CN114623574A

CN114623574A - Control method and processing equipment of portable temperature adjusting equipment

Info

Publication number: CN114623574A
Application number: CN202210326704.2A
Authority: CN
Inventors: 陈熙; 幸云辉; 王雷
Original assignee: Ecoflow Technology Ltd
Current assignee: Ecoflow Technology Ltd
Priority date: 2022-03-30
Filing date: 2022-03-30
Publication date: 2022-06-14
Also published as: WO2023185031A1

Abstract

The application discloses a control method of portable temperature adjusting equipment, belongs to the temperature adjusting field, and comprises the following steps: the method comprises the steps of obtaining target parameters of the portable temperature adjusting device, the residual electric quantity of a power supply module and environment parameters, determining the total required electric quantity consumed when the device operates according to the target parameters according to the space size of a working area of the device, the target parameters and the environment parameters, and then controlling the device to operate in a target operation mode based on the relation between the residual electric quantity and the total required electric quantity consumed. According to the method and the device, when the residual electric quantity meets or does not meet the total demand consumption electric quantity, the target operation mode where the portable device is controlled to be different is different, and the electric quantity required by different operation modes is different, so that when the residual electric quantity cannot meet the total demand consumption electric quantity, the residual electric quantity is guaranteed to support the device to work with the target parameters. The residual electric quantity can be fully utilized, and the use experience of a user can be improved.

Description

Control method and processing equipment of portable temperature adjusting equipment

Technical Field

The present disclosure relates to temperature control technologies, and in particular, to a control method and a processing device for a portable temperature control device.

Background

Outdoor air conditioner is owing to be applied to outdoors, like camping, tent etc. do not have the fixed power to come for outdoor air conditioner power supply, therefore outdoor air conditioner usually needs to use portable power source or the power module of inside setting to supply power to support outdoor air conditioner's operation.

The existing outdoor air conditioner is simple in control mode, the working mode cannot be adjusted according to actual conditions, the problem that a mobile power source or an internally arranged power module cannot match with the running requirement of the outdoor air conditioner easily occurs, and the requirement of a user cannot be met.

Disclosure of Invention

The application provides a control method and processing equipment of portable temperature adjusting equipment, which are used for determining a target operation mode meeting target parameters for the portable temperature adjusting equipment according to the residual electric quantity of the equipment, so that the residual electric quantity of the equipment is fully utilized, and the requirements of users are met.

The technical scheme is as follows:

in a first aspect, a method for controlling a portable temperature adjustment device is provided, including:

acquiring target parameters set for the portable temperature adjusting equipment, wherein the target parameters comprise target running time and target temperature;

acquiring the residual electric quantity of a power supply module for supplying power to the portable temperature regulating equipment;

obtaining environmental parameters of a working area of the portable temperature adjusting equipment, wherein the environmental parameters comprise the environmental temperature and the environmental wind power of the working area;

determining the total required power consumption of the portable temperature regulating equipment when the portable temperature regulating equipment operates according to the target parameters according to the space size of the working area, the target parameters and the environment parameters;

and controlling the portable temperature regulating equipment to operate in a target operation mode according to the relation between the residual capacity and the total required consumed capacity, wherein when the portable temperature regulating equipment operates in the target operation mode, the consumed capacity in the target operation time is lower than or equal to the residual capacity.

The embodiment of the application provides a control method of a portable temperature regulating device, which comprises the steps of obtaining a target parameter of the temperature regulating device, the residual electric quantity of a power supply module and an environmental parameter, further determining the total required consumed electric quantity of the portable temperature regulating device when the portable temperature regulating device operates according to the target parameter according to the space size, the target parameter and the environmental parameter of a working area of the portable temperature regulating device, then controlling the portable temperature regulating device to operate in a target operation mode based on the relation between the residual electric quantity and the total required consumed electric quantity, wherein the target operation mode is that the residual electric quantity meets the electric quantity required by the portable temperature regulating device to operate in the target operation mode under the condition that the target parameter is met, and controlling the portable temperature regulating device to be in different operation modes due to the fact that the scheme meets and does not meet the total required consumed electric quantity when the residual electric quantity meets and does not meet the total required consumed electric quantity, and the electric quantity required by different operation modes is different, so that when the residual electric quantity can not meet the total required consumed electric quantity, the residual electric quantity can be ensured to support the working target duration of the portable temperature regulating equipment. The residual electric quantity can be fully utilized, and the use experience of a user can be improved.

Optionally, the controlling the portable temperature adjustment device to operate in a target operation mode according to the relationship between the remaining power and the total required power consumption includes:

and under the condition that the residual electric quantity does not meet the total required consumed electric quantity, controlling a temperature control module of the portable temperature regulating equipment to be started in the starting time period of the target operation time length, and controlling the temperature control module to be closed in other time periods of the target operation time length.

Optionally, the controlling the portable temperature adjustment device to operate in the target operation mode according to the relationship between the remaining power and the total required power consumption includes:

under the condition that the residual electric quantity does not meet the total demand consumption electric quantity, acquiring a temperature change trend in the environmental parameters;

determining an operation time period of a temperature control module of the portable temperature adjusting equipment according to the temperature change trend and the target temperature, wherein the operation time period is within the target operation time period;

controlling the temperature control module to be started in the operation time period, and controlling the temperature control module to be closed in a time period outside the operation time period;

the operation time period of the temperature control module at least comprises a starting time period of the target operation time period.

Optionally, the control method further includes: and under the condition of controlling the temperature control module to be closed, controlling the fan module of the portable temperature adjusting equipment to be opened.

Optionally, the control method further includes: and under the condition of controlling the temperature control module to be closed, controlling the fan module of the portable temperature regulating equipment to be opened according to a preset time interval.

Optionally, the control method further includes: controlling a fan module of the portable temperature regulating device to be started within a starting time period of the target running time;

acquiring oxygen demand information;

controlling the fan module to operate at a first power when the oxygen demand information is higher than first demand information;

when the oxygen demand information is lower than or equal to first demand information and higher than second demand information, controlling the fan module to operate at a second power;

when the oxygen demand information is lower than or equal to the second demand information, controlling the fan module to be closed;

wherein the first power is higher than the second power.

controlling the portable temperature regulating device to operate in a normal operation mode under the condition that the residual electric quantity meets the total required consumed electric quantity;

the normal operation mode includes: when the environment temperature meets the target temperature, controlling a temperature control module of the portable temperature adjusting equipment to be closed, and when the environment temperature does not meet the target temperature, controlling the temperature control module to be opened.

