CN113747403A - Non-contact control system - Google Patents

Abstract

The invention provides a non-contact control system, which consists of a control circuit board, a beacon gateway and a mobile electronic device matched with an original framework of a device to be controlled, and is mainly characterized in that when an application program of the mobile electronic device is started, the mobile electronic device displays a control picture for a user to select so as to control the action of an action body.

Description

Non-contact control system

Technical Field

The present invention relates to a contactless control system, and more particularly, to a contactless control system using a mobile electronic device.

Background

Due to the high development of industry and commerce, the living field of human beings is gradually expanded, and meanwhile, the activity space of human beings is also reduced, so that tall buildings are available, and an elevator is an era product under the condition, because the elevator can provide convenience for people to go up and down the tall buildings. However, when the button or the key of the direct contact type switch in the prior art is used by touch and press, when a user infected with epidemic diseases (including oral foam contact infectious diseases) presses the key switch of the elevator in a public space (such as department store or hospital) with his finger, germs are left on the surface of the key switch, and after the next user touches and presses the key switch, the germs can be quickly transmitted to a third person through the medium of the key switch, thereby causing the public health crisis of enlarged infection.

In addition, the places where germs can be quickly transmitted to the third person due to the pressing of the touch die in human life are also the places for taking buses, entering the entrance guard and the like. Before getting off a bus, a passenger must press a bell to remind a driver of stopping at the next station so as to get off the bus, however, when the passenger presses the bell in a touch mode, the passenger can contact germs remained on the surface of the bell, and further public health crisis of enlarged infection is caused. Similarly, when a visitor wants to enter a place with access control, at least three opportunity points are provided for the place which can directly contact with germs, firstly, the visitor registers in a management room for the visitor, when a pen is used for filling data in a visitor register, and secondly, when the visitor exchanges certificates with a manager to exchange an access card (buckle), the visitor can contact the germs remained on the surface of the access card (buckle) when taking the access card (buckle); the third is for taking entrance guard's card (detain) when carrying out entrance guard control system response, because the in-process of response belongs to near-range induction contact (like NFC), consequently touches entrance guard's control system's entrance guard switch easily, also can contact consequently and remain at entrance guard's switch surface germ.

Therefore, how to develop a non-contact control system to reduce the direct contact infection of germs and avoid the expansion of cluster infection is the motivation of the present invention.

Disclosure of Invention

The invention aims to provide a non-contact control system, which mainly reduces the risk of infectious germs caused by direct touch and the expansion of clustered infection.

Another object of the present invention is to provide a non-contact control system, which is mainly applicable to various existing control devices, such as an elevator control device, a bus getting-off reminding control device, and an entrance guard control device, and can perform non-contact control without changing the existing control device.

Another objective of the present invention is to provide a contactless control system, which mainly utilizes short-distance wireless transmission between a Beacon Gateway (Beacon Gateway) and a bluetooth module of a mobile electronic device, so that contactless control can be performed without internet, thereby improving convenience and general applicability.

Therefore, in order to achieve the above-mentioned object, the present invention provides a non-contact control system suitable for a control device, the device includes an actuating body and a control module, the control module includes a proximal control switch, the proximal control switch can generate a proximal control signal for controlling the actuating body to actuate, the non-contact control system includes:

the control circuit board is electrically connected with the control module and used for converting a remote control signal into a near-end control signal; a beacon gateway, which is in communication connection with the control circuit board and continuously scans (Scanner) the driving packet; the mobile electronic device is in communication connection with the beacon gateway, is provided with an application program, and is provided with a Bluetooth module connected with the application program, wherein the Bluetooth module is used for continuously broadcasting (advertisement) the drive packet;

therefore, when an application program of the mobile electronic device is started, the mobile electronic device displays a control picture, the control picture is provided with a remote control switch corresponding to the near-end control switch, when the remote control switch is pressed, a driving packet comprising the remote control signal is generated, the driving packet is broadcasted by the Bluetooth module, when the beacon gateway scans (Scanner) to the driving packet, the remote control signal contained in the driving packet is transmitted to the control circuit board, and the control circuit board converts the remote control signal into the near-end control signal corresponding to the near-end control switch and transmits the near-end control signal to the control module so as to control the actuation of the actuating body.

