CN110810999B - Air conditioning clothes and control method thereof - Google Patents

Abstract

The invention discloses an air-conditioning coat and a control method thereof, and belongs to the field of refrigeration equipment. The air-conditioning clothes comprise wearable equipment and a temperature control system; the control method comprises the following steps: acquiring the internal temperature and the internal humidity of the air-conditioning clothes; determining whether a regulation condition is satisfied based on the internal temperature and the internal humidity; the regulation and control conditions comprise that the internal temperature is in a temperature interval representing that a user feels moderate, and the internal humidity is in a humidity interval representing that the user feels high humidity; responding to the internal temperature and the internal humidity to determine that the regulation condition is met, and adjusting the running state of the air-conditioning clothes according to the regulation rule corresponding to the regulation condition; the regulation and control rules comprise that the air conditioning clothes are controlled to operate in a refrigeration mode, the solution humidity control device is controlled to operate in a dehumidification mode corresponding to a humidity interval, the compressor and the circulating water pump operate according to set parameters, the first outer fan operates in a high wind level, and the second outer fan stops operating. The control method provided by the invention realizes intelligent, efficient and energy-saving operation of the air-conditioning clothes.

Description

Air conditioning clothes and control method thereof

Technical Field

The invention relates to the field of refrigeration equipment, in particular to an air-conditioning clothes and a control method thereof.

Background

In some special working occasions, such as high-altitude erection of a national power grid high-voltage line, army military battle, duty traffic police, army exercise, field investigation and the like, the working environment is severe, personnel often need to be tested by adverse environmental factors such as high-temperature hot or low-temperature freezing, and the like, and the physical health of the personnel is easily influenced if the personnel are in the severe working environment for a long time. Aiming at the special working occasions, products such as air conditioning clothes and the like are designed in the prior art to improve the working environment of personnel, and the air conditioning clothes are also called as heat (cold) proof clothes.

The existing air conditioning clothes mainly comprise a clothes body, a refrigeration module and a power supply module; the clothes body is filled with fluid which can perform circulating heat exchange with a refrigeration mode, the power supply module can provide power for the refrigeration module, and the refrigeration module can refrigerate or heat the fluid, so that the stability of the close-fitting temperature of a user is ensured in a very hot or cold working environment.

However, the existing air-conditioning clothes are started to operate according to fixed power or manually adjusted among a limited number of gears by a user, so that the actual working state of the air-conditioning clothes is often not matched with the current working environment and the physical state of the user, the optimal cooling/heating effect cannot be achieved, and extra power consumption is wasted.

Disclosure of Invention

The invention provides an air conditioning clothes and a control method thereof, aiming at solving the defect that the working state of the existing air conditioning clothes can not be adjusted or can only be adjusted manually by a user. The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview and is intended to neither identify key/critical elements nor delineate the scope of such embodiments. Its sole purpose is to present some concepts in a simplified form as a prelude to the more detailed description that is presented later.

According to a first aspect of the invention, a control method of an air-conditioning coat is provided, the air-conditioning coat comprises a wearable device and a temperature control system, wherein a pipeline for supplying water to flow and exchanging heat with a human body is arranged in the wearable device, and a circulating water pump for circulating water in the pipeline is arranged on the pipeline; the temperature control system is used for reducing or increasing the temperature of water in the pipeline, the temperature control system comprises an air conditioning module connected with the pipeline, the air conditioning module comprises a compressor, a first heat exchanger used for exchanging heat with the external environment, a throttling element and a second heat exchanger used for exchanging heat with the inside of the air conditioning clothes, and a first outer fan and a second outer fan used for radiating heat for the first heat exchanger are arranged at the first heat exchanger; the air-conditioning clothes also comprise a temperature sensor for detecting the internal temperature and a humidity sensor for detecting the internal humidity; the air conditioning clothes also comprise a solution humidifying device for adjusting the humidity inside the air conditioning clothes;

the air-conditioning coat is preset with at least six interval threshold values which are sequentially increased and used for corresponding temperature interval rules representing user feelings at least comprising cold, low cold, moderate, high heat, hot and extremely hot; at least four interval thresholds which are sequentially increased are preset and are respectively used for representing humidity interval rules which at least comprise dry, moderate, low-humidity and high-humidity user feelings;

the control method comprises the following steps:

acquiring the internal temperature and the internal humidity of the air-conditioning clothes;

determining whether a preset regulation condition is satisfied based on the internal temperature and the internal humidity; the preset regulation and control conditions comprise that the internal temperature is in a preset temperature interval for representing that a user feels moderate, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity;

responding to the internal temperature and the internal humidity, determining that a preset regulation condition is met, and adjusting the running state of the air-conditioning clothes according to a preset regulation rule corresponding to the preset regulation condition; the regulation and control rules comprise that the air-conditioning clothes are controlled to operate in a refrigeration mode, the solution humidity control device is controlled to operate in a dehumidification mode corresponding to a humidity interval, the compressor and the circulating water pump operate according to set parameters, the first outer fan operates in a high wind level, and the second outer fan stops operating.

In an optional embodiment, the control method further comprises:

acquiring the current working voltage in a control circuit of the air-conditioning clothes;

and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

In an optional embodiment, the control method further comprises:

acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted;

and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in the target humidity range.

In an alternative embodiment, the set parameter of the compressor comprises a set frequency, which is associated with a temperature interval in the preset regulation condition.

In an alternative embodiment, the setting parameter of the circulating water pump comprises a setting flow rate, and the setting flow rate is calculated according to the following formula:

q＝Q*K2，

wherein Q is set flow, and Q is rated flow of the circulating water pump; k2 is a flow rate series coefficient associated with the regulation condition, and its value is 1.15.

According to the second aspect of the invention, the air-conditioning clothes comprise wearable equipment and a temperature control system, wherein a pipeline for supplying water to flow and exchanging heat with a human body is arranged in the wearable equipment, and a circulating water pump for circulating the water in the pipeline is arranged on the pipeline; the temperature control system is used for reducing or increasing the temperature of water in the pipeline, the temperature control system comprises an air conditioning module connected with the pipeline, the air conditioning module comprises a compressor, a first heat exchanger used for exchanging heat with the external environment, a throttling element and a second heat exchanger used for exchanging heat with the inside of the air conditioning clothes, and a first outer fan and a second outer fan used for radiating heat for the first heat exchanger are arranged at the first heat exchanger; the air-conditioning clothes also comprise a temperature sensor for detecting the internal temperature and a humidity sensor for detecting the internal humidity; the air conditioning clothes also comprise a solution humidifying device for adjusting the humidity inside the air conditioning clothes;

the air-conditioning suit also comprises a controller, wherein the controller is preset with temperature interval rules which are sequentially increased by at least six interval thresholds and used for corresponding representations of user feelings including at least cold, low cold, moderate, high heat, hot and extremely hot; at least four interval thresholds which are sequentially increased and used for representing humidity interval rules at least comprising dry, moderate, low-humidity and high-humidity user feelings are preset;

the controller is configured to:

acquiring the internal temperature and the internal humidity of the air conditioning clothes;

determining whether a preset regulation condition is satisfied based on the internal temperature and the internal humidity; the preset regulation and control conditions comprise that the internal temperature is in a preset temperature interval for representing that a user feels moderate, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity;

responding to the internal temperature and the internal humidity, determining that a preset regulation condition is met, and adjusting the running state of the air-conditioning clothes according to a preset regulation rule corresponding to the preset regulation condition; the regulation and control rules comprise that the air-conditioning clothes are controlled to operate in a refrigeration mode, the solution humidity control device is controlled to operate in a dehumidification mode corresponding to a humidity interval, the compressor and the circulating water pump operate according to set parameters, the first outer fan operates in a high wind level, and the second outer fan stops operating.

In an alternative embodiment, the controller is further configured to:

acquiring the current working voltage in a control circuit of the air-conditioning clothes;

and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

In an alternative embodiment, the controller is further configured to:

acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted;

and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in the target humidity range.

In an alternative embodiment, the set parameter of the compressor comprises a set frequency, which is associated with a temperature interval in the preset regulation condition.

In an alternative embodiment, the setting parameter of the circulating water pump comprises a set flow rate, and the controller calculates the set flow rate according to the following formula:

q＝Q*K2，

wherein Q is set flow, and Q is rated flow of the circulating water pump; k2 is a flow rate series coefficient associated with the regulation condition, and its value is 1.15.

According to the control method of the air conditioning clothes, the operation of relevant parts of the air conditioning clothes can be controlled to be automatically adjusted according to corresponding regulation and control rules when the regulation and control conditions of moderate temperature and dry humidity are met according to the detected internal temperature and internal humidity of the air conditioning clothes, so that the air conditioning clothes can reach the working state matched with the current temperature and humidity, the control accuracy of the air conditioning clothes is greatly improved, and the intelligent, efficient and energy-saving operation of the air conditioning clothes is realized.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed.

Drawings

FIG. 1 is a first schematic view of an air conditioning garment of the present invention according to an exemplary embodiment;

FIG. 2 is a schematic structural diagram of an air conditioning garment of the present invention shown in accordance with an exemplary embodiment;

FIG. 3 is a schematic structural diagram of a wearable device shown in accordance with an exemplary embodiment;

FIG. 4 is a schematic flow chart illustrating a method of controlling an air conditioning garment of the present invention according to an exemplary embodiment;

FIG. 5 is a schematic flow chart diagram illustrating a method of controlling an air conditioning garment of the present invention according to yet another exemplary embodiment;

FIG. 6 is a schematic flow chart diagram illustrating a method of controlling an air conditioning garment of the present invention according to yet another exemplary embodiment;

FIG. 7 is a schematic flow chart diagram illustrating a method of controlling an air conditioning garment of the present invention according to yet another exemplary embodiment;

FIG. 8 is a schematic flow chart diagram illustrating a method of controlling an air conditioning garment of the present invention according to yet another exemplary embodiment;

fig. 9 is a flowchart illustrating a control method of an air conditioning garment according to another exemplary embodiment of the present invention;

fig. 10 is a flowchart illustrating a control method of an air-conditioning suit according to still another exemplary embodiment of the present invention.

Wherein, 1-wearable equipment, 2-temperature control system; 11-pipeline, 12-first solution membrane, 13-second solution membrane, 14-water pipe, 15-booster water pump, 16-heat transfer layer, 17-adsorption layer and 18-heat insulation layer; 21-air conditioning module, 22-power supply; 111-a water inlet, 112-a water outlet, 113-a first connecting pipe, 114-a second connecting pipe, 115-a circulating water pump, 116-a water tank and 117-a pressure release valve; 171-first output line, 172-second output line, 173-first switch, 174-second switch, 175-third switch; 211-compressor, 212-first heat exchanger, 213-throttling element, 214-second heat exchanger, 215-reversing valve; 1161-a water replenishing valve; 2111-exhaust port, 2112-intake port; 2121-a first external fan; 2122-a second external fan; 2141-a first air tube connector, 2142-a second air tube connector, 2143-a first water tube connector, 2144-a second water tube connector; 2151-first interface, 2152-second interface, 2153-third interface, 2154-fourth interface.

Detailed Description

The following description and the drawings sufficiently illustrate specific embodiments of the invention to enable those skilled in the art to practice them. Other embodiments may incorporate structural, logical, electrical, process, and other changes. The examples merely typify possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in or substituted for those of others. The scope of embodiments of the invention encompasses the full ambit of the claims, as well as all available equivalents of the claims. Embodiments may be referred to herein, individually or collectively, by the term "invention" merely for convenience and without intending to voluntarily limit the scope of this application to any single invention or inventive concept if more than one is in fact disclosed. Herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of additional identical elements in the process, method or apparatus comprising the element. The embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. As for the methods, products and the like disclosed by the embodiments, the description is simple because the methods correspond to the method parts disclosed by the embodiments, and the related parts can be referred to the method parts for description.

FIG. 1 is a first schematic view of an air conditioning garment of the present invention according to an exemplary embodiment; fig. 2 is a schematic structural diagram ii of the air-conditioning garment of the present invention according to an exemplary embodiment.

As shown in fig. 1 and 2, the invention provides an air-conditioning garment, which comprises a wearable device 1, wherein a pipeline 11 is arranged in the wearable device 1, the pipeline 11 is used for supplying water to flow and exchanging heat between water and a human body, the end part of the pipeline 11 is connected with a temperature control system 2, the temperature control system 2 comprises an air-conditioning module 21, and the air-conditioning module 21 is connected with a power supply 22.

The temperature control system 2 adjusts the sensible temperature of the user by lowering or raising the temperature of the water in the pipeline 11.

