CN118092548B - Blower temperature control method, blower and medium - Google Patents

Abstract

The application relates to a blower temperature control method, a blower and a medium, which are applied to the technical field of automatic control, and the method comprises the following steps: acquiring an operation gear, an external environment temperature and initial body information in response to a blower starting operation, wherein the initial body information comprises an initial internal temperature; generating target temperature rise data based on the operation gear, the external environment temperature and the initial body information; heating based on target heating data, and acquiring current body information in real time, wherein the current body information comprises current tuyere temperature and current internal temperature; judging whether cooling adjustment is needed or not based on the current internal temperature; if the cooling adjustment is needed, generating an internal temperature adjustment scheme based on the current tuyere temperature and a heating index; the blower is controlled based on the internal temperature adjustment scheme and the target temperature rise data. The application has the effect of realizing automatic regulation and control of the internal and external temperatures of the blower.

Description

Blower temperature control method, blower and medium

Technical Field

The application relates to the technical field of automatic control, in particular to a blower temperature control method, a blower and a medium.

Background

The hair dryer is mainly used for hair drying and plastic electrical apparatus, and along with the continuous improvement of living standard, the hair dryer becomes the requisite of every family, is provided with the gear switch on the handle of hair dryer, and the user passes through the wind speed and the temperature of gear switch selection blowing.

In the use process, the temperature of the blower is gradually increased along with the increase of the use time, and a user keeps the blower away from the blown article in order to keep the blowing temperature, but the temperature of the blower is not changed basically, so that the blower is not only adversely affected, but also the potential safety hazard of use is increased after long-term operation, and a method for automatically adjusting and controlling the internal and external temperatures of the blower is needed.

Disclosure of Invention

In order to realize automatic regulation and control of the internal and external temperatures of the blower, the application provides a blower temperature control method, a blower and a medium.

In a first aspect, the present application provides a method for controlling the temperature of a blower, which adopts the following technical scheme:

A blower temperature control method comprising:

acquiring an operation gear, an external environment temperature and initial body information in response to a blower starting operation, wherein the initial body information comprises an initial internal temperature;

Generating target warming data based on the operating gear, the external environment temperature and the initial body information;

Heating based on the target heating data, and acquiring current body information in real time, wherein the current body information comprises a current tuyere temperature and a current internal temperature;

judging whether cooling adjustment is needed or not based on the current tuyere temperature;

if cooling adjustment is needed, generating an internal temperature adjustment scheme based on the current tuyere temperature and the target heating data;

the blower is controlled based on the internal temperature adjustment scheme and the target temperature increase data.

Through adopting above-mentioned technical scheme, when receiving the operation hair-dryer of starting and not formally beginning operation yet, confirm the target temperature rising data of the during operation of air-dryer according to operation gear, external environment temperature and initial body information of selecting, carry out the temperature rising operation through target temperature rising data, can reach the demand temperature with the blowing temperature when starting, and establish the correlation with the state and the external environment temperature now of hair-dryer, control and reduce the possibility that internal temperature excessively increases at the initial stage of starting, try to monitor current body information in the use, when current wind gap temperature risen to the temperature that needs the cooling adjustment, indicate that current internal temperature increases the processing of need cooling equally, generate internal temperature adjustment scheme according to current wind gap temperature and target temperature rising data, use internal temperature adjustment scheme to adjust, reduce internal temperature when guaranteeing wind gap temperature as far as, thereby realize the automatically regulated control of internal and external temperature of hair-dryer.

Optionally, the generating the target temperature increase data based on the operating gear, the external environment temperature, and the initial body information includes:

acquiring a heating standard index and historical use data;

determining a temperature increase index based on the operating gear and the temperature increase standard index, wherein the temperature increase index comprises blowing power and heating temperature;

Judging whether the blower is used for the first time based on the historical use data;

If the historical use data judges that the blower is used for the first time, generating target heating data based on the heating index, the external environment temperature and the initial body information;

and if the historical use data judges that the blower is not used for the first time, generating target heating data based on the historical use data, the heating index, the external environment temperature and the initial body information.

Optionally, the generating the target warming data based on the warming index, the external environment temperature, and the initial body information includes:

Acquiring a temperature interval corresponding to the heating temperature;

Judging whether the initial internal temperature is in the temperature interval;

if the initial internal temperature is in the temperature range, taking the initial internal temperature as a first heating value;

determining a first tuyere temperature based on the first heating value and the blowing power;

calculating a tuyere temperature difference between the external environment temperature and the first tuyere temperature;

Calculating a temperature increase adjustment value based on the temperature difference value, and determining a target temperature increase value based on the temperature increase adjustment value and the first temperature increase value;

Taking the target heating value and the blowing power as target heating data;

If the initial internal temperature is not in the temperature interval, calculating an internal temperature difference value between the initial internal temperature and the heating temperature;

determining a temperature adjustment value based on the internal temperature difference and a preset adjustment rule;

Calculating the sum of the temperature adjustment value and the heating temperature, and taking the sum as a first heating value;

And executing the step of determining a first tuyere temperature based on the first heating value and the blowing power.

