CN114840045A - Hotel guest room control method and system - Google Patents

Abstract

The application relates to a hotel room control method and a system, relating to the technical field of hotel rooms, wherein the method comprises the steps of obtaining the predicted arrival time of a user, a preset room and the volume of the preset room based on a room-booking order of the user; sending a first opening instruction to a temperature sensor of a preset room, and sending a second opening instruction to a humidity sensor of the preset room; acquiring a temperature detection value sent by a temperature sensor and a humidity detection value sent by a humidity sensor; obtaining a temperature adjusting curve based on the temperature detection value, the first temperature interval, the predicted reaching moment and the volume; obtaining a humidity adjusting curve based on the humidity detection value, the first humidity interval, the predicted reaching moment and the volume; and controlling the operation mode of the temperature and humidity adjusting system based on the temperature adjusting curve and the humidity adjusting curve. The temperature and humidity adjusting system has the effect of automatically adjusting the temperature and humidity in a guest room according to the temperature and humidity in a hotel before a user check-in.

Description

Hotel guest room control method and system

Technical Field

The application relates to the technical field of hotel rooms, in particular to a hotel room control method and system.

Background

The temperature and humidity of the existing hotel guest room are mostly controlled manually, after a user enters the guest room, the user manually sets the temperature and humidity value in the guest room through a remote control device, and an air conditioning system can control the temperature and humidity in the guest room based on the temperature and humidity value of the user.

With respect to the related art in the above, the inventors found that: in the existing hotel temperature and humidity control method, temperature and humidity adjustment can be performed only after a user enters a room, so that the check-in experience of the user is reduced.

Disclosure of Invention

In order to facilitate automatic temperature and humidity regulation in a guest room according to the temperature and humidity in a hotel before a user check-in, the application provides a hotel guest room control method.

In a first aspect, the hotel room control method provided by the application adopts the following technical scheme.

A hotel room control method comprises the following steps:

obtaining the predicted arrival time of the user, a preset room and the volume of the preset room based on a room ordering order of the user;

sending a first opening instruction to a temperature sensor of the preset room, and sending a second opening instruction to a humidity sensor of the preset room;

acquiring a temperature detection value sent by the temperature sensor and a humidity detection value sent by the humidity sensor;

obtaining a temperature regulation curve based on the temperature detection value, a preset first temperature interval, the predicted reaching moment and the volume;

obtaining a humidity adjusting curve based on the humidity detection value, a preset first humidity interval, the predicted reaching moment and the volume; and the number of the first and second groups,

and controlling the operation mode of a temperature and humidity adjusting system based on the temperature adjusting curve and the humidity adjusting curve to enable the preset room to be in a first temperature interval and a first humidity interval at the predicted reaching moment.

By adopting the technical scheme, in the application, the temperature value and the humidity value of the preset room can be automatically detected before the user reaches the preset room, and the temperature and the humidity of the preset room are automatically adjusted according to the detection result, so that the temperature and the humidity of the preset room can better meet the living requirements when the user enters the preset room.

Optionally, the temperature and humidity adjusting module comprises a temperature adjusting module and a humidity adjusting module;

the method for obtaining the temperature regulation curve comprises the following steps:

obtaining a first working mode of the temperature adjusting module and a first time length for enabling the preset room to reach a first temperature interval based on the volume and the temperature detection value; the total power consumed by the first working mode in the first time period is the minimum power consumed by the preset room to reach a first temperature interval;

obtaining an interval duration based on the current time and the predicted arrival time;

judging whether the interval duration is less than the first duration or not; if not, obtaining a first opening time based on the estimated reaching time and the first time length; and the number of the first and second groups,

sending a first control instruction to the temperature adjusting module at a first starting moment; the first control instruction is used for triggering the temperature adjusting module to work in a first working mode.

Optionally, if it is determined that the interval duration is smaller than the first duration; obtaining a second working mode of the temperature adjusting module based on the interval duration, the volume and the temperature detection value; and the number of the first and second groups,

and controlling the temperature adjusting module to immediately work in the second working mode so that the preset room reaches the first temperature interval or is closer to the first temperature interval than the first working mode.

Optionally, the method for obtaining the temperature adjustment curve includes:

obtaining a third working mode of the humidity adjusting module and a second time length for enabling the preset room to reach a second humidity interval based on the volume and humidity detection values; the total electric energy consumed by the third working mode in the second time period is the minimum electric energy consumed by enabling the preset room to reach a second humidity interval;

judging whether the interval duration is smaller than the second duration or not; if not, a second starting time is obtained based on the estimated reaching time and the second duration; and the number of the first and second groups,

sending a second control instruction to the humidity adjusting module at a second starting moment; the second control instruction is used for triggering the humidity adjusting module to work in a third working mode.