Optionally, the air conditioning module 21 includes a compressor 211, a first heat exchanger 212 for exchanging heat with an external environment, a throttling element 213, and a second heat exchanger 214 for exchanging heat with the inside of the air conditioning clothes, wherein the compressor 211 is provided with an air outlet 2111 and an air inlet 2112, and the air outlet 2111, the first heat exchanger 212, the throttling element 213, the second heat exchanger 214, and the air inlet 2112 are connected in sequence.

During refrigeration, high-pressure steam discharged from the compressor 211 enters the first heat exchanger 212 through the exhaust port 2111, the refrigerant steam is condensed into liquid, enters the second heat exchanger 214 through the throttling element 213, absorbs heat of water in the pipeline 11 in the second heat exchanger 214, cools the water, and the evaporated refrigerant steam is sucked by the compressor 211 through the exhaust port 2112 in a circulating manner, so that a refrigeration cycle is realized.

Optionally, the air conditioning module 21 further includes a reversing valve 215, the reversing valve 215 is provided with a first interface 2151, a second interface 2152, a third interface 2153, and a fourth interface 2154, the first interface 2151 is connected to the exhaust port 2111, the second interface 2152 is connected to the suction port 2112, the third interface 2153 is connected to the first heat exchanger 212, and the fourth interface 2154 is connected to the second heat exchanger 214.

The reversing valve 215 allows the air conditioning module 21 to both cool and heat. During refrigeration, high-pressure steam discharged by the compressor 211 enters the first heat exchanger 212 through the reversing valve 215, the refrigerant steam is condensed into liquid, enters the second heat exchanger 214 through the throttling element 213, absorbs heat of water in the pipeline 11 in the second heat exchanger 214, cools the water, and the evaporated refrigerant steam is sucked by the compressor 211 after passing through the reversing valve 215, and the refrigeration cycle is repeated.

During heating, high-pressure steam discharged by the compressor 211 enters the second heat exchanger 214 through the reversing valve 215, latent heat released during condensation of refrigerant steam heats water in the pipeline 11, condensed liquid refrigerant flows through the throttling element 213 and then enters the first heat exchanger 212 to absorb external heat for evaporation, and evaporated steam is sucked by the compressor 211 after passing through the reversing valve 215 to complete a heating cycle.

Optionally, a first air pipe connector 2141, a second air pipe connector 2142, a first water pipe connector 2143, and a second water pipe connector 2144 are arranged on the second heat exchanger 214, the first air pipe connector 2141 is connected with the fourth connector 2154, and the second air pipe connector 2142 is connected with the throttling element 213; one end of the pipeline 11 is provided with a water inlet 111, the other end is provided with a water outlet 112, the water outlet 112 is connected with the first water pipe connector 2143 through a first connecting pipe 113, and the water inlet 111 is connected with the second water pipe connector 2144 through a second connecting pipe 114.

The water in the pipeline 11 flows out from the water outlet 112, flows into the second heat exchanger 214 through the first connecting pipe 113 to be cooled or heated, and flows out from the second water pipe connector 2144 through the second connecting pipe 114, and flows into the wearable device 1 from the water inlet 111, so that the body sensing temperature of the user is adjusted.

Fig. 3 is a schematic structural diagram of a wearable device according to an example embodiment.

As shown in fig. 3, optionally, the wearable device 1 comprises an inner layer and an outer layer, the tubing 11 being arranged between the inner layer and the outer layer, the inner layer comprising the first solution membrane 12. The first solution film 12 can absorb moisture on the surface of a human body to realize dehumidification; or moisture is discharged to the surface of the human body, so that humidification is realized.

Optionally, a second solution membrane 13 is arranged outside the first heat exchanger 212, the first solution membrane 12 is connected with the second solution membrane 13 through a water pipe 14, and a booster water pump 15 is arranged on the water pipe.

Here, the first solution membrane 12, the second solution membrane 13, the water pipe 14, and the booster water pump 15 together constitute a solution humidity control apparatus.

The solution humidity adjusting device further comprises a voltage adjusting module electrically connected with the power supply 22, and the voltage adjusting module can be used for supplying power to the first solution film 12 and the second solution film 13 so as to realize ionization work of the solution films; meanwhile, the voltage regulating module can also regulate the voltage for supplying power to the first solution membrane 12 and the second solution membrane 13, so that the purpose of regulating the ionization efficiency is achieved, and the dehumidification/humidification efficiency of the solution humidity regulating device can be further controlled.

In summer, when the human body surface needs to be dehumidified by refrigeration, after the first solution film 12 absorbs moisture on the human body surface, the absorbed water flows into the water pipe 14, flows into the second solution film 13 through the booster pump 15, is reduced by the second solution film 13, and is discharged.

When the human body surface needs to be humidified during heating in winter, the second solution film 13 absorbs moisture in the air, and the absorbed water flows into the water pipe 14 and flows into the first solution film 12 through the booster water pump 15, so that the human body surface is humidified.

Optionally, the inner layer further comprises a heat transfer layer 16, the heat transfer layer 16 is arranged on the outer side of the first solution film 12, and the fabric of the heat transfer layer 16 contains silver ions, so that the heat transfer effect of the heat transfer layer 16 can be enhanced, and the rapid heat exchange between the pipeline 11 and the surface of the human body is facilitated.

Optionally, the outer layer comprises an adsorption layer 17, and the outer surface of the adsorption layer 17 is coated with the solar power generation panel. The solar panel can convert light energy into electric energy to supply power to the air conditioning module 21.

Optionally, the outer layer further comprises a heat insulation layer 18, the heat insulation layer 18 is arranged on the inner side of the adsorption layer 17, and the fabric of the heat insulation layer 18 contains aramid fiber. The heat insulation layer 18 can prevent heat exchange between the external environment and the pipeline 11, and improve the utilization rate of heat in the pipeline 11.

Alternatively, the power source 22 is a lithium battery, and the solar panel is connected to the lithium battery through the first output line 171 for charging the lithium battery. The solar power generation panel is connected to the air conditioning module 21 through a second output line 172, and is configured to supply power to the air conditioning module 21. A first switch 173 is arranged on a circuit connecting the lithium battery and the solar power generation panel, a second switch 174 is arranged on a circuit connecting the lithium battery and the air conditioning module 21, and a third switch 175 is arranged on a circuit connecting the solar power generation panel and the air conditioning module 21. The first switch 173, the second switch 174, and the third switch 175 are respectively used to control the on/off of the circuit.

When the generated voltage of the solar panel enables the air conditioning module 21 to normally operate, the air conditioning module 21 is powered by the solar panel, the second switch 174 is closed, and the first switch 173 and the third switch 175 are opened. When the generated voltage of the solar panel cannot enable the air conditioning module 21 to normally operate, the power is supplied by the lithium battery, the second switch 174 is closed, and the first switch 173 and the third switch 175 are opened. The solar panel may also charge a lithium battery, and the first switch 173 is closed when charging the lithium battery.

Optionally, a circulating water pump 115 is disposed on the first connecting pipe 113 or the second connecting pipe 114, and the circulating water pump 115 circulates the water in the pipeline 11 repeatedly, so as to better realize the adjustment of the sensible temperature of the user.

Optionally, a water tank 116 is further disposed on the first connecting pipe 113 or the second connecting pipe 114, and a water replenishing valve 1161 is disposed on a top of the water tank 116. The water tank 116 can prevent the circulating water pump 115 from sucking, and the water in the water tank 116 can be replenished through the water replenishing valve 1161.

Optionally, a pressure release valve 117 is further disposed on the first connecting pipe 113 or the second connecting pipe 114, when the pressure in the pipeline 11 is greater than a set value, the pressure release valve 117 is opened to release the pressure, an altitude at the top of the pressure release valve 117 is higher than an altitude at the top of the water tank 116, only the pressure is released, and water outflow during pressure release is avoided.

Optionally, a first outer fan 2121 and a second outer fan 2122 are arranged outside the first heat exchanger 212, and axial air outlet sides of the first outer fan 2121 and the second outer fan 2122 are arranged toward the first heat exchanger 212 to cool the first heat exchanger 212.

In this embodiment, the rotation speeds of the first external fan 2121 and the second external fan 2122 are controlled by adjusting a set gear, specifically, the set gear of the first external fan 2121 and the second external fan 22 includes a high gear, a medium gear, and a low gear. The specific rotating speed range of each set gear can be adjusted and determined according to the type of the air-conditioning clothes and the air supply requirement, and the invention is not limited to this.

Alternatively, the throttling element 213 is a capillary tube, an electronic expansion valve, or a thermal expansion valve.

Fig. 4 is a flowchart illustrating a control method of an air-conditioning suit according to an exemplary embodiment of the present invention.

As shown in fig. 4, the present invention further provides a flow diagram of a control method of an air conditioning garment, and the specific control flow includes:

s401, obtaining running state parameters of the air-conditioning clothes;

operating condition parameters in this embodiment include, but are not limited to, internal temperature and internal humidity; here, the internal temperature is a temperature of the accommodating space of the body of the user formed inside the wearable device of the air-conditioning suit, and the internal humidity is a humidity of the accommodating space of the body of the user formed inside the wearable device of the air-conditioning suit.

Here, the air-conditioning suit is further provided with a temperature sensor which can be used to detect the temperature of an accommodating space of the body of the user formed inside the wearable device of the air-conditioning suit to take the detected temperature as internal temperature data; and the air-conditioning clothes are also provided with a humidity sensor which can be used for detecting the humidity of the accommodating space of the body of the user formed inside the wearable equipment of the air-conditioning clothes so as to take the detected humidity as internal humidity data.

S402, determining whether preset regulation conditions are met or not based on the running state parameters;

in this embodiment, step S402 is to determine whether a preset regulation condition is satisfied based on the internal temperature and the internal humidity;

the air-conditioning suit is preset with at least six interval threshold values which are sequentially increased and are used for corresponding temperature interval rules representing user feelings including at least cold, low cold, moderate, high heat, hot and extremely hot; at least four interval thresholds which are sequentially increased are preset and are respectively used for representing humidity interval rules which at least comprise dry, moderate, low-humidity and high-humidity user feelings;

the regulation condition comprises a temperature interval and an interval combination consisting of one or more humidity intervals; or one humidity interval combined with one or more temperature intervals.

In an alternative embodiment, the at least six temperature ranges include a temperature of Tin less than or equal to 16 ℃, a temperature of Tin less than or equal to 22 ℃, a temperature of 22 ℃ less than or equal to 29 ℃, a temperature of 29 ℃ less than or equal to 32 ℃, a temperature of 32 ℃ less than or equal to 43 ℃ and a temperature of T greater than 43 ℃, respectively for corresponding user experiences with characterizations at least including cold, low cold, moderate, high heat, hot and extreme heat; where Tin refers to the internal temperature.

The at least four humidity ranges comprise RH less than or equal to 45%, RH less than or equal to 60% and RH more than 85%, and are respectively used for corresponding user combinations for characterizing dryness, moderation, low humidity and high humidity; wherein RH refers to internal humidity.

Alternatively, the plurality of temperature intervals and the plurality of humidity intervals may constitute 4 sets of interval combinations of the regulation conditions as shown in table 1.

TABLE 1

Based on table 1, the section combination to which the operating state parameter belongs may be determined by the operating state parameter obtained in step S401, and the operating state of the air conditioner is adjusted according to the regulation rule corresponding to the section combination.

Here, the air-conditioning suit may only preset one regulation condition, which is a set of temperature intervals and humidity intervals; in step S402, the air conditioner garment may match the regulation condition according to the operation state parameter, and if the matching is successful, the operation state parameter satisfies the regulation condition, and step S403 may be continuously performed; if the matching is unsuccessful, the operation state parameters do not meet the regulation and control conditions, and the control process is finished.

Or, the air conditioner may also preset a plurality of regulation conditions, each regulation condition being a combination of a set of temperature intervals and humidity intervals; in step S402, the air conditioner clothes may be respectively matched with a plurality of control conditions according to the operation state parameters, and step S403 is continuously performed according to a matching result that the matching is successful.

403. Responding to the condition that the operating state parameter meets the preset regulation condition, and adjusting the operating state of the air-conditioning clothes according to the preset regulation rule corresponding to the preset regulation condition;

here, the preset regulation and control rules include, but are not limited to, a heat exchange mode of the air conditioning coat, a frequency regulation rule of the compressor, a flow regulation rule of the circulating water pump, start and stop of the solution humidity control device, and start and stop wind gears of the two outer fans (the first outer fan and the second outer fan).