Optionally, the generating the target warming data based on the historical usage data, the warming index, the external environment temperature, and the initial body information includes:

Acquiring a temperature interval corresponding to the heating temperature;

Determining a comfort adjustment temperature based on the historical usage data;

adjusting the temperature interval based on the comfort adjustment temperature to generate an adjustment temperature interval;

Judging whether the initial internal temperature is in the adjustment temperature interval;

if the initial internal temperature is in the temperature adjustment range, taking the initial internal temperature as a first heating value;

determining a first tuyere temperature based on the first heating value and the blowing power;

calculating a tuyere temperature difference between the external environment temperature and the first tuyere temperature;

Calculating a temperature increase adjustment value based on the temperature difference value, and determining a target temperature increase value based on the temperature increase adjustment value and the first temperature increase value;

Taking the target heating value and the blowing power as target heating data;

If the initial internal temperature is not in the temperature adjustment range, calculating an internal temperature difference value between the initial internal temperature and the heating temperature;

determining a temperature adjustment value based on the internal temperature difference and a preset adjustment rule;

Calculating the sum of the temperature adjustment value and the heating temperature, and taking the sum as a first heating value;

And executing the step of determining a first tuyere temperature based on the first heating value and the blowing power.

Optionally, the determining whether cooling adjustment is needed based on the current tuyere temperature includes:

Acquiring a temperature threshold value of the operation gear;

Judging whether the current tuyere temperature is not less than the temperature threshold value;

If the current tuyere temperature is not less than the temperature threshold value, judging that cooling adjustment is needed;

If the current tuyere temperature is smaller than the temperature threshold value, judging that cooling adjustment is not needed.

Optionally, the generating an internal temperature adjustment scheme based on the current tuyere temperature and the target temperature increase data includes:

acquiring a tuyere temperature interval, a power interval of the blowing power and a heating interval;

determining a tuyere temperature adjustment interval based on a tuyere lower limit value of the tuyere temperature interval and the current tuyere temperature;

Acquiring heat loss;

Calculating an internal temperature adjustment interval based on the heat loss, the current internal temperature and the tuyere temperature adjustment interval;

Determining a heating adjustment zone based on the internal temperature adjustment zone and the heating use zone;

Adjusting the power interval based on the tuyere temperature adjustment interval to generate a power adjustment interval;

An internal temperature adjustment scheme is generated based on the tuyere temperature adjustment zone, the heating adjustment zone, and the power adjustment zone.

Optionally, after the generating the internal temperature adjustment scheme based on the current tuyere temperature and the target temperature increase data, the method further includes:

monitoring the use process of the internal temperature adjustment scheme to obtain monitoring information;

acquiring a user use suggestion;

judging whether adjustment is needed or not based on the user use suggestion;

if the adjustment is needed, adjusting the target heating data and the internal adjustment scheme based on the user use advice and the monitoring information;

And if the target temperature rise data does not need to be adjusted, binding and storing the target temperature rise data and the internal temperature adjustment scheme.

Optionally, the operating gear includes a standard tuyere temperature; before judging whether cooling adjustment is needed based on the current tuyere temperature, the method further comprises the following steps:

determining a standard heating duration interval based on the target heating value, the standard tuyere temperature and the initial tuyere temperature;

acquiring the heating time length of the current tuyere temperature, and judging whether the heating time length is in the standard heating time length interval;

and if the temperature is not in the standard heating duration interval, directly powering off.

In a second aspect, the present application provides a blower, which adopts the following technical scheme:

An air outlet machine comprises a processor, wherein the processor is coupled with a memory;

The processor is configured to execute a computer program stored in the memory, so that the blower executes the computer program of the blower temperature control method according to any one of the first aspects.

In a fourth aspect, the present application provides a computer readable storage medium, which adopts the following technical scheme:

a computer-readable storage medium storing a computer program capable of being loaded by a processor and executing the blower temperature control method of any one of the first aspects.

Drawings

Fig. 1 is a schematic flow chart of a method for controlling temperature of a blower according to an embodiment of the present application.