Optionally, if it is determined that the interval duration is smaller than the second duration, a fourth operating mode of the temperature adjusting module is obtained based on the interval duration, the volume and the temperature detection value; and the number of the first and second groups,

and controlling the temperature adjusting module to immediately work in a fourth working mode so that the preset room reaches the first humidity region or is closer to the first humidity region than the third working mode.

Optionally, the method for acquiring the preset first temperature interval and the preset first humidity interval includes:

obtaining identity information of a user based on a room ordering order of the user;

a first temperature interval and a first humidity interval of the user are retrieved based on the identity information.

Optionally, the method further includes: after a user enters the preset room, receiving a voice control instruction of the user; and the number of the first and second groups,

and controlling the working mode of the temperature and humidity adjusting system based on the voice control instruction.

In a second aspect, the hotel room control method provided by the application adopts the following technical scheme.

A hotel room control system comprising:

a first processing module to: obtaining the predicted arrival time of the user, a preset room and the volume of the preset room based on a room ordering order of the user;

a first sending module configured to: sending a first opening instruction to a temperature sensor of the preset room, and sending a second opening instruction to a humidity sensor of the preset room;

a first data acquisition module to: acquiring a temperature detection value sent by the temperature sensor and a humidity detection value sent by the humidity sensor;

a second processing module to: obtaining a temperature regulation curve based on the temperature detection value, a preset first temperature interval, the predicted reaching moment and the volume;

a third processing module to: obtaining a humidity adjusting curve based on the humidity detection value, a preset first humidity interval, the predicted reaching moment and the volume; and the number of the first and second groups,

a fourth processing module to: and controlling the operation mode of a temperature and humidity adjusting system based on the temperature adjusting curve and the humidity adjusting curve to enable the preset room to be in a first temperature interval and a first humidity interval at the predicted reaching moment.

In a third aspect, the present application discloses a computer device comprising a memory and a server, the memory having stored thereon a computer program that is loaded by the server and that performs any of the methods described above.

In a fourth aspect, the present application discloses a computer readable storage medium storing a computer program that can be loaded by a server and execute any of the methods described above.

Drawings

Fig. 1 is a flowchart of a method of controlling hotel rooms according to an embodiment of the present application;

fig. 2 is a system block diagram of a hotel room control system according to an embodiment of the present application;

in the figure, 21, a first processing module; 22. a first sending module; 23. a first data acquisition module; 24. a second processing module; 25. a third processing module; 26. a fourth processing module; 241. a first processing sub-module; 242. a second processing sub-module; 251. a third processing sub-module; 252. a fourth processing submodule; 27. and a fifth processing module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to fig. 1-2 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad application.

The embodiment of the application discloses a hotel room control method. Referring to fig. 1, as an embodiment of a hotel room control method, a hotel room control method includes the steps of:

step 101, obtaining the predicted arrival time of the user, the predetermined room and the volume of the predetermined room based on the order of the user.

Specifically, when the user performs room reservation by way of a applet, APP, a web page, and the like, the user may select a room with one or some room numbers (determined according to a predetermined number of rooms) in the room type as a living room after selecting the room type, and the user may also input an expected arrival time, so that the generated order form includes the expected arrival time of the user and the reserved room. The volume of the predetermined room corresponds to the predetermined room number, that is, the volume of the predetermined room is mapped to the predetermined room number, and the volume of the predetermined room is measured in advance. The processor obtains the volume of the predetermined room based on the room number of the predetermined room and the mapping relationship.

And 102, sending a first opening instruction to a temperature sensor of a preset room, and sending a second opening instruction to a humidity sensor of the preset room.

Specifically, in order to save electric energy, the temperature sensor and the humidity sensor are not always turned on, after the processor acquires the room number of the predetermined room, the processor sends a first turn-on instruction to the control module of the temperature sensor of the predetermined room to control the temperature sensor to be turned on, and the processor sends a second turn-on signal to the control module of the humidity sensor of the predetermined room to control the humidity sensor to be turned on.

And 103, acquiring a temperature detection value sent by the temperature sensor and a humidity detection value sent by the humidity sensor.

Specifically, the temperature sensor and the humidity sensor are in communication with the processor, the communication modes include wired communication and wireless communication, and the wireless communication modes include but are not limited to bluetooth, WiFi, ZigBee and cellular network.

