CN107292998B - Hotel self-service check-in control system and method - Google Patents

Hotel self-service check-in control system and method Download PDF

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Publication number
CN107292998B
CN107292998B CN201610196105.8A CN201610196105A CN107292998B CN 107292998 B CN107292998 B CN 107292998B CN 201610196105 A CN201610196105 A CN 201610196105A CN 107292998 B CN107292998 B CN 107292998B
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electronic key
processing unit
unit
information
user
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CN107292998A (en
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薛盛局
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Hangzhou Yang Color Crafts Design Co ltd
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Hangzhou Yang Color Crafts Design Co ltd
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    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07CTIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
    • G07C9/00Individual registration on entry or exit
    • G07C9/00174Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys
    • G07C9/00896Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys specially adapted for particular uses
    • G07C9/00904Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys specially adapted for particular uses for hotels, motels, office buildings or the like
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q50/00Systems or methods specially adapted for specific business sectors, e.g. utilities or tourism
    • G06Q50/10Services
    • G06Q50/12Hotels or restaurants

Abstract

The invention relates to a self-service check-in control system and method for a hotel. The problem of current fingerprint authentication's hotel self-service check-in system guest forget to close the power, the power just is opening always and is causing the energy waste, when many people check in, other guests can't unblank alone is solved. The system comprises a hotel control end, a room operation end and a mobile receiving end, wherein the room operation end comprises a door lock, a dynamic trigger and a room power supply controller, and the door lock comprises an electronic lock unit, a key input unit, a fingerprint input unit, a scanning unit, a processing unit and a network communication unit. The invention adopts a mode of dynamically generating the electronic key for opening the door, combines the power-off when the door is opened and the generation operation of the electronic key, thus improving the safety, simultaneously ensuring that the power supply in the room can be cut off in time after the user goes out, and saving the energy.

Description

Hotel self-service check-in control system and method
Technical Field
The invention relates to a hotel service system, in particular to a hotel self-service check-in control system and method with higher safety coefficient and energy conservation.
Background
Along with the prosperity of economy and the improvement of living standard of people, the demands of business transaction, tourism, vacation and leisure and other work and living are increasing day by day. Frequent trips of people bring huge development space for the hotel industry, each type of hotel is increasingly popular, and the service management level of the hotel needs to be continuously improved. Typical hospitality management systems often require a customer to check-in and check-out to the front desk. When the guest enters the house, the guest holds the identity card to register and pay deposit on the foreground, and the foreground service personnel sends the identity card to the guest house card. Due to the fact that the number of hotel front desk service staff is limited, especially in holidays and when more guests exist, the guests often need to wait for a long time to get in, working efficiency is low, and great inconvenience is brought to the guests.
At present, a self-help check-in mode is adopted by hotels. The existing self-service check-in system of the hotel comprises an electronic lock and a fingerprint authentication device which are arranged on a door, and a guest registers through inputting a fingerprint and opens the door by adopting the fingerprint. Therefore, the guest does not need to go to the foreground to transact the check-in procedure, and can check in only by fingerprint authentication at the door, which brings great convenience to the guest. But this also presents some problems. Firstly, the traditional manual check-in mode is that a house card is arranged, a power supply of a room is switched on and off by plugging and unplugging the house card, the house card is not needed when the fingerprint is adopted for authentication and unlocking, the self-help check-in is convenient for a user, but because the user forgets to turn off all power supplies easily when the user goes out, the power supply is always on, and the energy waste is caused. Secondly, generally, a guest carries out fingerprint authentication when the guest lives in, but when two or three people live in one room, other guests cannot unlock the door independently, and the door needs to be unlocked together with the guest who registers the fingerprint every time, which brings great inconvenience to the guest.
Disclosure of Invention
The invention mainly solves the problems that in the existing fingerprint authentication hotel self-service check-in system, a power supply is always on when a guest forgets to turn off the power supply, so that energy is wasted, and other guests cannot be unlocked independently when a plurality of guests check in, so that inconvenience is caused, and provides the hotel self-service check-in control system which is higher in safety coefficient and saves energy.
The invention also provides a self-service hotel check-in control method which is higher in safety coefficient and energy-saving.