The invention has the following effects: the invention provides a non-contact control system, which is composed of a control circuit board, a beacon gateway and a mobile electronic device matched with various devices to be controlled, and is mainly characterized in that when an application program of the mobile electronic device is started, the mobile electronic device displays a control picture for a user to select so as to control the actuation of an actuation body. On the other hand, the invention utilizes the near field wireless transmission between the beacon gateway and the Bluetooth module of the mobile electronic device, thereby being capable of carrying out non-contact control without the Internet and improving the use convenience and the universal applicability. In addition, when the invention is installed, the control circuit board is only electrically connected in parallel to the original near-end key devices of various devices to be controlled, and the non-contact control can be carried out without changing the original main control system of various devices to be controlled, so that the invention can be suitable for the new and old architectures of the existing various devices to be controlled.

Drawings

FIG. 1 is a block diagram of a first embodiment of the present invention;

FIG. 2 is a schematic view of a first embodiment of the present invention in use;

FIG. 3 is a diagram illustrating a state of a display control screen of a mobile electronic device according to a first embodiment of the present invention;

FIG. 4 is a flow chart illustrating the operation of the first embodiment of the present invention;

FIG. 5 is a flow chart illustrating the operation of the second embodiment of the present invention;

FIG. 6 is a block diagram of a third embodiment of the present invention;

FIG. 7 is a schematic view of a third embodiment of the present invention in use;

FIG. 8 is a diagram illustrating a mobile electronic device displaying a control screen according to a third embodiment of the present invention;

FIG. 9 is a flowchart illustrating the operation of the third embodiment of the present invention;

FIG. 10 is a block diagram of a fourth embodiment of the present invention;

fig. 11 is a schematic view of a state of use of the fourth embodiment of the present invention, showing a state of obtaining an elevator authorization token code;

FIG. 12 is a flowchart illustrating the operation of the fourth embodiment of the present invention;

FIG. 13 is a flowchart of authentication according to a fourth embodiment of the present invention, which shows a process of user ID authentication;

FIG. 14 is a block diagram of a fifth embodiment of the present invention;

FIG. 15 is a block diagram of a sixth embodiment of the present invention;

FIG. 16 is a schematic view showing a state of use of the sixth embodiment of the present invention;

FIG. 17 is a diagram illustrating a display control screen of a mobile electronic device according to a sixth embodiment of the present invention;

FIG. 18 is a flowchart illustrating operation of a sixth embodiment of the present invention;

FIG. 19 is a flowchart of authentication according to a sixth embodiment of the present invention, which shows a process of user ID authentication; and

FIG. 20 is a block diagram of a seventh embodiment of the present invention.

Description of the symbols in the drawings:

20 device

21 actuating body

22 control module

221 near-end control switch

222 upward near end control switch

223 Down near end control switch

30 control circuit board

40 Beacon gateway

50 action electronic device

51 application program

52 Bluetooth module

53 control Screen

531 remote control switch

532 remote control switch

533 down remote control switch

60 background device

61 input unit

62 output unit

63 data access unit

64 management and control setting unit

Detailed Description

The technical solutions of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Before providing a detailed description, it is noted that in the following description, similar component and part names are denoted by the same reference numerals.

As shown in fig. 1 to 4, a non-contact control system according to a first embodiment of the present invention is suitable for controlling a device 20, the device includes an actuating body 21 and a control module 22, the control module 22 includes a proximal control switch 221, and the proximal control switch 221 is capable of generating a proximal control signal for controlling the actuation of the actuating body 21. In this embodiment, the device 20 is a bus get-off reminding driver system. The actuating body 21 is a get-off reminder for reminding a driver, such as a speaker for generating voice reminding, a buzzer for generating reminding sound, or a get-off light for generating reminding light. The control module 22 is a down bell, and the near-end control switch 221 is a down bell entity button. The non-contact control system is mainly composed of a control circuit board 30, a beacon gateway 40, and a mobile electronic device 50, wherein:

the control circuit board 30 is electrically connected to the near-end control switch 221 of the control module 22, and is configured to convert the remote control signal into a near-end control signal generated by the near-end control switch 221. In this embodiment, the control circuit board 30 further converts the remote control signal into a near-end control signal and then turns on the corresponding near-end control switch 221.

