CN112598890A

CN112598890A - Wireless remote control method, wireless slave unit and switch control device

Info

Publication number: CN112598890A
Application number: CN202011399465.0A
Authority: CN
Inventors: 林哲玮
Original assignee: Gemtek Technology Co Ltd
Current assignee: Gemtek Technology Co Ltd
Priority date: 2013-12-25
Filing date: 2013-12-25
Publication date: 2021-04-02
Also published as: CN104751616A

Abstract

The invention provides a wireless remote control method, a wireless sub machine and a switch control device, wherein the wireless remote control method comprises the following steps: the connection is established with an authentication device through a directional antenna of a wireless sub-machine. The information received by the wireless sub-machine self-authentication device is transmitted to a switch control device through a data transmission interface. A switch is controlled by the switch control means based on the information received from the authentication means. The invention provides a mode for conveniently opening the door lock or the switch for a user, and the opening condition of the door lock or the switch is limited by arranging the authentication device, thereby ensuring the safety of opening the door lock or the switch.

Description

Wireless remote control method, wireless slave unit and switch control device

The present application is a divisional application of patent applications having an application date of 2013, 12 and 25 months, an application number of 201310726015.1, and an invention name of "wireless remote control method, wireless slave unit, and switch control device".

Technical Field

The present invention relates to a remote control method, a slave unit and a switch control device, and more particularly, to a wireless remote control method, a wireless slave unit and a switch control device.

Background

Most of the doors are usually provided with a door lock or a switch to prevent others from entering or controlling others to enter or exit, and most of the door locks or switch devices are generally unlocked or opened by using a key or a magnetic card. However, different switch devices need to be matched with a specific key or magnetic card to be opened.

Therefore, how to provide a way for a user to conveniently open a door lock or a switch is one of the important research and development issues, and is also an objective of the related art that needs to be improved.

Disclosure of Invention

The invention provides a wireless remote control method, a wireless sub-machine and a switch control device, which provide a mode for conveniently opening a door lock or a switch for a user.

One aspect of the present invention is to provide a wireless slave unit (wireless host). The wireless sub-machine comprises a directional antenna, a data transmission element and a processing element. The processing element is electrically connected with the directional antenna and the data transmission element. The directional antenna receives signals in one direction. The data transmission element is connected with a switch device through a data transmission interface. The switch control device is used for controlling a switch.

Another aspect of the present invention is to provide a switching control device. The switch control device comprises a data transmission element, a switch and a processing element. The processing element is electrically connected with the data transmission element and the switch. The data transmission element is connected with a wireless sub-machine through a data transmission interface. The switch is arranged in an area. The processing element controls the switch according to the information received from the wireless sub-machine.

Another aspect of the present invention is to provide a wireless remote control method, which includes the following steps: the connection is established with an authentication device through a directional antenna of a wireless sub-machine. The information received by the wireless sub-machine self-authentication device is transmitted to a switch control device through a data transmission interface. A switch is controlled by the switch control means based on the information received from the authentication means.

The invention has the advantages that a mode for conveniently opening the door lock or the switch is provided for a user, and the opening condition of the door lock or the switch is limited by arranging the authentication device, so that the safety of opening the door lock or the switch is ensured.

Drawings

Fig. 1 is a flow chart of a wireless remote control method according to an embodiment of the invention;

FIG. 2 is a diagram illustrating an application scenario of the wireless remote control method according to the present invention;

fig. 3 is a functional block diagram of a wireless remote control system according to an embodiment of the present invention.

Reference numerals

100: wireless remote control method

110-140: step (ii) of

201: wireless sub-machine

201 a: receiving range of directional antenna of wireless sub-unit

202: door with a door panel

202 a: outdoors

202 b: door inside

203: switch control device

204: wireless network

205: cloud server

206: authentication device

206 a: moving direction of authentication device

300: wireless sub-machine

310: directional antenna

320: a first processing element

330: data transmission element

400: authentication device

410: gravity sensor

420: wireless data transmission element

500: switch control device

510: switch with a switch body

520: second processing element

530: data transmission element

540: wireless network card

610: data transmission interface

620: wireless network

630: cloud server

Detailed Description

While the invention has been described in detail and with reference to the drawings, it will be apparent to one skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope thereof, as taught and suggested by the present invention.