The technical problem of the invention is mainly solved by the following technical scheme: a hotel self-help check-in control system comprises a hotel control end, a room operation end and a mobile receiving end, wherein the room operation end comprises a door lock, a dynamic trigger and a room power supply controller, the door lock comprises an electronic lock unit, a key input unit, a fingerprint input unit, a scanning unit, a processing unit and a network communication unit, the electronic lock unit, the key input unit, the fingerprint input unit and the scanning unit are respectively connected with the processing unit, the processing unit is connected with the dynamic trigger, the dynamic trigger is connected with the room power supply controller, the network communication unit is respectively connected with the hotel control end and the mobile receiving end through a network, and the hotel control end is connected with the mobile receiving end;
a dynamic trigger: generating an electronic key changing instruction after each user is triggered and sending the electronic key changing instruction to the processing unit, and simultaneously generating a power-off instruction and sending the power-off instruction to the room power controller; after the user triggers the dynamic trigger, the dynamic trigger sends an instruction to the processor, a new electronic key is regenerated and sent to the user mobile receiving end, and meanwhile, the dynamic trigger also sends an instruction to the room power supply control unit to control the room power supply to be turned off in a delayed mode.
A processing unit: and checking the user order to generate an electronic key, dynamically generating a new electronic key according to the instruction of the dynamic trigger unit, and controlling the electronic lock unit to open and close by comparing the input electronic key. The processing unit can read the order information of the hotel control terminal according to the input information of the case input unit and check the order information. And after the order is successfully checked, collecting user fingerprint information, generating an electronic key of a room, storing the electronic key and sending the electronic key to the mobile receiving terminal.
The invention adopts a mode of dynamically generating the electronic key for opening the door, a user needs to obtain one electronic key through the dynamic trigger every time the user goes out, and meanwhile, the power-off during going out is combined with the generation operation of the electronic key, so that the power supply in a room can be timely disconnected after the user goes out, the safety is improved, and the energy is saved.
As a preferred scheme, the intelligent human body monitoring device further comprises a human body sensor, and the human body sensor is connected with the processing unit. The human body sensor is used for sensing whether a person exists in a room, and the room operation end controls the power supply controller of the room to cut off the power supply if detecting that no person exists in the room after the door is closed. Therefore, when a user forgets to trigger the dynamic trigger when going out, the power supply of a room can be timely disconnected, and energy is saved.
As a preferable scheme, the door lock further comprises an identification card reading unit, and the identification card reading unit is connected with the processing unit. The information input mode is added in the scheme, a user can directly brush the identity card to input identity information, and the operation is more convenient and faster.
Preferably, the door lock further comprises a display unit, and the display unit is connected with the processing unit. The display unit can display input information and door lock feedback information, so that a user can know the operation condition of the door lock more visually.
A self-help check-in control method for hotel comprises an automatic check-in transaction step and a dynamic electronic key control step,
automatic check-in and transaction steps: the door lock checks order information according to the information input by the user, generates an initial electronic key after the order information is checked correctly, and simultaneously sends the initial electronic key to a mobile receiving end of a corresponding user to finish check-in;
a dynamic electronic key control step: the dynamic trigger generates an electronic key changing instruction after being triggered each time and sends the electronic key changing instruction to the processing unit, meanwhile, a power-off instruction is generated and sent to the room power supply controller, the processing unit regenerates the electronic key to be stored and sends the electronic key to the corresponding user mobile receiving end, the room power supply controller delays the power supply incoming line to be powered off, and the door lock controls the electronic lock unit to be opened and closed through comparing the input electronic key;
an electronic key resetting step: and after the user inputs the reset instruction, confirming the user, and after the confirmation is successful, regenerating the electronic key and sending the electronic key to the corresponding user mobile receiving terminal.
The invention adopts a mode of dynamically generating the electronic key for opening the door, a user needs to obtain one electronic key through the dynamic trigger every time the user goes out, and meanwhile, the power-off during going out is combined with the generation operation of the electronic key, so that the power supply in a room can be timely disconnected after the user goes out, the safety is improved, and the energy is saved.
As a preferred scheme, the automatic check-in transaction step specifically comprises the following steps:
s11, a key input unit receives identity information and password information input by a user, and a processing unit inquires a corresponding order from a hotel management control terminal according to the identity information and the password information; the identity information is a user identity card number, and the password information is a password used by the user when placing an order on the network. Meanwhile, identity information and password information are input for checking, and the safety degree is improved.
S12, the processing unit checks the user identity and the check-in time according to the order data and acquires user fingerprint information after the check is correct; the system checks the check-in information including identity and check-in time, the order check is passed after the identity information is correct and the order time is within, and the system enters automatic check-in.
