CN111397157A - Operation method, operation device, mobile air conditioner and computer readable storage medium - Google Patents

Abstract

The invention provides an operation method, an operation device, a mobile air conditioner and a computer readable storage medium, wherein the mobile air conditioner comprises a first assembly and a second assembly, the first assembly comprises a mobile device and a cooling assembly, the mobile device is configured to drive the first assembly to move, at least the first assembly comprises a power supply device, the second assembly comprises a charging device, and the operation method comprises the following steps: acquiring the residual capacity of a power supply device on the first component; and determining the operating parameters and/or the power supply mode of the cooling component according to the residual capacity. According to the technical scheme, a user does not need to check the electric quantity of the power supply device frequently, the working time of the power supply device is prolonged, and the convenience of using the mobile air conditioner by the user is improved.

Description

Operation method, operation device, mobile air conditioner and computer readable storage medium

Technical Field

The invention relates to the technical field of refrigeration equipment, in particular to an operation method of a mobile air conditioner, an operation device of the mobile air conditioner, the mobile air conditioner and a computer readable storage medium.

Background

Some mobile air conditioners adopt a rechargeable battery for power supply, the capacity of the rechargeable battery is limited, the mobile air conditioners have high power consumption, and users need to frequently check the consumption condition of the electric quantity of the battery so as to charge the battery in time and have inconvenience in use.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

In view of the above, an object of the present invention is to provide a method for operating a mobile air conditioner.

Another object of the present invention is to provide an operating device of a mobile air conditioner.

Still another object of the present invention is to provide a mobile air conditioner.

It is yet another object of the present invention to provide a computer-readable storage medium.

In order to achieve the above object, a first aspect of the present invention provides an operation method of a mobile air conditioner, where the mobile air conditioner includes a first component and a second component, the first component includes a moving device and a cooling component, the moving device is configured to drive the first component to move, at least the first component includes a power supply device, the second component includes a charging device, and the operation method includes: acquiring the residual capacity of a power supply device on the first component; and determining the operating parameters and/or the power supply mode of the cooling component according to the residual capacity.

In the technical scheme, the operation parameters of the cooling component are determined according to the residual electric quantity, namely the mobile air conditioner can flexibly and automatically set the operation parameters of the cooling component according to the residual electric quantity of the power supply device, so that the operation parameters of the cooling component are adaptive to the electric quantity condition, and the working time of the mobile air conditioner is prolonged; or through the surplus electric quantity that obtains power supply unit, confirm the power supply mode of cooling subassembly, thereby make the power supply mode can adapt to mobile air conditioner's work needs, ensure that mobile air conditioner can continue to work, no matter whether power supply unit's own electric quantity is sufficient promptly, mobile air conditioner can all be automatically through the regulation to the operating parameter of cooling subassembly, make mobile air conditioner's consumption adaptation electric quantity condition, or automatically through the regulation to the power supply mode, make the electric quantity supply can satisfy mobile air conditioner's consumption needs, thereby do not need the user to look over power supply unit's electric quantity consumption condition repeatedly, the convenience that mobile air conditioner used has been promoted.

Specifically, the residual electric quantity of the power supply device is acquired, so that the electric quantity condition of the power supply device can be known conveniently, when the electric quantity of the power supply device is sufficient, the mobile air conditioner can be refrigerated by adopting the most suitable operation parameters, the original power consumption is kept or improved, the ambient temperature or humidity can reach the state required by a user as soon as possible, and the comfort of the user in using the mobile air conditioner is improved; when the power supply device has less electric quantity, the operation parameters of the cooling component can be automatically adjusted, and the power consumption of the mobile air conditioner is reduced, so that the electric quantity consumption is reduced, the mobile air conditioner can be kept working for a long time, and the environmental temperature and the humidity can be conveniently adjusted for a user; in addition, the mobile air conditioner can automatically determine the power supply mode of the cooling component according to the residual electric quantity of the power supply device so as to ensure that the cooling component has enough electric quantity supply, so that more appropriate operation parameters can be adopted all the time, the mobile air conditioner can maintain or improve the power consumption, the environmental temperature and the humidity can be continuously and rapidly adjusted, and the comfort and the convenience of a user using the mobile air conditioner are improved; the adjustment of the power supply mode and the adjustment of the operating parameters may be performed simultaneously or may be performed using only one of them.

It should also be noted that the mobile air conditioner comprises a first component and a second component, wherein the first component comprises a moving device and a cooling component, so that the moving device drives the first component to enable the cooling component to be close to a user, thereby more directly and rapidly adjusting the ambient temperature or humidity near the user, and also enabling the cooling component to be far away from or far away from the user, thereby avoiding cold air from directly blowing to the user; the power supply device is arranged on the first assembly, so that the cooling assembly can be directly supplied with power without being connected with an external power supply, the position of the first assembly can be more flexible, the cooling assembly can be driven by the mobile device on the first assembly to adapt to the position of a user, and the user can use the cooling assembly flexibly; the charging device is arranged on the second assembly, so that the weight of the first assembly can be reduced, the first assembly can move conveniently, and the power consumption required by the movement of the first assembly is reduced; when the power supply device electric quantity on first subassembly is not enough, can utilize the charging device on the second subassembly again for the power supply device power supply, be favorable to guaranteeing that power supply device's electric quantity is sufficient, do not need the user to look over the electric quantity consumption condition frequently repeatedly, promoted the convenience that mobile air conditioner used.

In the above technical solution, the cooling assembly includes a cooling device and a fan, the cooling device is configured to supply a cold source, and the fan is configured to drive air to exchange heat; the operation parameters of the cooling assembly comprise power consumption parameters of a cooling device and/or fan rotating speed; determining the operation parameters of the cooling component according to the residual capacity, specifically comprising: judging whether the residual electric quantity is smaller than an electric quantity threshold value; judging that the residual electric quantity is smaller than an electric quantity threshold value, and reducing power consumption parameters and/or fan rotating speed of a cooling device; and judging that the residual electric quantity is greater than or equal to the electric quantity threshold value, and keeping or improving the power consumption parameter and/or the fan rotating speed of the cooling device.

In the technical scheme, the adjustment direction of the operation parameters of the cooling component is convenient to determine by judging the size of the residual electric quantity relative to the electric quantity threshold value; specifically, when the remaining power is less than the power threshold, that is, when the power of the power supply device is insufficient, the power consumption of the mobile air conditioner can be reduced by reducing the power consumption parameter of the cooling device and/or the rotating speed of the fan, and the supply speed of the cooling source is reduced to slow down the power consumption speed, so that the working time of the cooling component is prolonged; when the residual capacity is greater than or equal to the electric quantity threshold value, the electric quantity is sufficient, the power consumption parameter and/or the fan rotating speed of the cooling device can be kept or improved, the environment temperature and the humidity can quickly meet the needs of a user, therefore, whether the electric quantity of the power supply device is sufficient or not, the mobile air conditioner can adjust the power consumption parameter and/or the fan rotating speed of the cooling device, the cooling component can keep a longer working time, the electric quantity condition of the power supply device is not required to be frequently checked by the user, and the use convenience of the mobile air conditioner is improved.

