CN117373153A - Wireless power taking method, system and computer readable storage medium for hotel - Google Patents

Abstract

The invention provides a wireless electricity taking method, a wireless electricity taking system and a computer readable storage medium for a hotel, wherein a Bluetooth broadcast for unlocking a door lock of a hotel room is connected with an intelligent mobile device for unlocking, or magnetic card information is read for unlocking; when the door lock is in an unlocking action or a closing action, the door lock transmits a door lock unlocking signal or a door lock closing signal to the power taking switch through Bluetooth communication; the electricity taking switch triggers the detector to work through Bluetooth communication, and detects whether personnel exist in a room through the detector: if yes, the power taking switch turns on a power supply, and if not, the power taking switch turns off the power supply; the power taking switch performs data transmission with the control center, and the data transmission comprises a request and an instruction.

Description

Wireless power taking method, system and computer readable storage medium for hotel

Technical Field

The invention relates to the technical field of door lock management, in particular to a wireless power taking method, a wireless power taking system and a computer readable storage medium for hotels.

Background

The existing hotel door lock has the following problems: the hotel door lock does not have a networking function; even if the hotel door lock is added with a wireless communication module, a gateway or a route is additionally matched. Each hotel room is provided with an electricity taking switch, the electricity taking switch cannot be connected with the internet and can only be used for taking electricity by swiping cards; even if the power taking switch is additionally provided with a Bluetooth module, near field communication can only be realized.

Disclosure of Invention

In order to overcome the technical defects, the invention aims to provide a wireless electricity taking method, a wireless electricity taking system and a computer readable storage medium for hotel, wherein the wireless electricity taking method, the wireless electricity taking system and the computer readable storage medium are used for electricity taking switch networking.

The invention discloses a wireless power taking method for hotels, which comprises the following steps: the lock unlocking Bluetooth broadcast of the hotel room is connected with the intelligent mobile equipment to unlock, or reads magnetic card information to unlock; when the door lock is in an unlocking action or a closing action, the door lock transmits a door lock unlocking signal or a door lock closing signal to the power taking switch through Bluetooth communication; the electricity taking switch triggers the detector to work through Bluetooth communication, and detects whether personnel exist in a room through the detector: if yes, the power taking switch turns on a power supply, and if not, the power taking switch turns off the power supply; the power taking switch sends the door lock opening signal or the door lock closing signal, the power supply opening signal or the power supply closing signal and the actuation request to a control center through network communication; the power-taking switch receives the instruction signal of the control center through network communication, executes instructions in the instruction signal, or transmits the instruction signal to the door lock through Bluetooth communication, and the door lock executes the instruction signal.

Preferably, the unlocking of the lock of the hotel room by bluetooth broadcast is connected with the intelligent mobile device to unlock, or the unlocking by reading magnetic card information includes: the Bluetooth of the door lock broadcasts a first authorization parameter, the intelligent mobile equipment broadcasts a second authorization parameter, and unlocking is performed if the first authorization parameter is matched with the second authorization parameter; otherwise, refusing unlocking; the door lock reads a second authorization parameter in the magnetic card, and if the first authorization parameter stored in the door lock is matched with the second authorization parameter, unlocking is performed; otherwise, refusing unlocking; the first authorization parameter and the second authorization parameter comprise hotel identification, room identification and valid period.

Preferably, the actuation request includes an unlocking request; the instruction signal comprises an unlocking instruction; if the first authorization parameter is matched with the second authorization parameter, the door lock sends an unlocking request to the power taking switch through Bluetooth communication; the power-taking switch uploads the unlocking request to the control center through network communication; the control center issues an unlocking instruction to the power taking switch, the power taking switch issues the unlocking instruction to the door lock through Bluetooth communication, and the door lock executes the unlocking instruction.

Preferably, the actuation request further includes a power-on request and a power-off request; the instruction signal comprises a power-on instruction and a power-off instruction; if yes, the power taking switch turns on a power supply, and if not, the power taking switch turns off the power supply, which comprises the following steps: if yes, the power-on switch uploads the power-on request to the control center through network communication; the control center sends an electrifying instruction to the electrifying switch, and the electrifying switch executes the electrifying instruction to turn on a power supply; if not, the power-off switch uploads the power-off request to the control center through network communication; and the control center sends a power-off instruction to the power-off switch, and the power-off switch executes the power-off instruction to turn off the power supply.