Optionally, the determining, according to the space size of the working area, the target parameter, and the ambient temperature, a total required power consumption of the portable temperature adjustment device when operating according to the target parameter includes:

acquiring power consumed by the portable temperature adjusting equipment for running for a preset time in the working area;

and calculating the total required consumed electric quantity according to the power, the temperature difference of the working area in the preset time and the electric quantity consumed by the portable temperature adjusting equipment in the preset time.

Optionally, the control method further includes: when the residual electric quantity is lower than a preset electric quantity threshold value or cannot be matched with the target operation mode, sending a first prompt message, wherein the first prompt message is used for prompting that the residual electric quantity cannot meet the total demand consumed electric quantity and whether the target parameter is modified;

and under the condition of acquiring a new target parameter, recalculating the total required power consumption according to the new target parameter.

In a second aspect, a processing device is provided, the device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the control method of the portable thermostat as described above when executing the computer program.

In a third aspect, a temperature regulation system is provided, comprising: a portable temperature regulating device, and a control apparatus in communication with the portable temperature regulating device, wherein the control apparatus is configured to perform the method described in the first aspect or in various possible implementations of the first aspect.

It is understood that, the beneficial effects of the second and third aspects may be referred to the relevant description of the first aspect, and are not described herein again.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a portable temperature adjustment device provided in an embodiment of the present application;

fig. 2 is a flowchart of a method for controlling a portable thermostat according to an embodiment of the present application;

FIG. 3 is an input display interface of a portable thermostat provided by an embodiment of the present application;

fig. 4 is a message prompt interface diagram of a portable thermostat provided in an embodiment of the present application;

fig. 5 is a message prompt selection interface diagram of a portable thermostat provided in an embodiment of the present application;

FIG. 6 is a schematic diagram of an apparatus structure of a portable temperature adjustment device according to an embodiment of the present disclosure;

fig. 7 is a schematic structural diagram of a processing apparatus according to an embodiment of the present application.

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

It should be understood that reference to "a plurality" in this application means two or more. In the description of the present application, "/" means "or" unless otherwise stated, for example, a/B may mean a or B; "and/or" herein is only an association relationship describing an associated object, and means that there may be three relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, for the convenience of clearly describing the technical solutions of the present application, the terms "first", "second", and the like are used to distinguish the same items or similar items having substantially the same functions and actions. Those skilled in the art will appreciate that the terms "first," "second," etc. do not denote any order or quantity, nor do the terms "first," "second," etc. denote any order or importance.

Before explaining the embodiments of the present application in detail, an application scenario of the embodiments of the present application will be described.

The application provides a portable temperature regulation equipment (for example outdoor air conditioner, also called camping air conditioner, tent air conditioner), including air conditioner body and power module, this air conditioner body still includes if temperature control module, fan module, control module etc. this power module is used for providing working power supply for this air conditioner body. In the prior art, an outdoor air conditioner can only operate according to the temperature, time and mode set by a user in the operation process, and can be directly shut down when the electric quantity cannot meet the operation requirement. When the user carries out outdoor activities using the tent, when sleeping at night, if outdoor air conditioner shut down at the sleep in-process, can lead to can't taking a breath or refrigerate in the tent, influence user's use and experience.

The portable temperature adjusting device referred to in the embodiments of the present application means: the portable temperature adjustment device is a device which has a power supply module and can adjust the temperature without an alternating current power supply, or the portable temperature adjustment device is a device which has a power supply module or does not have a power supply module and can adjust the temperature by using the electric energy provided by an energy storage device (such as a mobile power supply). It can be understood that the portable temperature adjustment device also has the function of utilizing the electric energy provided by the alternating current power supply to carry out the portable temperature adjustment device.

As shown in fig. 1, fig. 1 is a schematic structural diagram of a portable temperature adjustment device provided in an embodiment of the present application, where the portable temperature adjustment device includes: a temperature control module 101, a control module 102, and a power supply module 104.

Optionally, the portable temperature regulating device may further comprise a fan module 103.

The control module 102 is connected to the temperature control module 101, the fan module 103, and the power supply module 104. The power supply module 104 is further connected to the temperature control module 101 and the fan module 103, and the power supply module 104 is configured to supply power to each module in the portable temperature adjustment device. The power module 104 may be a module that is fixed inside the portable thermostat, and optionally, the power module 104 may be detachably connected to the portable thermostat. The power supply module 104 may be a battery, a solar cell, a rechargeable battery, or the like. Of course, the power supply module 104 may be charged by an external power source, and after the power supply module 104 stores power, power can be supplied to each module of the portable temperature adjustment device at any time and any place. Or the power supply module 104 may not belong to the portable thermostat.

Of course, optionally, the portable temperature adjustment device further has a communication interface, and the user can also connect the mobile charging device through the communication interface to supply power to the respective modules of the portable temperature adjustment device through the power supply module 104.

The temperature control module 101 is used to realize a cooling function and/or a heating function, in other words, the portable temperature adjustment device in the embodiment of the present application can not only heat but also cool. A particular temperature control module 101 may include a cooling module and/or a heating module.

In one possible embodiment of the present application, to facilitate temperature regulation, the portable temperature regulation device may further have a temperature detection module 105 connected to the control module 102, the temperature detection module 105 being configured to detect an ambient temperature of an operating area in which the portable temperature regulation device is located. For example, the temperature detection module 105 may be implemented by a temperature sensor.

In one possible embodiment of the present application, the portable temperature adjustment device may further have a communication module 106 connected to the control module 102, where the communication module 106 is configured to enable the portable temperature adjustment device to obtain a temperature variation trend of a work area where the portable temperature adjustment device is located from another device (such as a server or a mobile phone or a wearable device of the user), or obtain a work and rest parameter of the user from the mobile phone or the wearable device of the user, where the work and rest parameter is used to determine a work and rest time of the user, such as a sleep time, a sound sleep time, a wake-up time, and the like. The Communication module 106 may be a bluetooth module, a Near Field Communication (NFC) module, or the like.

In one possible embodiment of the present application, in order to facilitate the user to operate the portable thermostat, the portable thermostat may further have an interaction module 107 connected to the control module 102, and the user may input target parameters to the portable thermostat through the interaction module 107, and/or modify the target parameters, or specify an operation mode or display related prompt information, etc. For example, the interaction module 107 may be a display screen for more intuitively presenting related prompt information to the user or inputting target parameters. Alternatively, the interaction module 107 may also be a voice interaction device, through which the user may input the target parameter to the portable temperature adjustment device, or through which the portable temperature adjustment device may feed back related prompt information to the user.