In the above technical solution, the cooling device includes a compressor; the power consumption parameter of the cooling device comprises compressor power; reducing power consumption parameters of a cooling device specifically comprises: reducing the compressor power; the method for maintaining or improving the power consumption parameters of the cooling device specifically comprises the following steps: maintaining or boosting compressor power.

In the technical scheme, the adjustment direction of the operation parameters of the cooling component is convenient to determine by judging the size of the residual electric quantity relative to the electric quantity threshold value; specifically, when the remaining power is less than the power threshold, that is, the power of the power supply device is insufficient, the power consumption of the mobile air conditioner can be reduced by reducing the power of the compressor and/or the rotating speed of the fan, and the power consumption speed is reduced, so that the working time of the cooling component is prolonged; when surplus electric quantity is more than or equal to the electric quantity threshold value, the electric quantity is sufficient, compressor power and/or fan rotational speed can be kept or promoted, so that the environmental temperature and the humidity can quickly meet the needs of users, whether the electric quantity of the power supply device is sufficient or not, the mobile air conditioner can keep longer working time through the adjustment of the compressor power and/or the fan rotational speed, the user does not need to frequently check the electric quantity condition of the power supply device, and the use convenience of the mobile air conditioner is promoted.

It should be pointed out that the cooling device includes compressor, first heat exchanger and second heat exchanger, is convenient for directly carry out the circulation refrigeration on first subassembly, has promoted the convenience that mobile air conditioner used.

In the technical scheme, the cold supply device comprises a liquid pump, a cold accumulation device and a heat exchanger, wherein the liquid pump is used for circularly pumping the refrigerant in the pipeline to the heat exchanger through the cold accumulation device; the power consumption parameters of the cooling device comprise the rotating speed of the liquid pump; reducing power consumption parameters of a cooling device specifically comprises: reducing the rotation speed of the liquid pump; the method for maintaining or improving the power consumption parameters of the cooling device specifically comprises the following steps: the liquid pump speed is maintained or increased.

In the technical scheme, the adjustment direction of the operation parameters of the cooling component is convenient to determine by judging the size of the residual electric quantity relative to the electric quantity threshold value; specifically, when the remaining power is less than the power threshold, it indicates that the power of the power supply device is insufficient, and if the original power consumption is still maintained, the power may be quickly consumed to stop the operation of the cooling module, so that the power consumption of the mobile air conditioner can be reduced by reducing the rotation speed of the liquid pump and/or the rotation speed of the fan, and the power consumption speed is slowed down, thereby prolonging the working time of the cooling module, enabling a user not to check whether the power of the power supply device is consumed repeatedly, and improving the convenience of the mobile air conditioner in use; when surplus electric quantity is greater than or equal to the electric quantity threshold value, the electric quantity is sufficient, the rotating speed of the liquid pump and/or the rotating speed of the fan can be kept or improved, the environment temperature and the humidity can quickly meet the needs of a user, whether the electric quantity of the power supply device is sufficient or not, the mobile air conditioner can adjust the rotating speed of the liquid pump and/or the rotating speed of the fan, the cooling component can keep a long working time, the electric quantity condition of the power supply device is not required to be frequently checked by the user, and the use convenience of the mobile air conditioner is improved.

It should be pointed out that the cooling device includes liquid pump, cold-storage device and heat exchanger, is convenient for directly utilize the refrigerant in the liquid pump circulation extraction pipeline to pass through cold-storage device to heat exchanger to the cold volume of transmission, because do not set up the compressor on the first subassembly, thereby can reduce the noise of first subassembly during operation, promoted the travelling comfort that the user used first subassembly temperature regulation closely.

In any of the above solutions, the operating parameter of the cooling module includes a set temperature; determining the operation parameters of the cooling component according to the residual capacity, specifically comprising: judging whether the residual electric quantity is smaller than an electric quantity threshold value; judging that the residual electric quantity is smaller than an electric quantity threshold value, and increasing the set temperature; and judging that the residual electric quantity is greater than or equal to the electric quantity threshold value, and reducing or keeping the set temperature.

In the technical scheme, the power consumption of the mobile air conditioner can be improved or reduced by adjusting the set temperature, specifically, when the residual electric quantity is smaller than the electric quantity threshold value, the set temperature is improved, namely, the requirement for refrigeration is reduced, so that the power of a compressor and/or the rotating speed of a fan can be automatically reduced, or the rotating speed of a liquid pump and/or the rotating speed of the fan can be automatically reduced, the power consumption of the mobile air conditioner is reduced, the working time of the mobile air conditioner can be prolonged, the frequency of checking the electric quantity of a power supply device by a user is reduced, or the electric quantity of the power supply device is not required to be checked by the user, and automatic; when the residual electric quantity is larger than or equal to the electric quantity threshold value, the set temperature is reduced or kept, the temperature can be quickly reduced, and the comfort of a user using the mobile air conditioner is improved.

In any one of the above technical solutions, the first component further includes an external power supply part; according to the residual capacity, determining a power supply mode of the cooling component, specifically comprising: judging whether the residual electric quantity is smaller than an electric quantity threshold value; judging that the residual electric quantity is smaller than an electric quantity threshold value, and determining a power supply mode to supply power to the external power supply part; and judging that the residual electric quantity is greater than or equal to the electric quantity threshold value, and determining a power supply mode to supply power to the power supply device.

In the technical scheme, when the residual electric quantity is less than the electric quantity threshold value, the power supply mode is determined to be the power supply of the external power supply part, so that the power supply of the power supply device is conveniently replaced by the external power supply part, sufficient electric quantity supply is kept for a long time, and a cooling assembly of the mobile air conditioner can continuously keep higher power to work, so that the aim of quickly adjusting the temperature and the humidity is fulfilled, the use convenience of the mobile air conditioner is improved, and a user does not need to check the electric quantity of the power supply device; when the residual capacity is greater than or equal to the electric quantity threshold value, the power supply mode is determined to supply power to the power supply device, so that whether the electric quantity of the power supply device is sufficient or not, the power supply mode can be adjusted through the mobile air conditioner, the cooling component can be supplied with sufficient electric quantity, the electric quantity condition of the power supply device is not required to be frequently checked by a user, and the use convenience of the mobile air conditioner is improved.

It can be understood that the external power supply part can be a power line with a connector or a power interface.

In the above technical solution, after determining the power supply mode to supply power to the power supply device, the method further includes: acquiring the residual electric quantity of the power supply device again after the first duration; and determining the power supply mode of the cooling component according to the acquired residual power.