Fig. 2 is a block diagram of a blower according to an embodiment of the present application.

Detailed Description

The present application will be described in further detail with reference to the accompanying drawings.

Fig. 1 is a schematic flow chart of a method for controlling temperature of a blower according to an embodiment of the present application.

As shown in fig. 1, the main flow of the method is described as follows (steps S101 to S106):

Step S101, in response to a blower start operation, acquiring an operation gear, an external environment temperature, and initial body information, wherein the initial body information includes an initial internal temperature.

In this embodiment, when the user starts the blower, the corresponding gear is selected, the gear selected by the user is the operation gear to be executed by the blower, and the operation gear includes two parts, namely a temperature gear and a wind speed gear, and since the external environment temperature and the condition of the blower can also affect the subsequent temperature and wind speed, the external environment temperature and the initial body information are collected while the operation gear is collected, and the initial body information is the body information when the blower is started just this time and is not operated, and since the blower is not completely cooled under the condition of the initial body information when the blower is used this time, certain influence is caused on the use this time, so that the initial internal temperature in the initial body information needs to be collected and used, and the temperature adjustment is more accurate.

Step S102, generating target temperature rise data based on the operation gear, the external environment temperature and the initial body information.

Aiming at step S102, obtaining a heating standard index and historical use data; determining a heating index based on the operation gear and a heating standard index, wherein the heating index comprises blowing power and heating temperature; judging whether the blower is used for the first time based on the historical use data; if the historical use data judges that the blower is used for the first time, generating target heating data based on the heating index, the external environment temperature and the initial body information; and if the historical use data judges that the blower is not used for the first time, generating target heating data based on the historical use data, the heating index, the external environment temperature and the initial body information.

In this embodiment, when generating the target heating data, the heating index is first determined according to the operation gear and the heating standard index, where the heating standard index is the heating index corresponding to each operation gear, that is, the temperature or the wind speed and the wind quantity corresponding to each operation gear, for example, the temperature gear is the first temperature gear, the second temperature gear and the third temperature respectively, the first temperature gear is the first heating temperature, the second temperature gear is the second heating temperature and the third temperature respectively, and the wind speed gear is the first wind speed gear, the second wind speed gear and the third wind speed gear respectively, and the first wind speed gear is the first wind power, the second wind speed gear is the second wind power and the third wind speed power respectively, where both the heating temperature and the wind speed power are set in a section form, that is, the index is set to a section value, and when blowing and heating, the air and the heating are only required to be located in the section.

After determining the corresponding temperature rising index according to the operation gear, determining whether the blower is used for the first time, namely judging whether the blower is used for the first time, if the blower is not used for the first time, no user use data which can be referred to exists, the target temperature rising data which is more suitable for the user cannot be adjusted according to the historical use condition of the user, three data including the temperature rising index, the external environment temperature and the initial body information are used when the temperature rising data are generated, and if the historical use data exist, the three data including the historical use data, the temperature rising index, the external environment temperature and the initial body information are used to generate the target temperature rising data. It should be noted that, the historical usage data needs to reach a certain usage data to be able to be used in reference, and a usage number threshold is set, and when the usage number of the historical usage data is not less than the usage number threshold, it can be determined that the blower is not used for the first time, and the specific usage number threshold needs to be set according to actual requirements, which is not limited herein.

Under the condition that the blower is used for the first time, acquiring a temperature interval corresponding to the heating temperature; judging whether the initial internal temperature is in a temperature interval; if the initial internal temperature is in the temperature interval, taking the initial internal temperature as a first heating value; determining a first tuyere temperature based on the first heating value and the blowing power; calculating a tuyere temperature difference between the external environment temperature and the first tuyere temperature; calculating a temperature increase adjustment value based on the temperature difference value, and determining a target temperature increase value based on the temperature increase adjustment value and the first temperature increase value; taking the target heating value and the blowing power as target heating data; if the initial internal temperature is not in the temperature interval, calculating an internal temperature difference value between the initial internal temperature and the heating temperature; determining a temperature adjustment value based on the internal temperature difference value and a preset adjustment rule; calculating the sum of the temperature regulation value and the heating temperature, and taking the sum as a first heating value; the step of determining the first tuyere temperature based on the first heating value and the blowing power is performed.