The beacon gateway 40 is communicatively connected to the control circuit board 30, and continuously broadcasts the identification packet and continuously scans the driving packet. In this embodiment, the identification packet and the driving packet are packet formats of Bluetooth Low Energy (BLE), the identification packet includes a first Universal Unique Identifier (UUID), and the driving packet includes a second Universal Unique Identifier (UUID). Wherein the first Universally Unique Identifier (UUID) contains the number of the bus to avoid controlling the ring down to another bus in the vicinity.

A mobile electronic device 50 communicatively connected to the beacon gateway 40 and installed with an application 51, and having a bluetooth module 52 connected to the application 51, wherein the bluetooth module 52 is configured to continuously scan (Scanner) the identification packet and broadcast (advertisement) the driver packet; in this embodiment, the mobile electronic device 50 is a smart phone, but not limited thereto, and the smart watch, tablet, notebook computer and wearable device may be used, and the mobile electronic device 50 can perform wireless control with the control circuit board 30 without performing internet connection.

Therefore, the mobile electronic device 50 with the application started by the user's hand is carried on the bus, and since the beacon gateway 40 in the bus continuously broadcasts the identification packet, when the bluetooth module 52 of the mobile electronic device 50 scans the identification packet broadcasted by the beacon gateway 40 and the application 51 determines that the first Universal Unique Identifier (UUID) contained in the identification packet is correct, the application 51 of the mobile electronic device 50 displays the control screen 53, and the control screen 53 displays the remote control switch 531 according to the content of the first Universal Unique Identifier (UUID) contained in the identification packet, and the remote control switch 531 corresponds to the near-end control switch 221, that is, as shown in fig. 3, the remote control switch 531 is the get-off ring button displayed on the control screen 53.

At this time, when the next station of the bus is the destination of the user, the user presses the remote control switch 531 displayed on the mobile electronic device 50, and at this time, the application 51 dynamically generates the driving packet including the remote control signal, where the remote control signal is a second Universal Unique Identifier (UUID) included in the driving packet.

Then, the application 51 broadcasts the driving packet by the bluetooth module 52 of the mobile electronic device 50, when the beacon gateway 40 on the bus scans the driving packet and the beacon gateway 40 determines that the second Universal Unique Identifier (UUID) included in the driving packet has correct remote control signal information, the beacon gateway 40 transmits the remote control signal included in the driving packet to the control circuit board 30, the control circuit board 30 converts the remote control signal into a corresponding near-end control signal and controls the corresponding near-end control switch 221 to light up, the near-end control signal is transmitted to the control module 22, and the control module 22 controls the actuating body 21 to actuate according to the near-end control signal, i.e. sound or light is generated to remind the driver of parking at the next station.

Therefore, the information transmission, judgment, check and operation processes are all completed through the beacon gateway 40 in the bus and the bluetooth module 52 of the mobile electronic device 50, and the continuous broadcasting and scanning between the two in short distance are completed to complete non-contact get-off reminding control, and the environment of network online or cloud database is not needed at all.

Therefore, the invention can at least achieve the following effects:

firstly, because the invention is composed of the control circuit board 30, the beacon gateway 40 and the action electronic device 50 which are matched with the original bus getting-off reminding driver system structure, the main characteristic is that when the customized application program is used for scanning the identification packets broadcasted by the beacon gateway 40 of various devices, the action electronic device 50 of the user can present a control picture 53 for the user to click so as to control the action of the action body 21, therefore, the invention does not need to touch the entity keys and make sound in the control operation, thereby avoiding direct contact and droplet infection, and effectively reducing the risk of infecting germ caused by direct contact and the expansion of mass infection.

Secondly, since the present invention uses short-distance wireless transmission between the beacon gateway 40 and the bluetooth module 52 of the mobile electronic device 50, the present invention can perform non-contact operation without internet, that is, the present invention can perform non-contact operation in an offline state to complete the operation of getting off the bell, so as to improve the convenience of use and general applicability.