S13, the processing unit generates an initial electronic key through calculation according to the user identity information, the instant time information and the user fingerprint information, stores the electronic key and simultaneously sends the electronic key to a hotel control terminal and a mobile receiving terminal of a corresponding user; the electronic key is a two-dimensional code, user identity information, instant time information and user fingerprint information are generated through calculation, the processing unit enables the electronic key to be simultaneously transmitted to the hotel control end and the mobile receiving end of the corresponding user, the hotel control end judges that check-in is successful, and the user obtains the electronic key for opening the door.
S14, the scanning unit scans the electronic key to obtain electronic key information, and the processing unit controls the electronic lock unit to be opened and closed through comparing the acquired electronic key. The scanning unit scans the two-dimensional code, the processing unit compares the acquired information with the stored electronic key information, and the electronic lock unit is controlled to unlock after the acquired information is consistent with the stored electronic key information.
As a preferred scheme, the step of controlling the dynamic electronic key specifically comprises the following steps:
s21, when the dynamic trigger is triggered, the dynamic trigger collects time information and generates an electronic key changing instruction, the collected time information and the electronic key changing instruction are packed and sent to a processing unit, and meanwhile the dynamic trigger generates a power-off instruction and sends the power-off instruction to a room power controller;
s22, the room power supply controller conducts delayed power-off on the power supply after receiving the instruction;
and S23, after receiving the electronic key changing instruction, the processing unit generates a new electronic key through calculation according to the received time information, the stored user identity information and the stored user fingerprint information, stores the new electronic key and sends the new electronic key to the mobile receiving end of the corresponding user. The dynamic trigger is a key, and the user triggers the dynamic trigger when going out. After the dynamic trigger is triggered each time, the processing unit can regenerate an electronic key, and the dynamic trigger is triggered at the same time, so that the room power manager controls the delayed power-off of the power supply. The door can be opened only by acquiring a new electronic key when the door is out, so that the room power supply is controlled while the new electronic key is acquired through the dynamic trigger, the electronic key generation operation and the door-out power-off are combined together, the unlocking safety is improved, the power supply in the room can be timely disconnected after the door is out, and the energy is saved.
As a preferable scheme, the step of controlling the electronic lock unit to open and close by the processing unit specifically comprises the following steps:
s31, collecting electronic key information of a user through a scanning unit;
s32, the processor detects whether an electronic key is stored, if not, unlocking is not carried out, and if the electronic key is stored, the next step is carried out;
and S33, comparing the stored electronic key with the collected electronic key, if the stored electronic key is inconsistent with the collected electronic key, unlocking, and deleting the stored electronic key. In the scheme, each electronic key can be used only once, so that a user needs to trigger the dynamic trigger to obtain a new electronic key before going out every time, if the user forgets to trigger the dynamic trigger, the electronic key does not exist, and the electronic key used before is invalid. Therefore, the user can trigger the dynamic trigger to acquire a new electronic key and control the room power supply.
As a preferred scheme, the self-help check-in control method for the hotel is characterized in that: the electronic key resetting method comprises the following specific steps:
s41, the user inputs the reset instruction through the key input unit, and the processing unit prompts the user to input the fingerprint information; and after receiving the reset instruction, the processing unit sends information of the input fingerprint, and the user inputs fingerprint information according to the information.
And S42, after the processing unit acquires the fingerprint information, comparing the acquired fingerprint information with the stored fingerprint information, if the acquired fingerprint information is not consistent with the stored fingerprint information, failing to reset, and if the acquired fingerprint information is consistent with the stored fingerprint information, generating a new electronic key through calculation according to the instant time information, the stored user identity information and the stored user fingerprint information, and simultaneously transmitting the new electronic key to a mobile receiving end of a corresponding user by the processing unit. In the scheme, if the processing unit does not have the electronic key, the new electronic key is directly stored, and if the electronic key is stored, the stored electronic key is deleted and the new electronic key is stored. When the user forgets to trigger the dynamic trigger to acquire the electronic key, a new electronic key can be acquired by resetting the electronic key to unlock.
Preferably, when the user leaves the door without triggering the dynamic trigger, the room power control comprises the following steps:
s51, the processing unit detects whether the electronic lock unit carries out primary locking in real time, if not, detection is continued, and if yes, an instruction is sent to the human body sensor;
s52, after the human body sensor receives the instruction, whether a person exists in the room within a set time length is detected, if yes, the work is finished, if not, information is fed back to the processing unit, and the processing unit controls the room power supply controller to cut off the power supply. According to the scheme, when the user forgets to trigger the dynamic trigger, the power supply controller of the room is controlled to cut off the power supply by detecting that no person exists in the room. Therefore, even if the user forgets to trigger the dynamic trigger when going out, the power supply of the room can be timely disconnected, and the energy is saved.