Specifically, the frequency adjustment rule for an alternative compressor is shown in table 2:

temperature interval	Setting frequency
		Tin≤16℃	50Hz
16℃<Tin≤22℃	30Hz
		22℃<Tin≤29℃	10Hz
29℃<Tin≤32℃	20Hz
		32℃<Tin≤43℃	50Hz
Tin＞43℃	0.5 fmax, fmax being the maximum refrigeration frequency

TABLE 2

Based on table 2, the setting frequency corresponding to the temperature interval of the regulation condition can be determined in a table look-up manner to be matched with the current external environment working condition, so that the requirement of the user on the comfort of the temperature is ensured.

An alternative flow regulation rule for circulating water pumps is shown in table 3:

TABLE 3

In table 3, the rated flow rate of the circulating water pump is 0.8, and 0.52, 0.96, 1.15, 1.23, and 1.76 are flow rate ratio coefficients associated with different temperature ranges; after the operating state parameters are determined to meet the preset regulation and control conditions, the flow ratio coefficient corresponding to the temperature interval of the regulation and control conditions can be determined in a table look-up mode, and then the target circulating water pump flow is calculated. And adjusting the flow of the circulating water pump from the initially set parameter to the calculated target circulating water pump flow so as to be matched with the current external environment working condition, and ensuring the comfort requirement of the user on the temperature.

Hereinafter, a detailed description will be given of a specific control process of the control method of the air conditioning clothes according to the present invention with reference to some specific embodiments.

FIG. 5 is a schematic flow chart diagram illustrating a method of controlling an air conditioning garment of the present invention according to yet another exemplary embodiment;

as shown in fig. 5, the present invention provides another control method of an air conditioning clothes, the control process mainly includes:

s501, acquiring the internal temperature and the internal humidity of the air-conditioning clothes;

in this embodiment, the step S401 in the foregoing embodiment can be referred to for the manner of acquiring the internal temperature and the internal humidity, which is not described herein again.

S502, judging whether the internal temperature is in a preset temperature interval for representing that the user feels cold, and if so, executing a step S503; if not, the process is ended;

in the embodiment, the preset temperature interval for representing that the user feels cold is Tin less than or equal to 16 ℃;

in this way, when the detected internal temperature is a temperature value of 0 ℃, 7 ℃, 15 ℃ or the like, and the internal temperature is not greater than the interval threshold 16 ℃ representing the temperature interval in which the user feels cold, it is determined that the internal temperature is in the preset temperature interval in which the user feels cold, and the step S503 is continuously performed; and when the detected internal temperature is 18 ℃, 22 ℃, 30 ℃ and other temperature values, and the internal temperature is more than the interval threshold value 16 ℃ representing the temperature interval in which the user feels cold, judging that the external temperature environment is not in the preset temperature interval for representing the temperature interval in which the user feels cold, and ending the process.

S503, judging whether the internal humidity is in a preset humidity interval for representing that the user feels high humidity, if so, executing a step S504; if not, the process is ended;

in the embodiment, the preset humidity interval for representing that the user feels high humidity is 85% < RH;

in this way, when the detected internal humidity is a humidity value such as 15%, 32%, 45%, etc., it is determined that the internal humidity is in a preset humidity interval for representing that the user feels high humidity, and the step S504 is continuously performed; when the detected internal humidity is a humidity value such as 50%, 59%, 81%, etc., it is determined that the internal humidity is not in a preset humidity interval for representing that the user feels high humidity, and the process ends.

Here, the preset regulation condition includes that the internal temperature is in a preset temperature interval for representing that the user feels cold in step S502, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity in step S503;

s504, responding to the internal temperature and the internal humidity, determining that a preset regulation condition is met, and adjusting the running state of the air-conditioning clothes according to a preset regulation rule corresponding to the preset regulation condition;

when the internal temperature is in a preset temperature interval for representing that a user feels cold and the internal humidity is in a preset humidity interval for representing that the user feels high humidity, the regulation and control rules comprise the steps of controlling the air-conditioning clothes to operate in a heating mode, operating the compressor and the circulating water pump according to set parameters, controlling the solution humidity control device to operate in a dehumidification mode corresponding to the humidity interval, operating the first outer fan at a low wind level and stopping the second outer fan.

In this embodiment, the temperature range where a human body feels comfortable is 22 ℃ < Tin ≦ 26 ℃, and when the internal temperature of the air-conditioning suit is in the cold temperature range, the air-conditioning suit is controlled to operate in the heating mode, so as to increase the internal temperature of the air-conditioning suit and ensure the comfort of the user.

Specifically, the setting parameters of the compressor include a setting frequency, and the setting frequency is associated with a temperature interval in a preset regulation condition; specifically, when the internal temperature of the air-conditioning clothes is in the cold temperature range, the table lookup may result in f being 50 Hz.

In an optional embodiment, the control method of the present application further includes: after the running state of the air-conditioning clothes is adjusted according to a preset adjusting rule corresponding to a preset adjusting condition, the current internal humidity of the air-conditioning clothes is obtained, and if the current internal humidity is not in a target temperature interval, a compressor is controlled to adjust at a set frequency modulation rate until the current internal humidity is in the target temperature interval; and if the current internal humidity is in the target temperature interval, maintaining the current working frequency of the compressor unchanged.

In this embodiment, the target temperature range is a preset temperature range comfortable for the user, and optionally, the target temperature range is 22 ℃ < Tin ≦ 26 ℃.

In the present embodiment, the set frequency modulation rate is associated with the temperature interval in step S502; optionally, when the temperature interval is a preset temperature interval for representing that the user feels cold, the set frequency modulation rate is 1 Hz/min. Here, the regulation rule in step S504 is directly associated with the temperature interval, and therefore, when the internal temperature of the air-conditioning clothes adjusted by the regulation rule still does not meet the requirement of the target temperature, the operating frequency of the compressor is adjusted at the frequency modulation rate associated with the temperature interval, so that the adjustment of the compressor can be adapted to the current temperature working condition, and the efficiency of the temperature adjustment is improved.

In this embodiment, if the current internal humidity is not within the target temperature range, the compressor is controlled to perform frequency-up adjustment at a set frequency-modulation rate, and the working frequency of the compressor is increased, so that the heat exchange efficiency of the air-conditioning module can be further improved, and the internal temperature of the air-conditioning clothes can reach the target temperature range as soon as possible.

The set parameters of the circulating water pump comprise set flow, and the set flow is calculated according to the following formula: q is Q is K2, wherein Q is the set flow rate, and Q is the rated flow rate of the circulating water pump; k2 is a flow rate ratio coefficient associated with the regulation condition, which takes a value of 0.52.

In the present embodiment, when the rated flow rate of the circulating water pump is 0.8L/min, the set flow rate q is 0.8 × 0.52 — 0.416L/min calculated according to the above formula.

In the embodiment, because the optimal humidity range of the human body is 45% -60%, the interior of the air conditioning clothes needs to be dehumidified under the current working condition; therefore, when the internal humidity of the air-conditioning clothes is in a high-humidity range, the solution humidity control device is controlled to operate at the working voltage of the dehumidification mode corresponding to the humidity range; in this embodiment, the operation voltage U of the dehumidification mode corresponding to the high-humidity region is 36V, that is, the operation voltages applied to the first solution film and the second solution film are both 12V.

The control method of the air conditioning clothes further comprises the following steps: acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted; and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in the target humidity range.

Specifically, after the air-conditioning clothes operate for t time at the working voltage U of the dehumidification mode corresponding to the humidity interval, the internal humidity of the air-conditioning clothes is detected again, and whether the internal humidity is in the target humidity interval or not is judged, in the embodiment, the target humidity interval is used for representing the humidity interval in which a user feels moderate, namely RH is more than 45% and less than or equal to 60%;

if the detected internal humidity is in the target humidity interval after t time, maintaining the current working voltage unchanged; if the detected internal humidity is not in the target humidity interval after t time, adjusting the working voltage of the solution humidity adjusting device to be U + n × Δ U, wherein the upper adjustment limit of the working voltage is the highest working voltage of the solution humidity adjusting device; and maintaining the time length of the current working voltage operation t + n × Δ t, and repeating the detection, judgment and adjustment processes until the internal humidity is in the target humidity interval. The voltage increasing process can enable the dehumidification capacity of the solution humidity control device to be matched with the internal humidity condition of the air conditioning clothes, and the dehumidification capacity of the solution humidity control device can be improved by increasing the working voltage, so that the internal humidity of the air conditioning clothes can be reduced from a high-humidity interval to a target humidity interval as soon as possible, and the requirement of a user of the air conditioning clothes on comfort is met.

In this embodiment, the first solution film and the second solution film are synchronized to adjust the operating voltage.

Here, n is the order of operating voltage adjustment performed according to the flow after the solution humidity control apparatus is started at the operating voltage U and the internal humidity is first detected not to be in the target humidity range, and n is 1,2, … …, n.

Δ U is a reference variable value for adjusting the operating voltage, and in the present embodiment, Δ U is 12V.

In this embodiment, t is set to a value within a range of 3-5 min.

In this embodiment, Δ t and the humidity interval have a positive correlation, that is, the higher the humidity interval in which the internal humidity is located, the more the time length value of Δ t is; therefore, under the condition that the internal humidity is higher, in the process of a target humidity interval to which the internal humidity is adjusted, the time interval between two adjacent pressure adjusting is longer, the adjusting process of the internal humidity can be more stable, the stability of the solution humidity adjusting device in the voltage switching process can be ensured, and the damage to the solution humidity adjusting device caused by frequent voltage switching is avoided.

Optionally, the value range of Δ t is 30-90 s.

Here, the voltage value applied to the first solution film by the solution humidity control apparatus and the dehumidification amount thereof should satisfy the following relationship:

q2 ═ 0.25 × U2-2, where Q2 is the dehumidification amount of the first solution film, and U3 is the voltage value applied to the first solution film.

The voltage value applied to the second solution film by the solution humidity adjusting device and the moisture discharge amount thereof satisfy the following relation:

q3 ═ 0.35 × U3+2, where Q3 is the moisture content of the second solution film, and U3 is the voltage value applied to the second solution film.

The flow rate of the booster water pump is calculated according to the following formula:

q2 ═ K2 r, where q2 is the flow rate of the booster water pump; r is the rotating speed of the booster water pump, and the value range of r is 100-1000 rpm; k2 is the ratio coefficient of the associated booster water pump.

In this embodiment, first outer fan is with the operation of low-wind-level, the outer fan shutdown of second, can satisfy the amount of wind requirement that first heat exchanger and outdoor environment carry out the heat transfer, has also reduced the whole energy consumption of outer fan operation simultaneously, and is energy-concerving and environment-protective.

In an optional embodiment, the control method further comprises: acquiring the current working voltage in a control circuit of the air-conditioning clothes; and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

Here, the power supply mode of the air-conditioning clothes of the present invention includes a battery power supply mode and a standby power supply mode of the air-conditioning clothes; the power supply arranged on the air-conditioning clothes comprises a solar power generation panel and a lithium battery, wherein the solar power generation panel is arranged on the wearable equipment and is used for supplying power to all power-requiring components of the air-conditioning clothes in an electric power supply mode of the air-conditioning clothes, and the lithium battery is used for supplying power to all power-requiring components of the air-conditioning clothes in a standby power supply mode. The default power supply of the air-conditioning clothes is the solar power generation panel, and the default power supply mode is the power supply mode of the air-conditioning clothes; the air conditioning clothes can be ensured to continuously work for a long time by arranging the two groups of power supplies so as to meet the operation requirements of users.

Optionally, the preset voltage condition is that the working voltage is not lower than a set voltage value; if the current working voltage is lower than the set voltage value, judging that the current working voltage does not meet the preset voltage condition; and if the current working voltage is not lower than the set voltage value, judging that the current working voltage meets the preset voltage condition, and supplying power to related components by the air-conditioning clothes in a battery power supply mode of the air-conditioning clothes.

The electric quantity stored in the battery of the air-conditioning clothes is a limited electric quantity value, the actual working voltage in the control circuit of the air-conditioning clothes is in a gradually-reduced state along with the prolonging of the service time of the air-conditioning clothes, when the bottom of the working mat is lower than a set voltage value, the working efficiency of the electricity-requiring components is reduced, such as the running frequency of a compressor is reduced, and the like, so that the refrigerating/heating efficiency of the air-conditioning clothes is easily influenced.

Specifically, for the air-conditioning clothes shown in the foregoing embodiments, the specific process of controlling the switching from the power supply mode of the air-conditioning clothes to the standby power supply mode includes: and controlling the first switch and the second switch to be closed and controlling the second switch to be opened.

