CN110728777A - Hotel intelligent non-blocking method - Google Patents

Abstract

The intelligent hotel check-in-free method comprises the following steps of S1: the portable intelligent terminal is communicated with the server to obtain authorization parameters for opening the electronic door lock; s2: the portable intelligent terminal sends a wireless communication connection request containing the authorization parameter in a broadcasting mode; s3: the electronic door lock is in wireless communication connection with the portable intelligent terminal, verifies the authorization parameters and opens the door lock, sends a temporary electricity getting signal to the electricity getting switch, the electricity getting switch enters a temporary power supply state and starts power-off countdown, and the power-off switch cuts off the power supply after the power-off countdown is finished; s4: before the power-off countdown is finished, the resident closes the door and rotates the counter-locking button to counter-lock the door, the electronic door lock sends a power-getting-keeping signal to the power-getting switch, and the power-getting switch enters a continuous power supply state after receiving the power-getting-keeping signal. The invention can realize no clamping after one-time connection, reduces the performance and specification requirements of the resident portable intelligent terminal and improves the compatibility.

Description

Hotel intelligent non-blocking method

Technical Field

The invention relates to an intelligent hotel non-card check-in method, and belongs to the field of Internet of things technology and intelligent equipment control.

Background

At present, hotels generally adopt room cards to control the opening and the power-off of guest rooms. The general flow is as follows: the method comprises the following steps that a resident firstly transacts check-in procedures on a hotel foreground and gets a room card, walks to a room door, and punches the card to open a door lock; after entering a room, inserting the house card into the electricity taking switch, and switching on a power supply of the room by the electricity taking switch; before leaving the room, the house card is pulled out of the power-taking switch, and the power supply of the room is cut off by the power-taking switch. The above-mentioned mode that utilizes room card to open the door and get the outage has some problems: firstly, the resident must queue to the foreground to take the house card, the card must be swiped and inserted when entering the room, and the card must be pulled when leaving the room, so the operation is complicated, the house card is easy to lose, the resident must compensate, and the economic loss is caused; secondly, when some residential guests leave the room, the house cards are not pulled out intentionally or unintentionally, so that the power supply of the room is always in a connected state, and the electric appliances in the room continuously work, thereby greatly improving the power consumption of the room and greatly improving the power consumption cost; thirdly, the hotel room card does not have the function of identity recognition, and the technical defect causes the phenomenon that the house openers and the house residents are inconsistent to be difficult to put an end to. In addition, the existing hotel room card is easy to crack and copy, and the safety cannot be guaranteed.

In order to solve the problems, the hotel industry is actively adopting a non-blocking scheme at present. At present, a common modification scheme is to replace the circuit boards inside the existing hotel door lock and the power-taking switch, so that the hotel door lock and the power-taking switch can receive a control instruction of a portable intelligent terminal (such as a smart phone) through wireless communication, and the door opening without a card and the power taking without the card are realized. The existing non-card jamming scheme is implemented, and in order to avoid the situation that a power supply is always switched on in an unmanned state, the power-taking switch needs to be always in wireless communication with the intelligent terminal to continuously supply power. In actual use, this has encountered problems. Firstly, after the intelligent terminal is checked in, a plurality of people are used to close the intelligent terminal or enter a flight mode in the night sleep time, and partial people also have the action of manually closing wireless communication after connection is completed; secondly, the wireless communication signal strength of the intelligent terminals in the current market is different, and by combining the room type characteristics of part of hotels, such as the layout of elongated hotel rooms with corners, the situation of wireless communication interruption can occur in some corners; in addition, under the condition that a plurality of people live in, if the person who opens the house carries the intelligent terminal out, other people stay in the room. The above situations can cause unexpected power-off situations, which have a great adverse effect on the user experience.

Disclosure of Invention

In order to solve the existing problems, the invention aims to provide an intelligent no-card-jamming method for a hotel, a portable intelligent terminal is not required to be continuously connected with a power-taking switch, no-card jamming can be realized after one-time connection, a resident is prompted to lock a door in a reverse mode in time through voice, the safety of the resident when the resident boards and the hotel are jammed and powered is improved, the logic of power-taking and power-off conforms to the use habit of people, the jamming experience of the resident is improved, the performance and specification requirements on the portable intelligent terminal of the resident are reduced, and the compatibility is improved.