Thirdly, when the device is installed, the device only needs to be electrically connected to the original physical button of the getting-off bell through the control circuit board 30, and the device is suitable for various existing bus architectures, and can carry out non-contact control without changing the bus getting-off reminding driver system of the original bus, so that the device can be suitable for various existing architectures of the getting-off bell of the bus, and the effect of high applicability is highlighted.

And fourthly, because the control circuit board 30 is electrically connected on the original physical button of the lower bell in parallel, the invention has two independent parallel functions of the contact operation and the non-contact operation of the original physical button.

As shown in fig. 5, a second embodiment of the present invention provides a non-contact control system, which is different from the first embodiment in that: please also refer to fig. 1 to fig. 3.

The beacon gateway 40 only continuously scans the driving packet, and does not output the identification packet and the first Universally Unique Identifier (UUID) included in the identification packet.

Therefore, when the mobile electronic device 50, which is started by holding the application 51 by the user, is taken by the bus, the application 51 of the mobile electronic device 50 directly displays the control picture 53, and the control picture 53 displays the remote control switch 531 for the user to press, and a driving packet including the remote control signal is generated for scanning by the beacon gateway 40 after the pressing, and the subsequent actuation mode is the same as that of the first embodiment, and finally the actuation body 21 is controlled to actuate, that is, sound or light is generated to remind the driver to stop at the next stop.

Accordingly, since the beacon gateway 40 only needs to scan a driving packet, the part cost of the beacon gateway 40 is effectively reduced.

It should be noted that, in the second embodiment, the user can determine the currently riding bus (because the RSSI strength is strongest) by the second Universal Unique Identifier (UUID) of the driving packet outputted by the mobile electronic device 50 and the Received Signal Strength Indication (RSSI) scanned by the beacon gateway 40, so as to avoid the actuation of the actuation body 21 (i.e. getting-off reminder) which is controlled by mistake to other buses nearby.

As shown in fig. 6 to 9, a third embodiment of the present invention provides a non-contact control system, which is different from the first embodiment in that: the control device 20 of the third embodiment is an elevator car-calling system. The actuating body 21 is an elevator car; the elevator landing of each floor is provided with a control module 22, and each control module 22 is provided with an upward near-end control switch 222 and a downward near-end control switch 223, so that the upward near-end control switch 222 can generate an upward near-end control signal for controlling the upward movement of the actuating body 21, and the downward near-end control switch 223 can generate a downward near-end control signal for controlling the downward movement of the actuating body 21. The above is the original framework of the elevator car calling system. The contactless control system of the present invention is also composed of a control circuit board 30, a beacon gateway 40, and a mobile electronic device 50, wherein:

the plurality of control circuit boards 30 are electrically connected to the up near-end control switch 222 and the down near-end control switch 223 of the control module 22 belonging to each elevator landing, respectively, for converting a remote control signal into the up near-end control signal or the down near-end control signal. In this embodiment, the control circuit board 30 further converts the remote control signal into the up-near-end control signal or the down-near-end control signal, and then turns on the corresponding up-near-end control switch 222 or down-near-end control switch 223.

The beacon gateways 40 are respectively connected with the control circuit board 30 of each elevator landing in a communication way, and continuously broadcast identification packets and continuously scan driving packets. In this embodiment, the identification packet and the driving packet are both in a BLE packet format, the identification packet includes a first Universal Unique Identifier (UUID), and the driving packet includes a second Universal Unique Identifier (UUID). Wherein the first Universally Unique Identifier (UUID) includes the number and floor of the elevator landing to avoid control to an elevator car to which another elevator landing belongs.

A mobile electronic device 50 communicatively connected to the beacon gateway 40 and installed with an application 51, and having a bluetooth module 52 connected to the application 51, wherein the bluetooth module 52 is configured to continuously scan the identification packet and broadcast the driving packet; in this embodiment, the mobile electronic device 50 is a smart phone, and can perform wireless control with the control circuit board without performing internet connection.