FIG. 6 is a schematic flow chart diagram illustrating a method of controlling an air conditioning garment of the present invention according to yet another exemplary embodiment;

as shown in fig. 6, the present invention provides another control method of an air conditioning clothes, the control process mainly includes:

s601, acquiring the internal temperature and the internal humidity of the air conditioning clothes;

in this embodiment, the manner of obtaining the internal temperature and the internal humidity may refer to step S401 in the foregoing embodiment, which is not described herein again.

S602, judging whether the internal temperature is in a preset temperature interval for representing that a user feels cold, and if so, executing a step S603; if not, the process is ended;

in the embodiment, the preset temperature interval for representing the feeling of low coldness of the user is 16 ℃ < Tin ≦ 22 ℃;

the specific process of determining whether the internal temperature is in the preset temperature interval for representing that the user feels cold may refer to the foregoing embodiments, which are not described herein again.

S603, judging whether the internal humidity is in a preset humidity interval for representing that the user feels high humidity, and if so, executing a step S604; if not, the process is ended;

in the embodiment, the preset humidity interval for representing that the user feels high humidity is 85% < RH;

the specific process of determining whether the internal humidity is in the preset humidity interval for representing that the user feels high humidity may refer to the foregoing embodiments, which are not described herein again.

Here, the preset regulation condition includes that the internal temperature is in a preset temperature interval for representing that the user feels low cold in step S602, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity in step S603;

s604, responding to the internal temperature and the internal humidity, determining that a preset regulation condition is met, and adjusting the running state of the air-conditioning clothes according to a preset regulation rule corresponding to the preset regulation condition;

here, when the internal temperature is in a preset temperature interval for representing that the user feels low cold and the internal humidity is in a preset humidity interval for representing that the user feels high humidity, the regulation and control rule includes controlling the air conditioning clothes to operate in a heating mode, controlling the compressor and the circulating water pump to operate according to set parameters, controlling the solution humidity conditioning device to operate at an operating voltage of a dehumidification mode corresponding to the humidity interval, and controlling the first outer fan to operate at a medium wind gear and the second outer fan to stop operating.

In this embodiment, the temperature range where a human body feels comfortable is 22 ℃ < Tin ≦ 26 ℃, and when the internal temperature of the air-conditioning clothes is in the low-cold temperature range, the air-conditioning clothes is controlled to operate in the heating mode, so as to increase the internal temperature of the air-conditioning clothes and ensure the comfort of the user.

Specifically, the set parameters of the compressor include a set frequency, and the set frequency is associated with a temperature interval in a preset regulation condition; specifically, when the internal temperature of the air-conditioning clothes is in the low-cooling temperature range, the table lookup can be used for obtaining that f is 30 Hz.

In an optional embodiment, the control method of the present application further includes: after the running state of the air-conditioning clothes is adjusted according to a preset adjusting and controlling rule corresponding to a preset adjusting and controlling condition, the current internal humidity of the air-conditioning clothes is obtained, and if the current internal humidity is not in a target temperature interval, a compressor is controlled to adjust at a set frequency modulation rate until the current internal humidity is in the target temperature interval; and if the current internal humidity is in the target temperature interval, maintaining the current working frequency of the compressor unchanged.

In this embodiment, the target temperature range is a preset temperature range comfortable for the user, and optionally, the target temperature range is 22 ℃ < Tin ≦ 26 ℃.

In this embodiment, the set frequency modulation rate is associated with the temperature interval in step S502; optionally, when the temperature interval is a preset temperature interval for representing that the user feels cold, the set frequency modulation rate is 0.5 Hz/min. Here, the regulation rule in step S504 is directly associated with the temperature interval, so when the internal temperature of the air-conditioning clothes adjusted by the regulation rule still does not meet the requirement of the target temperature, the operating frequency of the compressor is adjusted at the frequency modulation rate associated with the temperature interval, the adjustment of the compressor can be adapted to the current temperature working condition, and the efficiency of temperature adjustment is improved.

In this embodiment, if the current internal humidity is not within the target temperature range, the compressor is controlled to perform frequency-up adjustment at a set frequency-modulation rate, and the working frequency of the compressor is increased, so that the heat exchange efficiency of the air-conditioning module can be further improved, and the internal temperature of the air-conditioning clothes can reach the target temperature range as soon as possible.

The set parameters of the circulating water pump comprise set flow, and the set flow is calculated according to the following formula: q is Q K2, wherein Q is the set flow rate, and Q is the rated flow rate of the circulating water pump; k2 is a flow rate sequence coefficient associated with the regulation condition, and its value is 0.96.

In the present embodiment, when the rated flow rate of the circulating water pump is 0.8L/min, the set flow rate q is 0.8 × 0.96 — 0.768L/min calculated according to the above formula.

In the embodiment, because the optimal humidity range of the human body is 45% -60%, the interior of the air conditioning clothes needs to be dehumidified under the current working condition; therefore, when the internal humidity of the air-conditioning clothes is in a high-humidity range, the solution humidity control device is controlled to operate at the working voltage of the dehumidification mode corresponding to the humidity range; in this embodiment, the operation voltage U of the dehumidification mode corresponding to the high-humidity region is 36V, that is, the operation voltages applied to the first solution film and the second solution film are both 12V.

The control method of the air conditioning clothes further comprises the following steps: acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted; and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in the target humidity range.

Specifically, after the air-conditioning clothes operate for t time at the working voltage U of the dehumidification mode corresponding to the humidity interval, the internal humidity of the air-conditioning clothes is detected again, and whether the internal humidity is in the target humidity interval or not is judged, in the embodiment, the target humidity interval is used for representing the humidity interval in which a user feels moderate, namely RH is more than 45% and less than or equal to 60%;

if the detected internal humidity is in the target humidity interval after t time, maintaining the current working voltage unchanged; if the detected internal humidity is not in the target humidity interval after t time, adjusting the working voltage of the solution humidity adjusting device to be U + n × Δ U, wherein the upper adjustment limit of the working voltage is the highest working voltage of the solution humidity adjusting device; and maintaining the time length of the current working voltage operation t + n × Δ t, and repeating the detection, judgment and adjustment processes until the internal humidity is in the target humidity interval. The voltage increasing process can enable the dehumidification capacity of the solution humidity control device to be matched with the internal humidity condition of the air conditioning clothes, and the dehumidification capacity of the solution humidity control device can be improved by increasing the working voltage, so that the internal humidity of the air conditioning clothes can be reduced from a high-humidity interval to a target humidity interval as soon as possible, and the requirement of a user of the air conditioning clothes on comfort is met.

In this embodiment, the first solution film and the second solution film are synchronously adjusted in operating voltage.

Here, n is the order of operating voltage adjustment performed according to the above flow after the solution humidity control apparatus is started at the operating voltage U and the internal humidity is first detected not to be in the target humidity range, and n is 1,2, … …, n.

Δ U is a reference variable value for adjusting the operating voltage, and in the present embodiment, Δ U is 12V.

In this embodiment, t is set to a value within a range of 3-5 min.

In this embodiment, Δ t and the humidity interval have a positive correlation, that is, the higher the humidity interval in which the internal humidity is located, the more the time length value of Δ t is; like this, under the higher circumstances of inside humidity, at the target humidity interval's that will inside humidity adjustment arrives in-process, adjacent two pressure regulating time interval is longer, can make the adjustment process of inside humidity more steady, also can guarantee the stability of solution humidity control device's voltage switching in-process, avoids frequently switching the harm that voltage caused solution humidity control device.

Optionally, the value range of Δ t is 30-90 s.

Here, the voltage value applied to the first solution film by the solution humidity control apparatus and the dehumidification amount thereof should satisfy the following relationship:

q2 is 0.25 × U2-2, where Q2 is the amount of moisture removed from the first solution film, and U3 is the voltage applied to the first solution film.

The voltage value applied to the second solution film by the solution humidity adjusting device and the moisture discharge amount thereof satisfy the following relation:

q3 ═ 0.35 × U3+2, where Q3 is the moisture content of the second solution film and U3 is the voltage value applied to the second solution film.

The flow of the booster water pump is calculated according to the following formula:

q2 ═ K2 r, where q2 is the flow rate of the booster water pump; r is the rotating speed of the booster water pump, and the value range of r is 100-1000 rpm; k2 is the ratio coefficient of the associated booster water pump.

In this embodiment, first outer fan is with well stroke shelves operation, the outer fan of second stop operation, can satisfy the amount of wind requirement that first heat exchanger and outdoor environment carry out the heat transfer, has also reduced the whole energy consumption of outer fan operation simultaneously, and is energy-concerving and environment-protective.

In an optional embodiment, the control method further comprises: acquiring the current working voltage in a control circuit of the air-conditioning clothes; and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

For the air-conditioning clothes shown in the foregoing embodiments, the process of controlling the switching from the power supply mode of the air-conditioning clothes to the standby power supply mode includes: and controlling the first switch and the second switch to be closed and controlling the second switch to be opened.

For the specific power supply mode switching process, reference may be made to the previous embodiment, which is not described herein again.

FIG. 7 is a schematic flow chart diagram illustrating a method of controlling an air conditioning garment of the present invention according to yet another exemplary embodiment;

as shown in fig. 7, the present invention provides another control method of an air conditioning clothes, the control process mainly includes:

s701, obtaining the internal temperature and the internal humidity of the air conditioning clothes;

in this embodiment, the manner of obtaining the internal temperature and the internal humidity may refer to step S401 in the foregoing embodiment, which is not described herein again.

S702, judging whether the internal temperature is in a preset temperature interval for representing moderate feeling of a user, and if so, executing a step S703; if not, the process is ended;

in the embodiment, the preset temperature range for representing moderate feeling of the user is 22 ℃ to less than or equal to 29 ℃;

the specific process of determining whether the internal temperature is within the preset temperature range for representing that the user feels moderate may refer to the foregoing embodiments, which are not described herein again.

S703, judging whether the internal humidity is in a preset humidity interval for representing that the user feels high humidity, and if so, executing S704; if not, the process is ended;

in the embodiment, the preset humidity interval for representing that the user feels high humidity is 85% < RH;

the specific process of determining whether the internal humidity is in the preset humidity interval for representing that the user feels high humidity may refer to the foregoing embodiments, which are not described herein again.

Here, the preset regulation condition includes that the internal temperature is in a preset temperature interval for representing that the user feels moderate in step S702, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity in step S703;

s704, responding to the internal temperature and the internal humidity, determining that a preset regulation condition is met, and adjusting the running state of the air-conditioning clothes according to a preset regulation rule corresponding to the preset regulation condition;

when the internal temperature is in a preset temperature range for representing that a user feels moderate and the internal humidity is in a preset humidity range for representing that the user feels high humidity, the regulation and control rules comprise the steps of controlling the air-conditioning clothes to operate in a refrigeration mode, controlling the compressor and the circulating water pump to operate according to set parameters, controlling the solution humidity conditioning device to operate in a dehumidification mode working voltage corresponding to the humidity range, operating the first outer fan in a high wind level and operating the second outer fan in a medium wind level.

In this embodiment, the temperature range where the human body feels comfortable is 22 ℃ < Tin ≦ 26 ℃, and when the internal temperature of the air-conditioning suit is in the moderate temperature range, the human body continuously releases heat to the outside, so that the air-conditioning suit is controlled to operate in the cooling mode to maintain the internal temperature of the air-conditioning suit within the comfortable temperature range.

Specifically, the setting parameters of the compressor include a setting frequency, and the setting frequency is associated with a temperature interval in a preset regulation condition; specifically, when the internal temperature of the air conditioning clothes is in a table look-up for the moderate temperature interval, f may be 10 Hz.

In an optional embodiment, the control method of the present application further includes: after the running state of the air-conditioning clothes is adjusted according to a preset adjusting and controlling rule corresponding to a preset adjusting and controlling condition, the current internal humidity of the air-conditioning clothes is obtained, and if the current internal humidity is not in a target temperature interval, a compressor is controlled to adjust at a set frequency modulation rate until the current internal humidity is in the target temperature interval; and if the current internal humidity is in the target temperature interval, maintaining the current working frequency of the compressor unchanged.

In this embodiment, the target temperature range is a preset temperature range that a user feels comfortable, and optionally, the target temperature range is 22 ℃ and is greater than Tin and less than or equal to 26 ℃.

In this embodiment, the set frequency modulation rate is associated with the temperature interval in step S502; optionally, when the temperature interval is a preset temperature interval for representing that the user feels cold, the set frequency modulation rate is 0.5 Hz/min. Here, the regulation rule in step S504 is directly associated with the temperature interval, and therefore, when the internal temperature of the air-conditioning clothes adjusted by the regulation rule still does not meet the requirement of the target temperature, the operating frequency of the compressor is adjusted at the frequency modulation rate associated with the temperature interval, so that the adjustment of the compressor can be adapted to the current temperature working condition, and the efficiency of the temperature adjustment is improved.