Preferably, said detecting whether there is a person in the room by said detector comprises: and starting the detection immediately after the trigger of the detector is started, wherein the detection time is a first preset time period.

Preferably, the detecting, by the detector, whether there is a person in the room further includes: and starting the detection after a second preset time period is set after the detector is triggered and started, wherein the detection time is the first preset time period.

Preferably, the magnetic card or the intelligent mobile device is connected with the door lock through bluetooth communication to unlock, and further comprises: and if the magnetic card or the intelligent mobile equipment is detected to be out of the preset distance from the connected door lock, sending a power-off request to a control center through a power-off switch.

The invention also discloses a wireless electricity taking system for the hotel, which comprises a door lock, an electricity taking switch, a detector and a control center; the door lock, the detector and the electricity taking switch comprise Bluetooth modules, and the door lock and the detector are respectively connected with the electricity taking switch through the Bluetooth modules; the power taking switch comprises a network module, and is connected with the control center through the network module; the door lock further comprises a card swiping module, and the card swiping module is connected with a magnetic card to unlock; or the lock of the hotel room is unlocked by Bluetooth, and the intelligent mobile equipment is connected with the lock through the Bluetooth module to unlock; when the door lock is in an unlocking action or a closing action, the door lock transmits a door lock unlocking signal or a door lock closing signal to the power taking switch through Bluetooth communication; the electricity taking switch triggers the detector to work through the Bluetooth module, and detects whether personnel exist in a room through the detector: if yes, the power taking switch turns on a power supply, and if not, the power taking switch turns off the power supply; the power taking switch sends the door lock opening signal or the door lock closing signal, the power supply opening signal or the power supply closing signal and the actuation request to a control center through the network module; the power-taking switch receives the instruction signal of the control center through the network module, executes the instruction in the instruction signal, or issues the instruction signal to the door lock through the Bluetooth module, and the door lock executes the instruction signal.

The invention also discloses a computer readable storage medium, on which a computer program is stored, which computer program, when being executed by a processor, implements the steps of radio access.

After the technical scheme is adopted, compared with the prior art, the method has the following beneficial effects:

1. the Bluetooth function and the network function are added to the power taking switch of each room of the hotel, so that the power taking switch can be in communication connection with the door lock and the detector in the near field on one hand and can be in remote connection with the control center on the other hand; the detector monitors indoor personnel in real time, so that the card-free, automatic and accurate detection is realized.

Drawings

Fig. 1 is a block diagram of a wireless radio system for hotels provided by the present invention;

FIG. 2 is a block diagram of an embodiment of a power switch uploading door lock record provided by the invention;

FIG. 3 is a block diagram of an implementation flow of a power switch issuing a door lock instruction provided by the invention;

FIG. 4 is a block diagram of an embodiment of the automatic power on/off operation of the power on switch according to the present invention;

fig. 5 is a block diagram of an implementation flow of remote control of the power switch provided by the invention.

Detailed Description

Advantages of the invention are further illustrated in the following description, taken in conjunction with the accompanying drawings and detailed description.

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with some aspects of the present disclosure as detailed in the accompanying claims.

The terminology used in the present disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any or all possible combinations of one or more of the associated listed items.

It should be understood that although the terms first, second, third, etc. may be used in this disclosure to describe various information, these information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present disclosure. The word "if" as used herein may be interpreted as "at … …" or "at … …" or "responsive to a determination", depending on the context.

In the description of the present invention, it should be understood that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

In the description of the present invention, unless otherwise specified and defined, it should be noted that the terms "mounted," "connected," and "coupled" are to be construed broadly, and may be, for example, mechanical or electrical, or may be in communication with each other between two elements, directly or indirectly through intermediaries, as would be understood by those skilled in the art, in view of the specific meaning of the terms described above.

In the following description, suffixes such as "module", "component", or "unit" for representing elements are used only for facilitating the description of the present invention, and are not of specific significance per se. Thus, "module" and "component" may be used in combination.