Therefore, before the user holds the mobile electronic device 50 with the application program started to take the elevator, because the beacon gateway 40 arranged at the elevator landing continuously broadcasts the identification packet, when the bluetooth module 52 of the mobile electronic device 50 scans the identification packet broadcasted by the beacon gateway 40 and the application program 51 judges that the first Universal Unique Identifier (UUID) contained in the identification packet is correct, the application program 51 of the mobile electronic device 50 displays the control screen 53, as shown in fig. 8, the control screen 53 displays the upward remote control switch 532 and the downward remote control switch 533 according to the content of the first Universal Unique Identifier (UUID) contained in the identification packet, and the upward remote control switch 532 corresponds to the upward near-end control switch 221 and the downward remote control switch 533 corresponds to the downward near-end control switch 223.

At this time, if the actuating body 21 (i.e. elevator car) is on the first floor and the user is on the third floor and the user intends to go to a higher floor, the user presses the up remote control switch 532 displayed on the mobile electronic device 50, and the application 51 dynamically generates the driving packet including the up remote control signal encoded and arranged inside the second Universal Unique Identifier (UUID) included in the driving packet.

The application 51 then broadcasts the driver packet from the bluetooth module 52 of the mobile electronic device 50, when the beacon gateway 40 of the elevator landing where the user is located scans the driving packet and judges that the second Universal Unique Identifier (UUID) contained in the driving packet has a correct upward remote control signal through the beacon gateway 40, the beacon gateway 40 transmits the up remote control signal contained in the driving packet to the control circuit board 30, the control circuit board 30 converts the up remote control signal into a corresponding up near-end control signal, and controls the corresponding upward near-end control switch 222 to light up, the upward near-end control signal is transmitted to the control module 22, the control module 22 controls the actuation of the actuation body 21 according to the upward near-end control signal, namely, the elevator car is controlled to move from floor 1 to floor 3, so as to complete non-contact car calling control.

As shown in fig. 10 to 13, a contactless control system according to a fourth embodiment of the present invention is different from the third embodiment in that:

the application 51 of the mobile electronic device 50 further includes an identity authorization authentication, that is, the application 51 can display the control screen 53 only after the mobile electronic device 50 has the elevator authorization token code therein. The first Universally Unique Identifier (UUID) includes an authentication control Identifier (different from the UUID code of the public elevator in the third embodiment), when the bluetooth module 52 of the mobile electronic device 50 scans the identification packet broadcast by the beacon gateway 40, the application 51 in the mobile electronic device 50 determines that the first Universally Unique Identifier (UUID) included in the identification packet has the authentication control Identifier, at this time, the application 51 will first read the elevator authorization token code obtained in advance in the mobile electronic device 50, and after comparing and confirming that the elevator authorization token code has the authority to control the actuation body 21 (i.e., the elevator car), the application 51 will display the control screen 53; on the contrary, if the mobile electronic device 50 does not obtain the elevator authorization token code, the application 51 ignores the identification packet broadcast by the beacon gateway 40, and does not display the control screen 53.

The actions of the authentication and the elevator authorization token acquisition are described as follows: the non-contact control system of the invention also comprises a background device 60, wherein the background device 60 is provided with an input unit 61, an output unit 62 and a data access unit 63; the input unit 61 is used for reading the identity data of the user and generating an elevator authorization token code from the output unit 62 to provide the user with access, and the data access unit 63 is used for storing the identity data. In the present embodiment, the background device 60 uses an Application Programming Interface (API) as a storage method of the data access unit 63. In addition, the input unit 61 may use a two-dimensional barcode (QR Code) scanning mode for the user to input the identity data, and the output unit 62 may generate the two-dimensional barcode (QR Code) for the user to scan the elevator authorization token Code.

More specifically, before controlling the elevator with authentication control, the user must hold the mobile electronic device 50 to the management counter and input the user's identity data through the input unit 61 of the background device 60 by displaying a unique personal identity two-dimensional barcode (QR Code) by the application 51 in the user's mobile electronic device 50, such as: an international mobile equipment identity (IEMI), a cell phone number, or an FB/LINE community account number, etc., and then an input unit 61 of a background device 60 scans identity data in a two-dimensional bar Code (QR Code) format displayed by the user, and then as shown in fig. 11, a manager generates a two-dimensional bar Code with an elevator authorization token Code from an output unit 62 for the user to read, and simultaneously, a data access unit 63 of the background device 60 stores the identity data of the user with an Application Programming Interface (API). At this time, after the user scans the elevator authorization token Code in the two-dimensional bar Code (QR Code) format by using the application 51 of the mobile electronic device 50, the application 51 of the mobile electronic device 50 has the elevator authorization token Code, when the user is at an elevator landing and wants to control the elevator car 21 requiring identity control, and when the bluetooth module 52 of the mobile electronic device 50 scans the identification packet with the identity verification control identifier broadcast by the beacon gateway 40, after comparing and confirming that the elevator authorization token Code has the authority to control the actuation body 21 (i.e., the elevator car), the application 51 displays the control screen 53, and the user can perform touch control.