A method of controlling a portable temperature adjustment apparatus provided in an embodiment of the present application is explained in detail below.

Fig. 2 is a control method of a portable temperature adjustment device according to an embodiment of the present disclosure, where the method may be performed by a first device, and the first device may be the portable temperature adjustment device, or an apparatus applied in the portable temperature adjustment device, such as the control module 102, or a chip. The first device may also be a device for managing the portable temperature regulating device, such as a server or a user's mobile phone. For example, after the mobile phone of the user establishes a connection with the portable temperature adjustment device, the operation mode of the portable temperature adjustment device can be controlled.

As shown in fig. 2, the present application provides a method for controlling a portable temperature adjustment device, the method comprising the steps of:

step 201: the first device obtains target parameters set for the portable temperature adjustment device, wherein the target parameters comprise a target running time and a target temperature.

For example, taking the first device as a portable temperature adjustment device with a display screen as an example, as shown in fig. 3, step 201 may be implemented by: and detecting an operation instruction input by a user on the display screen, wherein the operation instruction carries a target running time (such as 6 hours) and a target temperature (such as 25 ℃ C.).

For example, in the case that the portable temperature adjustment device is an outdoor air conditioner (also referred to as a camping air conditioner or a tent air conditioner), the target operation time period represents a time period in which the user desires the outdoor air conditioner to operate. The setting of the operation time period may be a time period, for example, the user sets the start operation time of the outdoor air conditioner to 12 nights and the end operation time to 8 morning next. The setting of the operation duration may also be a time length, for example, when the user sets the operation time of the outdoor air conditioner to be 12 nights, and sets the operation time to be 8 hours, the outdoor air conditioner needs to operate to 8 morning next day.

For example, the target temperature indicates a temperature that the outdoor air conditioner needs to reach the ambient temperature in the working area, for example, the target temperature is 25 ℃, and the outdoor air conditioner needs to adjust the ambient temperature to 25 ℃.

For another example, taking the first device as a portable temperature adjustment device as an example, the portable temperature adjustment device may set the target operation time length and the target temperature by means of a mobile phone connected to the portable temperature adjustment device, regardless of whether the portable temperature adjustment device has a display screen. For example, if the mobile phone runs the application software corresponding to the portable temperature adjustment device, the user may input the target running time length and the target temperature in the application software. This improves the convenience of the user in using the portable thermostat when the portable thermostat does not have an interaction module 107. Specifically, the portable temperature adjustment device can establish communication connection with a mobile phone through a communication interface.

If the first device is a mobile phone of a user, step 201 may be implemented as follows: the first device can acquire the target running time and the target temperature set in the application software run by the mobile phone from the mobile phone communicated with the first device.

Step 202: the first device obtains the remaining power of the power module 104 that powers the portable thermostat.

When step 202 is performed by a device other than a portable temperature regulating device, step 202 may be implemented by: the first device obtains the remaining power of power module 104 from the portable thermostat to power the portable thermostat. Or the user may input the observed remaining power of the portable temperature adjustment device to the first device, which is not limited in the embodiment of the present application. It should be noted that, for the portable thermostat, the portable thermostat may monitor the remaining power of the power supply module 104, which is the prior art and is not described herein again.

Step 203: the first device obtains environmental parameters of a working area of the portable temperature adjusting device, wherein the environmental parameters comprise an environmental temperature of the working area and environmental wind power.

It is worth noting that if the portable temperature regulating device is operated in an enclosed space (e.g., a tent, or a room), the environmental parameter of the work area may refer to the ambient temperature of the tent or the room, rather than the ambient temperature outside the enclosed space. Of course, the work area may also refer to an interior space of a tent, or an indoor space. The environmental parameters also include environmental wind, in this embodiment, the portable temperature adjusting device works in the tent, the lower end of the tent is provided with a vent, and air outside the tent can enter the tent through the vent, so that air convection in the tent is realized. In this step, an environmental parameter of the working area of the portable temperature adjustment device is obtained, and the temperature control module 101 or the fan module 103 of the portable temperature adjustment device can be turned on or off according to the environmental temperature and the environmental wind power in the environmental parameter.

As an example, taking the first device as a portable temperature adjustment device, the portable temperature adjustment device may detect the ambient temperature of the working area of the portable temperature adjustment device by using its own temperature detection module 105, or in the case that the portable temperature adjustment device does not have the temperature detection module 105, the ambient temperature of the working area of the portable temperature adjustment device may be input to the portable temperature adjustment device by the user, or the ambient temperature of the working area of the portable temperature adjustment device may be acquired from the mobile phone of the user by the first device. Of course, the ambient temperature of the working area of the portable temperature regulating device may also be provided to the first device by the user when the first device is not a portable temperature regulating device. The embodiment of the present application does not limit this.

As another example, taking the first device as a portable temperature regulation device as an example, the portable temperature regulation device may detect the ambient wind power of the working area of the portable temperature regulation device by using its own anemometer or sensor.

In addition to the above, the first device may obtain the environmental parameters of the operating area of the portable temperature regulating device by, for example, obtaining the environmental parameters of the operating area of the portable temperature regulating device from a weather server or other devices. For example, the portable thermostat may send an inquiry request message to the weather server or another device (the user's mobile phone), where the inquiry request message includes the current location information of the portable thermostat, so that the weather server or another device can feed back the environmental parameters of the operating area of the portable thermostat to the first device according to the inquiry request message.

Step 204: and the first equipment determines the total required power consumption of the portable temperature regulating equipment when operating according to the target parameters according to the space size of the working area, the target parameters and the environment temperature.

It is understood that the total required power consumption specifically refers to: the amount of power that needs to be consumed by the portable thermostat to operate in the normal mode of operation in order to meet the target parameter.

It is worth noting that the normal operation mode is an operation mode in which the power consumption is minimized in order to ensure that the portable temperature adjustment device reaches the target temperature for the target time period.

For example, in a cooling scenario, the normal operation mode includes cooling for a period of time within a target operation duration, stopping cooling after the temperature in the working area decreases to a target temperature, and continuing cooling after the temperature in the working area exceeds the target temperature. At this time, the fan module 103 of the portable temperature adjustment apparatus may be turned off. Or the normal operation mode comprises the steps of refrigerating for a period of time, stopping refrigerating after the temperature in the working area is reduced to the target temperature, ventilating within the refrigerating stopping period, continuing to start refrigerating after the temperature in the working area exceeds the target temperature, and stopping ventilating within the refrigerating period.

In a heating scene, the normal operation mode includes only heating for a period of time, after the temperature in the working area is adjusted to a target temperature (for example, 25 ℃), heating is stopped, and after the temperature in the working area is reduced to 15 ℃, heating is continued.

