CN115063911B

CN115063911B - Application method of intelligent channel gate system

Info

Publication number: CN115063911B
Application number: CN202210641660.2A
Authority: CN
Inventors: 李启家; 王桃; 陈宝俊; 曲飞宇; 谭玮; 王晶; 李代福
Original assignee: Shenzhen Boosted Goal Technology Co ltd
Current assignee: Shenzhen Boosted Goal Technology Co ltd
Priority date: 2022-06-07
Filing date: 2022-06-07
Publication date: 2022-12-20
Anticipated expiration: 2042-06-07
Also published as: CN115063911A

Abstract

The invention provides a use method of an intelligent channel gate system, which comprises the following steps that when a channel door is in an open state and an access door is in a closed state, if a first sensor detects that a detection area is occupied, a second sensor detects that the channel door is not occupied, and a third sensor detects that an outer area is not occupied, the channel door is switched to a closed state; the detection device carries out identity authentication on detection personnel in the detection area; if the detection result indicates that the detection personnel are the registered personnel, the access door is switched to an open state; if the first sensor detects that the detection area is unmanned, the access door is switched to a closed state, then the access door is switched to an open state, and the first step is carried out after the set time; and if the detection result shows that non-registered personnel exist in the detection personnel, the access door is switched to an open state, the non-registered personnel is reminded to leave the detection area, and the first step is carried out after the set time that the non-registered personnel leave the detection area is detected. Illegal trailing entry can be effectively prevented.

Description

Application method of intelligent channel gate system

Technical Field

The invention relates to the technical field of security protection, in particular to a using method of an intelligent channel gate system.

Background

Many buildings generally only allow designated personnel to enter due to safety considerations, and especially in living quarters, people pay more attention to the safety problems. In actual work and life, a registered person can open an access door in a card swiping mode, a fingerprint identification mode or a face identification mode. However, there is a certain potential safety hazard, and lawless persons can enter the building by following the registered person in a trailing manner.

Therefore, it is necessary to provide a method for using an intelligent channel gate system to solve the above-mentioned technical problems.

Disclosure of Invention

The invention provides a use method of an intelligent channel gate system, which aims to solve the technical problems that in the prior art, a registered person opens an entrance door in a card swiping mode, a fingerprint identification mode or a face identification mode, and lawbreakers can enter a building along with the registered person in a trailing mode and have certain potential safety hazards.

In order to solve the technical problems, the technical scheme of the invention is as follows:

a method for using a smart gateway system for controlling entrance and exit of a person into a building through the smart gateway system, the smart gateway system comprising:

the two limiting walls are arranged on the outer side of the access door, and an access passage leading to the access door is formed between the two limiting walls;

the access passage is divided into an inner area and an outer area by the passage door when the passage door is in a closed state, the inner area is close to the access door relative to the outer area, the inner area is provided with a detection area, the detection area is arranged adjacent to the outer area, the fixed end of the passage door is connected with the limiting wall, and when the passage door is in an open state, the moving end of the passage door is positioned in the outer area;

a first sensor disposed at the detection zone;

a second sensor positioned to correspond to the access door;

a third sensor disposed in the outer zone; and the number of the first and second groups,

the detection device is arranged at one end of the detection area far away from the outer area and is electrically connected with the access door and the passage door;

the use method of the intelligent channel gate system comprises the following steps:

s11, when the passage door is in an open state and the access door is in a closed state, if the first sensor detects that the detection area is occupied, the second sensor detects that the passage door is unoccupied, and the third sensor detects that the outer area is unoccupied, the passage door is switched to a closed state;

s12, the detection device carries out identity verification on the detection personnel in the detection area;

s13, if the detection result in the step S12 is that the detection personnel are the registered personnel, switching the access door to an open state; if the first sensor detects that the detection area is unmanned, the entrance and exit door is switched to a closed state, then the access door is switched to an open state, and the step S11 is carried out after a set time;

and S14, if the detection result in the step S12 indicates that non-registered persons exist in the detected persons, the access door is switched to an open state, the non-registered persons are reminded of leaving the detection area, and the step S11 is carried out after the set time for the non-registered persons to leave the detection area is detected.

In the method for using the intelligent gateway system of the present invention, the intelligent gateway system further includes a key disposed inside the access door and electrically connected to both the access door and the detection device, and the method for using the intelligent gateway system further includes the steps of:

s15, when the passage door is in an open state and the access door is in a closed state, if the first sensor detects that the detection area is free of people, the second sensor detects that the passage door is free of people and the third sensor detects that the outer area is free of people, responding to the instruction of the key and switching the access door to the open state after set time; if the first sensor detects that the detection area is occupied, or the second sensor detects that the access door is occupied, or the third sensor detects that the outer area is occupied, the instruction of the key is not responded.