In the technical scheme, after the power supply mode is determined to supply power to the power supply device, the first time length is further passed, the residual electric quantity of the power supply device is obtained again, the power supply mode is determined again according to the residual electric quantity obtained again, therefore, when the power supply device supplies power, the mobile air conditioner can automatically and continuously monitor the electric quantity condition of the power supply device, the power supply mode is adjusted in time according to the residual electric quantity condition of the power supply device, the cold supply assembly is guaranteed to be capable of obtaining sufficient electric quantity supply, the electric quantity condition of the power supply device is not required to be frequently checked by a user, and the use convenience of the mobile air conditioner is improved.

In the above technical solution, determining a power supply mode of the cooling module according to the reacquired remaining power specifically includes: determining a difference value between the residual electric quantity obtained in the previous and subsequent two times; judging whether the difference value is smaller than an electric quantity consumption threshold value; determining that the difference value is smaller than the electric quantity consumption threshold value, and determining a power supply mode to supply power to the power supply device; and determining that the difference value is larger than or equal to the electric quantity consumption threshold value, determining a power supply mode to supply power to the power supply device, and controlling the charging device to charge the power supply device.

In the technical scheme, the consumption speed of the electric quantity can be determined by comparing the difference value with the electric quantity consumption threshold value, and the difference value is smaller than the electric quantity consumption threshold value, which indicates that the electric quantity consumption speed is low, the power consumption of the mobile air conditioner is low, and the mobile air conditioner can work for a long time, so that the power supply device can be continuously used for supplying power; the difference is greater than the electric quantity consumption threshold value, it is fast to explain electric quantity consumption, mobile air conditioner's consumption is higher, confirm the power supply for power supply unit with the power supply mode this moment, and control charging device simultaneously and charge for power supply unit, thereby can guarantee the electric quantity supply, no matter mobile air conditioner's consumption is high or low promptly, mobile air conditioner all can be through the adjustment to the power supply mode, ensure supplying cold the can sufficient electric quantity supply of obtaining of subassembly, thereby need not the user often to look over power supply unit's electric quantity condition, the convenience that mobile air conditioner used has been promoted.

In any one of the above technical solutions, the second assembly further includes a power supply device; the operation method further comprises the following steps: controlling the first assembly to move towards the second assembly and be connected with the second assembly, so that the charging device charges the power supply device on the first assembly; or the operation method further comprises the following steps: and controlling the first assembly to move towards the second assembly, and interchanging the power supply device on the first assembly and the power supply device on the second assembly.

In the technical scheme, the first assembly is controlled to move towards the second assembly, so that the charging device charges the power supply device on the first assembly, namely, the mobile air conditioner can automatically perform charging operation on the power supply device without manual operation of a user, the workload of the user is reduced, the electric quantity of the power supply device can be further ensured, the condition that the user frequently checks the electric quantity is not required, and the use convenience of the mobile air conditioner is improved; similarly, the first assembly is controlled to move towards the second assembly, and the power supply device on the first assembly and the power supply device on the second assembly are exchanged, namely the fully charged power supply device on the second assembly is used for replacing the power supply device with insufficient electric quantity on the first assembly, so that the cold supply assembly on the first assembly can be always supplied with sufficient electric quantity, and the convenience of a user in using the mobile air conditioner is improved.

It should be noted that the power supply device includes any one of a battery, a dry battery, and a charger, but when the dry battery is used, only replacement is performed, and charging cannot be performed.

The technical solution of the second aspect of the present invention provides an operation device of a mobile air conditioner, including: a memory storing a computer program; a processor, which implements the steps of the method for operating a mobile air conditioner according to any one of the above first aspects when executing the computer program.

In this technical solution, when the processor executes the computer program, the steps of the method for operating a mobile air conditioner according to any one of the above first aspects are implemented, so that all beneficial effects of the above technical solutions are achieved, and details are not described herein.

The third aspect of the present invention provides a mobile air conditioner, including: the mobile air conditioner comprises a memory and a processor, wherein the memory stores a computer program capable of running on the processor, and the processor executes the computer program to realize the steps of the running method of the mobile air conditioner according to any one of the above first aspect.

In this technical solution, when the processor executes the computer program, the steps of the method for operating a mobile air conditioner according to any one of the above first aspects are implemented, so that all beneficial effects of the above technical solutions are achieved, and details are not described herein.

In the above technical solution, the mobile air conditioner further includes: the first assembly comprises a moving device and a cooling assembly, and the moving device is configured to drive the first assembly to move; and a second assembly including a charging device, and of the first assembly and the second assembly, at least the first assembly includes a power supply device, wherein the charging device is configured to charge the power supply device.

In the technical scheme, the mobile air conditioner further comprises a first assembly and a second assembly, wherein the first assembly comprises a moving device and a cooling assembly, the moving device is convenient to drive the first assembly, so that the cooling assembly is close to a user, the ambient temperature or humidity near the user can be adjusted more directly and rapidly, the cooling assembly can be far away from or away from the user, and cold air is prevented from blowing the user directly; the power supply device is arranged on at least the first assembly, so that the cooling assembly can be directly supplied with power without being connected with an external power supply, the position of the first assembly can be more flexible, the cooling assembly can be driven by the mobile device on the first assembly to adapt to the position of a user, and the user can use the cooling assembly flexibly; the charging device is arranged on the second assembly, so that the weight of the first assembly can be reduced, the first assembly can move conveniently, and the power consumption required by the movement of the first assembly is reduced; when the power supply device electric quantity on first subassembly is not enough, can utilize the charging device on the second subassembly again for the power supply device power supply, be favorable to guaranteeing that power supply device's electric quantity is sufficient, do not need the user to look over the electric quantity consumption condition frequently repeatedly, promoted the convenience that mobile air conditioner used. In the above technical solution, the cooling assembly includes a cooling device and a fan, the cooling device is configured to supply a cooling source, and the fan is configured to drive air to exchange heat.

In the technical scheme, the cold supply assembly supplies a cold source through the cold supply device, and drives air to flow through the fan, so that the cold source exchanges heat with the surrounding air, thereby achieving the purpose of cooling and refrigeration.

In the above technical solution, the cooling device includes a compressor, a first heat exchanger, and a second heat exchanger; or the cold supply device comprises a liquid pump, a first cold accumulation device and a heat exchanger, and the second assembly comprises a compressor and a second cold accumulation device.

In the technical scheme, the cold supply device comprises the compressor, the first heat exchanger and the second heat exchanger, so that the circulating refrigeration can be directly performed on the first component, and the convenience in use of the mobile air conditioner is improved; the cold supply device comprises a liquid pump, a cold accumulation device and a heat exchanger, the coolant in the liquid pump circulating extraction pipeline is conveniently and directly utilized to pass through the cold accumulation device to the heat exchanger so as to refrigerate and transmit cold, and the compressor is not arranged on the first assembly, so that the noise of the first assembly during working can be reduced, and the comfort of the user in using the first assembly to adjust the temperature in a short distance is improved.