As shown in fig. 14, a fifth embodiment of the present invention provides a contactless control system, which is different from the fourth embodiment in that:

the background device 60 further has a control setting unit 64, when the input unit 61 of the background device 60 scans the identification data in the two-dimensional bar Code (QR Code) format displayed by the user, the manager sets the elevator car number and the valid period that can be controlled by the user (for example, when there are a plurality of elevator cars, the elevator car that can be controlled to operate is the second elevator car and the valid period is 3 hours) by the control setting unit 64, and the output unit 62 generates the two-dimensional bar Code having the elevator authorization token Code for the user to read, so that the elevator authorization token Code has three characteristics of controlling the authority of the operating body 21 (i.e. the elevator car), controlling the elevator car number and the valid period, so that when the bluetooth module 52 of the mobile electronic device 50 scans the identification packet having the identification verification control identifier broadcast by the beacon gateway 40, after comparing and confirming that the elevator authorization token code has the authority of controlling the elevator car number and the valid period, the application 51 will display the control picture 53 (the picture only displays that the upward remote control switch 222 and the downward remote control switch 223 capable of controlling the elevator car number can be operated, and the upward remote control switch 222 and the downward remote control switch 223 of the elevator cars with other numbers are not white and can not be operated, even displays the countdown state of the valid period), and the user can control.

Accordingly, the first Universally Unique Identifier (UUID) of the fifth embodiment includes an authentication control identifier, and as far as the car related information (e.g., car number and validity period) is stored in the data access unit 63 of the background device 60, unlike the third embodiment in which the first Universally Unique Identifier (UUID) includes only the number and floor of the elevator landing, the main purpose of which is to facilitate management, setting and backtracking, as follows: since the manager can refer to the elevator information of the data access unit 63, then set the number and valid period of the elevator car controllable by the user through the control setting unit 64, and the output unit 62 generates the elevator authorization token code to provide to the user mobile electronic device 50, the elevator authorization token code has the authority to control the elevator car, the number and valid period of the elevator car, when the user performs the up or down movement of the elevator car, the bluetooth module 52 of the mobile electronic device 50 scans the identification packet with the authentication control identifier broadcast by the beacon gateway 40, and then the application 51 displays the control screen 53 in response to the application 51 having the elevator authorization token code. Since the data access unit 63 of the background device 60 also stores the user identification data and sets the data of the controllable elevator car number and the valid period, and the like, if any public safety event or epidemic situation spreads in the future, the historical footprints of the elevator cars taken by the users in a specific time need to be retrieved, and the background device 60 can be designed to make the safest management and control, record and retrieve the footprints.

As shown in fig. 15 to 19, a sixth embodiment of the present invention provides a contactless control system, which is different from the first embodiment in that: the control device 20 according to the sixth embodiment is an access control device. The actuating body 21 is a door. The control module 22 is an access control system, the near-end control switch 221 is an access control switch, and the near-end control switch 221 can generate a near-end control signal to control the actuating body 21 to open the door. The above is the original framework of the entrance guard control device. The contactless control system of the present invention is also composed of a control circuit board 30, a beacon gateway 40, a mobile electronic device 50, and a background device 60, wherein:

the control circuit board 30 is electrically connected to the near-end control switch 221 of the control module 22, and is configured to convert a remote control signal into a near-end control signal generated by the near-end control switch 221.

The beacon gateway 40 is communicatively connected to the control circuit board 30, and continuously broadcasts the identification packet and continuously scans the driving packet. In this embodiment, the identification packet and the driving packet are both in a BLE packet format, the identification packet includes a first Universal Unique Identifier (UUID), and the driving packet includes a second Universal Unique Identifier (UUID). The first Universal Unique Identifier (UUID) contains the number of the access control system to avoid controlling other door actions, and the first Universal Unique Identifier (UUID) contains the Identifier to be authenticated and controlled to be used for access control.