In the method of using the intelligent channel gate system of the present invention, the first sensor is disposed at an end of the detection area away from the outer area, the third sensor is disposed at an end of the outer area away from the detection area, and the step S11 is to detect that there is a person at the end of the detection area away from the outer area by the first sensor, and detect that there is no person at the end of the outer area away from the detection area by the third sensor.

In the method for using the intelligent channel gate system, the step S12 is to perform identity verification on the detection personnel in the detection area through face recognition by the detection device.

In the method for using the intelligent gateway system of the present invention, the step S14 is to remind the non-registered person to leave the detection area by voice.

In the method for using the intelligent passage gate system, the step S12 further includes prompting the detecting person in the detection area to expose the face by voice if the detecting area has unidentified person.

In the use method of the intelligent passage gate system, one end of the inner area, which is close to the entrance door, is provided with an inspection-free area for accommodating inspection-free personnel, and the inspection-free area is positioned outside the shooting range of the detection device; the use method of the intelligent channel gate system comprises the following steps:

s21, when the access door is in an open state and the access door is in a closed state, if the non-inspection area has non-inspection personnel, the first sensor detects that the detection area has people, the second sensor detects that the access door has no people, and the third sensor detects that the outer area has no people, the access door is switched to a closed state;

s22, the detection device carries out identity verification on detection personnel in the detection area;

s23, if the detection result of the step S22 is that the detection personnel are the registered personnel, switching the access door to an open state; if the first sensor detects that the detection area is unmanned, the entrance door is switched to a closed state, then the access door is switched to an open state, and the step S21 is carried out after a set time;

and S24, if the detection result of the step S22 indicates that non-registered persons exist in the detection persons, the access door is switched to an open state, the non-registered persons are reminded of leaving the detection area, and the step S21 is switched to after the set time after the non-registered persons leave the detection area is detected.

In the use method of the intelligent channel gate system, the ground between the non-inspection area and the detection area is provided with a mark for distinguishing the non-inspection area from the detection area.

In the use method of the intelligent channel gate system, the detection device is arranged adjacent to one end of one limiting wall, the inspection-free area is arranged on one side of the detection device, and the inspection-free area is adjacent to the other limiting wall.

In the application method of the intelligent channel gate system, the maximum width of the non-inspection area is 0.62m-0.73m, and the maximum length of the non-inspection area is 0.59m-0.71m.

Compared with the prior art, the invention has the beneficial effects that: the invention discloses a using method of an intelligent passage gate system, which is characterized in that a passage door is in an open state and an entrance door is in a closed state under normal conditions, when a person exists in a detection area, the passage door does not exist, and an outer area does not exist, the passage door is closed, then whether all the persons in the detection area are registered persons is verified, if all the persons in the detection area are the registered persons, the entrance door is opened to enable the person in the detection area to enter a building through the entrance door, and if not all the persons are the registered persons, the passage door is opened to enable all the persons to leave the detection area. The use method of the intelligent passage gate system can only allow the registered personnel to enter, and effectively prevent the non-registered personnel from entering along with the registered personnel.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required in the embodiments are briefly introduced below, and the drawings in the following description are only corresponding to some embodiments of the present invention.

FIG. 1 is a schematic top view of the intelligent channel gate system of the present invention.

FIG. 2 is a flowchart illustrating a method for using an intelligent channel gate system corresponding to the intelligent channel gate system of the present invention.

FIG. 3 is a flowchart illustrating a second embodiment of a method for using an intelligent channel gate system corresponding to the intelligent channel gate system of the present invention.

Wherein the content of the first and second substances,

100. the door is opened or closed by a door opening or closing device,

11. a limit wall 111, a position avoiding groove,

12. an access door is arranged at the bottom of the door,

13. an access passage is arranged at the upper part of the main body,

131. an inner zone, 1311, a detection zone, 1312, a non-detection zone,

132. an outer region of the outer band,

14. the first sensor is provided with a first sensor,

15. a second sensor for detecting the position of the second component,

16. a third sensor for detecting the presence of a third object,

17. a detection device for detecting the position of the movable body,

18. and (6) pressing a key.