Fig. 1 is a flowchart of a wireless remote control method according to an embodiment of the invention. The wireless remote control method can be implemented as a computer program and stored in a computer readable recording medium, so that the computer can read the recording medium and execute the wireless remote control method. The computer readable recording medium can be a read-only memory, a flash memory, a floppy disk, a hard disk, a compact disk, a portable disk, a magnetic tape, a database accessible by a network, or a computer readable recording medium with the same functions as those easily recognized by those skilled in the art. Fig. 2 is a schematic diagram of an application scenario of the wireless remote control method of the present invention. Reference is also made to fig. 1 and 2. The wireless remote control method 100 comprises the following steps:

when a connection is established with an authentication device 206 through a directional antenna of a wireless handset 201 (step 110), the wireless handset 201 receives information from the authentication device 206 (step 120). The information received from the authentication device 206 may include authentication data of the authentication device 206, and information (such as information of the moving direction 206 a) sensed by a gravity sensor (g sensor or accelerometer sensor) of the authentication device 206. The authentication device 206 may be any device having a gravity sensor. The directional antenna of the wireless handset 201 receives the signal in one direction. In some embodiments of the present invention, the directional antenna of the wireless handset 201 can receive signals towards the door exterior 202 a. Further, the reception range 201a of the directional antenna of the wireless handset 201 can be adjusted so that the directional antenna of the wireless handset 201 receives the signal toward the outside 202 a. In this way, when the authentication device 206 is within the range of the door 202b, the connection with the directional antenna of the wireless slave unit 201 is not established, and thus the door lock can be prevented from being opened by mistake. When the authentication device 206 enters the reception range 201a of the directional antenna of the wireless slave unit 201, the directional antenna of the wireless slave unit 201 can detect that the authentication device 206 is connected to the wireless slave unit. In addition, the directional antenna of the wireless sub-set 201 may use a short-range wireless data transmission protocol, such as Bluetooth (r) communication technology. In this way, when the authentication device 206 is still far away from the switch to be controlled (e.g., the door lock on the door 202), the directional antenna of the wireless sub-unit 201 will not connect with the authentication device 206, thereby preventing the door lock on the door 202 from being released too early. In addition, the authentication device 206 may continuously execute an application (app) for establishing a connection with the directional antenna of the wireless handset 201 when entering the reception range 201a of the directional antenna of the wireless handset 201. After the connection is established, the application program can drive the authentication device 206 to automatically transmit the authentication data and the information sensed by the gravity sensor for the wireless handset 201 to receive. In addition, the directional antenna of the wireless sub-unit 201 may sleep when no signal is received for a period of time, and wake up the message receiving function of the directional antenna of the wireless sub-unit 201 after receiving a specific signal. Thus, the power consumption of the wireless sub-unit 201 can be further reduced.

In step 130, the information received by the wireless handset 201 from the authentication device 206 is transmitted to a switch control device 203 via a data transmission interface. In some embodiments of the present invention, the wireless sub-unit 201 and the switch control device 203 can be respectively disposed in two different blocks within a region. For example, the wireless handset 201 and the switch control device 203 can be respectively disposed outside the door 202a and inside the door 202 b. In this embodiment, the data transmission interface between the wireless sub-machine 201 and the switch control device 203 may be a wireless data transmission protocol, such as Radio Frequency (RF), 3G, Long Term Evolution (LTE) or other wireless data transmission protocols. In addition, in some embodiments of the present invention, when a shielding object (such as the door 202) is disposed between two blocks where the wireless sub-unit 201 and the switch control device 203 are disposed, the wireless data transmission protocol can use high frequency signals for data transmission. The high frequency signal may be in an industrial scientific & medical (ISM) band or other type of high frequency band. In this way, even if the door 202 is made of iron, the wireless slave unit 201 can transmit information to the switch control device 203. In other embodiments of the present invention, the wireless handset 201 and the switch control device 203 may be both located in the same block (as well as in the door 202 b). In this embodiment, the wireless handset 201 and the switch control device 203 can be integrated into a single device or manufactured as two separate devices. The wireless slave unit 201 and the switch control device 203 may be connected by a wired or wireless data transmission method to transmit information received from the authentication device 206.