The mobile electronic device 50 is in communication connection with the beacon gateway 40, is provided with an application program 51, and is provided with a Bluetooth module 52 connected with the application program 51, the application program further comprises identity authorization authentication, when the mobile electronic device 50 is internally provided with the authorization token code, the application program 51 can display a control picture 53, and the Bluetooth module 52 is used for continuously scanning the identification packet and broadcasting the drive packet; in this embodiment, the mobile electronic device 50 is a smart phone, and can wirelessly control the control circuit board 30 without internet connection.

The backend apparatus 60 has an input unit 61, an output unit 62, and a data access unit 63; since the configuration and operation of the background device 60 are the same as those of the fourth embodiment, the description is omitted.

Therefore, when a user wants to enter a place with access control, the user must hold the mobile electronic device 50 to a management counter, input the user's identity data through the input unit 61 of the background device 60, scan the identity data in the format of a two-dimensional bar Code (QR Code) displayed by the user through the input unit 61 of the background device 60, then the administrator produces the two-dimensional bar Code with an authorization token Code through the output unit 62 for the user to read, and simultaneously, the data access unit 63 of the background device 60 stores the user's identity data through an Application Programming Interface (API). At this time, after the user scans the authorization token Code in the two-dimensional bar Code (QR Code) format with the application 51 of the mobile electronic device 50 to which the user belongs, the application 51 of the mobile electronic device 50 has the authorization token Code, and therefore the application 51 of the mobile electronic device 50 can also display the control screen 53. The situation of the user obtaining the authorization token code by using the mobile electronic device 50 can be seen with reference to fig. 11.

Next, when the user holds the mobile electronic device 50 with the authorization token code to the entrance guard control place, the bluetooth module 52 of the mobile electronic device 50 scans the identification packet with the authentication control identifier broadcast by the beacon gateway 40, and after comparing and confirming that the authorization token code has the authority to control the actuation of the actuation body 21 (i.e. the door), the application 51 will display a control screen 53 for the user to perform touch control, that is, the remote control switch 531 displayed on the mobile electronic device 50 is a button for opening the door.

When the user presses the remote control switch 531 displayed on the mobile electronic device 50, the application 51 dynamically generates the driving packet including the remote control signal, which is a second Universal Unique Identifier (UUID) included in the driving packet.

Then, the application 51 broadcasts the driving packet by the bluetooth module 52 of the mobile electronic device 50, when the beacon gateway 40 of the access control device scans the driving packet and the beacon gateway 40 determines that the second Universal Unique Identifier (UUID) included in the driving packet has correct remote control signal information, the beacon gateway 40 transmits the remote control signal included in the driving packet to the control circuit board 30, the control circuit board 30 converts the remote control signal into a corresponding near-end control signal, the near-end control signal is transmitted to the control module 22, and the control module 22 controls the actuation body 21 to actuate according to the near-end control signal, that is, the control door is opened, so that the user can enter the door.

As shown in fig. 20, a seventh embodiment of the present invention provides a contactless control system, which is different from the sixth embodiment in that:

the background device 60 further includes a control setting unit 64, the data access unit 63 is used for storing the identity data of the user and the authority content of the user, the control setting unit 64 is used for a manager to set the authority content of the user (such as an effective period), and the output unit 62 outputs the authorization token code according to the authority content of the user, so that the background device 60 can be designed to make the most secure control, record and retrieve the footprint data.