Referring to fig. 1, the invention discloses a wireless electricity taking method for hotels, which comprises the following steps:

s100, a Bluetooth broadcast for unlocking a door lock of a hotel room is connected with intelligent mobile equipment to unlock, or magnetic card information is read to unlock;

s200, when the door lock is opened or closed, the door lock transmits a door lock opening signal or a door lock closing signal to the power taking switch through Bluetooth communication;

s300, triggering the detector to work through Bluetooth communication by the power-taking switch, and detecting whether personnel exist in a room through the detector: if yes, the power supply is turned on by the power supply switch, and if not, the power supply is turned off by the power supply switch;

s400, the power-taking switch sends a door lock opening signal or a door lock closing signal, a power supply opening signal or a power supply closing signal and an actuation request to a control center through network communication;

s500, the power-taking switch receives an instruction signal of the control center through network communication, executes an instruction in the instruction signal, or transmits the instruction signal to the door lock through Bluetooth communication, and the door lock executes the instruction signal.

The step numbers S100 to S500 do not strictly represent the front-back relationship between the steps, in other words, the steps may be exchanged in order or may be in parallel relationship.

Preferably, for step S100, qualification verification needs to be performed between the door lock and the magnetic card or the intelligent mobile device, and matching verification can be performed through authorization parameters.

The magnetic card is a card-like magnetic recording medium that cooperates with various card readers. A magnetic card is a card that uses a magnetic carrier to record some information for identification or other purposes.

Specifically, the Bluetooth of the door lock broadcasts a first authorization parameter, the intelligent mobile device broadcasts a second authorization parameter, and unlocking is performed if the first authorization parameter is matched with the second authorization parameter; otherwise, refusing to unlock. Or the door lock reads the second authorization parameter in the magnetic card, and if the first authorization parameter stored in the door lock is matched with the second authorization parameter, unlocking is performed; otherwise, refusing unlocking; the first authorization parameter, the second authorization parameter includes a hotel identification, a room identification, a valid time period, and the like.

In a preferred embodiment, the door lock can read data information (second authorization parameter) in the magnetic card through a card reading function, or receive message information (second authorization parameter) sent by the intelligent mobile device through the Bluetooth module, and the door lock judges whether the data information or the message information is consistent with or effective to information prestored in the hotel door lock.

It should be noted that, the first authorization parameter and the second authorization parameter not only have a pairing relationship, but also need to perform validity verification on the second authorization parameter of the magnetic card or the intelligent mobile device before (or after) pairing, which can be understood as identity verification, and ensure that the identity verification is within the validity period.

Preferably, in order to further ensure the security of the room, even if the matching is successful, the door lock cannot be opened automatically, but a request needs to be submitted to the control center, and the request can be opened only by passing.

This step should not be understood as a normal wireless authentication, which starts authentication after the door lock has been connected to the control terminal, but the request to the control center here is a report to the control center after the authentication is passed, i.e. the last control of the door lock.

Specifically, the actuation request includes an unlocking request, and the instruction signal includes an unlocking instruction.

When the first authorization parameter is matched with the second authorization parameter, the door lock sends an unlocking request to the power taking switch through Bluetooth communication, and the power taking switch uploads the unlocking request to the control center through network communication. The control center agrees to issue an unlocking instruction to the power taking switch, the random power taking switch issues the unlocking instruction to the door lock through Bluetooth communication, the door lock executes the unlocking instruction, and then the door lock is locked.

Preferably, in order to further ensure the electricity safety, the electricity taking switch triggers the detector to detect whether a person exists or does not exist in the room through Bluetooth communication, and the electricity taking switch cannot immediately and automatically take the power on or off, but needs to submit a request to the control center, and the power on or off can be carried out only through the request.

Likewise, this step should not be understood as a normal remote off/on, which is initiated after the power switch is connected to the control terminal, but the request to the control center is also understood as a report to the control center after the verification is passed, that is, the last control of the power switch.

Specifically, the actuation request further includes an energizing request and a de-energizing request, and the command signal includes an energizing command and a de-energizing command.

If the detector detects that personnel exist in the room, the electricity taking switch uploads an electricity supplying request to the control center through network communication, and after the control center agrees, the electricity taking switch sends an electricity supplying instruction, and the electricity taking switch executes the electricity supplying instruction to start a power supply.

If the detector detects that no person exists in the room, the power-off switch uploads a power-off request to the control center through network communication, and after the control center agrees, the power-off switch sends a power-off instruction, and the power-off switch executes the power-off instruction to turn off the power supply.

Preferably, in order to ensure the accuracy of detection, when detecting whether a person exists in the room by the detector, the detection is started immediately after the trigger of the detector is started, and the detection time lasts for a first preset period of time.