In step 140, a switch is controlled by the switch control device 203 according to the information received from the authentication device 206. For example, the switch controlled by the switch control device 203 is a door lock disposed on the door 202. Thus, in some embodiments of the present invention, when the information (e.g. the information of the moving direction 206 a) sensed by the gravity sensor of the authentication device 206 conforms to the information of a preset moving direction, the switch on the door 202 can be controlled by the switch control device 203, so as to open the door lock. When the information sensed by the gravity sensor of the authentication device 206 corresponds to the information of the area disposed toward the door 202, it is determined that the information sensed by the gravity sensor corresponds to the information of the preset moving direction, and the door lock on the door 202 is opened. In addition, it can be further determined whether the authentication data received from the authentication device 206 passes the verification, as the basis for the switch control device 203 to control the switch accordingly. After the door lock is unlocked, the user of the authentication device 206 may open the door 202 and enter the door interior 202 b.

In other embodiments of the present invention, the door 202 may be automatically opened after the door lock is unlocked, such that a user of the authentication device 206 may directly access the door interior 202 b. Thus, the user only needs to carry the authentication device 206 to move in a specific direction (e.g., towards the door 202), and the door lock on the door 202 is unlocked without having to specifically locate the key. In addition, the door lock on the door 202 is unlocked only when the gravity sensor of the authentication device 206 senses the movement from the door exterior 202a toward the door 202, so that the door lock can be prevented from being unlocked at an incorrect timing.

When the switch control device 203 determines that the authentication data is not verified or that the traveling direction does not match the information moving from the door 202a to the door 202, the wireless slave unit 201 can continue to receive information from the authentication device 206.

In some embodiments of the present invention, when the switch control device 203 determines that the authentication data is verified and the information sensed by the gravity sensor matches the information of a predetermined moving direction (e.g. the information moving from the door outer 202a toward the door 202), the switch control device 203 may be further triggered to perform a corresponding function, such as triggering a door ring or other corresponding function. Wherein, the corresponding function can be set according to different users. For example, when the authentication data of the authentication device 206 represents a guest and the information sensed by the gravity sensor corresponds to the information moving from the outside of the door 202a toward the door 202, the switch control device 203 may be triggered to drive the door to ring to remind the owner of the inside of the door 202 b. For another example, when the door 202 is installed at the entrance of a garage, and the switch control device 203 determines that the authentication data is verified and the information sensed by the gravity sensor matches the information moving from the outside of the door 202a toward the door 202, the switch control device 203 may be triggered to open the door 202. Thus, the owner only needs to open the door 202 with the authentication device 206 when driving, and the door 202 can be automatically opened.

In other embodiments of the present invention, the switch control device 203 may assist in the verification through the cloud server 205. Therefore, the wireless remote control method 100 further comprises the following steps: the switch controller 203 transmits the authentication data of the authentication device 206 to the cloud server 205 via the wireless network 204 to determine whether the authentication data is verified. In some embodiments of the present invention, the authentication data of the authentication device 206 may include identification information of the authentication device 206. The cloud server 205 may determine whether the identification information of the authentication device 206 is in a predetermined list to determine whether the authentication data of the authentication device 206 is verified. In addition, other parameters may be further taken into consideration for whether the authentication data passes the verification. For example, the inside of the door 202b can only be accessed by the cleaning person during a specific cleaning period, and thus the authentication data of the authentication device 206 held by the cleaning person can only be verified during the specific cleaning period. In addition, the verification method of the identification information of the authentication device 206 can be adjusted or set according to different requirements, and is not limited to the disclosure above.

In still other embodiments of the present invention, the switch control device 203 may perform verification of the authentication data. In addition, the switch control device 203 can provide a user interface for the user to set which authentication data can be verified or set other functions.