Determining a temperature interval corresponding to a heating temperature, checking whether the initial internal temperature is located in the temperature interval, if the initial internal temperature is located in the temperature interval, directly adopting the temperature to raise the temperature under the condition that the external environment temperature is not considered, but the external environment temperature also affects the whole temperature raising, so when determining target temperature raising data, firstly taking the initial internal temperature as a first temperature raising value, acquiring a relation table of blowing power and heat loss, determining the heat loss under the current blowing power according to the relation table, calculating according to the first temperature raising value and the blowing power to obtain a first tuyere temperature, namely subtracting the heat loss value corresponding to the blowing power from the first temperature raising value to obtain a first tuyere temperature, then calculating a temperature difference between the first tuyere temperature and the external environment temperature, wherein the temperature difference is an absolute value of a calculated value, comparing the temperature difference with a preset regulating threshold, when the temperature difference is smaller than the preset regulating threshold, directly taking the first temperature raising value as a target temperature raising value, when the temperature difference is larger than or equal to the preset regulating threshold, acquiring a regulating rule, calculating the regulating rule according to the relation table, calculating the first temperature raising value and the regulating rule, and obtaining the first tuyere temperature according to the fact that the corresponding temperature raising value is the first temperature raising value and the regulating value, and the regulating value is the first temperature and the actual temperature is the regulating value.

If the initial internal temperature is not in the temperature interval, it means that the temperature rising and blowing can affect the final tuyere temperature, adjustment is needed, the internal temperature difference value between the initial internal temperature and the temperature interval is calculated by using the lower limit value of the temperature interval, the preset adjustment rule is set in a mode of interval-to-interval correspondence, that is, a pair of difference intervals is set, each difference interval corresponds to an adjustment value, the internal temperature difference value is compared with the difference interval, the difference interval where the internal temperature difference value is located is determined, the adjustment value corresponding to the difference interval is taken as the temperature adjustment value, then the sum of the temperature adjustment value and the heating temperature is taken as the first temperature rising value, and the step of determining the first tuyere temperature by the first temperature rising value and the blowing power is executed, so that redundant description is omitted.

Under the condition that the blower is not used for the first time, acquiring a temperature interval corresponding to the heating temperature; determining a comfort adjustment temperature based on the historical usage data; adjusting the temperature interval based on the comfort adjustment temperature to generate an adjustment temperature interval; judging whether the initial internal temperature is in an adjustment temperature interval; if the initial internal temperature is in the temperature adjustment interval, taking the initial internal temperature as a first heating value; determining a first tuyere temperature based on the first heating value and the blowing power; calculating a tuyere temperature difference between the external environment temperature and the first tuyere temperature; calculating a temperature increase adjustment value based on the temperature difference value, and determining a target temperature increase value based on the temperature increase adjustment value and the first temperature increase value; taking the target heating value and the blowing power as target heating data; if the initial internal temperature is not in the temperature adjustment interval, calculating an internal temperature difference value between the initial internal temperature and the heating temperature; determining a temperature adjustment value based on the internal temperature difference value and a preset adjustment rule; calculating the sum of the temperature regulation value and the heating temperature, and taking the sum as a first heating value; the step of determining the first tuyere temperature based on the first heating value and the blowing power is performed.

Summarizing historical use data, summarizing according to information such as a historical use regulation mode and a regulated temperature to obtain a user comfort regulation temperature, comparing the comfort temperature with an upper limit value and a lower limit value of a temperature interval, directly taking the temperature interval as a regulation temperature interval if the comfort temperature is positioned in the temperature interval, establishing a new temperature regulation interval according to the upper limit value or the lower limit value and the comfort regulation temperature if the numerical temperature is larger than the upper limit value or smaller than the lower limit value, setting the temperature regulation interval as [ upper limit value, comfort regulation temperature ] when the numerical temperature is larger than the upper limit value and smaller than the lower limit value, setting the temperature regulation interval as [ comfort regulation temperature, lower limit value ], determining the temperature regulation interval, adopting the same processing mode as the condition that the blower is used for the first time to perform further processing, namely determining the temperature regulation interval corresponding to the heating temperature, checking whether the initial internal temperature is located in the temperature adjustment interval, if the initial internal temperature is located in the temperature adjustment interval, the temperature can be directly adopted to raise the temperature when raising the temperature without considering the external environment temperature, but the external environment temperature also affects the whole temperature raising, therefore, when determining the target temperature raising data, firstly taking the initial internal temperature as a first temperature raising value, acquiring a relation table of blowing power and heat loss, determining the heat loss under the current blowing power according to the relation table, calculating the first tuyere temperature according to the first temperature raising value and the blowing power, namely subtracting the heat loss value corresponding to the blowing power from the first temperature raising value to obtain the first tuyere temperature, then calculating the temperature difference between the first tuyere temperature and the external environment temperature, wherein the temperature difference is the absolute value of the calculated value, comparing the temperature difference with a preset regulation threshold, setting the temperature rise regulation value to zero when the temperature difference is smaller than the preset regulation threshold, directly taking the first temperature rise value as a target temperature rise value, acquiring a regulation rule when the temperature difference is larger than or equal to the preset regulation threshold, wherein the regulation rule comprises the temperature difference and the temperature rise regulation value corresponding to the temperature difference, when the temperature rise regulation value is determined according to the temperature difference, one temperature difference possibly corresponds to two temperature regulation values due to the fact that the actual value of the temperature difference is negative, selecting the temperature difference according to the actual value of the temperature difference, and calculating the sum of the temperature regulation value and the first temperature rise threshold to be the most target temperature rise value after determining the temperature rise regulation value.