In summary, the above embodiments are merely preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (11)

1. A non-contact control system for a control device, the device having an actuating body and a control module, the control module having a proximal control switch capable of generating a proximal control signal for controlling the actuation of the actuating body, the non-contact control system comprising:

the control circuit board is electrically connected with the control module and used for converting a remote control signal into a near-end control signal;

the beacon gateway is in communication connection with the control circuit board and continuously scans the drive packet; and

the mobile electronic device is in communication connection with the beacon gateway, is provided with an application program, and is provided with a Bluetooth module connected with the application program, wherein the Bluetooth module is used for continuously broadcasting the driving package;

therefore, when an application program of the mobile electronic device is started, the mobile electronic device displays a control picture, the control picture is provided with a remote control switch corresponding to the near-end control switch, when the remote control switch is pressed, a driving packet comprising the remote control signal is generated, the driving packet is broadcasted by the Bluetooth module, when the beacon gateway scans the driving packet, the remote control signal contained in the driving packet is transmitted to the control circuit board, and the control circuit board converts the remote control signal into the near-end control signal corresponding to the near-end control switch and transmits the near-end control signal to the control module so as to control the actuation of the actuation body.

2. The contactless control system of claim 1, wherein the beacon gateway continuously broadcasts an identification packet; the Bluetooth module of the action electronic device is used for continuously scanning the identification packet, and when the application program of the action electronic device is started and the Bluetooth module scans the identification packet broadcasted by the beacon gateway, the application program of the action electronic device analyzes the information in the identification packet and then displays the control picture.

3. The contactless control system of claim 2, wherein the identification packet and the driver packet are both in a bluetooth low energy packet format, the identification packet comprises a first universally unique identifier, and the driver packet comprises a second universally unique identifier.

4. The non-contact control system according to claim 3, wherein the actuating body is a get-off reminder for reminding a driver, the control module is a get-off bell, the near-end control switch is a get-off bell physical button, the actuating body is actuated in a manner of reminding the driver of a light or sound, the first universally unique identifier contains a serial number of a bus, a control picture is skipped by an application program, and the remote control switch of the control picture is a get-off bell virtual button corresponding to the get-off bell physical button.

5. The non-contact control system of claim 3, wherein the actuator body is an elevator car, the control module has an upward proximal control switch and a downward proximal control switch, the upward proximal control switch is capable of generating an upward proximal control signal for controlling the upward actuation of the actuator body, the downward proximal control switch is capable of generating a downward proximal control signal for controlling the downward actuation of the actuator body, the first universal unique identifier contains the elevator hall number and the floor, and the first universal unique identifier is used to jump out of a control screen by an application program, wherein the control screen has an upward remote control switch corresponding to the upward proximal control switch and a downward remote control switch corresponding to the downward proximal control switch, when the upward remote control switch is pressed, an upward remote control signal is generated, when the downward remote control switch is pressed, thereby generating a down remote control signal.

6. The contactless control system according to claim 5, wherein the first universally unique identifier includes an identifier to be authenticated and controlled, and the application further includes an authentication authorization, and the application can display the control screen only after the mobile electronic device has the authorization token code therein.

7. The contactless control system according to claim 6, further comprising a background device, wherein the background device has an input unit and an output unit, the input unit is configured to read identity data of a user, and the output unit generates an authorization token according to the content of the right of the user.

8. The contactless control system according to claim 7, wherein the backend device further includes a data access unit and a control setting unit, the data access unit is configured to store the identity data of the user and the authority content of the user, the control setting unit is configured for a manager to set the authority content of the user, and the output unit generates the authorization token according to the authority content of the user.

9. The contactless control system according to claim 3, wherein the first universally unique identifier includes an identifier to be authenticated and controlled, and the application further includes an authentication certificate, and the application can display a control screen only after the mobile electronic device has the authorization token code therein; actuate the body and be the door, control module is entrance guard's control system, near-end control switch is entrance guard's switch, near-end control switch can produce near-end control signal and control actuate the body and carry out the action of opening the door, first universal unique identifier contains entrance guard's control system's serial number jumps out the control picture through application, the control picture possesses the correspondence entrance guard's near-end control system near-end control switch's the remote control switch that opens the door waits to be pressed when opening the remote control switch, produce the remote control signal that opens the door promptly.

10. The system of claim 9, further comprising a background device, wherein the background device has an input unit and an output unit, the input unit is configured to read the identity data of the user, and the output unit generates the authorization token according to the content of the user's right.

11. The system of claim 10, wherein the backend device further includes a data access unit and a control setting unit, the data access unit is configured to store the identity data of the user and the authority content of the user, the control setting unit is configured for a manager to set the authority content of the user, and the output unit generates the authorization token according to the authority content of the user.

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