In this embodiment, if the current internal humidity is not within the target temperature range, the compressor is controlled to perform frequency-up adjustment at a set frequency modulation rate, and the heat exchange efficiency of the air conditioning module can be further improved by increasing the working frequency of the compressor, so that the internal temperature of the air conditioning clothes can reach the target temperature range as soon as possible.

The set parameters of the circulating water pump comprise set flow, and the set flow is calculated according to the following formula: q is Q K2, wherein Q is the set flow rate, and Q is the rated flow rate of the circulating water pump; k2 is a flow rate sequence coefficient associated with the regulation condition, and its value is 1.15.

In this embodiment, when the rated flow rate of the circulating water pump is 0.8L/min, the set flow rate q is 0.8 × 1.15 — 0.92L/min calculated according to the above formula.

In the embodiment, because the optimal humidity range of the human body is 45% -60%, the interior of the air conditioning clothes needs to be dehumidified under the current working condition; therefore, when the internal humidity of the air-conditioning clothes is in a high-humidity interval, the solution humidity control device is controlled to operate at the working voltage of the dehumidification mode corresponding to the humidity interval; in this embodiment, the operating voltage U of the dehumidification mode corresponding to the high-humidity section is 36V, that is, the operating voltage applied to the first solution film and the second solution film is 12V.

The control method of the air conditioning clothes further comprises the following steps: acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted; and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in the target humidity range.

Specifically, after the air-conditioning clothes operate for t time at the working voltage U of the dehumidification mode corresponding to the humidity interval, the internal humidity of the air-conditioning clothes is detected again, and whether the internal humidity is in the target humidity interval or not is judged, in the embodiment, the target humidity interval is used for representing the humidity interval in which a user feels moderate, namely RH is more than 45% and less than or equal to 60%;

if the detected internal humidity is in the target humidity interval after t time, maintaining the current working voltage unchanged; if the detected internal humidity is not in the target humidity interval after t time, adjusting the working voltage of the solution humidity adjusting device to be U + n × Δ U, wherein the upper adjustment limit of the working voltage is the highest working voltage of the solution humidity adjusting device; and maintaining the current working voltage to operate for the time duration of t + n × Δ t, and repeating the detection, judgment and adjustment processes until the internal humidity is in the target humidity interval. The voltage increasing process can enable the dehumidification capacity of the solution humidity control device to be matched with the internal humidity condition of the air conditioning clothes, and the dehumidification capacity of the solution humidity control device can be improved by increasing the working voltage, so that the internal humidity of the air conditioning clothes can be reduced from a high-humidity interval to a target humidity interval as soon as possible, and the requirement of a user of the air conditioning clothes on comfort is met.

In this embodiment, the first solution film and the second solution film are synchronously adjusted in operating voltage.

Here, n is the order of operating voltage adjustment performed according to the flow after the solution humidity control apparatus is started at the operating voltage U and the internal humidity is first detected not to be in the target humidity range, and n is 1,2, … …, n.

Δ U is a reference variable value for adjusting the operating voltage, and in the present embodiment, Δ U is 12V.

In this embodiment, t is set to a value within a range of 3-5 min.

In this embodiment, Δ t and the humidity interval have a positive correlation, that is, the higher the humidity interval in which the internal humidity is located, the more the time length value of Δ t is; like this, under the higher circumstances of inside humidity, at the target humidity interval's that will inside humidity adjustment arrives in-process, adjacent two pressure regulating time interval is longer, can make the adjustment process of inside humidity more steady, also can guarantee the stability of solution humidity control device's voltage switching in-process, avoids frequently switching the harm that voltage caused solution humidity control device.

Optionally, the value range of Δ t is 30-90 s.

Here, the voltage value applied to the first solution film by the solution humidity control apparatus and the dehumidification amount thereof should satisfy the following relationship:

q2 ═ 0.25 × U2-2, where Q2 is the dehumidification amount of the first solution film, and U3 is the voltage value applied to the first solution film.

The voltage value applied to the second solution film by the solution humidity adjusting device and the moisture discharge amount thereof satisfy the following relation:

q3 ═ 0.35 × U3+2, where Q3 is the moisture content of the second solution film and U3 is the voltage value applied to the second solution film.

The flow rate of the booster water pump is calculated according to the following formula:

q2 ═ K2 r, where q2 is the flow rate of the booster water pump; r is the rotating speed of the booster water pump, and the value range of r is 100-1000 rpm; k2 is the ratio coefficient of the associated booster water pump.

In this embodiment, first outer fan is with high wind gear operation, the outer fan of second is with middle wind gear operation, can satisfy the amount of wind requirement that first heat exchanger and outdoor environment carry out the heat transfer, has also reduced the whole energy consumption of outer fan operation simultaneously, and is energy-concerving and environment-protective.

In an optional embodiment, the control method further comprises: acquiring the current working voltage in a control circuit of the air-conditioning clothes; and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

For the air-conditioning clothes shown in the foregoing embodiments, the process of controlling the switching from the power supply mode of the air-conditioning clothes to the standby power supply mode includes: and controlling the first switch and the second switch to be closed and controlling the second switch to be opened.

For the specific power supply mode switching process, reference may be made to the previous embodiment, which is not described herein again.

FIG. 8 is a schematic flow chart diagram illustrating a method of controlling an air conditioning garment of the present invention according to yet another exemplary embodiment;

as shown in fig. 8, the present invention provides another control method of an air conditioning clothes, the control process mainly includes:

s801, acquiring the internal temperature and the internal humidity of the air conditioning clothes;

in this embodiment, the manner of obtaining the internal temperature and the internal humidity may refer to step S401 in the foregoing embodiment, which is not described herein again.

S802, judging whether the internal temperature is in a preset temperature interval for representing that a user feels high heat, and if so, executing a step S803; if not, the process is ended;

in the embodiment, the preset temperature interval for representing that the user feels high heat is 29 ℃ < Tin ≦ 32 ℃;

for a specific process of determining whether the internal temperature is in the preset temperature range for representing that the user feels high heat, reference may be made to the foregoing embodiments, which are not described herein again.

S803, judging whether the internal humidity is in a preset humidity interval for representing that the user feels high humidity, if so, executing step S804; if not, the process is ended;

in the embodiment, the preset humidity interval for representing that the user feels high humidity is 85% < RH;

for a specific process of determining whether the internal humidity is in a preset humidity interval for representing that the user feels high humidity, reference may be made to the foregoing embodiments, which are not described herein again.

Here, the preset regulation condition includes that the internal temperature is in a preset temperature interval for representing that the user feels high heat in step S802, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity in step S803;

s804, responding to the internal temperature and the internal humidity, determining that a preset regulation condition is met, and adjusting the running state of the air-conditioning clothes according to a preset regulation rule corresponding to the preset regulation condition;

when the internal temperature is in a preset temperature interval for representing that a user feels high heat and the internal humidity is in a preset humidity interval for representing that the user feels high humidity, the regulation and control rule comprises the steps of controlling the air conditioning clothes to operate in a refrigeration mode, controlling the compressor and the circulating water pump to operate according to set parameters, controlling the solution humidity control device to operate in a dehumidification mode corresponding to the humidity interval, operating the first outer fan at a high wind level and operating the second outer fan at a low wind level.

In this embodiment, the temperature range where a human body feels comfortable is 22 ℃ < Tin ≦ 26 ℃, and when the internal temperature of the air-conditioning clothes is in a high-temperature range, the air-conditioning clothes is controlled to operate in a cooling mode, so as to reduce the internal temperature of the air-conditioning clothes and ensure the comfort of a user.

Specifically, the set parameters of the compressor include a set frequency, and the set frequency is associated with a temperature interval in a preset regulation condition; specifically, when the internal temperature of the air-conditioning clothes is in a high-heat temperature range, the table lookup may result in f being 20 Hz.

In an optional embodiment, the control method of the present application further includes: after the running state of the air-conditioning clothes is adjusted according to a preset adjusting and controlling rule corresponding to a preset adjusting and controlling condition, the current internal humidity of the air-conditioning clothes is obtained, and if the current internal humidity is not in a target temperature interval, a compressor is controlled to adjust at a set frequency modulation rate until the current internal humidity is in the target temperature interval; and if the current internal humidity is in the target temperature interval, maintaining the current working frequency of the compressor unchanged.

In this embodiment, the target temperature range is a preset temperature range comfortable for the user, and optionally, the target temperature range is 22 ℃ < Tin ≦ 26 ℃.

In the present embodiment, the set frequency modulation rate is associated with the temperature interval in step S502; optionally, when the temperature interval is a preset temperature interval for representing that the user feels cold, the set frequency modulation rate is 1 Hz/min. Here, the regulation rule in step S504 is directly associated with the temperature interval, so when the internal temperature of the air-conditioning clothes adjusted by the regulation rule still does not meet the requirement of the target temperature, the operating frequency of the compressor is adjusted at the frequency modulation rate associated with the temperature interval, the adjustment of the compressor can be adapted to the current temperature working condition, and the efficiency of temperature adjustment is improved.

In this embodiment, if the current internal humidity is not within the target temperature range, the compressor is controlled to perform frequency-up adjustment at a set frequency modulation rate, and the heat exchange efficiency of the air conditioning module can be further improved by increasing the working frequency of the compressor, so that the internal temperature of the air conditioning clothes can reach the target temperature range as soon as possible.

The set parameters of the circulating water pump comprise set flow, and the set flow is calculated according to the following formula: q is Q is K2, wherein Q is the set flow rate, and Q is the rated flow rate of the circulating water pump; k2 is a flow rate sequence coefficient associated with the regulation condition, and its value is 1.23.

In this embodiment, when the rated flow rate of the circulating water pump is 0.8L/min, the set flow rate q is 0.8 × 1.23 — 0.984L/min calculated according to the above formula.

In the embodiment, because the optimal humidity range of the human body is 45% -60%, the inside of the air-conditioning clothes needs to be dehumidified under the current working condition; therefore, when the internal humidity of the air-conditioning clothes is in a high-humidity range, the solution humidity control device is controlled to operate at the working voltage of the dehumidification mode corresponding to the humidity range; in this embodiment, the operating voltage U of the dehumidification mode corresponding to the high-humidity section is 36V, that is, the operating voltage applied to the first solution film and the second solution film is 12V.

The control method of the air conditioning clothes further comprises the following steps: acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted; and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in the target humidity range.

Specifically, after the air-conditioning clothes operate for t time at the operating voltage U of the dehumidification mode corresponding to the humidity interval, the internal humidity of the air-conditioning clothes is detected again, and whether the internal humidity is in the target humidity interval is judged, in the embodiment, the target humidity interval is used for representing the humidity interval in which a user feels moderate, namely RH is more than 45% and less than or equal to 60%;

if the detected internal humidity is in the target humidity interval after t time, maintaining the current working voltage unchanged; if the detected internal humidity is not in the target humidity interval after t time, adjusting the working voltage of the solution humidity adjusting device to be U + n × Δ U, wherein the upper adjustment limit of the working voltage is the highest working voltage of the solution humidity adjusting device; and maintaining the time length of the current working voltage operation t + n × Δ t, and repeating the detection, judgment and adjustment processes until the internal humidity is in the target humidity interval. The voltage increasing process can enable the dehumidification capacity of the solution humidity control device to be matched with the internal humidity condition of the air conditioning clothes, and the dehumidification capacity of the solution humidity control device can be improved by increasing the working voltage, so that the internal humidity of the air conditioning clothes can be reduced from a high-humidity interval to a target humidity interval as soon as possible, and the requirement of a user of the air conditioning clothes on comfort is met.

In this embodiment, the first solution film and the second solution film are synchronously adjusted in operating voltage.

Here, n is the order of operating voltage adjustment performed according to the flow after the solution humidity control apparatus is started at the operating voltage U and the internal humidity is first detected not to be in the target humidity range, and n is 1,2, … …, n.

Δ U is a reference variable value for adjusting the operating voltage, and in the present embodiment, Δ U is 12V.

In this embodiment, t is set to a value within a range of 3-5 min.

In this embodiment, Δ t and the humidity interval have a positive correlation, that is, the higher the humidity interval of the internal humidity, the more the time length value of Δ t is; therefore, under the condition that the internal humidity is higher, in the process of a target humidity interval to which the internal humidity is adjusted, the time interval between two adjacent pressure adjusting is longer, the adjusting process of the internal humidity can be more stable, the stability of the solution humidity adjusting device in the voltage switching process can be ensured, and the damage to the solution humidity adjusting device caused by frequent voltage switching is avoided.