As another example, the normal operating mode refers to an operating mode that consumes the most power to ensure that the portable thermostat reaches the target temperature for the target length of time. For example, the normal operation mode includes that the portable temperature adjusting device is always in the cooling/heating mode for the target operation period.

Optionally, in order to save power, when the portable temperature adjustment device stops cooling or heating, the temperature control module 101 of the portable temperature adjustment device is in a closed state.

The normal operation mode may be self-contained in the portable temperature adjustment device or set by a user, which is not limited in the embodiment of the present application.

It can be understood that even if the portable temperature adjusting device is internally provided with the normal operation mode by default, the user can modify the normal operation mode, and under the condition that the user modifies the self-contained normal operation mode in the portable temperature adjusting device, the normal operation mode modified by the user is calculated to meet the target parameter, and the portable temperature adjusting device needs to consume the electric quantity when running.

As yet another example, the total required power consumption is determined by the highest power consumption and the lowest power consumption that ensure that the portable thermostat reaches the target temperature for the target length of time. For example, the total required power consumption amount is an average value of the highest power consumption amount and the lowest power consumption amount.

Step 205: the first device controls the portable temperature adjusting device to operate in the target operation mode according to the relation between the residual capacity and the total required consumed capacity, wherein the residual capacity meets the capacity required by the portable temperature adjusting device to operate in the target operation mode, and the consumed capacity is lower than or equal to the residual capacity in the target operation time when the portable temperature adjusting device operates in the target operation mode.

It should be noted that the portable thermostat has multiple operating modes, and the operating modes are different, and the amount of power required for the operation of the portable thermostat is also different. And determining a target operation mode from the plurality of operation modes according to the relation between the residual power and the total required consumption power of the portable temperature regulating equipment. In order to ensure that the residual electric quantity can support the portable temperature regulating equipment to operate at the target temperature for the target time length under the condition that the residual electric quantity does not meet the total required consumed electric quantity; the amount of power consumed by the portable thermostat in the target operating mode is greater when the remaining power satisfies the total required power consumption than when the remaining power does not satisfy the total required power consumption. When the residual electric quantity meets the total demand electric quantity, the target operation mode may be a normal operation mode, and of course, when the residual electric quantity meets the total demand electric quantity, the target operation mode may also be another operation mode, which is not limited in the embodiment of the present application.

Under the condition that the first device is not the portable temperature adjusting device, controlling the portable temperature adjusting device to operate in a target operation mode, specifically: correspondingly, after receiving the control instruction, the portable temperature adjustment device controls each internal module (such as the temperature control module 101, the fan module 103 and/or the power supply module 104) to work according to the target operation mode carried by the control instruction.

Under the condition that the first device is a portable temperature adjusting device, controlling the portable temperature adjusting device to operate in a target operation mode, specifically: the control module 102 of the portable temperature adjustment device sends a working instruction to each module according to the target operation mode, so that each module is turned on or off according to the working instruction. For example, if the target operation mode is to perform cooling in the target operation duration, the control module 102 of the portable temperature adjustment device sends a cooling start instruction to the temperature control module 101, the temperature control module 101 starts to perform cooling after receiving the cooling start instruction, and at the end of the target operation duration, the control module 102 sends a shutdown instruction to the temperature control module 101 to trigger the temperature control module 101 to shut down.

It should be noted that the target operation mode refers to cooling within a certain time period of the target operation duration, which means that the temperature control module 101 needs to be controlled to be turned on within a certain time period of the target operation duration to cool. And heating in a certain time period of the target operation duration, controlling the temperature control module 101 to be started in the certain time period of the target operation duration so as to heat. The description is unified here and will not be repeated later.

The embodiment of the application provides a control method of a portable temperature regulating device, which comprises the steps of obtaining a target parameter of the portable temperature regulating device, the residual electric quantity of a power supply module 104 and an environmental parameter, further determining the total required electric quantity consumed by the portable temperature regulating device when the portable temperature regulating device operates according to the target parameter according to the space size, the target parameter and the environmental temperature of a working area of the portable temperature regulating device, then controlling the portable temperature regulating device to operate in a target operation mode based on the relation between the residual electric quantity and the total required electric quantity consumed, wherein the target operation mode is that the residual electric quantity meets the electric quantity required by the portable temperature regulating device to operate in the target operation mode under the condition that the target parameter is met, and controlling the portable temperature regulating device to be in different operation modes due to the fact that the scheme meets and does not meet the total required electric quantity consumed by the residual electric quantity, and the electric quantity required by different operation modes is different, so that when the residual electric quantity can not meet the total required consumed electric quantity, the residual electric quantity can be ensured to support the working target duration of the portable temperature regulating equipment. The residual electric quantity can be fully utilized, and the use experience of a user can be improved.

There is a difference in the way the first device controls the portable thermostat to operate in the target operating mode, due to the remaining power being consumed to meet and not meet the total demand, as will be described separately below:

(1) and aiming at the condition that the residual electric quantity does not meet the total demand consumption electric quantity.

In a possible implementation manner of the present application, step 205 in the embodiment of the present application may be specifically implemented by the following method:

and under the condition that the residual electric quantity does not meet the total required consumed electric quantity, the first device controls the temperature control module 101 of the portable temperature regulating device to be started in the starting time period of the target running time length according to the target running mode, and controls the temperature control module 101 to be closed in other time periods of the target running time length. In other words, at this time, the target operation mode may be cooling/heating for a start period of the target operation period, and cooling/heating may be stopped for other periods of the target operation period except for the start period.

Wherein the start time period refers to a period of time from a start time of the target operation period. The other time period refers to a time period excluding the start time period from the target operating time period.

As an example, the target operation mode determined by the first device refers to cooling or heating during a start period of the target operation duration.

In one possible implementation manner of the present application, the controlling, by the first device, the temperature control module 101 of the portable temperature adjustment device to be turned on in the starting time period of the target operation duration and the controlling, by the first device, the temperature control module 101 to be turned off in other time periods of the target operation duration according to the target operation mode includes:

the first device controls the temperature control module 101 of the portable temperature adjustment device to be in an open state in a starting time period, at least controls the temperature control module 101 to be closed in other time periods except the starting time period in a target running time period, and the temperature control module 101 is used for achieving a refrigerating function and/or a heating function.

