CN117515795A - Dehumidification equipment, control method and control device thereof - Google Patents

Abstract

The invention discloses a dehumidification device, a control method and a control device thereof, belonging to the field of electrical equipment, wherein the dehumidification device is integrated with a sterilization module, and the method comprises the following steps: acquiring first humidity data and first temperature data of an environment where dehumidification equipment is located; determining whether to start the sterilization module according to the first humidity data and the first temperature data; if the sterilization module is started, determining target operation parameters required by the operation of the sterilization module according to the first humidity data, and controlling the sterilization module to perform sterilization according to the target operation parameters. The invention solves the technical problem that the sterilization function of the dehumidification equipment is not intelligent to open.

Description

Dehumidification equipment, control method and control device thereof

Technical Field

The invention belongs to the field of electrical equipment, and particularly relates to dehumidification equipment, a control method and a control device thereof.

Background

The dehumidifying machine integrates a sterilizing function and is used for sterilizing the dehumidifying environment. The sterilization function of the dehumidifier needs to be manually started by a user, so that the sterilization function of the dehumidifier is not started intelligently, if the sterilization function is not started on time by the user, bacteria, viruses and the like in the environment are increased, the environmental quality is reduced, and the intelligent sterilization requirement of the user cannot be met.

Disclosure of Invention

In view of the above technical problems in the related art, embodiments of the present invention provide a dehumidification device, a control method and a control apparatus thereof, so as to solve the technical problem that the sterilization function of the dehumidification device is not intelligent.

In a first aspect, an embodiment of the present invention provides a method for controlling a dehumidifying apparatus, in which a sterilization module is integrated, the method including: acquiring first humidity data and first temperature data of an environment where the dehumidification equipment is located; determining whether to start the sterilization module according to the first humidity data and the first temperature data; and if the sterilization module is started, determining a target operation parameter required by the operation of the sterilization module according to the first humidity data, and controlling the sterilization module to perform sterilization work according to the target operation parameter.

With reference to the first aspect of the present invention, in some embodiments, after the controlling the sterilization module to perform the sterilization operation with the target operation parameter, the method further includes: after the sterilization time length of the sterilization module reaches a preset time length, detecting second humidity data and second temperature data of the environment where the dehumidification equipment is located; determining whether to shut down the sterilization module according to the second humidity data and the second temperature data; and if the sterilization module is not closed, updating operation parameters required by the operation of the sterilization module according to the second humidity data and the second temperature data.

With reference to the first aspect of the present invention, in some embodiments, the determining whether to turn on the sterilization module according to the first humidity data and the first temperature data includes: if the first humidity data reach a first humidity threshold lower limit and do not reach a second humidity threshold lower limit, determining whether to start the sterilization module according to the first temperature data, wherein the second humidity threshold lower limit is higher than the first humidity threshold lower limit; and if the first humidity data reaches the lower limit of the second humidity threshold, starting the sterilization module.

With reference to the first aspect of the present invention, in some embodiments, the determining whether to turn on the sterilization module according to the first temperature data includes: if the first temperature data reach the lower limit of a preset temperature threshold, starting the sterilization module; otherwise, the sterilization module is not started.

With reference to the first aspect of the present invention, in some embodiments, a plurality of humidity intervals are divided in sequence from large to small according to ambient humidity in advance, each humidity interval is configured with an operation parameter for the sterilization module, and the determining, according to the first humidity data, a target operation parameter required for operation of the sterilization module includes: determining a target humidity interval in which the first humidity data are located; and taking the operation parameters which are correspondingly configured in the target humidity interval as target operation parameters required by operation after the sterilization module is started.