If the initial internal temperature is not in the temperature adjustment interval, it means that the temperature rising and blowing can affect the final tuyere temperature, adjustment is needed, the internal temperature difference value between the initial internal temperature and the temperature adjustment interval is calculated by using the lower limit value of the temperature adjustment interval, the preset adjustment rule is set in an interval-to-interval corresponding mode, that is, a corresponding difference interval is set, each difference interval corresponds to an adjustment value, the internal temperature difference value is compared with the difference interval, the difference interval in which the internal temperature difference value is located is determined, the adjustment value corresponding to the difference interval is taken as the temperature adjustment value, then the sum of the temperature adjustment value and the heating temperature is taken as the first heating value, and the steps of determining the first tuyere temperature by the first heating value and the blowing power are executed, and are not repeated herein.

The purpose of the initial internal temperature is to reduce the problems of rapid temperature rise or higher temperature rise during temperature rise by taking the initial internal temperature as a reference, thereby reducing the difficulty of subsequent temperature regulation.

Step S103, heating is performed based on the target heating data, and current body information is obtained in real time, wherein the current body information comprises the current tuyere temperature and the current internal temperature.

In this embodiment, when the target temperature-raising data is used to raise the temperature, the current body information is to be acquired in real time, that is, the current air port temperature and the current internal temperature of the blower are acquired in real time, so as to facilitate the judgment and use of whether the temperature-lowering adjustment is required.

Step S104, judging whether cooling adjustment is needed or not based on the current tuyere temperature.

Aiming at step S104, acquiring a temperature threshold of an operation gear; judging whether the current tuyere temperature is not less than a temperature threshold value; if the current tuyere temperature is not less than the temperature threshold value, judging that cooling adjustment is needed; if the current tuyere temperature is smaller than the temperature threshold value, judging that cooling adjustment is not needed.

In this embodiment, each operating gear has a corresponding temperature threshold value, the current tuyere temperature is compared with the temperature threshold value, if the current tuyere temperature is not less than the temperature threshold value, the user may perform distance adjustment, and the internal temperature is too high, so that it is determined that cooling adjustment is required, if the current tuyere temperature is less than the temperature threshold value, the current tuyere temperature is still at a normal temperature, the user basically does not perform distance adjustment, and the internal temperature is temporarily normal, so that it is determined that cooling adjustment is not required.

Step S105, if cooling adjustment is required, generating an internal temperature adjustment scheme based on the current tuyere temperature and the target temperature increase data.

Aiming at step S105, acquiring a tuyere temperature interval, a power interval of blowing power and a heating interval; determining a tuyere temperature adjustment interval based on a tuyere lower limit value of the tuyere temperature interval and a current tuyere temperature; acquiring heat loss; calculating an internal temperature adjustment interval based on the heat loss, the current internal temperature and the air inlet temperature adjustment interval; determining a heating adjustment zone based on the internal temperature adjustment zone and the heating use zone; adjusting the power interval based on the tuyere temperature adjustment interval to generate a power adjustment interval; an internal temperature adjustment scheme is generated based on the tuyere temperature adjustment zone, the heating adjustment zone, and the power adjustment zone.