For example, taking the first device as a portable temperature adjustment device as an example, starting from 12 am, if the target operation time length is 4 hours, the portable temperature adjustment device may control the temperature control module 101 of the portable temperature adjustment device to start to operate to cool or heat within 1 hour from 12 am, and then the rest 3 hours control the temperature control module 101 of the portable temperature adjustment device to turn off, i.e., stop cooling or heating.

step 1, the first equipment acquires a temperature change trend in the environmental parameters.

The temperature trend specifically refers to a temperature change condition outside the working area within the target operation time period. The target operation mode can be determined through the temperature change trend, so that the operation mode which is more reasonable and accords with the user expectation can be more accurately specified for the portable temperature adjusting device. The first device can acquire the temperature variation trend through weather forecast information in the weather server.

And under the condition that the residual electric quantity does not meet the total required consumed electric quantity, the first equipment acquires the temperature variation trend in the environmental parameters.

And 2, the first equipment determines a target operation mode according to the temperature change trend and the target temperature, and when the portable temperature adjusting equipment operates in the target operation mode, the operation time period of the temperature control module 101 of the portable temperature adjusting equipment is within the target operation time period.

And 3, the first device controls the temperature control module 101 to be started in the running time period according to the determined target running mode, and controls the temperature control module 101 to be closed in the time period outside the running time period. The operation period of the temperature control module 101 includes at least a start period of the target operation period.

For example, if the trend of temperature change indicates that the temperature change in different periods is small within the target operation time period, the target operation mode may be continuous cooling or continuous heating within the target operation time period. For example, in a cooling scenario, if the target operation time set by the user is 3 hours and the starting time of the target operation time is 12 pm, the temperature from 12 pm to three pm is between 35 ℃ and 37 ℃, and the temperature change is small, the target operation mode may be continuous cooling.

If the trend of temperature change indicates a large change in temperature over different periods of time within the target operating time period, the target operating mode may be to continue cooling or to continue heating for a period of time, and then to leave cooling or heating inactive for the rest of the time. For example, in the cooling scenario, if the target operation duration set by the user is 5 hours, the starting time of the target operation duration is 10 pm, if the temperature variation trend indicates that the ambient temperature is reduced from 35 ℃ to 27 ℃ from 10 pm to 1 pm on the following day, and the temperature is varied greatly from 27 ℃ to 25 ℃ after 1 pm on the following day, the target operation mode may be cooling from 10 pm to 1 pm on the following day, and cooling may be stopped from 1 pm on the following day to the end of the target operation duration.

The above temperature ranges are illustrative only and not intended to be limiting.

In another possible embodiment of the present application, in a case where the first device controls the temperature control module 101 to be turned off, and the portable temperature adjustment device further includes the fan module 103, the method provided by the embodiment of the present application further includes: the first device controls the fan module 103 of the portable thermostat to turn on. Specifically, the first device controls the fan module 103 of the portable thermostat to turn on for ventilation in a time period other than the start time period and/or the start time period within the target operation time period.

For example, the target operation mode determined by the first device includes cooling/heating and ventilation in a start period and ventilation in the remaining period. Taking the first device as the portable temperature adjustment device as an example, if the target operation time is 4 hours, the portable temperature adjustment device can control the portable temperature adjustment device to cool or heat and ventilate within 1 hour from the target operation time, and the rest 3 hours control the portable temperature adjustment device to stop cooling or heating and start ventilating through the portable temperature adjustment device. Specifically, taking the first device as a portable temperature adjustment device as an example, the control module 102 controls the temperature control module 101 to turn on for cooling or heating within 1 hour from the target operation time. The control module 102 controls the temperature control module 101 to be turned off and controls the fan module 103 to be turned on in the rest 3 hours. In the present embodiment, the fan module 103 is used to realize an air blowing function and an air exchange function. The portable temperature adjusting device has an air duct which is arranged between the working area and the external area, and when the fan module 103 is opened, the air exchange function can be realized through the air duct. In a particular use, the work area is an area within a tent and the exterior area is an area outside the tent.

In one embodiment of the present application, the start time period includes a first sub-time period and a second sub-time period, the target operation mode determined by the first device specifically includes cooling/heating + ventilation in the first sub-time period, and cooling/heating + ventilation in the second sub-time period, and the target operation mode further includes cooling/heating in the end time period of the operation time period, or turning off the portable temperature adjustment device.

In the present embodiment, the turning-off refers to turning off, not to sleep or to standby, and when the portable temperature adjustment device is turned off, it refers to turning off a module other than the temperature detection module 105 in the portable temperature adjustment device, and keeping the temperature detection module 105 on. After the ambient temperature detected by the temperature detection module 105 exceeds the target temperature, the temperature detection module 105 sends an activation signal to the control module 102, and the control module 102 activates the corresponding module according to the corresponding operation mode. In other embodiments, off may also refer to sleep or standby.

The control method provided by the embodiment of the application further comprises the following steps: in case of controlling the temperature control module 101 to be turned off, the first device controls the fan module 103 of the portable temperature adjustment device to be turned on at preset time intervals.

For example, taking the first device as a portable temperature adjustment device as an example, the portable temperature adjustment device controls the temperature control module 101 to be turned off at 12 pm, and sets the preset time interval to be 15 minutes, and then the portable temperature adjustment device controls the fan module 103 to be turned on at 12 pm and 15 minutes for ventilation.

Due to the fact that the oxygen amount required by the user at different stages is different, for example, the oxygen amount consumed by the user in the early sleep stage is higher than the oxygen amount consumed by the user in the deep sleep stage, in one embodiment of the present application, the control method further includes:

during the starting period of the target operation time, the first device controls the fan module 103 of the portable thermostat to turn on.

The first device acquires the oxygen demand information, and controls the fan module 103 to operate at the first power when the oxygen demand information is higher than the first demand information. Wherein the first power is higher than the second power.

Wherein, oxygen demand information can acquire according to the built-in oxygen sensor of portable temperature regulation equipment, also can be through the wearable smart machine that the user wore, like intelligent bracelet, physiological parameter information such as user's pulse, heartbeat can be monitored to intelligent bracelet to acquire oxygen demand information.

The first requirement information is a threshold value of oxygen requirement of the user set by the user under the condition that the user does not fall asleep, and when the oxygen requirement information is higher than the first requirement information, the portable temperature regulating device controls the fan module 103 to operate at a first power so as to meet the oxygen requirement of the user.