In the drawings, elements having similar structures are denoted by the same reference numerals.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The directional terms used in the present invention, such as "upper", "lower", "front", "rear", "left", "right", "inner", "outer", "side", "top" and "bottom", refer to the orientation of the drawings, and are used for illustration and understanding, but not for limiting the present invention.

The terms "first," "second," and the like in the terms of the invention are used for descriptive purposes only and not for purposes of indication or implication relative importance, nor as a limitation on the order of precedence.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the prior art, a registered person can open an access door by means of card swiping, fingerprint identification or face identification. However, there is a certain potential safety hazard, and lawless persons can enter the building by following the registered person in a trailing manner.

The following is a preferred embodiment of the present invention for providing a method for using an intelligent channel gate system to solve the above technical problems.

Referring to fig. 2, a first embodiment of a method for using an intelligent channel gate system is provided. Referring to fig. 1, the usage of the intelligent gateway system is used to control the entrance and exit of people into the building 100 through the intelligent gateway system. The intelligent gateway system includes two limit walls 11, a gateway door 12, a first sensor 14, a second sensor 15, a third sensor 16 and a detection device 17. Two limiting walls 11 are arranged on the outer side of the access door 100, and an access passage 13 leading to the access door 100 is formed between the two limiting walls 11. The access door 12 is disposed in the access passage 13, when the access door 12 is in a closed state, the access passage 13 is isolated into an inner area 131 and an outer area 132 by the access door 12, the inner area 131 is close to the access door 100 relative to the outer area 132, the inner area 131 is provided with a detection area 1311, the detection area 1311 is disposed adjacent to the outer area 132, a fixed end of the access door 12 is connected with the limit wall 11, and when the access door 12 is in an open state, a moving end of the access door 12 is disposed in the outer area 132. The first sensor 14 is disposed at the detection zone 1311. The second sensor 15 is located in correspondence with the access door 12. The third sensor 16 is disposed in the outer region 132. The detection device 17 is disposed at an end of the detection zone 1311 remote from the outer zone 132 and is electrically connected to both the access door 100 and the access door 12.

s11, when the access door 12 is in an open state and the access door 100 is in a closed state, if the first sensor 14 detects that the detection area 1311 is occupied, the second sensor 15 detects that the access door 12 is unoccupied, and the third sensor 16 detects that the outer area 132 is unoccupied, the access door 12 is switched to the closed state;

s12, the detection device 17 carries out identity verification on the detection personnel in the detection area 1311;

s13, if the detection result in the step S12 is that the detection personnel are the registered personnel, the access door 100 is switched to an open state; if the first sensor 14 detects that the detection area 1311 is unmanned, the entrance door 100 is switched to the closed state, then the access door 12 is switched to the open state, and the process goes to step S11 after a set time;

s14, if the detection result of the step S12 is that the non-registered person exists in the detection persons, the access door 12 is switched to the open state, the non-registered person is reminded to leave the detection area 1311, and the step S11 is carried out after the set time after the non-registered person leaves the detection area is detected.

The use method of the intelligent passage gate system of the invention normally opens the passage door 12 and closes the entrance door 100, when the detection area 1311 is occupied, the passage door 12 is unoccupied and the outer area 132 is unoccupied, the passage door 12 is closed, and then whether all the people in the detection area 1311 are registered people is verified, if all the people are registered people, the entrance door 100 is opened to allow the people in the detection area 1311 to enter the building through the entrance door 100, and if not all the people are registered people, the passage door 12 is opened to allow all the people to leave the detection area 1311. The use method of the intelligent passage gate system can only allow the registered personnel to enter, and effectively prevent the non-registered personnel from entering along with the registered personnel.

Referring to fig. 1 and fig. 2, the intelligent channel gate system further includes a key 18 disposed inside the access door 100 and electrically connected to both the access door 100 and the detection device 17, and the method for using the intelligent channel gate system further includes the steps of:

s15, when the access door 12 is in an open state and the access door 100 is in a closed state, if the first sensor 14 detects that the detection area 1311 is empty, the second sensor 15 detects that the access door 12 is empty, and the third sensor 16 detects that the outer area 132 is empty, the access door 100 is switched to the open state in response to an instruction of the key 18 after a set time; if the first sensor 14 detects the presence of a person in the detection zone 1311, or the second sensor 15 detects the presence of a person in the access door 12, or the third sensor 16 detects the presence of a person in the outer zone 132, no response is given to the command from the key 18.

The above method allows the access door 100 to be opened at an appropriate time when a person in the building needs to be present, preventing non-registered persons from entering the building while still available.