Optionally, the value range of Δ t is 30-90 s.

Here, the voltage value applied to the first solution film by the solution humidity control apparatus and the dehumidification amount thereof should satisfy the following relationship:

q2 ═ 0.25 × U2-2, where Q2 is the dehumidification amount of the first solution film, and U3 is the voltage value applied to the first solution film.

The voltage value applied to the second solution film by the solution humidity adjusting device and the moisture discharge amount thereof should satisfy the following relation:

q3 ═ 0.35 × U3+2, where Q3 is the moisture content of the second solution film, and U3 is the voltage value applied to the second solution film.

The flow of the booster water pump is calculated according to the following formula:

q2 ═ K2 r, where q2 is the flow rate of the booster water pump; r is the rotating speed of the booster water pump, and the value range of r is 100-1000 rpm; k2 is the ratio coefficient of the associated booster water pump.

In this embodiment, first outer fan is with high-grade operation, the outer fan of second is with low-grade operation, makes it can satisfy the amount of wind requirement that first heat exchanger and outdoor environment carry out the heat transfer.

In an optional embodiment, the control method further comprises: acquiring the current working voltage in a control circuit of the air-conditioning clothes; and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

For the air-conditioning clothes shown in the foregoing embodiments, the process of controlling the switching from the power supply mode of the air-conditioning clothes to the standby power supply mode includes: and controlling the first switch and the second switch to be closed and controlling the second switch to be opened.

For the specific power supply mode switching process, reference may be made to the previous embodiment, which is not described herein again.

FIG. 9 is a schematic flow chart diagram illustrating a method of controlling an air conditioning garment of the present invention according to yet another exemplary embodiment;

as shown in fig. 9, the present invention provides another control method for an air conditioning clothes, the control process mainly includes:

s901, acquiring the internal temperature and the internal humidity of the air conditioning clothes;

in this embodiment, the manner of obtaining the internal temperature and the internal humidity may refer to step S401 in the foregoing embodiment, which is not described herein again.

S902, judging whether the internal temperature is in a preset temperature interval for representing that the user feels hot, and if so, executing a step S903; if not, the process is ended;

in the embodiment, the preset temperature interval for representing that the user feels hot is 32 ℃ < Tin ≦ 43 ℃;

for a specific process of determining whether the internal temperature is in the preset temperature interval for representing that the user feels hot, reference may be made to the foregoing embodiments, which are not described herein again.

S903, judging whether the internal humidity is in a preset humidity interval for representing that the user feels high humidity, and if so, executing a step S904; if not, the process is ended;

in the embodiment, the preset humidity interval for representing that the user feels high humidity is 85% < RH;

the specific process of determining whether the internal humidity is in the preset humidity interval for representing that the user feels high humidity may refer to the foregoing embodiments, which are not described herein again.

Here, the preset regulation and control conditions include that the internal temperature is in a preset temperature interval for representing that the user feels hot in step S902, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity in step S903;

s904, responding to the internal temperature and the internal humidity, determining that preset regulation and control conditions are met, and adjusting the running state of the air-conditioning clothes according to preset regulation and control rules corresponding to the preset regulation and control conditions;

when the internal temperature is in a preset temperature interval for representing that a user feels hot and the internal humidity is in a preset humidity interval for representing that the user feels high humidity, the regulation and control rules comprise the steps of controlling the air-conditioning clothes to operate in a refrigeration mode, controlling the compressor and the circulating water pump to operate according to set parameters, controlling the solution humidity conditioning device to operate at a working voltage of a dehumidification mode corresponding to the humidity interval, operating the first outer fan at a high wind gear, and operating the second outer fan at a medium wind gear.

In this embodiment, the temperature range where a human body feels comfortable is 22 ℃ < Tin ≦ 26 ℃, and when the internal temperature of the air-conditioning clothes is within the hot temperature range, the air-conditioning clothes is controlled to operate in the cooling mode, so as to reduce the internal temperature of the air-conditioning clothes and ensure the comfort of the user.

Specifically, the setting parameters of the compressor include a setting frequency, and the setting frequency is associated with a temperature interval in a preset regulation condition; specifically, when the internal temperature of the air-conditioning clothes is in a hot temperature interval, the table lookup can be used for obtaining that f is 50 Hz.

In an optional embodiment, the control method of the present application further includes: after the running state of the air-conditioning clothes is adjusted according to a preset adjusting and controlling rule corresponding to a preset adjusting and controlling condition, the current internal humidity of the air-conditioning clothes is obtained, and if the current internal humidity is not in a target temperature interval, a compressor is controlled to adjust at a set frequency modulation rate until the current internal humidity is in the target temperature interval; and if the current internal humidity is in the target temperature interval, maintaining the current working frequency of the compressor unchanged.

In this embodiment, the target temperature range is a preset temperature range comfortable for the user, and optionally, the target temperature range is 22 ℃ < Tin ≦ 26 ℃.

In the present embodiment, the set frequency modulation rate is associated with the temperature interval in step S502; optionally, when the temperature interval is a preset temperature interval for representing that the user feels cold, the set frequency modulation rate is 3 Hz/min. Here, the regulation rule in step S504 is directly associated with the temperature interval, and therefore, when the internal temperature of the air-conditioning clothes adjusted by the regulation rule still does not meet the requirement of the target temperature, the operating frequency of the compressor is adjusted at the frequency modulation rate associated with the temperature interval, so that the adjustment of the compressor can be adapted to the current temperature working condition, and the efficiency of the temperature adjustment is improved.

In this embodiment, if the current internal humidity is not within the target temperature range, the compressor is controlled to perform frequency-up adjustment at a set frequency modulation rate, and the heat exchange efficiency of the air conditioning module can be further improved by increasing the working frequency of the compressor, so that the internal temperature of the air conditioning clothes can reach the target temperature range as soon as possible.

The set parameters of the circulating water pump comprise set flow, and the set flow is calculated according to the following formula: q is Q K2, wherein Q is the set flow rate, and Q is the rated flow rate of the circulating water pump; k2 is a flow rate series coefficient associated with the regulation condition, and its value is 1.76.

In this embodiment, when the rated flow rate of the circulating water pump is 0.8L/min, the set flow rate q is calculated according to the above formula to be 0.8 × 1.76 — 1.408L/min.

In the embodiment, because the optimal humidity range of the human body is 45% -60%, the interior of the air conditioning clothes needs to be dehumidified under the current working condition; therefore, when the internal humidity of the air-conditioning clothes is in a high-humidity range, the solution humidity control device is controlled to operate at the working voltage of the dehumidification mode corresponding to the humidity range; in this embodiment, the operating voltage U of the dehumidification mode corresponding to the high-humidity section is 36V, that is, the operating voltage applied to the first solution film and the second solution film is 12V.

The control method of the air conditioning clothes further comprises the following steps: acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted; and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in the target humidity range.

Specifically, after the air-conditioning clothes operate for t time at the operating voltage U of the dehumidification mode corresponding to the humidity interval, the internal humidity of the air-conditioning clothes is detected again, and whether the internal humidity is in the target humidity interval is judged, in the embodiment, the target humidity interval is used for representing the humidity interval in which a user feels moderate, namely RH is more than 45% and less than or equal to 60%;

if the detected internal humidity is in the target humidity interval after t time, maintaining the current working voltage unchanged; if the detected internal humidity is not in the target humidity interval after t time, adjusting the working voltage of the solution humidity adjusting device to be U + n × Δ U, wherein the upper limit of the adjustment of the working voltage is the highest working voltage of the solution humidity adjusting device; and maintaining the current working voltage to operate for the time duration of t + n × Δ t, and repeating the detection, judgment and adjustment processes until the internal humidity is in the target humidity interval. The voltage increasing process can enable the dehumidification capacity of the solution humidity control device to be matched with the internal humidity condition of the air conditioning clothes, and the dehumidification capacity of the solution humidity control device can be improved by increasing the working voltage, so that the internal humidity of the air conditioning clothes can be reduced from a high-humidity interval to a target humidity interval as soon as possible, and the requirement of a user of the air conditioning clothes on comfort is met.

In this embodiment, the first solution film and the second solution film are synchronized to adjust the operating voltage.

Here, n is the order of operating voltage adjustment performed according to the above flow after the solution humidity control apparatus is started at the operating voltage U and the internal humidity is first detected not to be in the target humidity range, and n is 1,2, … …, n.

Δ U is a reference variable value for adjusting the operating voltage, and in the present embodiment, Δ U is 12V.

In this embodiment, t is set to a value within a range of 3-5 min.

In this embodiment, Δ t and the humidity interval have a positive correlation, that is, the higher the humidity interval of the internal humidity, the more the time length value of Δ t is; therefore, under the condition that the internal humidity is higher, in the process of a target humidity interval to which the internal humidity is adjusted, the time interval between two adjacent pressure adjusting is longer, the adjusting process of the internal humidity can be more stable, the stability of the solution humidity adjusting device in the voltage switching process can be ensured, and the damage to the solution humidity adjusting device caused by frequent voltage switching is avoided.

Optionally, the value range of Δ t is 30-90 s.

Here, the voltage value applied to the first solution film by the solution humidity control apparatus and the dehumidification amount thereof should satisfy the following relationship:

q2 ═ 0.25 × U2-2, where Q2 is the dehumidification amount of the first solution film, and U3 is the voltage value applied to the first solution film.

The voltage value applied to the second solution film by the solution humidity adjusting device and the moisture discharge amount thereof satisfy the following relation:

q3 ═ 0.35 × U3+2, where Q3 is the moisture content of the second solution film, and U3 is the voltage value applied to the second solution film.

The flow rate of the booster water pump is calculated according to the following formula:

q2 ═ K2 r, where q2 is the flow rate of the booster water pump; r is the rotating speed of the booster water pump, and the value range of r is 100-1000 rpm; k2 is the ratio coefficient of the associated booster water pump.

In this embodiment, first outer fan is with high-wind-gear operation, the outer fan of second is with well wind-gear operation, can satisfy the air volume requirement that first heat exchanger and outdoor environment carry out the heat transfer, has also reduced the whole energy consumption of outer fan operation simultaneously, and is energy-concerving and environment-protective.

In an optional embodiment, the control method further comprises: acquiring the current working voltage in a control circuit of the air-conditioning clothes; and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

For the air-conditioning clothes shown in the foregoing embodiments, the process of controlling the switching from the power supply mode of the air-conditioning clothes to the standby power supply mode includes: and controlling the first switch and the second switch to be closed and controlling the second switch to be opened.

For the specific power supply mode switching process, reference may be made to the previous embodiment, which is not described herein again.

FIG. 10 is a schematic flow chart diagram illustrating a method of controlling an air conditioning garment of the present invention according to yet another exemplary embodiment;

as shown in fig. 10, the present invention provides another control method for an air conditioning clothes, the control process mainly includes:

s1001, acquiring the internal temperature and the internal humidity of the air conditioning clothes;

in this embodiment, the manner of obtaining the internal temperature and the internal humidity may refer to step S401 in the foregoing embodiment, which is not described herein again.

S1002, judging whether the internal temperature is in a preset temperature interval for representing that a user feels extremely hot, and if so, executing a step S1003; if not, the process is ended;

in the embodiment, the preset temperature interval for representing that the user feels extremely hot is 43 ℃ < Tin;

for a specific process of determining whether the internal temperature is in the preset temperature interval for representing that the user feels extremely hot, reference may be made to the foregoing embodiments, which are not described herein again.

S1003, judging whether the internal humidity is in a preset humidity interval for representing that the user feels high humidity, and if so, executing a step S1004; if not, the process is ended;

in the embodiment, the preset humidity interval for representing that the user feels high humidity is 85% < RH;

for a specific process of determining whether the internal humidity is in a preset humidity interval for representing that the user feels high humidity, reference may be made to the foregoing embodiments, which are not described herein again.

Here, the preset regulation condition includes that the internal temperature is in a preset temperature interval for representing that the user feels extremely hot in step S1002, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity in step S1003;

s1004, responding to the internal temperature and the internal humidity, determining that a preset regulation condition is met, and adjusting the running state of the air-conditioning clothes according to a preset regulation rule corresponding to the preset regulation condition;

when the internal temperature is in a preset temperature range for representing that a user feels extremely hot and the internal humidity is in a preset humidity range for representing that the user feels high humidity, the regulation and control rules comprise the steps of controlling the air-conditioning clothes to operate in a refrigeration mode, controlling the compressor and the circulating water pump to operate according to set parameters, controlling the solution humidity control device to operate in a dehumidification mode working voltage corresponding to the humidity range, operating the first outer fan in a high wind level, and operating the second outer fan in a high wind level.