And when the oxygen demand information is lower than or equal to the first demand information and higher than the second demand information, controlling the fan module 103 to operate at a second power. And when the oxygen demand information is lower than the second demand information, controlling the fan module 103 to be turned off. Wherein the first power is higher than the second power. The second requirement information is an oxygen content threshold value of the user at the early stage of falling asleep, and when the oxygen requirement information is lower than or equal to the first requirement information and higher than the second requirement information, the portable temperature regulating device controls the fan module 103 to operate at the second power, so that the oxygen requirement content of the user at the early stage of falling asleep is met. When the oxygen demand information is less than or equal to the second demand information, indicating that the user is in a deep sleep period, the portable temperature adjustment device turns off the fan module 103. In other words, in the embodiment of the present application, the first device may control the operating power of the fan module 103 when it is turned on according to the oxygen demand of the user at different time periods. In other embodiments, if the oxygen demand information is lower than the second demand information, the fan module 103 may be controlled to be turned on at preset time intervals, and the fan module is operated at the lowest power during the turning on period, so as to meet the oxygen demand of the user while achieving the mute effect.

In one possible implementation manner of the present application, the method provided in the embodiment of the present application may further include: the first device obtains the oxygen content in the working area, and accordingly, the first device controls the fan module 103 to be turned on, including: and under the condition that the oxygen content is lower than the preset threshold, controlling the fan module 103 to be started in the time periods except the first time period in the target operation time period. For example, the preset threshold may be determined by the total number of users in the work area and the average oxygen consumption of each user.

In order to provide a more comfortable environment for the user, the starting period may be determined by the user's falling-asleep phase and waking phase, for example, the temperature control module 101 may be controlled to be turned on to cool or heat during the period corresponding to the falling-asleep phase and the waking phase of the user, respectively, and the temperature control module 101 may be controlled to be turned off during the period corresponding to the sleeping phase between the falling-asleep phase and the waking phase, so that the following description will describe how to determine the first period.

As an example, the first time period may be set by a user, such as the user may set a work and rest time of the user, such as a few to start sleeping, and a scheduled get-up time, on the portable thermostat or on a cell phone connected to the portable thermostat.

As another example, the first time period may be determined by the first device from physiological parameter information obtained from a wearable device worn by the user. For example, wearable equipment is intelligent wrist-watch, and intelligent wrist-watch can monitor physiological parameter information such as user's pulse, heartbeat. Wherein the physiological parameter information is used to determine a time period during which the user is in a deep sleep stage. Of course, the physiological parameter information may include a period of time in the early sleep stage, a period of time in the deep sleep stage, and a period of time in the wake-up stage. The specific process is as follows: the first device acquires physiological parameter information of a user through wearable equipment worn by the user, the first device determines a first time period according to the physiological parameter information, the first time period does not include a time period when the user is in a deep sleep stage, and the time periods except the first time period in the running duration include the time period when the user is in the deep sleep stage. For example, the operation time is 8 hours, the starting time is 11 pm, the time period of the user in the sound sleep stage is 2-5 pm in the early morning of the evening, and the first time period is a time period from 11 pm to 2 pm in the early morning and a time period from 5 pm to 7 pm.

(2) And aiming at the condition that the residual electric quantity meets the total demand consumption electric quantity.

The target operation mode determined by the first device is a normal operation mode, and the first device controls the portable temperature regulating device to operate in the normal operation mode according to the relation between the residual power and the total required consumed power, and the method comprises the following steps: when the ambient temperature satisfies the target temperature, the first device controls the temperature control module 101 of the portable temperature adjustment device to be turned off, and when the ambient temperature does not satisfy the target temperature, controls the temperature control module 101 to be turned on.

In one embodiment of the present application, the normal operation mode includes repeatedly performing the following processes for a target operation period in a case where the remaining amount of electricity satisfies the total required consumed amount of electricity: the portable temperature adjusting equipment stops refrigerating or heating when the ambient temperature reaches the target temperature, and executes a refrigerating or heating function when the ambient temperature is different from the target temperature; accordingly, the step 205 may be implemented as follows: the temperature control module 101 is controlled to be turned on within a period of the operation duration, the temperature control module 101 is controlled to be turned off when the ambient temperature reaches the target temperature, and the temperature control module 101 is controlled to be turned on again when the ambient temperature exceeds or falls below the target temperature.

It is worth mentioning that in the cooling scenario, the ambient temperature reaching the target temperature may refer to: the ambient temperature is less than or equal to the target temperature. An ambient temperature exceeding the target temperature means that the ambient temperature is higher than the target temperature. The temperature control module 101 is turned on to perform cooling.

In an embodiment of the present application, taking the portable temperature adjustment device as an example of an outdoor air conditioner, taking a working area as a tent, where a current temperature in the tent is 30 ℃, a remaining power of the outdoor air conditioner is 80%, a target temperature set by a user is 25 ℃, an operation time is 8 hours, and after the outdoor air conditioner determines that the remaining power meets a set requirement, the outdoor air conditioner operates: firstly, the outdoor air conditioner operates the refrigeration module, when the temperature in the tent is reduced to 25 ℃, the refrigeration module stops working, and the fan module 103 is started to ventilate. After a period of time, when the temperature in the tent exceeds 25 ℃ again, the outdoor air conditioner starts the refrigeration module again, turns off the fan module 103, stops ventilation, and circulates for a set time of 8 hours.

In a heating scenario, the ambient temperature reaching the target temperature may refer to: the ambient temperature is equal to or higher than the target temperature. The ambient temperature being lower than the target temperature means that the ambient temperature is lower than the target temperature. The temperature control module 101 is turned on to perform heating.

For example, the operation duration is 8 hours, the starting time is 11 pm, the target temperature is 25 ℃, the first device is used as a portable temperature adjustment device, the scene is a refrigeration scene as an example, the control module 102 of the portable temperature adjustment device starts to trigger the temperature control module 101 to refrigerate from 11 pm, after the temperature control module 101 refrigerates for a period of time, the temperature detection module 105 determines that the ambient temperature is lower than or equal to 25 ℃, then a temperature reaching instruction is reported to the control module 102, and after the ambient temperature of the control module 102 is lower than or equal to 25 ℃ for a meeting (for example, 5 minutes or 10 minutes), then the control module 102 controls the temperature control module 101 to turn off. Under the condition that the temperature control module 101 is turned off, the temperature detection module 105 continues to detect the ambient temperature and reports the detected ambient temperature to the control module 102, and when the control module 102 determines that the ambient temperature is higher than 25 ℃ or higher than 25 ℃ + a preset temperature difference threshold (for example, 5 °), the control module 102 controls the temperature control module 101 to be turned on again.

In another embodiment of the present application, the target operation mode determined by the first device refers to cooling or heating during the operation time period, and accordingly, step 205 may be implemented as follows: the first device controls the temperature control module 101 to be turned on for a long time during operation so as to refrigerate or heat.