In order to achieve the purpose, the intelligent hotel non-check-in method comprises the following steps:

s1: the portable intelligent terminal is communicated with the server to obtain authorization parameters for opening the electronic door lock, wherein the authorization parameters comprise unit identification, building identification, floor mark, room identification and authorization timeliness;

s2: the portable intelligent terminal sends a wireless communication connection request containing the authorization parameter in a broadcasting mode;

s3: the electronic door lock and the portable intelligent terminal are in wireless communication connection, the electronic door lock verifies authorization parameters and opens the door lock, the portable intelligent terminal breaks the wireless communication connection after receiving a feedback signal of the electronic door lock, a temporary power taking signal is sent to the power taking switch when the electronic door lock is opened, the power taking switch enters a temporary power supply state after receiving the temporary power taking signal and starts power-off countdown, and the power taking switch cuts off a power supply after the power-off countdown is finished;

s4: the resident rotates the back locking button of the electronic door lock to back lock the door in the hotel room, the electronic door lock sends a power keeping signal to the power taking switch, and the power taking switch enters a continuous power supply state after receiving the power keeping signal.

Further, in step S3, when the power-taking switch enters the temporary power-supplying state, the electronic door lock periodically sends out a plurality of voice prompts within the time period of power-off countdown to remind the resident to operate the back-locking button.

Further, the total time of the voice prompts is less than or equal to the time counted down when the power is off.

Further, in step S4, if the resident opens the electronic door lock to open the door inside the hotel room, the electronic door lock sends a temporary power-taking signal to the power-taking switch, and the power-taking switch enters the temporary power-supplying state again and starts to power-off and count down.

Further, if the electronic door lock of the hotel guest room is always kept in an open state, the power-taking switch is powered off after the power-off countdown is finished.

Further, get the electric switch and include the intelligence response and get the electric card, the intelligence response is got the electric card and is included master control switch module, wireless communication module, induction coil and power module, master control switch module carries out wireless signal transmission through between wireless communication module and the electronic lock, master control switch module control induction coil's switching on and off, get the electric switch power supply when induction coil is switched on, get the electric switch outage when induction coil breaks off, master control switch module has and opens, close and time delay and close three kinds of states, master control switch module enters the time delay closed state after receiving the signal of temporarily getting the electricity, master control switch module carries out the countdown and enters the closed state after the time delay is over under the time delay closed state, master control switch module receives and keeps getting the electric signal after entering the open state and keeping.

Furthermore, after the main control switch module receives the power-keeping signal in the delayed closing state, the delayed closing state is interrupted to enter the opening state and is kept.

Further, the countdown time for the delayed off state is the same as the time for the power down countdown.

According to the intelligent no-card-jamming method for the hotel, the portable intelligent terminal is not required to be continuously connected with the electricity-taking switch, no-card jamming can be realized after one-time connection, the resident is prompted to lock the door in time through voice, the safety of the resident when the resident boards and the electricity are taken is improved while no-card electricity is taken, the logic of electricity taking and breaking conforms to the use habit of people, the jamming experience of the resident is improved, the performance and specification requirements on the portable intelligent terminal of the resident are reduced, and the compatibility is improved.

Drawings

The present invention will be further described and illustrated with reference to the following drawings.

Fig. 1 is a system block diagram adopted by an intelligent no-check-in method for a hotel in a preferred embodiment of the invention;

fig. 2 is a flowchart of an intelligent hotel non-check-in method according to a preferred embodiment of the present invention.

Detailed Description

The technical solution of the present invention will be more clearly and completely explained by the description of the preferred embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1, an intelligent hotel non-blocking method according to a preferred embodiment of the present invention requires a server, an electronic door lock access switch, and a portable intelligent terminal.

The electronic door lock is provided with a door lock mechanism and a back locking mechanism, and can realize wireless communication and control the door lock.