With continued reference to fig. 1 and 2, the first sensor 14 is disposed at an end of the detection area 1311 away from the outer area 132, the third sensor 16 is disposed at an end of the outer area 132 away from the detection area 1311, step S11 is to detect that there is a person at the end of the detection area 1311 away from the outer area 132 through the first sensor 14, and detect that there is no person at the end of the outer area 132 away from the detection area 1311 through the third sensor 16. The method can accurately count the personnel in the detection area 1311 and the outer area 132.

Referring to fig. 2 again, in step S12, the detection device 17 performs identity verification on the detected person in the detection area 1311 through face recognition. The method is accurate and convenient to identify.

Referring to fig. 2, in step S14, the non-registered person is prompted to leave the detection area 1311 by voice. The method is simple and clear, and is convenient for people to understand quickly.

Referring to fig. 2 again, step S12 further includes prompting the detecting person in the detection area 1311 to expose the face by voice if there is an unidentified person in the detection area 1311. The method is simple and clear, and is convenient for people to understand quickly.

Referring to fig. 1 and 3, an inspection free area 1312 for accommodating an inspection free person is disposed at an end of the inner area 131 close to the access door 100, and the inspection free area 1312 is located outside a photographing range of the detecting device 17.

s21, when the access door 12 is in an open state and the access door 100 is in a closed state, if an inspection-free person exists in the inspection-free area 1312, the first sensor 14 detects that a person exists in the detection area 1311, the second sensor 15 detects that no person exists in the access door 12, and the third sensor 16 detects that no person exists in the outer area 132, the access door 12 is switched to the closed state;

s22, the detection device 17 carries out identity verification on the detection personnel in the detection area 1311;

s23, if the detection result of the step S22 is that the detection personnel are the registered personnel, the access door 100 is switched to an open state; the first sensor 14 detects that the detection area 1311 is empty, and switches the access door 100 to the closed state, and then switches the access door 12 to the open state;

s24, if the detection result of step S22 is that there is a non-registered person among the detection persons, the access door 12 is switched to the open state, and reminds the non-registered person to leave the detection area 1311, and goes to step S21 after the set time after the non-registered person is detected to leave the detection area.

When needing to carry a child or relatives and friends for entering, the method enables the registered personnel to carry the personnel for entering through the guarantee of the registered personnel because the registered personnel may not be registered.

The ground between the non-detection area 1312 and the detection area 1311 is provided with a mark for distinguishing the non-detection area 1312 from the detection area 1311. The arrangement is convenient for people to clearly distinguish the non-detection area 1312 from the detection area 1311 so as to avoid the influence of wrong stations on traffic efficiency.

Referring to fig. 1, the detecting device 17 is disposed adjacent to one end of one of the limiting walls 11, the inspection-free area 1312 is disposed at one side of the detecting device 17, and the inspection-free area 1312 is adjacent to the other limiting wall 11. This arrangement allows the detection device 17 to be mounted without affecting the passage of people. The non-inspection area 1312 is located at the outer end of the inspection area 1311 and is close to the inspection area 1311, so that personnel in the inspection area 1311 can manually supervise the personnel in the non-inspection area 1312, and the following personnel can be effectively prevented from entering the non-inspection area 1312.

The height of the detecting device 17 is 1.26m-1.54m, so that the detecting person can be recognized by keeping a normal standing posture.

Referring to fig. 1, the maximum width W2 of the non-inspection area 1312 is 0.62m-0.73m, and the maximum length L2 of the non-inspection area 1312 is 0.59m-0.71m. The position of the detecting device 17 is adjusted forward, backward, leftward and rightward, so that the space of the non-detection area 1312 is not too large, and 1-2 persons can be accommodated generally. When entering, 1-2 persons carrying people enter the non-detection area 1312 firstly, and only stand in the detection area 1311 after the following people enter, and the entrance and exit door 100 keeps in a closed state when the detection device 17 recognizes that no registered people exist in the detection area 1311.

With continued reference to fig. 1, the access door 12 is a double door. The access door 12 is the double door, and for the setting of single door, the unilateral region that occupies when it is opened is littleer for the part that spacing wall 11 and outer district 132 correspond can do for a short time as far as possible, thereby reduces area occupied to minimumly, saves space. The double door is more flexible to close and open than the single door.

Referring to fig. 1, the height of the limiting wall 11 is 1.11m-1.35m. This structure can effectively prevent a person from illegally entering the inner area 131.

With reference to fig. 1, the maximum length L1 of the detection region 1311 is 1.08m to 1.32m, and the maximum width W1 is 0.79m to 0.92m. Since the detection effect of the detection device 17 may be affected by too many people in the detection area 1311, for example, the detection area may be set to accommodate three to four people.