In another embodiment of the present invention, when the application executed by the authentication device 206 is in a setup phase, the user may be required to move from the door outer 202a toward the door 202 with the authentication device 206, so that the gravity sensor of the authentication device 206 senses the information moving from the door outer 202a toward the door 202 as the information of the predetermined moving direction.

Fig. 3 is a functional block diagram of a wireless remote control system according to an embodiment of the present invention. The wireless remote control system comprises a wireless sub-machine 300, a data transmission interface 610 and a switch control device 500.

The wireless handset 300 includes a directional antenna 310, a first processing element 320, and a data transmission element 330. The first processing element 320 is electrically connected to the directional antenna 310 and the data transmission element 330. The switch control device 500 comprises a switch 510, a second processing element 520 and a data transmission element 530. The second processing element 520 is electrically connected to the switch 510 and the data transmission element 530. The switch 510 is disposed in a region. For example, the switch 510 may be disposed on a door within an area.

In some embodiments of the present invention, the wireless handset 300 and the switch control device 500 may be implemented as an integrated machine. Thus, the first processing element 320 and the second processing element 520 may be implemented in the same processing element. In addition, the first processing element 320 and the second processing element 520 may also use at least one processing element independently. In addition, the data transmission element 330 and the data transmission element 530 may establish a connection through the wired data transmission interface 610.

In other embodiments of the present invention, the wireless handset 300 and the switch control device 500 may be implemented as separate devices. In this embodiment, the data transmission element 330 and the data transmission element 530 can establish a connection through the wireless data transmission interface 610. In this embodiment, the data transmission interface 610 employs a wireless data transmission protocol (such as radio frequency, 3G, lte or other wireless data transmission protocols) for data transmission. The wireless data transmission communication protocol can adopt industrial scientific medical frequency band or high-frequency band signals. Thus, even if the wireless sub-machine 300 and the switch control device 500 are respectively arranged outside and inside a steel door, data can still be transmitted mutually.

The first Processing element 320 and the second Processing element 520 may be a Central Processing Unit (CPU), a control Unit (control Unit), a microprocessor (micro processor), or other hardware elements capable of executing instructions.

The directional antenna 310 is disposed at a position to receive signals in one direction. For example, the directional antenna 310 may be directed to the outside of the door where the switch 510 is disposed, such that the directional antenna 310 can only receive signals from the outside of the door. In this way, when the authentication device 400 is within the door, the connection with the directional antenna 310 of the wireless handset 300 is not established, and the switch 510 is prevented from being opened by mistake. When the first processing element 320 establishes a connection with an authentication device 400 through the directional antenna 310, it means that the authentication device 400 is in a range (e.g., a range outside a door) that the directional antenna 310 faces. At this time, the first processing element 320 receives information from the authentication device 400. The information received from the authentication device 400 may include an authentication data or information sensed by a gravity sensor 410 of the authentication device 400. In addition, the directional antenna 310 of the wireless sub-unit 300 may use a short-range wireless data transmission protocol, such as Bluetooth (r) communication technology. In this way, when the authentication device 400 is still a distance away from the area (e.g., door) where the switch 510 is disposed, the directional antenna 310 will not be connected to the authentication device 400, and the switch 510 can be prevented from being controlled too early. In addition, the authentication device 400 may continuously execute an application for continuously driving the wireless data transmission element 420 to determine whether any devices can establish a connection. Thus, when the authentication device 400 enters the receiving range of the directional antenna 310, the application program can drive the wireless data transmission device 420 to automatically establish a connection with the directional antenna 310 of the wireless sub-unit 300. After the connection is established, the application program can drive the wireless data transmission device 420 to automatically transmit information to the wireless sub-device 300. When the directional antenna 310 of the wireless handset 300 does not receive any signal for a period of time, the first processing element 320 may control the directional antenna 310 to go to sleep. After receiving a specific signal, the first processing element 320 may wake up the message receiving function of the directional antenna 310 of the wireless handset 300. Thus, the power consumption of the wireless sub-machine 300 can be further reduced.