And 104, obtaining a temperature adjusting curve based on the temperature detection value, the preset first temperature interval, the predicted reaching time and the volume.

Specifically, the method for acquiring the preset first temperature interval includes: obtaining identity information of the user based on a room ordering order of the user; a first temperature interval of the user is called based on the identity information. The first temperature zone may be preset by the user, and the user may select a desired temperature zone, that is, the first temperature zone, at the time of reserving the room according to the user's preference. When the user does not set the temperature interval, the preset temperature interval (18-28 ℃) is adopted as the first temperature interval. The factors influencing the room temperature mainly include the current temperature value (i.e. the temperature detection value), the size of the room (i.e. the volume of the room), the desired temperature (i.e. the first temperature interval), and the temperature and flow rate of the gas output by the temperature regulation module (e.g. an air conditioner). The processor obtains a temperature regulation curve according to the temperature detection value, the preset first temperature interval, the predicted reaching time and the volume of the preset room.

And 105, obtaining a humidity adjusting curve based on the humidity detection value, the preset first humidity interval, the estimated reaching time and the volume.

Specifically, the method for acquiring the preset first humidity interval includes: obtaining identity information of the user based on a room ordering order of the user; a first humidity interval of the user is retrieved based on the identity information. The first humidity zone may be preset by a user, and the user may select a desired humidity zone, that is, the first humidity zone, at the time of reserving a room according to the user's preference. When the user does not set the humidity interval, a preset humidity interval (40% -65%) is adopted as the first humidity interval. The factors influencing the humidity of the room mainly include the current humidity value (i.e. the detected humidity value), the size of the room (i.e. the volume of the room), the desired humidity (i.e. the first humidity interval) and the power of the humidity conditioning module (e.g. dehumidifier, humidifier). The processor obtains a humidity adjusting curve according to the humidity detection value, the preset first humidity interval, the predicted arrival time and the volume of the preset room.

And 106, controlling the operation mode of the temperature and humidity adjusting system based on the temperature adjusting curve and the humidity adjusting curve to enable the preset room to be in a first temperature interval and a first humidity interval at the expected arrival moment.

Specifically, the processor controls the operation mode of the temperature and humidity control system according to the temperature control curve and the humidity control curve, so that the preset room is in a first temperature interval and a first humidity interval at the expected arrival time. According to the method and the device, the temperature value and the humidity value of the preset room can be automatically detected before the user reaches the preset room, and the temperature and the humidity of the preset room are automatically adjusted according to the detection result, so that the temperature and the humidity of the preset room can better meet the living requirements when the user enters the preset room.

As another embodiment of the hotel room control method, the temperature and humidity adjusting module comprises a temperature adjusting module and a humidity adjusting module;

the method for obtaining the temperature regulation curve comprises the following steps:

obtaining a first working mode of a temperature adjusting module and a first duration for enabling a preset room to reach a first temperature interval based on the volume and the temperature detection value; the total power consumed by the first working mode in the first time period is the minimum power consumed by the preset room to reach the first temperature interval;

obtaining an interval duration based on the current time and the predicted arrival time;

judging whether the interval duration is less than a first duration or not; if not, obtaining a first opening time based on the predicted reaching time and the first time length; and the number of the first and second groups,

sending a first control instruction to the temperature adjusting module at a first starting moment; the first control instruction is used for triggering the temperature adjusting module to work in a first working mode.

Specifically, temperature regulation module and humidity control module among the temperature humidity control module can be integrated together, for example the temperature humidity control module can be central air conditioning, and this hollow air conditioning has functions such as regulating temperature, humidification, dehumidification. The temperature adjusting module and the humidity adjusting module in the temperature and humidity adjusting module can be arranged in a split manner, for example, the temperature adjusting module is an air conditioner; the humidity adjusting module is a humidifier and a dehumidifier. The higher the working temperature set by the temperature adjusting module is, the lower the real-time power consumption of the temperature adjusting module is, and in order to reduce electric energy, the processor obtains a first working mode of the temperature adjusting module and a first duration for enabling a preset room to reach a first temperature interval based on the volume and the temperature detection value. When the temperature detection value is larger than the upper limit value of the first temperature interval, the temperature value set by the temperature adjusting module is slightly smaller than the upper limit value of the first temperature interval; when the temperature detection value is smaller than the lower limit value of the first temperature interval, the temperature value set by the temperature adjusting module is slightly larger than the lower limit value of the first temperature interval. The processor obtains an interval duration based on the current time and the predicted reaching time and judges whether the interval duration is less than a first duration, if so, the processor controls the temperature adjusting module to enable the preset room to be in a first temperature interval according to a first working mode, and then the processor obtains a first opening time based on the predicted reaching time and the first duration and sends a first control instruction to the temperature adjusting module at the first opening time, so that electric energy consumed by the temperature adjusting module in temperature adjustment is saved.