The power taking switch comprises an intelligent induction power taking card, the intelligent induction power taking card comprises a main control switch module, a wireless communication module, an induction coil and a power supply module, the main control switch module is used for transmitting wireless signals between the wireless communication module and the electronic door lock, the main control switch module controls the induction coil to be opened and closed, the power taking switch supplies power when the induction coil is switched on, and the power taking switch cuts off power when the induction coil is switched off.

The portable intelligent terminal comprises a built-in wireless communication module and is provided with software for unlocking the electronic door lock. The software installed in the portable intelligent terminal can be various small programs represented by WeChat small programs which are easy to download and use or various kinds of native applications based on an operating system, which have stronger functions and higher operation efficiency than the small programs. The software comprises a login verification unit for an operator of the wireless communication equipment, a wireless communication equipment operation authorization request unit, a wireless communication equipment connection unit and a wireless communication equipment operation unit, wherein after the operator logs in through an account and a password, the wireless communication equipment operation authorization request unit requests the server for the operation permission of the operator, after the operation permission of one or more wireless communication equipment is obtained, the wireless communication equipment connection unit sends a connection request to nearby wireless communication equipment in a broadcasting mode, and after the connection is successfully established, the wireless communication equipment operation unit automatically sends an operation instruction to the wireless communication equipment.

The portable intelligent terminal is mainly connected with the electronic door lock in a Bluetooth mode, and other wireless communication technologies such as Wi-Fi, ZigBee, Z-Wave, Lora, 433, NFC, 2.4G, various broadband and narrowband wireless/mobile communication technologies provided by mobile communication operators and the like can be used. The wireless communication mode between the electronic door lock and the intelligent induction electricity taking card can adopt relatively cheap mature wireless communication technologies such as 1394/433/485 and the like.

As shown in fig. 2, the intelligent hotel non-check-in method includes the following steps:

s1: the portable intelligent terminal is communicated with the server to obtain authorization parameters for opening the electronic door lock, wherein the authorization parameters comprise unit identification, building identification, floor mark, room identification and authorization timeliness;

s2: the portable intelligent terminal sends a wireless communication connection request containing the authorization parameter in a broadcasting mode;

s3: the method comprises the steps that wireless communication connection is established between an electronic door lock and a portable intelligent terminal, the electronic door lock verifies authorization parameters and opens the door lock, the portable intelligent terminal breaks the wireless communication connection after receiving a feedback signal of the electronic door lock, a temporary electricity getting signal is sent to an electricity getting switch when the electronic door lock is opened, the electricity getting switch enters a temporary power supply state after receiving the temporary electricity getting signal and starts 1min power-off countdown, the electronic door lock periodically sends 3 voice prompts within the time interval of the power-off countdown, each time interval is 15s, a resident is reminded to operate a back-locking button, and if the resident does not take operation, the power supply is cut off by the electricity getting switch after the power-off countdown is finished;

s4: the resident rotates the back locking button of the electronic door lock to back lock the door in the hotel room, the electronic door lock sends a power keeping signal to the power taking switch, and the power taking switch enters a continuous power supply state after receiving the power keeping signal.

The main control switch module has three states of opening, closing and delayed closing, in steps S3 and S4, the main control switch module enters a delayed closing state after receiving the temporary power-taking signal, counts down the time and enters a closing state after the count down is finished in the delayed closing state, the main control switch module enters an opening state and keeps after receiving the power-taking maintaining signal, and the main control switch module interrupts the delayed closing state to enter the opening state and keeps after receiving the power-taking maintaining signal in the delayed closing state.

In step S3, if the electronic door lock of the hotel room is kept in the open state, the power switch is powered off after the power-off countdown is finished. In step S4, if the resident opens the electronic door lock to open the door inside the hotel room, the electronic door lock sends a temporary power-taking signal to the power-taking switch, and the power-taking switch enters the temporary power-supplying state again and starts the power-off countdown.

In addition, the non-card check-in method has good compatibility with the original card-holding check-in mode of the hotel, the hotel only needs to modify the existing electronic door lock, the wireless communication function is added on the basis of card-reading check-in, the electricity-taking switch body does not need to be modified, no risk exists for decision making of a hotel owner, the original check-in mode can be reserved while a new check-in method is provided, a resident can open a door to enter a room when holding a house card issued by the hotel, and then continuous electricity taking is realized through the anti-lock button.