In the present embodiment, the usage heating section here includes a temperature section and a temperature adjustment section, and the usage heating section is the temperature section when there is no history usage data, and the usage heating section is the temperature adjustment section when there is history usage data. When the air gap temperature adjustment interval is determined, the air gap lower limit value of the air gap temperature interval is taken as the lower limit value of the air gap temperature adjustment interval, and the current air gap temperature is taken as the upper limit value of the air gap temperature adjustment interval, so that the air gap temperature adjustment interval is formed. The method comprises the steps of calculating a target internal adjustment interval according to heat loss and a tuyere temperature adjustment interval, adjusting the target internal adjustment interval according to the current internal temperature, namely, when the upper limit value of the target internal adjustment interval is larger than the current internal temperature, acquiring a safe temperature, taking the safe temperature as the upper limit value to form the internal temperature adjustment interval, determining a heating adjustment interval according to the internal temperature adjustment interval and a heating use interval, namely, selecting the maximum value of the lower limit value of the internal temperature adjustment interval and the lower limit value of the heating use interval as the lower limit value of the heating adjustment interval, and selecting the minimum value of the upper limit value of the internal temperature adjustment interval and the upper limit value of the heating use interval as the upper limit value of the heating adjustment interval, so that the heating adjustment interval is obtained. The method comprises the steps of obtaining a preset regulation table, comparing an upper limit value and a lower limit value of a tuyere temperature regulation zone with the preset regulation table to obtain power corresponding to the upper limit value and power corresponding to the lower limit value, calculating an upper limit difference between the power corresponding to the upper limit value and the upper limit value of the power zone and a lower limit difference between the power corresponding to the lower limit value and the lower limit value of the power zone, using the upper limit value as the upper limit value of the power regulation zone if the upper limit difference is not larger than a preset upper limit threshold value, otherwise using the power corresponding to the upper limit value as the upper limit value of the power regulation zone, and similarly using the lower limit value as the lower limit value of the power regulation zone if the lower limit difference is not larger than a preset lower limit threshold value, and then using the power corresponding to the lower limit value as the lower limit value of the power regulation zone, so as to generate the power regulation zone, and binding the tuyere temperature regulation zone, the heating regulation zone and the power regulation zone to generate an internal temperature regulation scheme.

Step S106, controlling the blower based on the internal temperature adjustment scheme and the target temperature increase data.

In this embodiment, after the blower is started, the blower is controlled by using the target temperature rising data, and after the cooling treatment is determined to be needed, the blower is controlled by using the internal temperature adjustment scheme, so that the internal temperature of the blower is reduced, the temperature of the air port is maintained, and the use feeling of a user can be ensured while the use safety is improved.

After the blower is controlled by using the internal temperature adjustment scheme, monitoring the use process of the internal temperature adjustment scheme to obtain monitoring information; acquiring a user use suggestion; judging whether adjustment is needed or not based on the user use advice; if the target temperature rise data and the internal adjustment scheme are required to be adjusted, the target temperature rise data and the internal adjustment scheme are adjusted based on the use suggestions and the monitoring information of the user; and if the target temperature rise data does not need to be adjusted, binding and storing the target temperature rise data and the internal temperature adjustment scheme.

The monitoring information comprises actual execution information and adjustment information of a user, if the use proposal of the user is good, the target heating data and the internal temperature adjustment proposal are judged to be not needed to be adjusted, the target heating data and the internal temperature adjustment proposal are directly bound and then stored, if the use proposal of the user is needed to be adjusted, whether the text proposal is included or not is checked, if the text proposal is included, the temperature adjustment direction is determined according to the text proposal, namely, the tuyere temperature is increased or the wind temperature is reduced, an adjustment safety value is obtained, the adjustment safety value and the execution information are formulated again according to the formulation step of the internal temperature adjustment proposal, if the text proposal is not included, the tuyere temperature is determined according to the adjustment information of the user, the adjustment safety value is obtained, and the adjustment is performed again according to the formulation step of the internal temperature adjustment proposal according to the adjustment safety value and the execution information.

When the blower heats according to the target heating index, determining a standard heating duration interval based on the target heating value, the standard air port temperature and the initial air port temperature; acquiring the heating time length of the current tuyere temperature, and judging whether the heating time length is in a standard heating time length interval; if the temperature is not in the standard temperature rise duration interval, the power is directly cut off.

If the temperature of the blower is too fast or too slow during use, the blower is likely to fail, a safety problem will occur during continuous use, in order to reduce potential safety hazards, a standard temperature rise time interval is calculated according to a target temperature rise value, a standard air port temperature and an initial air port temperature during each use, temperature rise processing is performed after the blower is started, therefore the temperature rise time of the blower is counted after the blower is started, comparison of the temperature rise time and the standard temperature rise time interval is performed in real time, and when the temperature rise time is outside the standard temperature rise time interval, the fact that the blower has a problem is indicated, and power-off processing is directly performed.

Fig. 2 is a block diagram of a blower 200 according to an embodiment of the present application.

As shown in FIG. 2, blower 200 includes a processor 201 and a memory 202, and may further include an information input/information output (I/O) interface 203, one or more of a communication component 204, and a communication bus 205.