With reference to the first aspect of the present invention, in some embodiments, the plurality of humidity intervals includes a first humidity interval, a second humidity interval, and a third humidity interval that are sequentially ordered from big to small, and the operating parameter configured to correspond to the target humidity interval is used as a target operating parameter required for operation after the sterilization module is turned on, and includes: if the target humidity interval is a first humidity interval, taking the first operation parameter configured for the first humidity interval as a target operation parameter required by the operation after the sterilization module is started; if the target humidity interval is a second humidity interval, taking a second operation parameter configured for the second humidity interval as a target operation parameter required by the operation after the sterilization module is started, wherein the sterilization efficiency of the second operation parameter is lower than that of the first operation parameter; and if the target humidity interval is a third humidity interval, taking a third operation parameter configured for the third humidity interval as a target operation parameter required by the operation after the sterilization module is started, wherein the sterilization efficiency of the third operation parameter is lower than that of the second operation parameter.

With reference to the first aspect of the present application, in some embodiments, the sterilization module includes an ultraviolet generator and a positive and negative ion generator; the target operating parameters include a target power required for the ultraviolet generator to operate; or the target operating parameters simultaneously include: the target power required for operation of the ultraviolet generator, and the target operating voltage required for operation of the positive and negative ion generators.

In combination with the first aspect of the present invention, in some embodiments, after updating the operation parameters required for the operation of the sterilization module according to the second humidity data and the second temperature data, the method further includes: controlling the sterilization module to continue sterilization work with the updated operation parameters; and after the working time of the sterilization module with the updated operation parameters reaches the preset time, re-detecting second humidity data and second temperature data of the environment where the dehumidification equipment is located, and judging whether to close the sterilization module based on a re-detection result.

In a second aspect, an embodiment of the present invention provides a control device for a dehumidifying apparatus, in which a sterilization module is integrated, the control device comprising: the first data acquisition unit is used for acquiring first humidity data and first temperature data of the environment where the dehumidification equipment is located; the starting control unit is used for determining whether to start the sterilization module according to the first humidity data and the first temperature data; and the operation control unit is used for determining target operation parameters required by the operation of the sterilization module according to the first humidity data if the sterilization module is started, and controlling the sterilization module to perform sterilization work according to the target operation parameters.

In a third aspect, an embodiment of the present invention provides a dehumidifying apparatus, integrated with a sterilization module, where the dehumidifying apparatus includes a memory, a processor, and a computer program stored on the memory and executable on the processor, and the processor implements the method according to any embodiment of the first aspect when executing the program.

The one or more technical solutions provided by the embodiments of the present invention at least achieve the following technical effects or advantages:

acquiring first humidity data and first temperature data of an environment where dehumidification equipment is located; and determining whether to start the sterilization module according to the first humidity data and the first temperature data, if so, determining a target operation parameter required by the operation of the sterilization module according to the first humidity data, and controlling the sterilization module to perform sterilization according to the target operation parameter. According to the technical scheme, the sterilization module is automatically started timely according to the ambient humidity and the temperature to sterilize in the dehumidification process of the dehumidification equipment, so that the sterilization treatment of the ambient air can be timely performed, and the sterilization function of the dehumidification equipment is started intelligently to a certain extent, so that the energy consumption and low ambient air quality caused by inaccurate sterilization time when a user manually starts are avoided.

And the operation parameters of the sterilization module are controlled according to the ambient humidity and the temperature, so that unnecessary energy consumption can be avoided while the sterilization effect is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of a method for controlling a dehumidification device in an embodiment of the present invention;

FIG. 2 is a schematic diagram of a control logic of a method for controlling a dehumidification device in accordance with an embodiment of the present invention;

FIG. 3 is a functional block diagram of a control device of a dehumidification apparatus according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a dehumidifying apparatus according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment of the invention provides a dehumidification equipment control method, which is applied to dehumidification equipment integrated with a sterilization module, and is shown with reference to fig. 1, and comprises the following steps of S101 to S103:

s101, acquiring first humidity data and first temperature data of an environment where the dehumidification equipment is located.