An aspect of a fourth aspect of the present invention provides a computer-readable storage medium, on which a computer program is stored, the computer program, when executed by a processor, implementing the steps of the method for operating a mobile air conditioner according to any one of the above-mentioned first aspects.

In this technical solution, the steps of the method for operating a mobile air conditioner according to any one of the above first aspect are implemented by a processor, so that all the beneficial effects of the above technical solutions are achieved, and are not described herein again.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a schematic workflow diagram of an operation method of a mobile air conditioner according to an embodiment of the present invention;

fig. 2 is a schematic workflow diagram of an operation method of a mobile air conditioner according to another embodiment of the present invention;

fig. 3 is a schematic workflow diagram of an operation method of a mobile air conditioner according to still another embodiment of the present invention;

fig. 4 is a schematic workflow diagram of an operation method of a mobile air conditioner according to still another embodiment of the present invention;

fig. 5 is a schematic workflow diagram of an operation method of a mobile air conditioner according to still another embodiment of the present invention;

fig. 6 is a schematic workflow diagram of an operation method of a mobile air conditioner according to still another embodiment of the present invention;

fig. 7 is a schematic workflow diagram of an operation method of a mobile air conditioner according to still another embodiment of the present invention;

fig. 8 is a schematic workflow diagram of an operation method of a mobile air conditioner according to still another embodiment of the present invention;

fig. 9 is a block diagram schematically illustrating the construction of an operating device of a mobile air conditioner according to an embodiment of the present invention;

fig. 10 is a block diagram schematically illustrating the structure of a mobile air conditioner according to an embodiment of the present invention;

fig. 11 is a block diagram schematically illustrating the construction of a mobile air conditioner according to another embodiment of the present invention;

fig. 12 is a block diagram schematically illustrating the structure of a mobile air conditioner according to still another embodiment of the present invention;

fig. 13 is a block diagram schematically illustrating the structure of a mobile air conditioner according to still another embodiment of the present invention;

fig. 14 is a block diagram schematically illustrating the structure of a mobile air conditioner according to still another embodiment of the present invention;

fig. 15 is a schematic workflow diagram of an operation method of a mobile air conditioner according to still another embodiment of the present invention;

fig. 16 is a block diagram schematically illustrating a structure of a mobile air conditioner according to still another embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the names of the components in fig. 9 is:

1 running device, 10 memory, 12 processor;

the correspondence between reference numerals and component names in fig. 10 is:

2 mobile air conditioner, 20 memory, 22 processor;

the correspondence between reference numerals and part names in fig. 11 is:

3 mobile air conditioner, 30 first component, 300 mobile device, 302 cooling component, 304 power supply device, 32 second component, 320 charging device;

the correspondence between reference numerals and component names in fig. 12 is:

3 mobile air conditioner, 30 first assembly, 300 mobile device, 302 cooling assembly, 3020 compressor, 3022 first heat exchanger, 3024 second heat exchanger, 3026 blower, 304 power supply, 32 second assembly, 320 charging device;

the correspondence between reference numerals and part names in fig. 13 is:

4 mobile air conditioner, 40 first component, 400 mobile device, 402 cold supply component, 4020 liquid pump, 4022 heat exchanger, 4024 first cold storage device, 4026 fan, 404 power supply device, 42 second component, 420 charging device, 422 compressor, 424 second cold storage device;

the correspondence between reference numerals and component names in fig. 14 is:

5 mobile air conditioner, 50 first component, 500 mobile chassis, 502 accumulator, 504 first refrigerant liquid storage tank, 506 liquid pump, 508 fan, 509 evaporator, 52 second component, 520 charging device, 522 compressor, 524 second refrigerant liquid storage tank;

the correspondence between reference numerals and component names in fig. 16 is:

6 mobile air conditioner, 60 first module, 600 mobile chassis, 602 accumulator, 604 condenser, 606 under fan, 607 compressor, 608 fan, 609 evaporator, 62 second module, 620 charging device.

Detailed Description

So that the manner in which the above recited objects, features and advantages of the present invention can be understood in detail, a more particular description of the invention, briefly summarized above, may be had by reference to the embodiments thereof which are illustrated in the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

Some embodiments of the invention are described below with reference to fig. 1-16.

Example 1

As shown in fig. 1, an operation method of a mobile air conditioner according to an embodiment of the present invention includes: step S100: acquiring the residual capacity of a power supply device on the first component; step S102: and determining the operating parameters and/or the power supply mode of the cooling component according to the residual capacity.

In the embodiment, the operation parameters of the cooling component are determined according to the residual electric quantity, namely the mobile air conditioner can flexibly and automatically set the operation parameters of the cooling component according to the residual electric quantity of the power supply device, so that the operation parameters of the cooling component are adaptive to the electric quantity condition, and the working time of the mobile air conditioner is prolonged; or through the surplus electric quantity that obtains power supply unit, confirm the power supply mode of cooling subassembly, thereby make the power supply mode can adapt to mobile air conditioner's work needs, ensure that mobile air conditioner can continue to work, no matter whether power supply unit's own electric quantity is sufficient promptly, mobile air conditioner can all be automatically through the regulation to the operating parameter of cooling subassembly, make mobile air conditioner's consumption adaptation electric quantity condition, or automatically through the regulation to the power supply mode, make the electric quantity supply can satisfy mobile air conditioner's consumption needs, thereby do not need the user to look over power supply unit's electric quantity consumption condition repeatedly, the convenience that mobile air conditioner used has been promoted.

It should be noted that the operating parameters and the power supply mode may be adjusted and determined independently of each other, or only one of them may be adjusted.

Example 2

As shown in fig. 2, according to an embodiment of the present invention, an operation method of a mobile air conditioner, in which a cooling module of the mobile air conditioner includes a cooling device and a fan, the cooling device includes a compressor, a first heat exchanger, and a second heat exchanger, includes: step S200: acquiring the residual capacity of a power supply device on the first component; step S202: judging whether the residual electric quantity is smaller than an electric quantity threshold value; step S204: judging that the residual electric quantity is smaller than an electric quantity threshold value, and reducing the power of a compressor and/or the rotating speed of a fan; step S206: and judging that the residual electric quantity is greater than or equal to the electric quantity threshold value, and keeping or increasing the compressor power and/or the fan rotating speed.