Taking the first device as a portable temperature adjusting device as an example, specifically, the first device controls the temperature control module 101 to be opened for a long time when operating, so that cooling or heating can be realized in the following manner: the control module 102 sends a start operation instruction to the temperature control module 101, the start operation instruction instructing the temperature control module 101 to start cooling or heating. Taking the first device as an example except the portable temperature adjustment device, the first device controls the temperature control module 101 to be turned on during operation, so that cooling or heating can be realized in the following manner: the first device transmits the determined target operation mode to the portable temperature adjustment device, the communication module 106 of the portable temperature adjustment device receives the target operation mode, and then the control module 102 transmits a start operation instruction to the temperature control module 101 according to the target operation mode.

Specifically, after the run-time period, the first device controls the portable thermostat to turn off.

In one embodiment of the present application, to save power, the fan module 103 of the portable temperature adjustment device is controlled to be turned on during the period of time when the temperature control module 101 is turned off; and/or to control the fan module 103 of the portable thermostat to turn off during the time period that the temperature control module 101 is on. In other words, in a cooling scenario, if the temperature control module 101 is turned on to cool, the fan module 103 may be turned off at this time in order to save power. During the period of time when the temperature control module 101 is turned off, the fan module 103 may be turned on to reduce the ambient temperature of the working area, so as to reduce the ambient temperature by using the fan module 103.

In an embodiment of the present application, step 204 specifically includes: the first device obtains power consumed by the portable temperature adjustment device when the portable temperature adjustment device operates in the working area for a preset time. And the first equipment calculates the total required consumed electric quantity according to the power, the temperature difference of the working area in the preset time and the electric quantity consumed by the portable temperature adjusting equipment in the preset time.

In an embodiment of the present application, the step 204 may be implemented by the following manner 1 or manner 2:

the method 1 includes a step a and a step B. Mode 1 may also be referred to as manual mode. The method 2 includes a step C and a step D. Mode 2 may also be referred to as automatic mode.

And step A, the first equipment acquires a refrigerating/heating space of a working area.

For example, taking the first device as a portable temperature adjustment device as an example, a user may input size parameters, such as length, width, and height, of the working area at the interaction module 107 or a mobile phone connected to the portable temperature adjustment device, so that the portable temperature adjustment device may determine a cooling/heating space of the working area according to the size parameters of the working area. The cooling/heating space V is the length of the working area and the width of the working area. Still alternatively, the user may input the value of the cooling/heating space measured by himself/herself to the portable temperature adjusting apparatus by means of the interaction module 107 or a cellular phone connected to the portable temperature adjusting apparatus.

In one possible embodiment of the present application, a user inputs the length, width and height of the tent through an operation panel of the outdoor air conditioner, and the outdoor air conditioner calculates the temperature-regulated space of the tent according to the length, width and height of the tent, i.e., the temperature-regulated space is length, width, height. The outdoor air conditioner estimates the consumed electric quantity according to the temperature regulation space, the environment temperature in the tent, the target temperature set by the user and the target running time length, so as to judge whether the current residual electric quantity can meet the requirements of the set temperature and time length of the user. It is worth noting that the temperature conditioned space is an estimated value because in practice the tent is conical, and its actual space is smaller than the calculation space.

And step B, the first equipment calculates the total required power consumption according to the refrigerating/heating space, the environmental parameters and the target temperature.

In the specific operation process, if the total required power consumption is calculated through the steps a and B, in order to perform power consumption estimation and control of the subsequent operation mode more accurately, the accurate power consumption can be determined according to the length, width and height input by the user.

It will be appreciated that in the case where the first device is a portable thermostat, the portable thermostat may also derive the total required power consumption in the following manner due to the limited processing capability of the control module 102 of the portable thermostat. For example, the portable temperature adjustment device reports the cooling/heating space of the working area to the mobile phone or the server, and the mobile phone or the server calculates the total required power consumption according to the cooling/heating space of the working area. And then the total required power consumption is fed back to the portable temperature regulating equipment by the mobile phone or the server.

In one embodiment of the present application, the step 204 may be implemented as follows:

and step C, the first equipment acquires the power consumed by the portable temperature regulating equipment operating for the preset time in the working area.

And D, calculating the total required consumed electric quantity by the first equipment according to the power, the temperature difference of the working area in the preset time and the electric quantity consumed by the portable temperature adjusting equipment in the preset time.

In another possible embodiment of the present application, the portable thermostat further has a first control and a second control, and in the event that the first control is triggered, the portable thermostat prompts a user to input parameters for determining a cooling/heating space of the work area. Such as length, width, height, or a specific area value. In the event that the second control is triggered, the portable thermostat determines that the total required power consumption is determined in the automatic mode.

In one possible embodiment of the present application, the outdoor air conditioner sets the preset time to be 5 minutes, the outdoor air conditioner operates for 5 minutes, and then the total power consumption of the operation user for a set time is estimated according to the power consumed by the outdoor air conditioner, the temperature difference in the tent and the power consumption in 5 minutes.

In one possible embodiment of the present application, the method provided in the embodiment of the present application further includes: and the first equipment sends a first prompt message when the residual electric quantity is lower than a preset electric quantity threshold value or cannot be matched with the target operation mode. The first prompt message is used for prompting whether the residual electric quantity can not meet the total required consumed electric quantity or not and whether the target parameter is modified or not. For example, the control module 102 of the portable thermostat sends a first prompting message via the interaction module 107. The first prompt message may be displayed on a display screen or may be prompted to the user in the interactive module 107 by voice. And under the condition of acquiring the new target parameter, recalculating the total required power consumption according to the new target parameter.

Specifically, when the remaining power cannot meet the total required power consumption and the operation mode in which the remaining power satisfies the total required power consumption is not determined, the portable temperature adjustment device sends a first prompt message, where the prompt message is further used to prompt whether to modify the target parameter. Alternatively, in the case where the user modifies the target parameter, such as changing the target time period from 8 hours to 6 hours, and/or changing the target temperature from 25 ℃ to 28 ℃, the portable temperature adjustment device determines the total required power consumption amount with the modified target parameter.

In a possible implementation manner of the present application, when the remaining power cannot meet the total power consumption requirement, the sent prompt message is further used to prompt the user whether to modify the target parameter of the outdoor air conditioner, and the message is in a form of a dialog box on a display interface of the outdoor air conditioner or application software of a terminal, as shown in fig. 4 and 5. The dialog box has two options of 'yes' and 'no', if the 'yes' is selected, a target parameter setting interface is displayed on a display interface of the outdoor air conditioner or application software of the terminal again, and a user can reset target parameters; if no, the outdoor air conditioner operates according to the originally set candidate operation mode.