Wherein the processor 201 is configured to control the overall operation of the blower 200 to perform all or part of the steps of the blower temperature control method described above; the memory 202 is used to store various types of data to support operation at the blower 200, which may include, for example, instructions for any application or method operating on the blower 200, as well as application-related data. The Memory 202 may be implemented by any type or combination of volatile or non-volatile Memory devices, such as one or more of static random access Memory (Static Random Access Memory, SRAM), electrically erasable programmable Read-Only Memory (ELECTRICALLY ERASABLE PROGRAMMABLE READ-Only Memory, EEPROM), erasable programmable Read-Only Memory (Erasable Programmable Read-Only Memory, EPROM), programmable Read-Only Memory (Programmable Read-Only Memory, PROM), read-Only Memory (ROM), magnetic Memory, flash Memory, magnetic disk, or optical disk.

The I/O interface 203 provides an interface between the processor 201 and other interface modules, which may be a keyboard, mouse, buttons, etc. These buttons may be virtual buttons or physical buttons. The communication component 204 is used for wired or wireless communication between the blower 200 and other devices. Wireless Communication, such as Wi-Fi, bluetooth, near field Communication (NFC for short), 2G, 3G, or 4G, or a combination of one or more thereof, and accordingly the Communication component 104 can include: wi-Fi part, bluetooth part, NFC part.

Blower 200 may be implemented by one or more Application Specific Integrated Circuits (ASIC), digital signal Processor (DIGITAL SIGNAL Processor, DSP), digital signal processing device (DIGITAL SIGNAL Processing Device, DSPD), programmable logic device (Programmable Logic Device, PLD), field programmable gate array (Field Programmable GATE ARRAY, FPGA), controller, microcontroller, microprocessor, or other electronic components for performing the blower temperature control method as set forth in the above embodiments.

Communication bus 205 may include a path to transfer information between the aforementioned components. The communication bus 205 may be a PCI (PERIPHERAL COMPONENT INTERCONNECT, peripheral component interconnect standard) bus or an EISA (Extended Industry Standard Architecture ) bus, or the like. Communication bus 205 may be classified as an address bus, a data bus, a control bus, or the like.

The blower 200 may include, but is not limited to, mobile terminals such as mobile phones, notebook computers, digital broadcast receivers, PDAs (personal digital assistants), PADs (tablet computers), PMPs (portable multimedia players), car terminals (e.g., car navigation terminals), and the like, and fixed terminals such as digital TVs, desktop computers, and the like, and may also be servers and the like.

The application also provides a computer readable storage medium, wherein the computer readable storage medium stores a computer program, and the computer program realizes the steps of the blower temperature control method when being executed by a processor.

The computer readable storage medium may include: a usb disk, a removable hard disk, a read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

The terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, 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, article, or apparatus.

The above description is only illustrative of the preferred embodiments of the present application and of the principles of the technology employed. It will be appreciated by persons skilled in the art that the scope of the application is not limited to the specific combinations of the features described above, but also covers other embodiments which may be formed by any combination of the features described above or their equivalents without departing from the spirit of the application. Such as the above-mentioned features and the technical features having similar functions (but not limited to) applied for in the present application are replaced with each other.

Claims (8)

1. A method of controlling the temperature of a blower, comprising:

acquiring an operation gear, an external environment temperature and initial body information in response to a blower starting operation, wherein the initial body information comprises an initial internal temperature;

Generating target warming data based on the operating gear, the external environment temperature and the initial body information;

Heating based on the target heating data, and acquiring current body information in real time, wherein the current body information comprises a current tuyere temperature and a current internal temperature;

judging whether cooling adjustment is needed or not based on the current tuyere temperature;

if cooling adjustment is needed, generating an internal temperature adjustment scheme based on the current tuyere temperature and the target heating data;

controlling the blower based on the internal temperature adjustment scheme and the target temperature increase data;

the generating target temperature increase data based on the operating range, the external environment temperature, and the initial body information includes:

acquiring a heating standard index and historical use data;

determining a temperature increase index based on the operating gear and the temperature increase standard index, wherein the temperature increase index comprises blowing power and heating temperature;

Judging whether the blower is used for the first time based on the historical use data;

If the historical use data judges that the blower is used for the first time, generating target heating data based on the heating index, the external environment temperature and the initial body information;

if the historical usage data judges that the blower is not used for the first time, generating target heating data based on the historical usage data, the heating index, the external environment temperature and the initial body information;

the generating target warming data based on the warming index, the external environment temperature, and the initial body information includes:

Acquiring a temperature interval corresponding to the heating temperature;

Judging whether the initial internal temperature is in the temperature interval;

if the initial internal temperature is in the temperature range, taking the initial internal temperature as a first heating value;

determining a first tuyere temperature based on the first heating value and the blowing power;

calculating a tuyere temperature difference between the external environment temperature and the first tuyere temperature;