In the embodiment, the adjustment direction of the operation parameters of the cooling component is convenient to determine by judging the size of the residual electric quantity relative to the electric quantity threshold value; specifically, when the remaining power is less than the power threshold, it indicates that the power of the power supply device is insufficient, and if the original power consumption is still maintained, the power may be quickly consumed to stop the operation of the cooling module, so that the power consumption of the mobile air conditioner can be reduced by reducing the power of the compressor and/or the rotating speed of the fan, the power consumption speed is reduced, the working time of the cooling module is prolonged, a user does not need to check the power of the power supply device frequently, and the convenience in use of the mobile air conditioner is improved; when surplus electric quantity is more than or equal to the electric quantity threshold value, the electric quantity is sufficient, compressor power and/or fan rotational speed can be kept or promoted, so that the ambient temperature and humidity can quickly meet the needs of a user, and no matter whether the electric quantity of the power supply device is sufficient, the mobile air conditioner can keep a long working time through the regulation of the compressor power and/or the fan rotational speed, the user is not required to frequently check the electric quantity condition of the power supply device, and the use convenience of the mobile air conditioner is promoted.

Keeping in mind that maintaining or increasing the compressor power and/or the fan rotation speed means maintaining the compressor power and/or the fan rotation speed, or increasing the compressor power and/or the fan rotation speed, that is, when it is determined that the remaining power is greater than or equal to the power threshold, maintaining the compressor power and maintaining the fan rotation speed; or the compressor power and the fan rotating speed are increased; or just maintain compressor power; or only keeping the rotating speed of the fan; or just boost compressor power; or simply increase the fan speed.

Example 3

As shown in fig. 3, according to an embodiment of the present invention, an operation method of a mobile air conditioner, in which a cooling module of the mobile air conditioner includes a cooling device and a fan, the cooling device includes a liquid pump, a cold accumulation device and a heat exchanger, includes: step S300: acquiring the residual capacity of a power supply device on the first component; step S302: judging whether the residual electric quantity is smaller than an electric quantity threshold value; step S304: judging that the residual electric quantity is smaller than an electric quantity threshold value, and reducing the rotating speed of a liquid pump and/or the rotating speed of a fan; step S306: and judging that the residual electric quantity is greater than or equal to the electric quantity threshold value, and keeping or lifting the rotating speed of the liquid pump and/or the rotating speed of the fan.

In the embodiment, the adjustment direction of the operation parameters of the cooling component is convenient to determine by judging the size of the residual electric quantity relative to the electric quantity threshold value; specifically, when the remaining power is less than the power threshold, that is, the power of the power supply device is insufficient, the power consumption of the mobile air conditioner can be reduced by reducing the rotating speed of the liquid pump and/or the rotating speed of the fan, and the power consumption speed is slowed down, so that the working time of the cooling component is prolonged; when surplus electric quantity is greater than or equal to the electric quantity threshold value, the electric quantity is sufficient, the rotating speed of the liquid pump and/or the rotating speed of the fan can be kept or improved, the environment temperature and the humidity can quickly meet the needs of a user, whether the electric quantity of the power supply device is sufficient or not, the mobile air conditioner can adjust the rotating speed of the liquid pump and/or the rotating speed of the fan, the cooling component can keep a long working time, the electric quantity condition of the power supply device is not required to be frequently checked by the user, and the use convenience of the mobile air conditioner is improved.

It should be noted that maintaining or increasing the liquid pump rotation speed and/or the fan rotation speed means maintaining the liquid pump rotation speed and/or the fan rotation speed, or increasing the liquid pump rotation speed and/or the fan rotation speed, that is, maintaining the liquid pump rotation speed and maintaining the fan rotation speed when it is determined that the remaining power is greater than or equal to the power threshold; or the liquid pump rotating speed and the fan rotating speed are increased; or only maintain the liquid pump speed; or only keeping the rotating speed of the fan; or simply increasing the liquid pump speed; or simply increase the fan speed.

Example 4

As shown in fig. 4, according to an operation method of a mobile air conditioner in accordance with one embodiment of the present invention, a cooling module of the mobile air conditioner includes a cooling device and a fan, the cooling device includes a compressor, a first heat exchanger and a second heat exchanger; the operation method comprises the following steps: step S400: acquiring the residual capacity of a power supply device on the first component; step S402: judging whether the residual electric quantity is smaller than an electric quantity threshold value; step S404: judging that the residual electric quantity is smaller than an electric quantity threshold value, reducing the power of a compressor and/or the rotating speed of a fan, and increasing the set temperature; step S406: and judging that the residual electric quantity is greater than or equal to the electric quantity threshold value, keeping or increasing the compressor power and/or the fan rotating speed, and reducing or keeping the set temperature.

In the embodiment, the power consumption of the mobile air conditioner can be increased or reduced by adjusting the set temperature, for example, the requirement for refrigeration is reduced by increasing the set temperature, so that the power of the compressor and/or the rotating speed of the fan can be automatically reduced, the power consumption of the mobile air conditioner is reduced, the working time of the mobile air conditioner can be prolonged, the frequency of checking the electric quantity of the power supply device by a user is reduced, or the electric quantity of the power supply device is not required to be checked by the user, so that the automatic adjustment is realized; when the residual electric quantity is larger than or equal to the electric quantity threshold value, the set temperature is reduced or kept, the temperature can be quickly reduced, and the comfort of a user using the mobile air conditioner is improved.

Example 5

As shown in fig. 5, an operation method of a mobile air conditioner according to an embodiment of the present invention includes: step S500: acquiring the residual capacity of a power supply device on the first component; step S502: judging whether the residual electric quantity is smaller than an electric quantity threshold value; step S504: judging that the residual electric quantity is smaller than an electric quantity threshold value, and determining a power supply mode to supply power to the external power supply part; step S506: and judging that the residual electric quantity is greater than or equal to the electric quantity threshold value, and determining a power supply mode to supply power to the power supply device.

In the embodiment, when the residual electric quantity is less than the electric quantity threshold value, the power supply mode is determined to be the power supply of the external power supply part, so that the external power supply part is convenient to replace the power supply device to supply power, sufficient electric quantity supply is kept for a long time, and a user does not need to check the electric quantity of the power supply device; when the residual capacity is greater than or equal to the electric quantity threshold value, the power supply mode is determined to supply power to the power supply device, so that whether the electric quantity of the power supply device is sufficient or not, the power supply mode can be adjusted through the mobile air conditioner, the cooling component can be supplied with sufficient electric quantity, the electric quantity condition of the power supply device is not required to be frequently checked by a user, and the use convenience of the mobile air conditioner is improved.

Example 6

As shown in fig. 6, the method for operating a mobile air conditioner according to an embodiment of the present invention includes: step S600: acquiring the residual capacity of a power supply device on the first component; step S602: judging whether the residual electric quantity is smaller than an electric quantity threshold value; step S604: judging that the residual electric quantity is smaller than an electric quantity threshold value, and determining a power supply mode to supply power to the external power supply part; step S606: judging whether the residual electric quantity is greater than or equal to an electric quantity threshold value, and determining a power supply mode to supply power to the power supply device; step S608: acquiring the residual electric quantity of the power supply device again after the first duration; step S610: determining a difference value between the residual electric quantity obtained in the previous and subsequent two times; step S612: judging whether the difference value is smaller than an electric quantity consumption threshold value; step S614: determining that the difference value is smaller than the electric quantity consumption threshold value, and determining a power supply mode to supply power to the power supply device; step S616: and determining that the difference value is larger than or equal to the electric quantity consumption threshold value, determining a power supply mode to supply power to the power supply device, and controlling the first assembly to move towards the second assembly to enable the charging device to charge the power supply device.