Optionally, after a dialog box prompting the user whether to modify the target parameter of the outdoor air conditioner appears for a certain time, for example, 10 seconds, and the user does not perform an operation, the outdoor air conditioner defaults to select "no", and the total required power consumption is calculated according to the originally set target parameter.

In one possible embodiment of the present application, the method provided in the embodiment of the present application further includes: after the portable temperature adjusting device determines the candidate operation mode of the portable temperature adjusting device, the portable temperature adjusting device prompts the candidate operation mode to the user through a second prompt message. Under the condition that the portable temperature adjusting device detects that the candidate operation mode is modified and triggered by the user, if the residual electric quantity can meet the electric quantity required by the modified candidate operation mode, the target operation mode is the modified operation mode. And when the portable temperature adjusting equipment detects that the user determines the candidate operation mode, the target operation mode is the candidate operation mode.

It will be appreciated that the candidate operating modes may include one or more operating modes, which facilitates a user in selecting one of the one or more operating modes as the target operating mode.

Fig. 6 is a control device 30 of a portable temperature adjustment device provided by the present application, including:

the receiving module 301 is configured to obtain target parameters set for the portable temperature adjustment device, where the target parameters include a target operation duration and a target temperature.

An obtaining module 302, configured to obtain a remaining power amount of a power supply module that supplies power to the portable temperature adjustment device; obtaining environmental parameters of a working area of the portable temperature regulating device, wherein the environmental parameters comprise an environmental temperature of the working area.

And the calculating module 303 is configured to determine, according to the size of the space of the working area, the target parameter, and the ambient temperature, a total required power consumption of the portable temperature adjustment device when the portable temperature adjustment device operates according to the target parameter.

The operation module 304 controls the portable temperature adjustment device to operate in the target operation mode according to a relation between the remaining power and the total required consumed power, wherein the power consumed by the portable temperature adjustment device to operate in the target operation mode for the target operation time period is less than or equal to the remaining power.

It should be noted that: the device for controlling a portable temperature adjustment device provided in the above embodiment is only illustrated by dividing the above functional modules, and in practical applications, the above function distribution may be completed by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules to complete all or part of the above described functions.

Fig. 7 is a processing device 40 provided in the present application, which includes a memory 401, a processor 402, and a computer program 403 stored in the memory 401 and executable on the processor 402, and when the processor 402 executes the computer program 403, the control method of the portable temperature adjustment device described above is implemented.

The Processor 402 may be a Central Processing Unit (CPU), and the Processor 402 may be other general-purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic, discrete hardware components, etc. A general purpose processor may be a microprocessor or any conventional processor.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, all or part of the flow in the above method embodiments may be implemented by a computer program, which may be stored in a computer readable storage medium and used by a processor to implement the steps of the above method embodiments. Wherein the computer program comprises computer program code, which may be in the form of source code, object code, an executable file or some intermediate form, etc. The computer readable medium may include at least: any entity or apparatus capable of carrying computer program code to a photographing apparatus/terminal device, a recording medium, computer Memory, ROM (Read-Only Memory), RAM (Random Access Memory), CD-ROM (Compact Disc Read-Only Memory), magnetic tape, floppy disk, optical data storage device, etc. The computer-readable storage medium referred to herein may be a non-volatile storage medium, in other words, a non-transitory storage medium.

Each functional unit and module in the above embodiments may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit, and the integrated unit may be implemented in a form of hardware, or in a form of software functional unit. In addition, specific names of the functional units and modules are only for convenience of distinguishing from each other, and are not used to limit the protection scope of the embodiments of the present application.

The control device of the portable temperature adjustment device and the control method of the portable temperature adjustment device provided in the above embodiments belong to the same concept, and the specific working processes of the units and modules and the technical effects brought by the units and modules in the above embodiments can be referred to the method embodiments, and are not described herein again.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and reference may be made to the related descriptions of other embodiments for parts that are not described or illustrated in a certain embodiment.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus/computer device and method may be implemented in other ways. For example, the above-described apparatus/computer device embodiments are merely illustrative, and for example, a module or a unit may be divided into only one logical function, and may be implemented in other ways, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not implemented. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one position, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present application and are intended to be included within the scope of the present application.

Claims

1. A method of controlling a portable temperature adjustment device, comprising:

obtaining environmental parameters of a working area of the portable temperature regulating equipment, wherein the environmental parameters comprise the environmental temperature and the environmental wind power of the working area;

2. The control method according to claim 1, wherein the controlling the portable thermostat to operate in a target operation mode according to the relation between the remaining power and the total required consumed power includes:

3. The control method according to claim 1, wherein the controlling the portable thermostat to operate in a target operation mode according to the relationship between the remaining power and the total required consumed power includes:

acquiring a temperature change trend in the environmental parameters under the condition that the residual electric quantity does not meet the total demand consumed electric quantity;

determining an operation time period of a temperature control module of the portable temperature regulating equipment according to the temperature change trend and the target temperature, wherein the operation time period is within the target operation time period;

4. The control method according to claim 3, characterized by further comprising:

and under the condition of controlling the temperature control module to be closed, controlling the fan module of the portable temperature adjusting equipment to be opened.

5. The control method according to claim 3, characterized by further comprising:

and under the condition of controlling the temperature control module to be closed, controlling the fan module of the portable temperature regulating equipment to be opened according to a preset time interval.

6. The control method according to claim 2 or 3, characterized by further comprising:

controlling a fan module of the portable temperature regulating equipment to be started within a starting time period of the target running time;

acquiring oxygen demand information;

when the oxygen demand information is higher than first demand information, controlling the fan module to operate at a first power;

wherein the first power is higher than the second power.

7. The control method according to claim 1, wherein the controlling the portable thermostat to operate in a target operation mode according to the relation between the remaining power and the total required consumed power includes:

8. The control method according to any one of claims 1 to 6, wherein the determining of the total required power consumption of the portable temperature regulation device when operating according to the target parameter according to the space size of the working area, the target parameter and the ambient temperature comprises:

9. The control method according to any one of claims 1 to 6, characterized by further comprising:

when the residual electric quantity is lower than a preset electric quantity threshold value or cannot be matched with the target operation mode, sending a first prompt message, wherein the first prompt message is used for prompting that the residual electric quantity cannot meet the total demand consumed electric quantity and whether the target parameter is modified;

10. A processing device, characterized in that the device comprises a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the control method of a portable temperature regulation device according to any one of claims 1 to 9 when executing the computer program.