According to the intelligent no-card-jamming method for the hotel, the portable intelligent terminal is not required to be continuously connected with the electricity-taking switch, no-card jamming can be realized after one-time connection, the resident is prompted to lock the door in time through voice, the safety of the resident when the resident boards and the electricity are taken is improved while no-card electricity is taken, the logic of electricity taking and breaking conforms to the use habit of people, the jamming experience of the resident is improved, the performance and specification requirements on the portable intelligent terminal of the resident are reduced, and the compatibility is improved.

The above detailed description merely describes preferred embodiments of the present invention and does not limit the scope of the invention. Without departing from the spirit and scope of the present invention, it should be understood that various changes, substitutions and alterations can be made herein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents. The scope of the invention is defined by the claims.

Claims (8)

1. An intelligent hotel non-check-in method is characterized by comprising the following steps:

s1: the portable intelligent terminal is communicated with the server to obtain authorization parameters for opening the electronic door lock, wherein the authorization parameters comprise unit identification, building identification, floor mark, room identification and authorization timeliness;

s2: the portable intelligent terminal sends a wireless communication connection request containing authorization parameters in a broadcasting mode;

s3: the electronic door lock is in wireless communication connection with a portable intelligent terminal, the electronic door lock verifies authorization parameters and opens the door lock, the portable intelligent terminal disconnects the wireless communication connection after receiving a feedback signal of the electronic door lock, the electronic door lock sends a temporary electricity getting signal to an electricity getting switch when opening, the electricity getting switch enters a temporary power supply state after receiving the temporary electricity getting signal and starts power-off countdown, and the electricity getting switch disconnects a power supply after the power-off countdown is finished;

s4: the resident rotates the counter-locking button of the electronic door lock to counter-lock the door in the hotel room, the electronic door lock sends a power-keeping signal to the power-taking switch, and the power-taking switch enters a continuous power supply state after receiving the power-keeping signal.

2. The intelligent no-jamming hotel method according to claim 1, wherein in step S3, when the power switch enters the temporary power supply state, the electronic door lock periodically sends out a plurality of voice prompts during the time period of power-off countdown to remind the resident to operate the anti-lock button.

3. The intelligent hotel non-check-in method according to claim 2, wherein the total time of the plurality of voice prompts is less than or equal to the time counted down by power failure.

4. The intelligent no-card-jamming method for hotels according to claim 1, wherein in step S4, if the electronic door lock is opened to open the door inside the hotel room, the electronic door lock sends a temporary power-getting signal to the power-getting switch, and the power-getting switch reenters the temporary power-supplying state and starts to power-off and count down.

5. The intelligent hotel non-jamming method according to claim 1, wherein if the electronic door lock of the hotel room is kept in an open state all the time, the power switch is powered off after the power-off countdown is finished.

6. The intelligent hotel non-check-in method according to claim 1, the electricity taking switch comprises an intelligent induction electricity taking card, the intelligent induction electricity taking card comprises a main control switch module, a wireless communication module, an induction coil and a power supply module, the main control switch module is in wireless signal transmission with the electronic door lock through the wireless communication module, the main control switch module controls the opening and closing of the induction coil, the induction coil is powered by the power switch when being switched on, the power-taking switch is powered off when the induction coil is disconnected, the main control switch module has three states of opening, closing and delayed closing, the power supply control device comprises a main control switch module, a power supply holding signal and a power supply control module, wherein the main control switch module enters a delayed closing state after receiving the temporary power supply signal, the main control switch module performs countdown under the delayed closing state and enters a closing state after the countdown is finished, and the main control switch module enters an opening state and holds after receiving the power supply holding signal.

7. The intelligent hotel non-jamming method according to claim 6, wherein the delayed off state is interrupted and kept after the main control switch module receives the power-on keeping signal in the delayed off state.

8. The intelligent hotel non-jamming method of claim 6, wherein the time delay off state is counted down for the same time as the power down count down time.

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