In this embodiment, the temperature range where the human body feels comfortable is 22 ℃ < Tin ≦ 26 ℃, and when the internal temperature of the air-conditioning clothes is in the extreme hot temperature range, the air-conditioning clothes is controlled to operate in the cooling mode, so as to reduce the internal temperature of the air-conditioning clothes and ensure the comfort of the user.

Specifically, the setting parameter of the compressor includes a setting frequency, the setting frequency is associated with a temperature interval in the preset regulation condition, and a specific lookup table may be found as f-0.5 fmax, where f is the setting frequency and fmax is the maximum cooling frequency of the compressor.

In the present embodiment, when the maximum operating frequency of the compressor is 80Hz, the set frequency f is 0.5 × 80 — 40Hz calculated according to the above formula. In this embodiment, since the circulating water pump is operated at the maximum flow rate, the set frequency of the compressor can be appropriately reduced to 0.5 times of the maximum cooling frequency, so as to reduce the power consumption of the compressor.

In an optional embodiment, the control method of the present application further includes: after the running state of the air-conditioning clothes is adjusted according to a preset adjusting rule corresponding to a preset adjusting condition, the current internal humidity of the air-conditioning clothes is obtained, and if the current internal humidity is not in a target temperature interval, a compressor is controlled to adjust at a set frequency modulation rate until the current internal humidity is in the target temperature interval; and if the current internal humidity is in the target temperature interval, maintaining the current working frequency of the compressor unchanged.

In this embodiment, the target temperature range is a preset temperature range comfortable for the user, and optionally, the target temperature range is 22 ℃ < Tin ≦ 26 ℃.

In this embodiment, the set frequency modulation rate is associated with the temperature interval in step S502; optionally, when the temperature interval is a preset temperature interval for representing that the user feels cold, the set frequency modulation rate is 4 Hz/min. Here, the regulation rule in step S504 is directly associated with the temperature interval, and therefore, when the internal temperature of the air-conditioning clothes adjusted by the regulation rule still does not meet the requirement of the target temperature, the operating frequency of the compressor is adjusted at the frequency modulation rate associated with the temperature interval, so that the adjustment of the compressor can be adapted to the current temperature working condition, and the efficiency of the temperature adjustment is improved.

In this embodiment, if the current internal humidity is not within the target temperature range, the compressor is controlled to perform frequency-up adjustment at a set frequency modulation rate, and the heat exchange efficiency of the air conditioning module can be further improved by increasing the working frequency of the compressor, so that the internal temperature of the air conditioning clothes can reach the target temperature range as soon as possible.

Meanwhile, the set parameters of the water pump comprise a set flow, wherein the set flow is the maximum flow value of the water pump; in this embodiment, the maximum flow rate of the water pump is 2L/min.

In the embodiment, because the optimal humidity range of the human body is 45% -60%, the interior of the air conditioning clothes needs to be dehumidified under the current working condition; therefore, when the internal humidity of the air-conditioning clothes is in a high-humidity interval, the solution humidity control device is controlled to operate at the working voltage of the dehumidification mode corresponding to the humidity interval; in this embodiment, the operation voltage U of the dehumidification mode corresponding to the high-humidity region is 36V, that is, the operation voltages applied to the first solution film and the second solution film are both 12V.

The control method of the air conditioning clothes further comprises the following steps: acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted; and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in the target humidity range.

Specifically, after the air-conditioning clothes operate for t time at the operating voltage U of the dehumidification mode corresponding to the humidity interval, the internal humidity of the air-conditioning clothes is detected again, and whether the internal humidity is in the target humidity interval is judged, in the embodiment, the target humidity interval is used for representing the humidity interval in which a user feels moderate, namely RH is more than 45% and less than or equal to 60%;

if the detected internal humidity is in the target humidity interval after t time, maintaining the current working voltage unchanged; if the detected internal humidity is not in the target humidity interval after t time, adjusting the working voltage of the solution humidity adjusting device to be U + n × Δ U, wherein the upper adjustment limit of the working voltage is the highest working voltage of the solution humidity adjusting device; and maintaining the time length of the current working voltage operation t + n × Δ t, and repeating the detection, judgment and adjustment processes until the internal humidity is in the target humidity interval. The voltage increasing process can enable the dehumidification capacity of the solution humidity control device to be matched with the internal humidity condition of the air conditioning clothes, and the dehumidification capacity of the solution humidity control device can be improved by increasing the working voltage, so that the internal humidity of the air conditioning clothes can be reduced from a high-humidity interval to a target humidity interval as soon as possible, and the requirement of a user of the air conditioning clothes on comfort is met.

In this embodiment, the first solution film and the second solution film are synchronously adjusted in operating voltage.

Here, n is the order of operating voltage adjustment performed according to the flow after the solution humidity control apparatus is started at the operating voltage U and the internal humidity is first detected not to be in the target humidity range, and n is 1,2, … …, n.

Δ U is a reference variable value for adjusting the operating voltage, and in the present embodiment, Δ U is 12V.

In this embodiment, t is set to a value ranging from 3 min to 5 min.

In this embodiment, Δ t and the humidity interval have a positive correlation, that is, the higher the humidity interval in which the internal humidity is located, the more the time length value of Δ t is; therefore, under the condition that the internal humidity is higher, in the process of a target humidity interval to which the internal humidity is adjusted, the time interval between two adjacent pressure adjusting is longer, the adjusting process of the internal humidity can be more stable, the stability of the solution humidity adjusting device in the voltage switching process can be ensured, and the damage to the solution humidity adjusting device caused by frequent voltage switching is avoided.

Optionally, the value range of Δ t is 30-90 s.

Here, the voltage value applied to the first solution film by the solution humidity control apparatus and the dehumidification amount thereof should satisfy the following relationship:

q2 ═ 0.25 × U2-2, where Q2 is the dehumidification amount of the first solution film, and U3 is the voltage value applied to the first solution film.

The voltage value applied to the second solution film by the solution humidity adjusting device and the moisture discharge amount thereof should satisfy the following relation:

q3 ═ 0.35 × U3+2, where Q3 is the moisture content of the second solution film and U3 is the voltage value applied to the second solution film.

The flow of the booster water pump is calculated according to the following formula:

q2 ═ K2 r, where q2 is the flow rate of the booster water pump; r is the rotating speed of the booster water pump, and the value range of r is 100-1000 rpm; k2 is the ratio coefficient of the associated booster water pump.

In this embodiment, first outer fan is with high-grade operation, the outer fan of second is with high-grade operation, and two outer fans all operate with highest gear, make outer fan can dispel the heat the cooling to first heat exchanger with the maximum air output to furthest's the requirement of satisfying the amount of wind that first heat exchanger and outdoor environment carry out the heat transfer.

In an optional embodiment, the control method further comprises: acquiring the current working voltage in a control circuit of the air-conditioning clothes; and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

For the air-conditioning clothes shown in the foregoing embodiments, the process of controlling the switching from the power supply mode of the air-conditioning clothes to the standby power supply mode includes: and controlling the first switch and the second switch to be closed and controlling the second switch to be opened.

For the specific power supply mode switching process, reference may be made to the previous embodiment, which is not described herein again.

In an alternative embodiment, the air conditioning garment further comprises a controller, which may be used to control the control flow disclosed in the embodiment of fig. 4 above.

The controller is preset with at least six temperature interval rules which are sequentially increased and used for corresponding representations at least comprising the temperature interval rules of cold, low cold, moderate, high heat, hot and extremely hot user feelings; at least four interval thresholds which are sequentially increased are preset and are respectively used for representing humidity interval rules at least comprising dry, moderate, high-humidity and high-humidity user feelings;

the controller is used for: acquiring running state parameters of the air-conditioning clothes; determining whether a preset regulation condition is met or not based on the operation state parameter; and responding to the condition that the running state parameters meet the preset regulation and control conditions, and regulating the running state of the air-conditioning clothes according to the preset regulation and control rules corresponding to the preset regulation and control conditions.

The specific manner of the controller controlling the above process can refer to the foregoing embodiments, and is not described herein again.

In yet another alternative embodiment, the air conditioning garment further comprises a controller operable to control the control flow disclosed in the embodiment of fig. 5 above.

The controller is used for:

acquiring the internal temperature and the internal humidity of the air conditioning clothes;

determining whether a preset regulation condition is satisfied based on the internal temperature and the internal humidity; the preset regulation and control conditions comprise that the internal temperature is in a preset temperature interval for representing that a user feels cold, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity;

responding to the internal temperature and the internal humidity, determining that a preset regulation condition is met, and adjusting the running state of the air-conditioning clothes according to a preset regulation rule corresponding to the preset regulation condition; the regulation and control rules comprise that the air-conditioning clothes are controlled to operate in a heating mode, the solution humidity control device is controlled to operate in a dehumidification mode corresponding to a humidity interval, the compressor and the circulating water pump operate according to set parameters, the first outer fan operates in a low wind level, and the second outer fan stops operating.

In this embodiment, the controller is further configured to:

acquiring the current working voltage in a control circuit of the air-conditioning clothes;

and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

In this embodiment, the controller is further configured to:

acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted;

and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in the target humidity range.

In this embodiment, the setting parameters of the compressor include a setting frequency, and the setting frequency is associated with a temperature range in the preset regulation condition.

In this embodiment, the setting parameter of the circulating water pump includes a set flow rate, and the controller calculates the set flow rate according to the following formula:

q＝Q*K2，

wherein Q is set flow, and Q is rated flow of the circulating water pump; k2 is a flow rate ratio coefficient associated with the regulation condition, which takes a value of 0.52.

The specific manner of the controller controlling the above process can refer to the foregoing embodiments, and is not described herein again.

In yet another alternative embodiment, the air conditioning garment further comprises a controller operable to control the control flow disclosed in the embodiment of fig. 6 above.

The controller is used for:

acquiring the internal temperature and the internal humidity of the air-conditioning clothes;

determining whether a preset regulation condition is satisfied based on the internal temperature and the internal humidity; the preset regulation and control conditions comprise that the internal temperature is in a preset temperature interval for representing that a user feels low cold, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity;

responding to the internal temperature and the internal humidity to determine that a preset regulation condition is met, and adjusting the running state of the air-conditioning clothes according to a preset regulation rule corresponding to the preset regulation condition; the regulation and control rules comprise that the air-conditioning clothes are controlled to operate in a heating mode, the solution humidity control device is controlled to operate in a dehumidification mode corresponding to a humidity interval, the compressor and the circulating water pump operate according to set parameters, the first outer fan operates in a medium wind gear, and the second outer fan stops operating.

In this embodiment, the controller is further configured to:

acquiring the current working voltage in a control circuit of the air-conditioning clothes;

and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

In this embodiment, the controller is further configured to:

acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted;

and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in the target humidity range.

In this embodiment, the setting parameters of the compressor include a setting frequency, and the setting frequency is associated with a temperature range in the preset regulation condition.

In this embodiment, the setting parameters of the circulating water pump include a set flow rate, and the controller calculates the set flow rate according to the following formula:

q＝Q*K2，

wherein Q is set flow, and Q is rated flow of the circulating water pump; k2 is a flow rate sequence coefficient associated with the regulation condition, and its value is 0.96.

The specific manner in which the controller controls the above process can refer to the foregoing embodiments, and is not described herein again.

In yet another alternative embodiment, the air conditioning garment further comprises a controller operable to control the control flow disclosed in the embodiment of fig. 7 above.

The controller is configured to:

acquiring the internal temperature and the internal humidity of the air-conditioning clothes;

determining whether a preset regulation condition is satisfied based on the internal temperature and the internal humidity; the preset regulation and control conditions comprise that the internal temperature is in a preset temperature interval for representing that a user feels moderate, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity;

responding to the internal temperature and the internal humidity to determine that a preset regulation condition is met, and adjusting the running state of the air-conditioning clothes according to a preset regulation rule corresponding to the preset regulation condition; the regulation and control rules comprise that the air-conditioning clothes are controlled to operate in a refrigeration mode, the solution humidity control device is controlled to operate in a dehumidification mode corresponding to a humidity interval, the compressor and the circulating water pump operate according to set parameters, the first outer fan operates in a high wind level, and the second outer fan stops operating.

In this embodiment, the controller is further configured to:

acquiring the current working voltage in a control circuit of the air-conditioning clothes;

and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

In this embodiment, the controller is further configured to:

acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted;

and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in the target humidity range.

In this embodiment, the setting parameters of the compressor include a setting frequency, and the setting frequency is associated with a temperature range in the preset regulation condition.