Therefore, the invention has the advantages that: the mode of dynamically generating the door opening electronic key is adopted, and a user needs to obtain one electronic key through a dynamic trigger every time the user goes out, so that the safety is improved. Meanwhile, the power-off when the door is out is combined with the generation operation of the electronic key, so that the power supply in the room can be timely disconnected after the user goes out, and the energy is saved. The electronic key is generated for unlocking, so that the unlocking is not limited to one user, and convenience is brought to the users who live in the same house.
Drawings
FIG. 1 is a block diagram of one construction of the present invention;
FIG. 2 is a flow chart illustrating the self-help check-in process of the present invention;
FIG. 3 is a flow chart illustrating the steps of controlling the dynamic electronic key according to the present invention;
FIG. 4 is a schematic flow chart illustrating the electronic key resetting process of the present invention;
FIG. 5 is a schematic flow chart of the procedure of the present invention in which the processing unit controls the electronic lock unit to open and close;
FIG. 6 is a flow chart of the control steps of the room power controller when the user goes out without triggering the dynamic trigger according to the present invention.
1-hotel control end 2-room operation end 3-mobile receiving end 21-door lock 22-dynamic trigger 23-room power controller 24-human body sensor 211-processing unit 212-network communication unit 213-key input unit 214-fingerprint input unit 215-scanning unit 216-electronic lock unit 217-display unit 218-identity card reading unit.
Detailed Description
The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.
Example (b):
a hotel self-help check-in control system in this embodiment, as shown in fig. 1, includes a hotel control end 1, a room operation end 2, and a mobile receiving end 3. The room operation end comprises a door lock 21, a dynamic trigger 22, a room power controller 23 and a human body sensor 24. The door lock comprises an electronic lock unit 216, a key input unit 213, a fingerprint input unit 214, a scanning unit 215, a processing unit 211, a display unit 217, an identity card reading unit 218 and a network communication unit 212, wherein the electronic lock unit, the key input unit, the fingerprint input unit, the scanning unit, the display unit and the identity card reading unit are respectively connected with the processing unit, the processing unit is connected with a dynamic trigger, the dynamic trigger is connected with a room power supply controller, a human body sensor 24 is connected with the processing unit, the network communication unit is respectively connected with a hotel control end and a mobile receiving end through a network, and the hotel control end is connected with the mobile receiving end. The dynamic trigger is a key and is arranged in a room, and the room power supply controller is arranged on a room power supply circuit and is used for switching on and off the room power supply.
A dynamic trigger: generating an electronic key changing instruction after each user is triggered and sending the electronic key changing instruction to the processing unit, and simultaneously generating a power-off instruction and sending the power-off instruction to the room power controller;
a processing unit: and checking the user order to generate an electronic key, dynamically generating a new electronic key according to the instruction of the dynamic trigger unit, and controlling the electronic lock unit to open and close by comparing the input electronic key.
A hotel self-service check-in control method comprises an automatic check-in transaction step, a dynamic electronic key control step and an electronic key resetting step.
Automatic check-in and transaction steps: the door lock checks order information according to the information input by the user, generates an initial electronic key after the order information is checked correctly, and simultaneously sends the initial electronic key to a mobile receiving end of the corresponding user to finish check-in. As shown in fig. 2, the specific content includes the following steps:
s11, a key input unit receives identity information and password information input by a user, and a processing unit inquires a corresponding order from a hotel management control terminal according to the identity information and the password information;
s12, the processing unit checks the user identity and the check-in time according to the order data and acquires user fingerprint information after the check is correct;
s13, the processing unit generates an initial electronic key through calculation according to the user identity information, the instant time information and the user fingerprint information, stores the electronic key and simultaneously sends the electronic key to a hotel control terminal and a mobile receiving terminal of a corresponding user; the electronic key is a two-dimensional code, and the corresponding scanning unit on the door lock is a two-dimensional code scanner.
S14, the scanning unit scans the electronic key to obtain electronic key information, and the processing unit controls the electronic lock unit to be opened and closed through comparing the acquired electronic key.