Calculating a temperature increase adjustment value based on the temperature difference value, and determining a target temperature increase value based on the temperature increase adjustment value and the first temperature increase value;

Taking the target heating value and the blowing power as target heating data;

If the initial internal temperature is not in the temperature interval, calculating an internal temperature difference value between the initial internal temperature and the heating temperature;

determining a temperature adjustment value based on the internal temperature difference and a preset adjustment rule;

Calculating the sum of the temperature adjustment value and the heating temperature, and taking the sum as a first heating value;

And executing the step of determining a first tuyere temperature based on the first heating value and the blowing power.

2. The method of claim 1, wherein the generating target warming data based on the historical usage data, the warming index, the external ambient temperature, and the initial ontology information comprises:

Acquiring a temperature interval corresponding to the heating temperature;

Determining a comfort adjustment temperature based on the historical usage data;

adjusting the temperature interval based on the comfort adjustment temperature to generate an adjustment temperature interval;

Judging whether the initial internal temperature is in the adjustment temperature interval;

if the initial internal temperature is in the temperature adjustment range, taking the initial internal temperature as a first heating value;

determining a first tuyere temperature based on the first heating value and the blowing power;

calculating a tuyere temperature difference between the external environment temperature and the first tuyere temperature;

Calculating a temperature increase adjustment value based on the temperature difference value, and determining a target temperature increase value based on the temperature increase adjustment value and the first temperature increase value;

Taking the target heating value and the blowing power as target heating data;

If the initial internal temperature is not in the temperature adjustment range, calculating an internal temperature difference value between the initial internal temperature and the heating temperature;

determining a temperature adjustment value based on the internal temperature difference and a preset adjustment rule;

Calculating the sum of the temperature adjustment value and the heating temperature, and taking the sum as a first heating value;

And executing the step of determining a first tuyere temperature based on the first heating value and the blowing power.

3. The method of claim 1, wherein determining whether a cooling adjustment is required based on the current tuyere temperature comprises:

Acquiring a temperature threshold value of the operation gear;

Judging whether the current tuyere temperature is not less than the temperature threshold value;

If the current tuyere temperature is not less than the temperature threshold value, judging that cooling adjustment is needed;

If the current tuyere temperature is smaller than the temperature threshold value, judging that cooling adjustment is not needed.

4. The method of claim 1 or 2, wherein the generating an internal temperature adjustment scheme based on the current tuyere temperature and the target warming data comprises:

acquiring a tuyere temperature interval, a power interval of the blowing power and a heating interval;

determining a tuyere temperature adjustment interval based on a tuyere lower limit value of the tuyere temperature interval and the current tuyere temperature;

Acquiring heat loss;

Calculating an internal temperature adjustment interval based on the heat loss, the current internal temperature and the tuyere temperature adjustment interval;

Determining a heating adjustment interval based on the internal temperature adjustment interval and the usage heating interval;

adjusting the power interval based on the tuyere temperature adjustment interval to generate a power adjustment interval;

An internal temperature adjustment scheme is generated based on the tuyere temperature adjustment zone, the heating adjustment zone, and the power adjustment zone.

5. The method of claim 4, further comprising, after the generating an internal temperature adjustment scheme based on the current tuyere temperature and the target warming data:

monitoring the use process of the internal temperature adjustment scheme to obtain monitoring information;

acquiring a user use suggestion;

judging whether adjustment is needed or not based on the user use suggestion;

If the internal temperature is required to be adjusted, adjusting the target temperature rise data and the internal temperature adjustment scheme based on the user use advice and the monitoring information;

And if the target temperature rise data does not need to be adjusted, binding and storing the target temperature rise data and the internal temperature adjustment scheme.

6. The method of claim 1, wherein the operating range comprises a standard tuyere temperature; before judging whether cooling adjustment is needed based on the current tuyere temperature, the method further comprises the following steps:

determining a standard heating duration interval based on the target heating value, the standard tuyere temperature and the initial tuyere temperature;

acquiring the heating time length of the current tuyere temperature, and judging whether the heating time length is in the standard heating time length interval;

If the temperature is not in the standard temperature rise duration interval, the power is directly cut off.

7. A blower comprising a processor coupled to a memory;

The processor is configured to execute a computer program stored in the memory to cause the blower to perform the method of any one of claims 1 to 6.

8. A computer readable storage medium comprising a computer program or instructions which, when run on a computer, cause the computer to perform the method of any of claims 1 to 6.