Next, the first processing element 320 drives the data transmission element 330 to transmit the information received from the authentication apparatus 400 (such as the authentication data of the authentication apparatus 400 or the information sensed by the gravity sensor 410) to the switch control apparatus 500 through the data transmission interface 610.

The second processing element 520 drives the data transmission element 530 to receive the information (such as the authentication data of the authentication device 400 or the information sensed by the gravity sensor 410) received by the wireless handset 300 from the authentication device 400 through the data transmission interface 610. Next, the second processing element 520 controls the switch 510 based on the information received from the wireless handset 300. For example, when the second processing element 520 determines that the authentication data is verified and the information sensed by the gravity sensor 410 matches the information of a preset moving direction (e.g., the information moving from the outside of the door toward the door provided by the switch 510 or the information moving toward the area provided by the switch 510), the second processing element 520 controls the switch 510 accordingly (e.g., drives the switch 510 to unlock). In some embodiments of the present invention, after the switch 510 is unlocked, the user of the authentication device 400 may open the door and enter the door. In other embodiments of the present invention, the door may be opened automatically after the switch 510 is unlocked, such that a user of the authentication device 400 may directly enter the door. Thus, the user only needs to carry the authentication device 400 for a specific movement (e.g., moving toward the door), and the switch 510 is unlocked without having to specifically locate the key. In addition, the switch 510 is only turned off when the gravity sensor 410 of the authentication apparatus 400 senses the movement from the outside of the door toward the door, so that the switch 510 is prevented from being turned off at an incorrect timing.

In some embodiments of the present invention, when the switch control device 500 determines that the authentication data is verified and the information sensed by the gravity sensor 410 matches the information of a predetermined moving direction (e.g. the information moving from the outside of the door to the door), the second processing element 520 further triggers the switch control device 500 to perform a corresponding function, such as triggering the door to ring or other corresponding functions. Wherein, the corresponding function can be set according to different users. For example, when the authentication data of the authentication device 400 represents a guest and the information sensed by the front gravity sensor 410 corresponds to information moving from outside the door toward the door, the second processing element 520 may trigger the switch control device 500 to drive the door to ring to remind the owner inside the door. For another example, when the door is installed at the entrance of a garage, and the switch control device 500 determines that the authentication data is verified and the information sensed by the gravity sensor 410 corresponds to the information moving from the outside of the door toward the door, the switch control device 500 may be triggered to open the door. Thus, the owner only needs to carry the authentication device 400 to open the door when driving the vehicle, so that the door can be automatically opened.

In other embodiments of the present invention, the switch control device 500 may further include a wireless network card 540 electrically connected to the second processing element 520. The wireless network card 540 may establish a connection with a wireless network 620 using a wireless network protocol. Thus, the second processing element 520 may drive the wireless network card 540 to transmit the authentication data to a cloud server 630 via the wireless network 620 to determine whether the authentication data is verified. In some embodiments of the present invention, the authentication data of the authentication device 400 may include identification information of the authentication device 400. The cloud server 630 may determine whether the identification information of the authentication apparatus 400 is in a predetermined list to determine whether the authentication data of the authentication apparatus 400 passes the verification. In addition, other parameters may be further taken into consideration for whether the authentication data passes the verification. For example, the cleaning person can only enter the door during a specific cleaning period, and thus it can be preset that the authentication data of the authentication device 400 held by the cleaning person can only be verified during the specific cleaning period. In addition, the verification method of the identification information of the authentication apparatus 400 can be adjusted or set according to different requirements, and is not limited to the disclosure above.

In still other embodiments of the present invention, the second processing element 520 of the switch control device 500 may verify the authentication data by itself. In addition, the second processing element 520 of the switch control device 500 can provide a user interface for a user to set which authentication data can be verified or perform other functions.

In still other embodiments of the present invention, when the application executed by the authentication apparatus 400 is in a setup stage, the user may be required to move the authentication apparatus 400 along a predetermined direction (e.g. from the outside of the door to the door), so that the gravity sensor 410 of the authentication apparatus 400 senses information of the predetermined moving direction as a basis for the second processing element 520 to determine.

