transmitting unit is an infrared transmitter, and the infrared receiving unit is an infrared receiver.

By adopting the technical scheme, the infrared emitter and the infrared receiver are common infrared devices, so that the manufacturing cost of the access control device can be effectively reduced.

Optionally, the rotation blocking piece comprises a rotation motor arranged vertically, a rotation shaft coaxially arranged at the driving end of the rotation motor and a rotation plate arranged on the rotation shaft; the rotating motor is in communication connection with the control module.

Through adopting above-mentioned technical scheme, when control module control rotation motor during operation, the drive end of rotation motor can drive the coaxial rotation of axis of rotation to make the pivoted panel rotate, thereby make the entrance guard open or close.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the entrance guard device controls the opening time of the entrance guard according to the number of people in an outgoing district, so that the possibility that people are clamped due to the fact that the number of people is large can be reduced, and convenience in entering and exiting the entrance guard is improved.

Drawings

FIG. 1 is a schematic diagram of a gate assembly according to an embodiment of the present application.

Fig. 2 is a control schematic block diagram of an embodiment of the present application.

Reference numerals: 1. a gate assembly; 11. an infrared sensing module; 111. an infrared emission unit; 112. an infrared receiving unit; 113. a delay unit; 12. a rotation blocking member; 121. a rotating motor; 122. a rotating shaft; 123. a blocking plate; 13. a brake base; 2. a control module; 3. a timing module; 4. an identification module; 41. entering an identification unit; 411. a door-entering and reading clip unit; 412. a door-face recognition subunit; 413. an entry codon unit; 414. a door-entering number confirmation subunit; 42. an outgoing identification unit; 421. a door-out button subunit; 422. a attendance number confirmation subunit; 5. a counting module; 6. a transmission module; 7. and a storage module.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-2.

The embodiment of the application discloses an intelligent building access control device.

Referring to fig. 1, the intelligent building access control device comprises a gate assembly 1, a control module 2, a timing module 3, an identification module 4, a counting module 5, a transmission module 6 and a storage module 7. The gate assembly 1, the timing module 3, the identification module 4, the counting module 5, the transmission module 6 and the storage module 7 are respectively in communication connection with the control module 2. The memory module 7 is selected as a memory.

Referring to fig. 1 and 2, the brake assembly 1 includes an infrared sensing module, two rotation stoppers 12, and two brake stands 13. In the present embodiment, the rotation blocking member 12 and the brake housing 13 are two. In other embodiments, the gate base 13 may be N, N >2. The rotation blocking members 12 are selected to be 2 (N-1) corresponding to the gate frames 13. The number of the infrared sensing modules is N-1.

The two gate bases 13 are fixedly connected with the entrances and exits of the cells side by side, and the two rotating pieces are respectively arranged on the two gate bases 13 one by one. The infrared sensing module comprises an infrared transmitting unit 111 and an infrared receiving unit 112, and the infrared transmitting unit 111 and the infrared receiving unit 112 are respectively arranged on adjacent sides of the two brake bases 13. In the embodiment of the present application, the infrared transmitting unit 111 is selected as an infrared transmitter, the infrared receiving unit 112 is selected as an infrared receiver, and the infrared rays emitted by the infrared transmitter can be irradiated on the infrared receiver. And the infrared emitter and the infrared receiver are respectively in communication connection with the control module 2.

When the infrared rays emitted by the infrared emitting unit 111 can be irradiated on the infrared receiver, no one passes through the two gate housings 13. When the infrared rays emitted from the infrared emitting unit 111 cannot be irradiated on the infrared receiver, a person passes through the two shutter bases 13. Thus, the number of persons passing through the two brake stands 13 can be determined by the infrared transmitting unit 111 and the infrared receiving unit 112.

Referring to fig. 1 and 2, the rotation blocking member 12 includes a rotation motor 121, a rotation shaft 122, and a blocking plate 123. The rotary motor 121 is fixedly connected to the brake housing 13, and the driving end of the rotary motor 121 is vertically upward. One end of the rotation shaft 122 is coaxially and fixedly connected to the driving end of the rotation motor 121, and the other end is rotatably connected to the brake housing 13. And the rotation shaft 122 is exposed out of the brake base 13, one end of the blocking plate 123 is sleeved on the side wall of the rotation shaft 122, and the other end can swing under the rotation of the rotation shaft 122. Meanwhile, the rotation motor 121 is connected with the control module 2 in communication. When the rotation motor 121 drives the rotation shaft 122 to coaxially rotate, the blocking plate 123 can open or block the entrance guard passage.

Meanwhile, a delay unit 113 is arranged between the infrared receiving unit 112 and the control module 2, the infrared receiving unit 112 and the control module 2 are respectively in communication connection with the delay unit 113, and the infrared receiving unit 112 is in communication connection with the control module 2 through the delay unit 113. The delay unit 113 can delay the closing of the blocking plate 123 when a person passes through the two gate housings 13, thereby reducing the possibility of pinching the person.

In the embodiment of the application, the transmission module 6 is selected as an RS485 converter, and the transmission module 6 is in communication connection with a central control computer, and the central control computer can control the control module 2 through the transmission module 6. The control module 2 is selected as MCU, the timing module 3 is selected as timer, and the counting module 5 is selected as counter.

Referring to fig. 2, the identification module 4 includes an ingress identification unit 41 and an egress identification unit 42. The ingress and egress identification units 41 and 42 are communicatively connected to the control module 2, respectively. The ingress identification unit 41 is used to identify persons entering the cell and the egress identification unit 42 is used to identify persons being out of the cell.