The dehumidification device is integrated with a humidity sensor and a temperature sensor and is used for detecting the ambient humidity and the ambient temperature of the environment where the dehumidification device is located after the dehumidification device is started to operate so as to acquire first humidity data and first temperature data of the environment where the dehumidification device is located when the sterilization module is not opened. The ambient humidity can be expressed in grams of water vapor in one cubic meter of air, where ha=mv/V, where mV is the mass of water vapor in the air to be measured and V is the total volume of the air to be measured.

The first humidity data represents the ambient humidity of the environment where the dehumidification device is located, and may be: an average humidity determined from the detection values of a single humidity sensor at different time sampling points, or an average humidity determined from the detection values of a plurality of humidity sensors. The first humidity data represents an ambient temperature of an environment in which the dehumidification device is located, and may be: an average temperature determined from the detection values of the single temperature sensor at different time sampling points, or an average temperature determined from the detection values of the plurality of humidity sensors.

S102, determining whether to start the sterilization module according to the first humidity data and the first temperature data.

The greater the humidity and the higher the temperature of the environment, the faster the breeding speed of microorganisms such as bacteria and viruses in the environment, so if the first humidity data reach the first humidity threshold lower limit and do not reach the second humidity threshold lower limit, determining whether to start the sterilization module according to the first temperature data; if the first humidity data reach the lower limit of the second humidity threshold, the first temperature data do not need to be judged, and the sterilization module is directly started. The second humidity threshold lower limit is higher than the first humidity threshold lower limit, so that the sterilization module is required to be started to sterilize the environment no matter the first temperature data is high or low under the condition that the first humidity data reaches the second humidity threshold lower limit higher than the first humidity threshold lower limit, and the sterilization module is not required to be started if the first humidity data does not reach the first humidity threshold lower limit.

In a specific implementation process, the first lower humidity threshold (denoted as HA 1) may take a value within a range of 50% -60%, and the second lower humidity threshold (denoted as HA 2) may take a value within a range of 70% -80%.

When the first humidity data reaches the first humidity threshold lower limit but does not reach the second humidity threshold lower limit, the environmental humidity is generally represented, and at this time, it is required to combine the first temperature data to determine whether to start the sterilization module. Specifically, determining whether to turn on the sterilization module according to the first temperature data includes: if the first temperature data reach the lower limit of the preset temperature threshold, starting the sterilization module; otherwise, the sterilization module is not started. In the specific implementation process, the lower limit of the preset temperature threshold can be a value within the range of 5-10 ℃.

Next, the step S102 is illustrated by using HA to represent the first humidity data, T to represent the first temperature data, the first humidity threshold to be 50%, and the second humidity threshold to be 70%, and the preset temperature threshold to be 10 ℃. If the HA is more than or equal to 70%, directly starting the sterilization module; if the HA content is more than or equal to 50% and less than 70% and the T content is more than or equal to 10 ℃, starting the sterilization module, and if the HA content is more than or equal to 50% and less than 70% and the T content is less than 10 ℃, not starting the sterilization module; if the HA is less than 50%, the sterilization module is not started.

Through the technical scheme, the sterilization module can be automatically opened in time to sterilize according to the ambient humidity and the ambient temperature in the running process of the dehumidification equipment, so that the problems of unnecessary energy consumption and low ambient air quality caused by the fact that a user does not open the sterilization time manually (does not need to sterilize or does not open the sterilization time) are avoided.

S103, if the sterilization module is started, determining target operation parameters required by the operation of the sterilization module according to the first humidity data, and controlling the sterilization module to perform sterilization according to the target operation parameters.

The method can divide a plurality of humidity intervals in sequence from big to small according to the ambient humidity in advance, each humidity interval is respectively configured with an operation parameter for the sterilization module, and then determines a target operation parameter required by the operation of the sterilization module according to the first humidity data, and comprises the following steps: determining a target humidity interval in which the first humidity data are located; and taking the operation parameters configured corresponding to the target humidity interval as target operation parameters required by operation after the sterilization module is started.