With continued reference to fig. 1, the first sensor 14, the second sensor 15, and the third sensor 16 are all 1.08m to 1.32m high. If the first sensor 14, the second sensor 15 and the third sensor 16 are set too high beyond the height of the person, the person will not be sensed. The first sensor 14, the second sensor 15, and the third sensor 16 are set too low, which may cause false sensing of some towed objects (such as luggage, etc.).

Referring to fig. 1, the inner side of the limiting wall 11 is provided with a clearance groove 111, and when the access door 12 is opened, the access door 12 is located in the clearance groove 111. This configuration allows the access door 12 to be opened without affecting the width of the outer region 132, facilitating the passage of people.

The use method of the intelligent channel gate system of the invention normally opens the channel door and closes the entrance door, when the detection area is occupied, the channel door is unoccupied and the outer area is unoccupied, the channel door is closed, and then verifying whether all the people in the detection area are registered people, if all the people are registered people, opening the access door to allow the people in the detection area to enter the building through the access door, and if not all the people are registered people, opening the access door to allow all the people to leave the detection area. The use method of the intelligent passage gate system can only allow the registered personnel to enter, and effectively prevent the non-registered personnel from entering along with the registered personnel.

In summary, although the present invention has been disclosed in terms of the preferred embodiments, the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention within the scope of the present invention.

Claims

1. A method of using an intelligent gateway system for controlling an entrance and exit door of a person into a building through the intelligent gateway system, the intelligent gateway system comprising:

the access passage is divided into an inner area and an outer area by the passage door when the passage door is in a closed state, the inner area is close to the access door relative to the outer area, the inner area is provided with a detection area, the detection area is arranged adjacent to the outer area, the fixed end of the passage door is connected with the limiting wall, and when the passage door is in an opened state, the moving end of the passage door is positioned in the outer area;

a first sensor disposed at the detection zone;

a second sensor positioned to correspond to the access door;

s14, if the detection result of the step S12 is that non-registered persons exist in the detection persons, the access door is switched to an open state, the non-registered persons are reminded of leaving the detection area, and the step S11 is switched to after the set time after the non-registered persons leave the detection area is detected;

an inspection-free area for accommodating inspection-free personnel is arranged at one end of the inner area close to the access door, and the inspection-free area is positioned outside the shooting range of the detection device; the use method of the intelligent channel gate system comprises the following steps:

s21, when the access door is in an open state and the access door is in a closed state, if an inspection-free person exists in the inspection-free area, the first sensor detects that the detection area is occupied, the second sensor detects that the access door is not occupied, and the third sensor detects that the outer area is not occupied, the access door is switched to the closed state;

s22, the detection device carries out identity verification on the detection personnel in the detection area;

s24, if the detection result in the step S22 indicates that non-registered persons exist in the detected persons, the access door is switched to an open state, the non-registered persons are reminded of leaving the detection area, and the step S21 is carried out after the set time.

2. The method of using the intelligent gateway system according to claim 1, wherein the intelligent gateway system further comprises a button disposed at an inner side of the entrance/exit door and electrically connected to both the entrance/exit door and the detecting device, and the method of using the intelligent gateway system further comprises the steps of:

3. The method of claim 1, wherein the first sensor is disposed at an end of the detection area away from the outer area, the third sensor is disposed at an end of the outer area away from the detection area, and the step S11 is to detect the presence of a person at the end of the detection area away from the outer area by the first sensor and the absence of a person at the end of the outer area away from the detection area by the third sensor.

4. The method of claim 1, wherein the step S12 is performed by the detection device to authenticate the person in the detection area through face recognition.

5. The method of claim 1, wherein the step S14 is to remind non-registered people to leave the detection area by voice.

6. The method of claim 1, wherein the step S12 further comprises prompting the inspector in the detection area to face out by voice if the inspector has an unidentified person.

7. The method of claim 1, wherein a marker is disposed on the ground between the non-inspection area and the inspection area to distinguish the non-inspection area from the inspection area.

8. The method as claimed in claim 1, wherein the detecting unit is disposed adjacent to one end of one of the limiting walls, the inspection-free zone is disposed at one side of the detecting unit, and the inspection-free zone is adjacent to the other limiting wall.

9. The method of claim 1, wherein the maximum width of the non-inspection area is 0.62m-0.73m, and the maximum length of the non-inspection area is 0.59m-0.71m.