As another embodiment of the hotel room control method, if the interval duration is determined to be less than the first duration; obtaining a second working mode of the temperature adjusting module based on the interval duration, the volume and the temperature detection value; and the number of the first and second groups,

and controlling the temperature regulation module to immediately work in the second working mode to enable the preset room to reach the first temperature interval or enable the preset room to be closer to the first temperature interval compared with the first working mode.

Specifically, when the interval duration is less than the first duration, the temperature of the predetermined room cannot be in the first temperature range at the predetermined time even if the temperature adjustment module is immediately controlled to operate according to the first operation mode, at this time, the processor obtains a second operation mode of the temperature adjustment module based on the interval duration, the volume and the temperature detection value, and controls the temperature adjustment module to immediately operate in the second operation mode so that the predetermined room reaches the first temperature range or is closer to the first temperature range than the first operation mode.

As another embodiment of a hotel room control method, a method of obtaining a temperature adjustment curve includes:

obtaining a third working mode of the humidity adjusting module and a second time length for enabling the preset room to reach a second humidity interval based on the volume and humidity detection values; the total electric energy consumed by the third working mode in the second time period is the minimum electric energy for enabling the preset room to reach the second humidity interval;

judging whether the interval duration is less than a second duration or not; if not, a second starting time is obtained based on the expected reaching time and the second duration; and the number of the first and second groups,

sending a second control instruction to the humidity adjusting module at a second starting moment; the second control instruction is used for triggering the humidity adjusting module to work in a third working mode.

Specifically, the higher the operating power set by the humidity adjustment module, the higher the real-time power consumption of the humidity adjustment module. In order to reduce the electric energy, the processor obtains a third working mode of the humidity adjusting module and a second time length for enabling the preset room to reach the first humidity interval based on the volume and humidity detection values. When the humidity detection value is larger than the upper limit value of the first humidity interval, the humidity value set by the humidity adjusting module is slightly smaller than the upper limit value of the first humidity interval; when the humidity detection value is smaller than the lower limit value of the first humidity interval, the humidity value set by the humidity adjusting module is slightly larger than the lower limit value of the first humidity interval. The processor judges whether the interval duration is less than the second duration, if so, the processor controls the humidity adjusting module to enable the preset room to be in the first humidity interval according to the third working mode, and then the processor obtains a second starting time based on the predicted reaching time and the second duration, and sends a first control instruction to the humidity adjusting module at the second starting time, so that the electric energy consumed by the humidity adjusting module in humidity adjustment is saved.

In other embodiments, if the interval duration is determined to be less than the second duration, a fourth operating mode of the temperature adjusting module is obtained based on the interval duration, the volume and the temperature detection value; and the number of the first and second groups,

and controlling the temperature adjusting module to immediately work in the fourth working mode to enable the preset room to reach the first humidity region or enable the preset room to be closer to the first humidity region than the third working mode.

Specifically, when the interval duration is less than the second duration, the humidity of the predetermined room cannot be within the first humidity range at the predetermined time even if the humidity adjustment module is immediately controlled to operate according to the third operating mode, at this time, the processor obtains a fourth operating mode of the humidity adjustment module based on the interval duration, the volume and the humidity detection value, and controls the humidity adjustment module to immediately operate in the fourth operating mode so that the predetermined room reaches the first humidity range or is closer to the first humidity range than the third operating mode.

In another embodiment, after the user enters a predetermined room, receiving a voice control instruction of the user; and the number of the first and second groups,

and controlling the working mode of the temperature and humidity adjusting system based on the voice control instruction.

Specifically, after a user enters a preset room and is subjected to identity authentication or identity binding, a voice command can be sent through an intelligent terminal in the preset room, the processor receives the voice control command of the user and controls the working mode of the temperature and humidity adjusting system based on the voice control command, the user can adjust the temperature and humidity without searching for a remote controller or walking to a control panel, and the temperature and humidity adjusting system is more intelligent and more convenient for the residence of the user.