In this embodiment, the consumption speed of the electric quantity can be determined by comparing the difference value with the electric quantity consumption threshold value, and when the electric quantity consumption speed is low, the power supply device can be continuously used for supplying power; when electric quantity consumption is fast, confirm the power supply for power supply unit with the power supply mode to simultaneous control charging device charges for power supply unit, thereby can guarantee the electric quantity supply, no matter the consumption of mobile air conditioner is high or low promptly, mobile air conditioner all can be through the adjustment to the power supply mode, ensure supplying cold the electric quantity supply that can obtain sufficient of subassembly, thereby do not need the user often to look over power supply unit's electric quantity condition, promoted the convenience that mobile air conditioner used.

Example 7

As shown in fig. 7, the method for operating a mobile air conditioner according to an embodiment of the present invention includes: step S700: acquiring the residual capacity of a power supply device on the first component; step S702: judging whether the residual electric quantity is smaller than an electric quantity threshold value; step S704: judging that the residual electric quantity is smaller than an electric quantity threshold value, reducing the power of a compressor and/or the rotating speed of a fan, and determining a power supply mode to supply power for an external power supply part; step S706: and judging that the residual electric quantity is greater than or equal to the electric quantity threshold value, maintaining or increasing the compressor power and/or the fan rotating speed, and determining a power supply mode to supply power to the power supply device.

In the embodiment, when the residual electric quantity is less than the electric quantity threshold value, the power of the compressor and/or the rotating speed of the fan are reduced, the power supply mode is determined to supply power to the external power supply part, namely when the electric quantity is insufficient, the power supply mode is adjusted to supply power to the external power supply part while the operation parameters are adjusted, so that the power consumption of the mobile air conditioner is reduced, the sufficient supply of the electric quantity is ensured, the condition that a user frequently checks the electric quantity is not needed, and the convenience of the user in using the mobile air conditioner is improved; or when the residual electric quantity is larger than or equal to the electric quantity threshold value, the power of the compressor and/or the rotating speed of the fan are kept or increased, and the power supply mode is determined to supply power to the power supply device, so that the power consumption of the mobile air conditioner is kept or increased, the temperature and the humidity are convenient to adjust rapidly, and the position of the first assembly is convenient to adjust by a user due to the fact that no external power supply is tied up, and the convenience of using the mobile air conditioner by the user is improved.

Example 8

As shown in fig. 8, the method for operating a mobile air conditioner according to an embodiment of the present invention includes: step S800: acquiring the residual capacity of a power supply device on the first component; step S802: judging whether the residual electric quantity is smaller than an electric quantity threshold value; step S804: judging that the residual electric quantity is smaller than an electric quantity threshold value, reducing the power of a compressor and/or the rotating speed of a fan, determining a power supply mode to supply power to a power supply device, and controlling a first assembly to move towards a second assembly to enable a charging device to charge the power supply device; step S806: and judging that the residual electric quantity is greater than or equal to the electric quantity threshold value, maintaining or increasing the compressor power and/or the fan rotating speed, and determining a power supply mode to supply power to the power supply device.

In this embodiment, when the remaining power of the power supply device is obtained for the first time, it is found that the power is insufficient, the power supply device is still used for supplying power and charging at the same time, so that sufficient supply of power is maintained, and after charging is completed, the charging device and the power supply device can be separated, so that a user can flexibly adjust the position of the first component.

Example 9

As shown in fig. 9, an operating device 1 of a mobile air conditioner according to an embodiment of the present invention includes: a memory 10, the memory 10 storing a computer program; a processor 12, the processor 12 implementing the steps of the method for operating a mobile air conditioner according to any one of the embodiments of the first aspect when executing the computer program.

In this embodiment, when the processor 12 executes the computer program, the steps of the method for operating the mobile air conditioner according to any one of the embodiments of the first aspect are implemented, so that all the beneficial effects of the embodiments are achieved, and are not described herein again.

Example 10

As shown in fig. 10, a mobile air conditioner 2 according to an embodiment of the present invention, in a third aspect, includes: a memory 20 and a processor 22, wherein the memory 20 stores thereon a computer program operable on the processor 22, and the processor 22 implements the steps of the method for operating a mobile air conditioner according to any one of the embodiments of the first aspect when executing the computer program.

In this embodiment, when the processor 22 executes the computer program, the steps of the method for operating the mobile air conditioner according to any one of the embodiments of the first aspect are implemented, so that all the beneficial effects of the embodiments are achieved, and are not described herein again.

Example 11

As shown in fig. 11, the mobile air conditioner 3 includes a first module 30 and a second module 32.

Specifically, the first assembly 30 includes a moving device 300 and a cooling assembly 302, the moving device 300 is configured to move the first assembly 30; the second assembly 32 comprises a charging device 320 and at least the first assembly 30 of the first assembly 30 and the second assembly 32 comprises a power supply device 304, wherein the charging device 320 is configured to charge the power supply device 304.

In this embodiment, the mobile device 300 and the power supply device 304 are arranged, so that the first component 30 is not affected by the position of the external power source, and the cooling component 302 can be driven by the mobile device 300 to be close to the user, so as to adjust the ambient temperature or humidity near the user more directly and quickly, and the cooling component 302 can be far away from or away from the user, so as to avoid cold air from blowing directly to the user, i.e., the position of the first component 30 can be more flexible, and the user can use the first component flexibly; the charging device 320 is arranged on the second assembly 32, so that the weight of the first assembly 30 can be reduced, the movement of the first assembly 30 is facilitated, and the power consumption required by the movement of the first assembly 30 is reduced; when the power supply device 304 on the first component 30 is insufficient in power, the charging device 320 on the second component 32 can be used for supplying power to the power supply device 304, so that the power supply device 304 is ensured to be sufficient in power, the power consumption condition does not need to be checked frequently by a user, and the use convenience of the mobile air conditioner 3 is improved.

It can be understood that the power supply device comprises any one of a storage battery, a charger and a dry battery; when dry batteries are adopted, only replacement can be carried out, and charging cannot be carried out; the charging device comprises any one of a charging seat, a charging pile and a charger.

Further, the first component 30 further includes an external power supply portion (not shown), so that when the power of the power supply device 304 is insufficient, the external power supply portion can be used to supply power by an external power supply; the external power supply part comprises a power line with a connector, a power interface and the like.