Further, it is contemplated that in some cases, it may be possible to gate or to have a short flow of people in the room but then leave the room, so that it may be provided to start detection after a second preset period of time after the triggering of the detector is turned on, i.e. to exclude the disturbance information of the short circulation of people. The detection time still needs to last for a first preset period of time.

Preferably, for some rooms, the requirements of privacy and safety are high, so that the uniqueness of the identity of the homeowner needs to be ensured, namely, only the homeowner is served, and no power-on service is performed for people outside the homeowner.

In particular, preferably, when detecting that the distance between the magnetic card or the intelligent mobile device and the connected door lock is out of a preset distance, a power-off request is sent to the control center through the power-off switch.

Optionally, the detector is a millimeter wave radar monitoring device, and may also be an infrared detector, which is not limited herein. The network communication may be a wireless network or a wired network. The control center may be a cloud server.

Several workflow embodiments of the power switch are provided below.

(1) Uploading door lock record for power-taking switch

Referring to fig. 2, the hotel door lock performs an unlocking or locking operation and initiates an upload request through bluetooth communication. The power switch scans the request based on Bluetooth communication and actively initiates connection with the hotel door lock. And then the power taking switch transmits corresponding operation records to the cloud server through network communication, and the cloud server receives and records the operation records.

(2) The power-taking switch issues a door lock instruction

Referring to fig. 3, the cloud server issues a remote command (i.e., an instruction signal), and the power-taking switch receives the issued instruction through network communication and actively connects with a corresponding hotel door lock. The power-taking switch is transmitted to the hotel door lock, and the hotel door lock executes the command.

(3) Automatic power-on/off of power-on switch

Referring to fig. 4, the millimeter wave radar monitoring device monitors indoor presence/absence of a person, updates the broadcast. The power taking switch scans the broadcast, automatically takes/cuts off power, uploads corresponding operation records to the cloud server through network communication, and the cloud server receives and records the operation records.

(4) Remote control of power taking switch

Referring to fig. 5, the cloud server issues a remote instruction (i.e., an instruction signal), the power switch receives the instruction through network communication, and the power switch receives and executes the instruction.

The invention also discloses a wireless electricity taking system for the hotel, which comprises a door lock, an electricity taking switch, a detector (preferably a millimeter wave radar monitoring device) and a control center. The door lock comprises an MCU, a card swiping module, a Bluetooth module, a power module, a storage module and a control module. The electricity taking switch comprises an MCU, a Bluetooth module, a card swiping module, a network module and a power module. The millimeter wave radar monitoring device comprises an MCU, a Bluetooth module, a radar module and a power module.

The door lock and the detector are respectively connected with the electricity taking switch through the Bluetooth module. The power taking switch comprises a network module, and is connected with the control center through the network module.

The door lock is connected with the magnetic card through the card swiping module to unlock; or the lock of hotel room opens bluetooth broadcast, and intelligent mobile device is connected with the lock through bluetooth module in order to unblank.

The lock of hotel room opens bluetooth broadcast, and magnetic card or intelligent mobile device are connected with the lock through the module of punching the card in order to unblank. The power switch triggers the detector to work through the Bluetooth module, and detects whether personnel exist in the room through the detector: if yes, the power supply is turned on by the power taking switch, and if not, the power supply is turned off by the power taking switch.

The power-taking switch sends a door lock opening signal or a door lock closing signal, a power-on signal or a power-off signal and an actuation request to the control center through the network module.

The power-taking switch receives an instruction signal of the control center through the network module, executes an instruction in the instruction signal, or issues the instruction signal to the door lock through the Bluetooth module, and the door lock executes the instruction signal.

The invention also discloses a computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of wireless power taking.

It should be noted that the embodiments of the present invention are preferred and not limited in any way, and any person skilled in the art may make use of the above-disclosed technical content to change or modify the same into equivalent effective embodiments without departing from the technical scope of the present invention, and any modification or equivalent change and modification of the above-described embodiments according to the technical substance of the present invention still falls within the scope of the technical scope of the present invention.

Claims (9)

1. A wireless power taking method for a hotel, comprising the steps of:

the lock unlocking Bluetooth broadcast of the hotel room is connected with the intelligent mobile equipment to unlock, or reads magnetic card information to unlock;

when the door lock is in an unlocking action or a closing action, the door lock transmits a door lock unlocking signal or a door lock closing signal to the power taking switch through Bluetooth communication;

the electricity taking switch triggers the detector to work through Bluetooth communication, and detects whether personnel exist in a room through the detector: if yes, the power taking switch turns on a power supply, and if not, the power taking switch turns off the power supply;

the power taking switch sends the door lock opening signal or the door lock closing signal, the power supply opening signal or the power supply closing signal and the actuation request to a control center through network communication;

the power-taking switch receives the instruction signal of the control center through network communication, executes instructions in the instruction signal, or transmits the instruction signal to the door lock through Bluetooth communication, and the door lock executes the instruction signal.