Referring to fig. 2, the present application further provides a hotel room control system, including:

a first processing module 21 configured to: obtaining the predicted arrival time of the user, the preset room and the volume of the preset room based on the order form of the user;

a first sending module 22 for: sending a first opening instruction to a temperature sensor of a preset room, and sending a second opening instruction to a humidity sensor of the preset room;

a first data acquisition module 23 configured to: acquiring a temperature detection value sent by a temperature sensor and a humidity detection value sent by a humidity sensor;

a second processing module 24 configured to: obtaining a temperature regulation curve based on the temperature detection value, a preset first temperature interval, the predicted reaching moment and the volume;

a third processing module 25, configured to: obtaining a humidity adjusting curve based on the humidity detection value, a preset first humidity interval, the predicted reaching moment and the volume; and the number of the first and second groups,

a fourth processing module 26 for: the operation mode of the temperature and humidity adjusting system is controlled based on the temperature adjusting curve and the humidity adjusting curve, so that the preset room is in a first temperature interval and a first humidity interval at the expected reaching moment.

As another embodiment of the hotel room control system, the second processing module 24 includes a first processing submodule 241, and the first processing submodule 241 is configured to: obtaining a first working mode of a temperature adjusting module and a first duration for enabling a preset room to reach a first temperature interval based on the volume and the temperature detection value; the total power consumed by the first working mode in the first time period is the minimum power consumed by the preset room to reach the first temperature interval; obtaining an interval duration based on the current time and the predicted arrival time; judging whether the interval duration is less than a first duration or not; if not, obtaining a first opening time based on the predicted reaching time and the first time length; sending a first control instruction to the temperature adjusting module at a first starting moment; the first control instruction is used for triggering the temperature adjusting module to work in a first working mode.

As another embodiment of the hotel room control system, the second processing module 24 further includes a second processing sub-module 242, and the second processing sub-module 242 is configured to: if the interval duration is judged to be less than the first duration; obtaining a second working mode of the temperature adjusting module based on the interval duration, the volume and the temperature detection value; and controlling the temperature adjusting module to immediately work in the second working mode to enable the preset room to reach the first temperature interval or enable the preset room to be closer to the first temperature interval than the first working mode.

As another embodiment of the hotel room control system, the third processing module 25 includes a third processing sub-module 251, and the third processing sub-module 251 is configured to: obtaining a third working mode of the humidity adjusting module and a second time length for enabling the preset room to reach a second humidity interval based on the volume and humidity detection values; the total electric energy consumed by the third working mode in the second time period is the minimum electric energy for enabling the preset room to reach the second humidity interval; judging whether the interval duration is less than a second duration or not; if not, a second starting time is obtained based on the expected reaching time and the second duration; and sending a second control instruction to the humidity adjusting module at a second starting moment; the second control instruction is used for triggering the humidity adjusting module to work in a third working mode.

As another embodiment of the hotel room control system, the third processing module 25 includes a fourth processing submodule 252, and the fourth processing submodule 252 is configured to: if the interval duration is judged to be less than the second duration, a fourth working mode of the temperature adjusting module is obtained based on the interval duration, the volume and the temperature detection value; and controlling the temperature adjusting module to immediately work in a fourth working mode to enable the preset room to reach the first humidity region or enable the preset room to be closer to the first humidity region than in the third working mode.

The method for acquiring the preset first temperature interval and the preset first humidity interval comprises the following steps:

obtaining identity information of the user based on a room ordering order of the user;

a first temperature interval and a first humidity interval of the user are retrieved based on the identity information.

As another embodiment of the hotel room control system, the system further includes a fifth processing module 27, and the fifth processing module 27 is configured to: receiving a voice control instruction of a user after the user enters a preset room; and controlling the working mode of the temperature and humidity adjusting system based on the voice control instruction.

The embodiment of the application also discloses computer equipment.

Specifically, the device comprises a memory and a server, wherein the memory stores a computer program which can be loaded by the server and executes any one of the image splicing methods.

The embodiment of the application also discloses a computer readable storage medium.