In this embodiment, the setting parameter of the circulating water pump includes a set flow rate, and the controller calculates the set flow rate according to the following formula:

q＝Q*K2，

wherein Q is set flow, and Q is rated flow of the circulating water pump; k2 is a flow rate series coefficient associated with the regulation condition, and its value is 1.15.

The specific manner in which the controller controls the above process can refer to the foregoing embodiments, and is not described herein again.

In yet another alternative embodiment, the air conditioning garment further comprises a controller that can be used to control the control flow disclosed in the embodiment of fig. 8 above.

The controller is configured to:

acquiring the internal temperature and the internal humidity of the air-conditioning clothes;

determining whether a preset regulation condition is satisfied based on the internal temperature and the internal humidity; the preset regulation and control conditions comprise that the internal temperature is in a preset temperature interval for representing that a user feels high heat, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity;

responding to the internal temperature and the internal humidity, determining that a preset regulation condition is met, and adjusting the running state of the air-conditioning clothes according to a preset regulation rule corresponding to the preset regulation condition; the regulation and control rules comprise that the air-conditioning clothes are controlled to operate in a refrigeration mode, the solution humidity control device is controlled to operate in a dehumidification mode corresponding to a humidity interval, the compressor and the circulating water pump operate according to set parameters, the first outer fan operates in a high wind gear, and the second outer fan operates in a low wind gear.

In this embodiment, the controller is further configured to:

acquiring the current working voltage in a control circuit of the air-conditioning clothes;

and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

In this embodiment, the controller is further configured to:

acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted;

and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in the target humidity range.

In this embodiment, the setting parameters of the compressor include a setting frequency, and the setting frequency is associated with a temperature range in the preset regulation condition.

In this embodiment, the setting parameter of the circulating water pump includes a set flow rate, and the controller calculates the set flow rate according to the following formula:

q＝Q*K2，

wherein Q is set flow, and Q is rated flow of the circulating water pump; k2 is a flow rate series coefficient associated with the regulation condition, and its value is 1.23.

The specific manner of the controller controlling the above process can refer to the foregoing embodiments, and is not described herein again.

In yet another alternative embodiment, the air conditioning garment further comprises a controller operable to control the control flow disclosed in the embodiment of fig. 9 above.

The controller is used for:

acquiring the internal temperature and the internal humidity of the air conditioning clothes;

determining whether a preset regulation condition is satisfied based on the internal temperature and the internal humidity; the preset regulation and control conditions comprise that the internal temperature is in a preset temperature interval for representing that a user feels hot, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity;

responding to the internal temperature and the internal humidity to determine that a preset regulation condition is met, and adjusting the running state of the air-conditioning clothes according to a preset regulation rule corresponding to the preset regulation condition; the regulation and control rules comprise that the air-conditioning clothes are controlled to operate in a refrigeration mode, the solution humidity control device is controlled to operate in a dehumidification mode corresponding to a humidity interval, the compressor and the circulating water pump operate according to set parameters, the first outer fan operates in a high wind level, and the second outer fan operates in a medium wind level.

In this embodiment, the controller is further configured to:

acquiring the current working voltage in a control circuit of the air-conditioning clothes;

and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

In this embodiment, the controller is further configured to:

acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted;

and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in the target humidity range.

In this embodiment, the setting parameters of the compressor include a setting frequency, and the setting frequency is associated with a temperature range in the preset regulation condition.

In this embodiment, the setting parameter of the circulating water pump includes a set flow rate, and the controller calculates the set flow rate according to the following formula:

q＝Q*K2，

wherein Q is set flow, and Q is rated flow of the circulating water pump; k2 is a flow rate series coefficient associated with the regulation condition, and its value is 1.76.

The specific manner in which the controller controls the above process can refer to the foregoing embodiments, and is not described herein again.

In yet another alternative embodiment, the air conditioning garment further comprises a controller that can be used to control the control flow disclosed in the embodiment of fig. 10 above.

The controller is used for:

acquiring the internal temperature and the internal humidity of the air conditioning clothes;

determining whether a preset regulation condition is satisfied based on the internal temperature and the internal humidity; the preset regulation and control conditions comprise that the internal temperature is in a preset temperature interval for representing that a user feels extremely hot, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity;

responding to the internal temperature and the internal humidity to determine that a preset regulation condition is met, and adjusting the running state of the air-conditioning clothes according to a preset regulation rule corresponding to the preset regulation condition; the regulation and control rules comprise that the air-conditioning clothes are controlled to operate in a refrigeration mode, the solution humidity control device is controlled to operate in a dehumidification mode corresponding to a humidity interval, the compressor and the circulating water pump operate according to set parameters, the first outer fan operates in a high wind gear, and the second outer fan operates in a high wind gear.

In this embodiment, the controller is further configured to:

acquiring the current working voltage in a control circuit of the air-conditioning clothes;

and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

In this embodiment, the controller is further configured to:

acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted;

and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in the target humidity range.

In this embodiment, the setting parameters of the compressor include a setting frequency, and the setting frequency is associated with a temperature range in the preset regulation condition.

In this embodiment, the setting parameter of the circulating water pump includes a set flow rate, and the set flow rate is a maximum flow rate value of the circulating water pump.

The specific manner in which the controller controls the above process can refer to the foregoing embodiments, and is not described herein again.

It is to be understood that the present invention is not limited to the procedures and structures described above and shown in the drawings, and that various modifications and changes may be made without departing from the scope thereof. The scope of the invention is limited only by the appended claims.

Claims (10)

1. The control method of the air-conditioning clothes is characterized in that the air-conditioning clothes comprise wearable equipment and a temperature control system, wherein a pipeline for supplying water to flow and exchanging heat with a human body is arranged in the wearable equipment, and a circulating water pump for circulating the water in the pipeline is arranged on the pipeline; the temperature control system is used for reducing or increasing the temperature of water in the pipeline, the temperature control system comprises an air conditioning module connected with the pipeline, the air conditioning module comprises a compressor, a first heat exchanger used for exchanging heat with the external environment, a throttling element and a second heat exchanger used for exchanging heat with the inside of the air conditioning clothes, and a first outer fan and a second outer fan used for radiating heat for the first heat exchanger are arranged at the first heat exchanger; the air-conditioning suit further comprises a temperature sensor for detecting the internal temperature and a humidity sensor for detecting the internal humidity; the air-conditioning clothes also comprise a solution humidifying device used for humidifying the inside of the air-conditioning clothes;

the air-conditioning coat is preset with at least six interval threshold values which are sequentially increased and used for corresponding temperature interval rules representing user feelings at least including cold, low cold, moderate, high heat, hot and extremely hot; at least four interval thresholds which are sequentially increased are preset and are respectively used for representing humidity interval rules which at least comprise dry, moderate, low-humidity and high-humidity user feelings; the control method comprises the following steps:

acquiring the internal temperature and the internal humidity of the air conditioning clothes;

determining whether a preset regulation condition is satisfied based on the internal temperature and the internal humidity; the preset regulation and control conditions comprise that the internal temperature is in a preset temperature interval for representing that a user feels moderate, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity;

responding to the internal temperature and the internal humidity to determine that a preset regulation condition is met, and adjusting the running state of the air-conditioning clothes according to a preset regulation rule corresponding to the preset regulation condition; the regulation and control rules comprise that the air-conditioning clothes are controlled to operate in a refrigeration mode, the solution humidity control device is controlled to operate in a dehumidification mode corresponding to the humidity interval at working voltage, the compressor and the circulating water pump operate according to set parameters, the first outer fan operates in a high wind level, and the second outer fan stops operating;

after the air-conditioning clothes operate for t time at the working voltage U of the dehumidification mode corresponding to the humidity interval, re-detecting the internal humidity of the air-conditioning clothes, and judging whether the internal humidity is in the target humidity interval;

if the detected internal humidity is not in the target humidity interval after t time, adjusting the working voltage of the solution humidity control device to be U + n × Δ U, wherein the upper limit of the adjustment of the working voltage is the highest working voltage of the solution humidity control device, n is the sequence of the adjustment of the working voltage, and n is 1,2, … …; delta U is a reference variable value for adjusting the working voltage.

2. The control method according to claim 1, characterized by further comprising:

acquiring the current working voltage in a control circuit of the air-conditioning clothes;

and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

3. The control method according to claim 1, characterized by further comprising:

acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted;

and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in a target humidity range.

4. The control method according to claim 1, characterized in that said set parameter of the compressor comprises a set frequency associated with said temperature interval in said preset regulation condition.

5. The control method according to claim 1 or 4, wherein the set parameter of the circulation water pump includes a set flow rate calculated according to the following formula:

q＝Q*K2，

wherein Q is the set flow rate, and Q is the rated flow rate of the circulating water pump; k2 is a flow rate sequence coefficient associated with the regulation condition, and its value is 1.15.

6. The air conditioning clothes are characterized by comprising wearable equipment and a temperature control system, wherein a pipeline for supplying water to flow and exchanging heat with a human body is arranged in the wearable equipment, and a circulating water pump for circulating the water in the pipeline is arranged on the pipeline; the temperature control system is used for reducing or increasing the temperature of water in the pipeline, the temperature control system comprises an air conditioning module connected with the pipeline, the air conditioning module comprises a compressor, a first heat exchanger used for exchanging heat with the external environment, a throttling element and a second heat exchanger used for exchanging heat with the inside of the air conditioning clothes, and a first outer fan and a second outer fan used for radiating heat for the first heat exchanger are arranged at the first heat exchanger; the air-conditioning suit further comprises a temperature sensor for detecting the internal temperature and a humidity sensor for detecting the internal humidity; the air-conditioning clothes also comprise a solution humidifying device used for humidifying the inside of the air-conditioning clothes;

the air-conditioning suit also comprises a controller, wherein the controller is preset with temperature interval rules which are increased in sequence by at least six interval thresholds and used for corresponding user feelings at least comprising cold, low cold, moderate, high heat, hot and extreme hot; at least four interval thresholds which are sequentially increased and used for representing humidity interval rules at least comprising dry, moderate, low-humidity and high-humidity user feelings are preset;

the controller is configured to:

acquiring the internal temperature and the internal humidity of the air conditioning clothes;

determining whether a preset regulation condition is satisfied based on the internal temperature and the internal humidity; the preset regulation and control conditions comprise that the internal temperature is in a preset temperature interval for representing that a user feels moderate, and the internal humidity is in a preset humidity interval for representing that the user feels high humidity;

responding to the internal temperature and the internal humidity to determine that a preset regulation condition is met, and adjusting the running state of the air-conditioning clothes according to a preset regulation rule corresponding to the preset regulation condition; the regulation and control rules comprise that the air-conditioning clothes are controlled to operate in a refrigeration mode, the solution humidity control device is controlled to operate in a dehumidification mode corresponding to the humidity interval at working voltage, the compressor and the circulating water pump operate according to set parameters, the first outer fan operates in a high wind level, and the second outer fan stops operating;

after the air-conditioning clothes operate for t time at the working voltage U of the dehumidification mode corresponding to the humidity interval, re-detecting the internal humidity of the air-conditioning clothes, and judging whether the internal humidity is in the target humidity interval;

if the detected internal humidity is not in the target humidity interval after t time, adjusting the working voltage of the solution humidity control device to be U + n × Δ U, wherein the upper limit of the adjustment of the working voltage is the highest working voltage of the solution humidity control device, n is the sequence of the adjustment of the working voltage, and n is 1,2, … …; delta U is a reference variable value for adjusting the working voltage.

7. The air conditioning garment of claim 6, wherein the controller is further configured to:

acquiring the current working voltage in a control circuit of the air-conditioning clothes;

and when the current working voltage does not meet the preset voltage condition, controlling the power supply mode of the air conditioner clothes battery to be switched to the standby power supply mode.

8. The air conditioning garment of claim 6, wherein the controller is further configured to:

acquiring the internal humidity after the operation state of the air-conditioning clothes is adjusted;

and adjusting the operation state of the solution humidity adjusting device based on the internal humidity after the operation state of the air conditioning clothes is adjusted until the internal humidity is in a target humidity range.

9. The air conditioning garment of claim 6, wherein the set parameter of the compressor comprises a set frequency, the set frequency being associated with the temperature interval in the preset regulation condition.

10. The air-conditioning coat according to claim 6 or 9, wherein the set parameter of the circulating water pump comprises a set flow rate, and the controller calculates the set flow rate according to the following formula:

q＝Q*K2，

wherein Q is the set flow, and Q is the rated flow of the circulating water pump; k2 is a flow rate sequence coefficient associated with the regulation condition, and its value is 1.15.

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