The entry recognition unit 41 includes an entry reader subunit 411, an entry face recognition subunit 412, an entry codon subunit 413, and an entry person number confirmation subunit 414, which are communicatively connected to the control module 2, respectively. The card reading unit 411 is used for identifying the pass card carried by the personnel entering the district, in the embodiment of the application, the card reading unit 411 is selected as an RFID card reader, and the effective card reading distance of the RFID card reader can reach 3.5cm, so that the manufacturing cost is low and the identification is stable.

The entrance face recognition subunit 412 is configured to recognize a face of a person entering the cell, and in the embodiment of the present application, the entrance face recognition subunit 412 is selected as a face recognition camera. At the same time, a person entering the cell can enter the cell by entering the correct password through the entry codon unit 413. In this document, the entry codon unit 413 is selected as a codon plate.

The people number of the people entering the door can be confirmed by the people number confirmation subunit 414, so that the people number data is transmitted to the counting module 5 through the control module 2, and the timing module 3 is further enabled to time through the control module 2, so that the rotation time of the rotation motor 121 is controlled, the blocking time of the blocking plate 123 can be determined, and the time for opening the door can be determined according to the people number. In this process, the entrance number confirmation subunit 414 needs to cooperate with any one of the entrance read clip unit 411, the entrance face recognition subunit 412, and the entrance codon unit 413. In the embodiment of the present application, the entrance face recognition subunit 412 is selected as the first camera.

Referring to fig. 2, the egress identification unit 42 includes an egress button subunit 421 and an egress person confirmation subunit 422, which are respectively communicatively connected to the control module 2. In the embodiment of the present application, the exit button subunit 421 is selected as a switch button, and the exit people number confirmation subunit 422 is selected as a second portrait camera. The exit button subunit 421 is directly pressed when the people in the district exit, and the exit number confirmation subunit 422 determines the time when the entrance guard is opened according to the number of people.

The implementation principle of the intelligent building access control device provided by the embodiment of the application is as follows: when people enter and exit the cell, the entrance number confirmation subunit 414 and the exit number confirmation subunit 422 can respectively confirm the entrance number and the exit number, so that the entrance number and the exit number are recorded through the counting module 5, then the time for opening and closing the gate can be determined according to the number of people through the timing module 3, then the control module 2 can control the opening and closing time of the gate assembly 1 according to the entrance number or the exit number, so that the possibility that the people are clamped by the gate is reduced, and the convenience of entering and exiting the gate is improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. An intelligent building access control device comprises a gate assembly (1), a control module (2) and an identification module (4) which is connected to the control module (2) in a communication way; the brake assembly (1) comprises at least two brake bases (13) and at least two rotation blocking pieces (12), wherein the two rotation blocking pieces (12) are respectively arranged on adjacent sides of the two brake bases (13), and the control module (2) is in communication connection with the rotation blocking pieces (12) and can control the rotation of the rotation blocking pieces (12); the identification module (4) can identify personnel entering and exiting the gate seat (13); the method is characterized in that: the identification module (4) comprises an ingress identification unit (41) and an egress identification unit (42);

the entrance identification unit (41) comprises an entrance reading clip unit (411) and an entrance number confirmation subunit (414) which are respectively connected with the control module (2) in a communication way; the outgoing identification unit (42) comprises an outgoing button subunit (421) and an outgoing number confirmation subunit (422) which are respectively connected with the control module (2) in a communication mode; the entrance number confirming subunit (414) and the exit number confirming subunit (422) can both identify the number of people;

the device also comprises a timing module (3) and a counting module (5) which are respectively connected with the control module (2) in a communication way.

2. The intelligent building access control device of claim 1, wherein: the device also comprises a storage module (7), and the entrance recognition unit (41) also comprises an entrance face recognition subunit (412);

the storage module (7) and the entrance face recognition subunit (412) are respectively in communication connection with the control module (2).

3. The intelligent building access control device of claim 2, wherein: the entry recognition unit (41) further comprises an entry codon unit (413) communicatively connected to the control module (2).

4. An intelligent building access control device according to claim 3, wherein: the entrance number confirming subunit (414) and the exit number confirming subunit (422) are both selected as a portrait camera.

5. An intelligent building access control device according to claim 3, wherein: the brake assembly (1) further comprises an infrared sensing module, wherein the infrared sensing module comprises an infrared transmitting unit (111) and an infrared receiving unit (112) which are respectively in communication connection with the control module (2);

the infrared emission unit (111) and the infrared receiving unit (112) are respectively arranged on the adjacent sides of the two brake bases (13), and infrared rays emitted by the infrared emission unit (111) can irradiate on the infrared receiving unit (112).

6. The intelligent building access control device of claim 5, wherein: a time delay module is connected between the infrared receiving unit (112) and the control module (2).

7. The intelligent building access control device of claim 5, wherein: the infrared emission unit (111) is an infrared emitter, and the infrared receiving unit (112) is an infrared receiver.

8. The intelligent building access control device of claim 6, wherein: the rotation blocking piece (12) comprises a rotation motor (121) which is vertically arranged, a rotation shaft (122) which is coaxially arranged at the driving end of the rotation motor (121) and a rotation plate which is arranged on the rotation shaft (122); the rotating motor (121) is in communication connection with the control module (2).

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