2. The method of claim 1, wherein the unlocking the hotel room door lock bluetooth broadcast is connected to the smart mobile device for unlocking, or reading magnetic card information for unlocking comprises:

the Bluetooth of the door lock broadcasts a first authorization parameter, the intelligent mobile equipment broadcasts a second authorization parameter, and unlocking is performed if the first authorization parameter is matched with the second authorization parameter; otherwise, refusing unlocking;

the door lock reads a second authorization parameter in the magnetic card, and if the first authorization parameter stored in the door lock is matched with the second authorization parameter, unlocking is performed; otherwise, refusing unlocking;

the first authorization parameter and the second authorization parameter comprise hotel identification, room identification and valid period.

3. The wireless power take-off method of claim 2, wherein the actuation request comprises an unlock request; the instruction signal comprises an unlocking instruction;

if the first authorization parameter is matched with the second authorization parameter, the door lock sends an unlocking request to the power taking switch through Bluetooth communication;

the power-taking switch uploads the unlocking request to the control center through network communication;

the control center issues an unlocking instruction to the power taking switch, the power taking switch issues the unlocking instruction to the door lock through Bluetooth communication, and the door lock executes the unlocking instruction.

4. The wireless power take-off method of claim 3, wherein the actuation request further comprises a power-on request and a power-off request; the instruction signal comprises a power-on instruction and a power-off instruction;

if yes, the power taking switch turns on a power supply, and if not, the power taking switch turns off the power supply, which comprises the following steps:

if yes, the power-on switch uploads the power-on request to the control center through network communication; the control center sends an electrifying instruction to the electrifying switch, and the electrifying switch executes the electrifying instruction to turn on a power supply;

if not, the power-off switch uploads the power-off request to the control center through network communication; and the control center sends a power-off instruction to the power-off switch, and the power-off switch executes the power-off instruction to turn off the power supply.

5. The method of claim 1, wherein the detecting by the detector whether a person is in the room comprises:

and starting the detection immediately after the trigger of the detector is started, wherein the detection time is a first preset time period.

6. The method of claim 1, wherein the detecting by the detector whether a person is in the room further comprises:

and starting the detection after a second preset time period is set after the detector is triggered and started, wherein the detection time is the first preset time period.

7. The method according to claim 1, wherein the magnetic card or the smart mobile device is connected to the door lock through bluetooth communication to unlock the door lock, and further comprising:

and if the magnetic card or the intelligent mobile equipment is detected to be out of the preset distance from the connected door lock, sending a power-off request to a control center through a power-off switch.

8. The wireless electricity taking system for the hotel is characterized by comprising a door lock, an electricity taking switch, a detector and a control center;

the door lock, the detector and the electricity taking switch comprise Bluetooth modules, and the door lock and the detector are respectively connected with the electricity taking switch through the Bluetooth modules;

the power taking switch comprises a network module, and is connected with the control center through the network module;

the door lock further comprises a card swiping module, and the card swiping module is connected with a magnetic card to unlock; or the lock of the hotel room is unlocked by Bluetooth, and the intelligent mobile equipment is connected with the lock through the Bluetooth module to unlock;

when the door lock is in an unlocking action or a closing action, the door lock transmits a door lock unlocking signal or a door lock closing signal to the power taking switch through Bluetooth communication;

the electricity taking switch triggers the detector to work through the Bluetooth module, and detects whether personnel exist in a room through the detector: if yes, the power taking switch turns on a power supply, and if not, the power taking switch turns off the power supply;

the power taking switch sends the door lock opening signal or the door lock closing signal, the power supply opening signal or the power supply closing signal and the actuation request to a control center through the network module;

the power-taking switch receives the instruction signal of the control center through the network module, executes the instruction in the instruction signal, or issues the instruction signal to the door lock through the Bluetooth module, and the door lock executes the instruction signal.

9. A computer readable storage medium having stored thereon a computer program, which when executed by a processor performs the steps of radio access according to any of claims 1-7.