Example 12

As shown in fig. 12, in any of the above embodiments, the cooling module 302 includes a cooling device and a fan 3026, the cooling device includes a compressor 3020, a first heat exchanger 3022, and a second heat exchanger 3024, the compressor 3020 communicates with the first heat exchanger 3022 and the second heat exchanger 3024, and compresses a refrigerant to exchange heat between the first heat exchanger 3022 and the second heat exchanger 3024; the fan 3026 is used to exchange heat for the first heat exchanger 3022 and/or the second heat exchanger 3024.

In this embodiment, the cooling assembly 302 includes a compressor 3020, a first heat exchanger 3022, a second heat exchanger 3024, and a blower 3026, which facilitates circulation cooling directly on the first assembly 30, thereby improving convenience in use of the mobile air conditioner 3.

Further, the second assembly 32 also includes a power supply 304 to facilitate replacement with the power supply 304 on the first assembly 30.

Example 13

As shown in fig. 13, unlike embodiment 12, the mobile air conditioner 4 includes a first module 40 and a second module 42, the first module 40 includes a mobile device 400, a cooling module 402, and a power supply device 404, the cooling module 402 includes a cooling device and a fan 4026, the cooling device includes a liquid pump 4020, a heat exchanger 4022, and a first cold storage device 4024 connected to each other, and the second module 42 includes a compressor 422 and a second cold storage device 424 connected to each other, and the second module 42 further includes a charging device 420.

In this embodiment, the second assembly 42 includes a compressor 422 and a second cold accumulation device 424, so as to compress the refrigerant by the compressor 422 and store the refrigerant by the first cold accumulation device 4024 and the second cold accumulation device 424; the liquid pump 4020 on the first assembly 40 can draw the refrigerant in the pipeline and pass through the first cold accumulation device 4024 to the heat exchanger to refrigerate and transmit cold, because the compressor 422 is not arranged on the first assembly 40, thereby the noise of the first assembly 40 during operation can be reduced, and the comfort of the user in using the first assembly 40 to adjust the temperature in a close range is improved.

The second cold accumulation device 424 can be used for replacing the first cold accumulation device 4024, or the liquid pump 4020 directly pumps the refrigerant in the pipeline to the heat exchanger 4022 through the second cold accumulation device 424 and the first cold accumulation device 4024.

The first cold storage device 4024 and the second cold storage device 424 may be liquid storage tanks, liquid storage tanks or liquid storage tanks.

In other embodiments, the compressor 422 may be replaced with a semiconductor.

In other embodiments, the cooling device includes only an evaporator; the second assembly comprises a compressor and a condenser; the evaporator is connected with the compressor through a pipeline, and a connecting pipeline between the evaporator and the compressor is connected through a hose so that the first assembly can move conveniently, the compressor compresses a refrigerant to prepare a refrigerant liquid, and the refrigerant liquid is conveyed to the evaporator through the pipeline and used for refrigerating and temperature adjusting of the first assembly.

Example 14

An embodiment of a fourth aspect of the present invention provides a computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, implements the steps of the method for operating a mobile air conditioner according to any one of the embodiments of the first aspect.

In this embodiment, the steps of the method for operating a mobile air conditioner according to any one of the embodiments of the first aspect described above are implemented by a processor, so that all the beneficial effects of the embodiments described above are achieved, and are not described herein again.

Example 15

As shown in fig. 14, the mobile air conditioner 5 according to an embodiment of the present invention is previously cooled by a compressor 522 or a semiconductor to store a refrigerant fluid, occasionally circulates the refrigerant fluid by a fluid pump 506, and blows a cool air by a fan 508 to cool the air.

Specifically, the mobile air conditioner 5 includes a first module 50 and a second module 52.

The first assembly 50 includes a liquid pump 506, a first refrigerant liquid reservoir 504, an evaporator 509, a fan 508, a removable chassis 500, and a battery 502, wherein the liquid pump 506, the first refrigerant liquid reservoir 504, the evaporator 509, the fan 508, and the battery 502 are all disposed on the removable chassis 500 so as to move with the removable chassis 500; the liquid pump 506 may pump the refrigerant fluid from the first tank 504 to the evaporator 509, the fan 508 may be configured to drive air around the evaporator 509, and the battery 502 may be configured to provide power to the liquid pump 506.

The second assembly 52 includes a compressor 522 and a second refrigerant fluid reservoir 524, so that refrigerant fluid is prepared by the compressor 522 and stored in the second refrigerant fluid reservoir 524, and after the temperature of refrigerant fluid in the first refrigerant fluid reservoir 504 is raised, the first refrigerant fluid reservoir 504 can be replaced by the second refrigerant fluid reservoir 524, or new refrigerant fluid can be directly drawn from the second refrigerant fluid reservoir 524 by the fluid pump 506; the second assembly 52 further includes a charging device 520, i.e., a charging device, the charging device 520 can charge the battery 502, or a battery 502 can be added to the second assembly 52 for replacement after the battery 502 of the first assembly 50 is used up.

In the mobile air conditioner 5 of this embodiment, by determining the remaining capacity of the storage battery 502 on the first component and the required variation of the capacity, it is obtained whether to charge or to use an external power supply to supply power while charging to achieve the optimal working mode of the whole machine.

The power management mode mainly judges the power demand of the mobile air conditioner by the storage battery part and then reasonably manages and controls the power. The mobile air conditioner can directly charge and cut off power without information mutual transmission with the mobile air conditioner. The mobile air conditioner can also communicate with the mobile air conditioner, and the mobile air conditioner is required to be stopped or partial load power consumption is reduced, so that the requirement of the whole machine on power utilization is reduced.

As shown in fig. 15, the specific workflow is explained as follows: step S900: reading the current residual battery capacity W1; step S902: whether W1 is less than the electric quantity threshold Wmin; step S904: if yes, only an external power supply is used for supplying power, and the steps are repeated; step S906: if not, reading the residual electric quantity W2 at the interval T; step S908: whether W1-W2 is smaller than an electricity consumption threshold Xmin; step S910: if yes, supplying power by a battery, and repeating the steps; step S912: otherwise, the charging and the working are carried out simultaneously, and the steps are repeated.

It can be understood that the above steps can be combined or independent; in addition, the mobile air conditioner can also be informed to reduce the power consumption of the whole machine, such as turning off the compressor or reducing the frequency of the compressor; reduce wind speed, etc.

The mobile air conditioner of this embodiment judges through the demand variable quantity to the surplus electric quantity of present battery and electric quantity, has following advantage:

1. the working time of the storage battery is prolonged, and meanwhile, the service life of the storage battery is relatively prolonged.

2. The comfort and the convenience of the user using the mobile air conditioner are improved.

Example 16

As shown in fig. 16, the mobile air conditioner 6 according to an embodiment of the present invention includes a first module 60 and a second module 62, and the first module 60 includes a compressor 607, unlike the embodiment 14.