In summary, the invention provides a way for a user to conveniently open a door lock or a switch, and by arranging the authentication device, the opening condition of the door lock or the switch is defined, thereby ensuring the safety of opening the door lock or the switch.

Although the present invention has been described with reference to the above embodiments, it should be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Therefore, the protection scope of the present invention is subject to the claims.

Claims

1. A wireless slave unit, comprising:

a directional antenna for receiving signals in one direction;

the data transmission element is connected with a switch control device through a data transmission interface, wherein the switch control device is used for controlling a switch; and

a processing element electrically connected to the directional antenna and the data transmission element;

the processing element receives authentication data from an authentication device and information sensed by a gravity sensor of the authentication device, and when the authentication data passes verification and the information sensed by the gravity sensor conforms to the information of a preset moving direction, the switch control device executes a corresponding function in response to a user;

when responding to a first user, the switch control device executes a first function;

when responding to a second user, the switch control device executes a second function, and the first function is different from the second function;

the switch is arranged in an area, the wireless sub-machine is placed in a first block of the area, and the switch control device is placed in a second block of the area.

2. The wireless handset according to claim 1, wherein the data transmission element transmits data using a wireless data transmission protocol.

3. The wireless sub-machine according to claim 1, wherein when a shielding object is disposed between the first block and the second block, the data transmission element transmits data by using a high frequency signal.

4. The wireless sub-machine according to claim 1, wherein when the processing element establishes a connection with the authentication device from the direction through the directional antenna, the processing element receives information from the authentication device as a basis for the switch control device to control the switch.

5. The wireless sub-machine of claim 4 wherein the directional antenna establishes a connection with the authentication device using a short-range wireless data transmission protocol.

6. A switching control device, comprising:

a data transmission element, which is connected with a wireless sub-machine through a data transmission interface;

a switch disposed in an area; and

the processing element is electrically connected with the data transmission element and the switch, and the processing element controls the switch according to the information received from the wireless sub machine;

when the processing element judges that the authentication data passes verification and the information sensed by the gravity sensor accords with the information of a preset moving direction, the processing element further triggers the switch control device to execute a corresponding function in response to a user;

7. The switch control device according to claim 6, characterized in that:

when the processing element determines that the authentication data is verified, the processing element controls the switch accordingly.

8. The switch control device of claim 7, further comprising:

a wireless network card electrically connected to the processing element and establishing connection with a wireless network,

the processing element drives the wireless network card, and transmits the authentication data to a cloud server through the wireless network so as to judge whether the authentication data passes verification.

9. The switch control device according to claim 6, characterized in that:

and when the information sensed by the gravity sensor accords with the information of the preset moving direction, the processing element correspondingly controls the switch.

10. The switch control device according to claim 9, wherein the processing element determines that the information sensed by the gravity sensor corresponds to the information directed to the area, when the information sensed by the gravity sensor corresponds to the information directed to the area.

11. A wireless remote control method, comprising:

establishing connection with an authentication device through a directional antenna of a wireless sub-machine;

transmitting the information received by the wireless sub-machine from the authentication device to a switch control device through a data transmission interface, wherein the information received by the wireless sub-machine from the authentication device comprises authentication data and information sensed by a gravity sensor of the authentication device;

controlling a switch by the switch control device according to the information received from the authentication device; and

when the authentication data is verified and the information sensed by the gravity sensor conforms to the information in the preset moving direction, triggering the switch control device to execute a corresponding function in response to a user;

12. The wireless remote control method according to claim 11, wherein when the information sensed by the gravity sensor corresponds to the information of the preset moving direction, the switch is controlled by the switch control device.

13. The wireless remote control method according to claim 12, wherein when the information sensed by the gravity sensor corresponds to the information directed to the area, it is determined that the information sensed by the gravity sensor corresponds to the information of the preset moving direction.

14. The wireless remote control method of claim 11, further comprising:

transmitting the authentication data from the switch control device to a cloud server via a wireless network to determine whether the authentication data passes verification,

and the switch control device controls the switch according to the judgment result.

15. The method of claim 11, wherein the directional antenna establishes a connection with the authentication device using a short-range wireless data transmission protocol.