A dynamic electronic key control step: the dynamic trigger generates an electronic key changing instruction after being triggered each time and sends the electronic key changing instruction to the processing unit, meanwhile, a power-off instruction is generated and sent to the room power supply controller, the processing unit regenerates the electronic key to be stored and sends the electronic key to the corresponding user mobile receiving end, the room power supply controller delays the power supply incoming line to be powered off, and the door lock controls the electronic lock unit to be opened and closed through comparing the input electronic key. As shown in fig. 3, the specific content includes the following steps:
s21, when the dynamic trigger is triggered, the dynamic trigger collects time information and generates an electronic key changing instruction, the collected time information and the electronic key changing instruction are packed and sent to a processing unit, and meanwhile the dynamic trigger generates a power-off instruction and sends the power-off instruction to a room power controller;
s22, the room power supply controller conducts delayed power-off on the power supply after receiving the instruction;
and S23, after receiving the electronic key changing instruction, the processing unit generates a new electronic key through calculation according to the received time information, the stored user identity information and the user fingerprint information, and the processing unit stores the new electronic key and simultaneously sends the new electronic key to the mobile receiving end of the corresponding user.
As shown in fig. 4, the electronic key resetting step specifically includes the following steps:
s41, the user inputs the reset instruction through the key input unit, and the processing unit prompts the user to input the fingerprint information;
and S42, after the processing unit acquires the fingerprint information, comparing the acquired fingerprint information with the stored fingerprint information, if the acquired fingerprint information is not consistent with the stored fingerprint information, failing to reset, and if the acquired fingerprint information is consistent with the stored fingerprint information, generating a new electronic key through calculation according to the instant time information, the stored user identity information and the stored user fingerprint information, and simultaneously transmitting the new electronic key to a mobile receiving end of a corresponding user by the processing unit.
After obtaining the electronic key, the user scans the electronic key through the scanning unit to open the door, as shown in fig. 5, the step of controlling the electronic lock unit to open and close by the processing unit specifically includes the following steps:
s31, collecting electronic key information of a user through a scanning unit;
s32, the processor detects whether an electronic key is stored, if not, unlocking is not carried out, and if the electronic key is stored, the next step is carried out;
and S33, comparing the stored electronic key with the collected electronic key, if the stored electronic key is inconsistent with the collected electronic key, unlocking, and deleting the stored electronic key.
In addition, when the user goes out but forgets to trigger the dynamic trigger, and the power supply in the room is not turned off, as shown in fig. 6, the room power supply control performs the following control steps:
s51, the processing unit detects whether the electronic lock unit carries out primary locking in real time, if not, detection is continued, and if yes, an instruction is sent to the human body sensor;
s52, after the human body sensor receives the instruction, whether a person exists in the room within a set time length is detected, if yes, the work is finished, if not, information is fed back to the processing unit, and the processing unit controls the room power supply controller to cut off the power supply.
The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.
Although the terms hotel control end, room operating end, mobile receiving end, door lock, etc. are used more often herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (8)

1. A hotel self-help check-in control system is characterized in that: the hotel control system comprises a hotel control end (1), a room operation end (2), a mobile receiving end (3) and a human body sensor (24), wherein the room operation end comprises a door lock (21), a dynamic trigger (22) and a room power controller (23), the door lock comprises an electronic lock unit (216), a key input unit (213), a fingerprint input unit (214), a scanning unit (215), a processing unit (211) and a network communication unit (212), the electronic lock unit, the key input unit, the fingerprint input unit and the scanning unit are respectively connected with the processing unit, the processing unit is connected with the dynamic trigger, the dynamic trigger is connected with the room power controller, the network communication unit is respectively connected with the hotel control end and the mobile receiving end through a network, and the hotel control end is connected with the mobile receiving end;
a dynamic trigger: generating an electronic key changing instruction after each user is triggered and sending the electronic key changing instruction to the processing unit, and simultaneously generating a power-off instruction and sending the power-off instruction to the room power controller;
a human body sensor: the processing unit is connected with the sensing unit and used for sensing whether a person exists in the room or not, and if no person exists, the processing unit feeds back information;
a processing unit: checking the user order to generate an electronic key, dynamically generating a new electronic key according to the instruction of the dynamic trigger unit, and controlling the electronic lock unit to open and close by comparing the input electronic key; whether the electronic lock unit is locked for one time is detected in real time, an instruction is sent to the human body inductor under the locking condition, and then the room power supply controller is controlled to cut off the power supply according to feedback information of the human body inductor.
2. The hotel self-help check-in control system as claimed in claim 1, wherein the door lock (21) further comprises an identification card reading unit (218), and the identification card reading unit is connected with the processing unit (211).