Specifically, the computer-readable storage medium stores a computer program that can be loaded by a server and executes any one of the image stitching methods described above, and includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the application in any way, and any features disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims (10)

1. A hotel room control method is characterized by comprising the following steps:

obtaining the predicted arrival time of the user, a preset room and the volume of the preset room based on a room ordering order of the user;

sending a first opening instruction to a temperature sensor of the preset room, and sending a second opening instruction to a humidity sensor of the preset room;

acquiring a temperature detection value sent by the temperature sensor and a humidity detection value sent by the humidity sensor;

obtaining a temperature regulation curve based on the temperature detection value, a preset first temperature interval, the predicted reaching moment and the volume;

obtaining a humidity adjusting curve based on the humidity detection value, a preset first humidity interval, the predicted reaching moment and the volume; and the number of the first and second groups,

and controlling the operation mode of a temperature and humidity adjusting system based on the temperature adjusting curve and the humidity adjusting curve to enable the preset room to be in a first temperature interval and a first humidity interval at the predicted reaching moment.

2. The hotel room control method according to claim 1, wherein the temperature and humidity control module comprises a temperature control module and a humidity control module;

the method for obtaining the temperature regulation curve comprises the following steps:

obtaining a first working mode of the temperature adjusting module and a first time length for enabling the preset room to reach a first temperature interval based on the volume and the temperature detection value; the total power consumed by the first working mode in the first time period is the minimum power consumed by the preset room to reach a first temperature interval;

obtaining an interval duration based on the current time and the predicted arrival time;

judging whether the interval duration is less than the first duration or not; if not, obtaining a first opening time based on the estimated reaching time and the first time length; and the number of the first and second groups,

sending a first control instruction to the temperature adjusting module at a first starting moment; the first control instruction is used for triggering the temperature adjusting module to work in a first working mode.

3. The hotel room control method of claim 2, wherein if the interval duration is determined to be less than the first duration; obtaining a second working mode of the temperature adjusting module based on the interval duration, the volume and the temperature detection value; and the number of the first and second groups,

and controlling the temperature adjusting module to immediately work in the second working mode so that the preset room reaches the first temperature interval or is closer to the first temperature interval than the first working mode.

4. A hotel room control method as set forth in claim 3, wherein the method of obtaining a temperature regulation curve comprises:

obtaining a third working mode of the humidity adjusting module and a second time length for enabling the preset room to reach a second humidity interval based on the volume and humidity detection values; the total electric energy consumed by the third working mode in the second time period is the minimum electric energy consumed by enabling the preset room to reach a second humidity interval;

judging whether the interval duration is smaller than the second duration or not; if not, a second starting time is obtained based on the estimated reaching time and the second duration; and the number of the first and second groups,

sending a second control instruction to the humidity adjusting module at a second starting moment; the second control instruction is used for triggering the humidity adjusting module to work in a third working mode.

5. A hotel room control method according to claim 4,

if the interval duration is smaller than the second duration, obtaining a fourth working mode of the temperature adjusting module based on the interval duration, the volume and the temperature detection value; and the number of the first and second groups,

and controlling the temperature adjusting module to immediately work in a fourth working mode so that the preset room reaches the first humidity region or is closer to the first humidity region than the third working mode.

6. The hotel room control method as recited in claim 5, wherein the method for acquiring the preset first temperature interval and the preset first humidity interval comprises the following steps:

obtaining identity information of a user based on a room ordering order of the user;

a first temperature interval and a first humidity interval of the user are retrieved based on the identity information.

7. The hotel room control method of claim 6, further comprising: receiving a voice control instruction of a user after the user enters the preset room; and the number of the first and second groups,

and controlling the working mode of the temperature and humidity adjusting system based on the voice control instruction.

8. A hotel room control system, comprising:

a first processing module (21) for: obtaining the predicted arrival time of the user, a preset room and the volume of the preset room based on a room ordering order of the user;

a first sending module (22) for: sending a first opening instruction to a temperature sensor of the preset room, and sending a second opening instruction to a humidity sensor of the preset room;

a first data acquisition module (23) for: acquiring a temperature detection value sent by the temperature sensor and a humidity detection value sent by the humidity sensor;

a second processing module (24) for: obtaining a temperature regulation curve based on the temperature detection value, a preset first temperature interval, the predicted reaching moment and the volume;

a third processing module (25) for: obtaining a humidity adjusting curve based on the humidity detection value, a preset first humidity interval, the predicted reaching moment and the volume; and the number of the first and second groups,

a fourth processing module (26) for: and controlling the operation mode of a temperature and humidity adjusting system based on the temperature adjusting curve and the humidity adjusting curve to enable the preset room to be in a first temperature interval and a first humidity interval at the predicted reaching moment.

9. A computer device, characterized by: comprising a memory and a server, said memory having stored thereon a computer program for a method according to any one of claims 1 to 7, when loaded and executed by the server.

10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a server and which executes the method according to any one of claims 1 to 7.

Images