Specifically, the first assembly 60 includes a compressor 607, a down-fan 606, a condenser 604, an evaporator 609, a fan 608, a movable chassis 600 and a storage battery 602, the first assembly 60 directly compresses a refrigerant by using the compressor 607, and circulates the refrigerant in the condenser 604 and the evaporator 609; namely, the traditional air-conditioning refrigeration mode is adopted for working refrigeration.

The second assembly 62 includes a charging device 620, such as a charging post, or a charging dock or charger, that can charge the battery 602 on the first assembly 60.

The power management mode of the second assembly 62 is also determined by the storage battery 602 part through the power demand of the mobile air conditioner 6, and then reasonable power management control is performed. The mobile air conditioner 6 can directly charge and cut off power without information mutual transmission. The mobile air conditioner 6 can also be communicated with, and the mobile air conditioner 6 is required to be stopped or the power consumption of part of the load is reduced, so that the requirement of the whole machine on power utilization is reduced.

The technical scheme of the invention is described in detail in combination with the attached drawings, and through the technical scheme of the invention, a user does not need to check the electric quantity of the power supply device frequently, so that the working time of the power supply device is prolonged, and the convenience of using the mobile air conditioner by the user is improved.

In the present invention, the terms "first", "second", are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (15)

1. An operation method of a mobile air conditioner, wherein the mobile air conditioner comprises a first assembly and a second assembly, the first assembly comprises a moving device and a cooling assembly, the moving device is configured to drive the first assembly to move, at least the first assembly comprises a power supply device, the second assembly comprises a charging device, and the operation method comprises the following steps:

acquiring the residual capacity of a power supply device on the first component;

and determining the operating parameters and/or the power supply mode of the cooling component according to the residual capacity.

2. The operation method of a mobile air conditioner according to claim 1,

the cold supply assembly comprises a cold supply device and a fan, the cold supply device is configured to supply a cold source, and the fan is configured to drive air to exchange heat;

the operation parameters of the cooling component comprise power consumption parameters and/or fan rotating speed of the cooling device;

determining the operation parameters of the cooling component according to the residual capacity specifically comprises:

judging whether the residual electric quantity is smaller than an electric quantity threshold value;

judging that the residual electric quantity is smaller than the electric quantity threshold value, and reducing the power consumption parameter of the cooling device and/or the rotating speed of the fan;

and judging that the residual electric quantity is greater than or equal to the electric quantity threshold value, and keeping or improving the power consumption parameter of the cooling device and/or the rotating speed of the fan.

3. The operation method of a mobile air conditioner according to claim 2,

the cooling device comprises a compressor;

the power consumption parameter of the cooling device comprises compressor power;

the reducing the power consumption parameter of the cooling device specifically includes: reducing the compressor power;

the maintaining or improving the power consumption parameter of the cooling device specifically includes: maintaining or boosting the compressor power.

4. The operation method of a mobile air conditioner according to claim 2,

the cold supply device comprises a liquid pump, a cold accumulation device and a heat exchanger, wherein the liquid pump is used for circularly pumping a refrigerant in a pipeline to the heat exchanger through the cold accumulation device;

the power consumption parameters of the cooling device comprise the rotating speed of the liquid pump;

the reducing the power consumption parameter of the cooling device specifically includes: reducing the rotation speed of the liquid pump;

the maintaining or improving the power consumption parameter of the cooling device specifically includes: the liquid pump speed is maintained or increased.

5. The operation method of a mobile air conditioner according to any one of claims 1 to 4,

the operating parameters of the cooling assembly include a set temperature;

determining the operation parameters of the cooling component according to the residual capacity specifically comprises:

judging whether the residual electric quantity is smaller than an electric quantity threshold value;

judging that the residual electric quantity is smaller than the electric quantity threshold value, and increasing the set temperature;

and judging that the residual electric quantity is greater than or equal to the electric quantity threshold value, and reducing or keeping the set temperature.

6. The operation method of a mobile air conditioner according to any one of claims 1 to 4,

the first component also comprises an external power supply part;

the determining a power supply mode of the cooling component according to the remaining power specifically includes:

judging whether the residual electric quantity is smaller than an electric quantity threshold value;

judging that the residual electric quantity is smaller than the electric quantity threshold value, and determining that the power supply mode supplies power for the external power supply part;

and judging that the residual electric quantity is greater than or equal to the electric quantity threshold value, and determining the power supply mode to supply power to the power supply device.

7. The operation method of a mobile air conditioner according to claim 6,

after determining that the power supply mode supplies power to the power supply device, the method further includes:

acquiring the residual electric quantity of the power supply device again after a first time length;

and determining a power supply mode of the cooling component according to the acquired residual capacity.

8. The operation method of a mobile air conditioner according to claim 7,

determining a power supply mode of the cooling component according to the reacquired remaining power, specifically comprising:

determining a difference value between the residual electric quantity obtained in the previous and subsequent two times;

judging whether the difference value is smaller than an electric quantity consumption threshold value or not;

determining that the difference is smaller than the electric quantity consumption threshold value, and determining that the power supply mode supplies power to the power supply device;

and judging that the difference value is greater than or equal to the electric quantity consumption threshold value, determining that the power supply mode supplies power for the power supply device, and controlling the charging device to charge the power supply device.

9. The operation method of a mobile air conditioner according to any one of claims 1 to 4,

the second assembly also comprises the power supply device;

the operation method further comprises the following steps: controlling the first assembly to move towards the second assembly and be connected with the second assembly, so that the charging device charges the power supply device on the first assembly; or

The operation method further comprises the following steps: controlling the first assembly to move towards the second assembly and interchanging the power supply device on the first assembly and the power supply device on the second assembly.

10. An operation device of a mobile air conditioner, comprising:

a memory storing a computer program;

a processor implementing the steps of the method of operating a mobile air conditioner according to any one of claims 1-9 when executing the computer program.

11. A mobile air conditioner, comprising:

a memory and a processor, wherein the memory stores thereon a computer program operable on the processor, and the processor implements the steps of the method for operating a mobile air conditioner according to any one of claims 1 to 9 when executing the computer program.

12. The mobile air conditioner of claim 11, further comprising:

a first assembly comprising a moving device and a cooling assembly, the moving device configured to move the first assembly;

a second assembly including a charging device, and of the first and second assemblies, at least the first assembly includes a power supply device,

wherein the charging device is configured to charge the power supply device.

13. The mobile air conditioner according to claim 12,

the cooling assembly comprises a cooling device and a fan, wherein the cooling device is configured to supply a cooling source, and the fan is configured to drive air to exchange heat.

14. The mobile air conditioner of claim 13, wherein the cooling device comprises a compressor, a first heat exchanger, a second heat exchanger; or

The cold supply device comprises a liquid pump, a first cold accumulation device and a heat exchanger, and the second assembly comprises a compressor and a second cold accumulation device.

15. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method for operating a mobile air conditioner according to any one of claims 1 to 9.

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