3. The hotel self-help check-in control system as claimed in claim 1, wherein the door lock (21) further comprises a display unit (217), and the display unit is connected with the processing unit (211).
4. A hotel self-help check-in control method, using the system of any one of claims 1 to 3, characterized in that: comprises an automatic check-in transaction step, a dynamic electronic key control step and an electronic key resetting step,
automatic check-in and transaction steps: the door lock checks order information according to the information input by the user, generates an initial electronic key after the order information is checked correctly, and simultaneously sends the initial electronic key to a mobile receiving end of a corresponding user to finish check-in;
a dynamic electronic key control step: the dynamic trigger generates an electronic key changing instruction after being triggered each time and sends the electronic key changing instruction to the processing unit, meanwhile, a power-off instruction is generated and sent to the room power supply controller, the processing unit regenerates the electronic key to be stored and sends the electronic key to the corresponding user mobile receiving end, the room power supply controller delays the power supply incoming line to be powered off, and the door lock controls the electronic lock unit to be opened and closed through comparing the input electronic key;
an electronic key resetting step: after the user inputs a reset instruction, the user is confirmed, and after the confirmation is successful, the electronic key is regenerated and sent to a corresponding user mobile receiving terminal;
when the user is out of the door and does not trigger the dynamic trigger, the room power control comprises the following steps:
s51, the processing unit detects whether the electronic lock unit carries out primary locking in real time, if not, detection is continued, and if yes, an instruction is sent to the human body sensor;
s52, after the human body sensor receives the instruction, whether a person exists in the room within a set time length is detected, if yes, the work is finished, if not, information is fed back to the processing unit, and the processing unit controls the room power supply controller to cut off the power supply.
5. The hotel self-help check-in control method according to claim 4, wherein the automatic check-in transaction step specifically comprises the following steps:
s11, a key input unit receives identity information and password information input by a user, and a processing unit inquires a corresponding order from a hotel management control terminal according to the identity information and the password information;
s12, the processing unit checks the user identity and the check-in time according to the order data and acquires user fingerprint information after the check is correct;
s13, the processing unit generates an initial electronic key through calculation according to the user identity information, the instant time information and the user fingerprint information, stores the electronic key and simultaneously sends the electronic key to a hotel control terminal and a mobile receiving terminal of a corresponding user;
s14, the scanning unit scans the electronic key to obtain electronic key information, and the processing unit controls the electronic lock unit to be opened and closed through comparing the acquired electronic key.
6. The hotel self-help check-in control method according to claim 4, wherein the dynamic electronic key control step specifically comprises the following steps:
s21, when the dynamic trigger is triggered, the dynamic trigger collects time information and generates an electronic key changing instruction, the collected time information and the electronic key changing instruction are packed and sent to a processing unit, and meanwhile the dynamic trigger generates a power-off instruction and sends the power-off instruction to a room power controller;
s22, the room power supply controller conducts delayed power-off on the power supply after receiving the instruction;
and S23, after receiving the electronic key changing instruction, the processing unit generates a new electronic key through calculation according to the received time information, the stored user identity information and the user fingerprint information, and the processing unit stores the new electronic key and simultaneously sends the new electronic key to the mobile receiving end of the corresponding user.
7. The hotel self-help check-in control method according to claim 5 or 6, wherein the step of controlling the electronic lock unit to open and close by the processing unit specifically comprises the steps of:
s31, collecting electronic key information of a user through a scanning unit;
s32, the processor detects whether an electronic key is stored, if not, unlocking is not carried out, and if the electronic key is stored, the next step is carried out;
and S33, comparing the stored electronic key with the collected electronic key, if the stored electronic key is inconsistent with the collected electronic key, unlocking, and deleting the stored electronic key.
8. The hotel self-help check-in control method according to claim 4, 5 or 6, wherein: the electronic key resetting method comprises the following specific steps:
s41, a user inputs a reset instruction through a key input unit, and a processing unit prompts the user to input fingerprint information;
and S42, after the processing unit acquires the fingerprint information, comparing the acquired fingerprint information with the stored fingerprint information, if the acquired fingerprint information is not consistent with the stored fingerprint information, failing to reset, and if the acquired fingerprint information is consistent with the stored fingerprint information, generating a new electronic key through calculation according to the instant time information, the stored user identity information and the stored user fingerprint information, and simultaneously transmitting the new electronic key to a mobile receiving end of a corresponding user by the processing unit.
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