It will be appreciated that the number of divided humidity intervals may be determined based on actual control accuracy. Specifically, a first humidity interval with the largest humidity may be divided according to a first humidity threshold lower limit, and one or more humidity intervals may be divided from a humidity range between the first humidity threshold lower limit and a second humidity threshold lower limit, for example: the second humidity interval and the third humidity interval can be divided according to the humidity range between the first humidity threshold lower limit and the second humidity threshold lower limit from large to small, or the humidity range between the first humidity threshold lower limit and the second humidity threshold lower limit is divided into the second humidity interval.

Under the condition that three humidity intervals are divided, taking the operation parameters configured corresponding to the target humidity intervals as target operation parameters required by operation after the sterilization module is started, wherein the method comprises the following steps of: if the target humidity interval is a first humidity interval, taking the first operation parameter configured in the first humidity interval as a target operation parameter required by the operation after the sterilization module is started; if the target humidity interval is a second humidity interval, taking a second operation parameter configured in the second humidity interval as a target operation parameter required by operation after the sterilization module is started, wherein the sterilization efficiency of the second operation parameter is lower than that of the first operation parameter; if the target humidity interval is a third humidity interval, taking the third operation parameter configured in the third humidity interval as a target operation parameter required by the operation after the sterilization module is started, wherein the sterilization efficiency of the third operation parameter is lower than that of the second operation parameter.

It should be understood that when determining the target humidity interval in which the first humidity data is located, the first humidity data may be simultaneously compared with each humidity interval to determine the target humidity interval in which the first humidity data is located, so as to determine the target operation parameters required for operation after the sterilization module is turned on; the first humidity data can be sequentially compared with each humidity interval, and under the condition that the first humidity data is not in the current compared humidity interval, the first humidity data is compared with the next humidity interval until the target humidity interval where the first humidity data is located is determined, and then target operation parameters required by operation after the sterilization module is started are determined.

Next, the manner of dividing the humidity interval is described by taking the first humidity threshold value of 60% and the second humidity threshold value of 80% as examples: 1. if three humidity intervals need to be divided, the divided three humidity intervals may be in sequence: a first humidity interval [80%,100% ], a second humidity interval [70%, 80%), and a third humidity interval [60%, 70%); 2. if only two humidity intervals are divided, the divided two humidity intervals may be in sequence: first humidity interval [80%,100% ], second humidity interval [60%, 80%).

The method for dividing the humidity interval is further described by taking the first humidity threshold value as 50% and the second humidity threshold value as 70%: 1. if three humidity intervals need to be divided, the divided three humidity intervals are in turn: a first humidity interval [70%,100% ], a second humidity interval [60%, 70%), and a third humidity interval [50%, 60%); 2. if two humidity intervals are divided, the divided two humidity intervals are in turn: first humidity interval [70%,100% ], second humidity interval [60%, 70%).

It should be appreciated that the particular type of target operating parameter determined is related to the sterilization mode employed by the sterilization module:

in some embodiments, the sterilization module is only integrated with an ultraviolet generator for performing ultraviolet sterilization, and the target operation parameter includes a target power required for the operation of the ultraviolet generator, and after determining the target humidity interval in which the first humidity data is located through S103, one power configured corresponding to the target humidity interval is used as the target power required for the operation of the ultraviolet generator after the sterilization module is turned on.

In some embodiments, the sterilization module is only integrated with a positive and negative ion generator for positive and negative ion sterilization, and the target operation parameters include a target operation voltage required by the positive and negative ion generator to operate, and after determining the target humidity interval in which the first humidity data is located through S103, one operation voltage configured corresponding to the target humidity interval is used as a target operation voltage required by the positive and negative ion generator to operate after the sterilization module is turned on.

In some embodiments, the sterilization module is integrated with the ultraviolet generator and the positive and negative ion generator at the same time, so that the target operation parameter can be only the target power required by the operation of the ultraviolet generator, the working voltage of the positive and negative ion generator is fixed, and the operation parameter of the positive and negative ion generator cannot be adaptively changed along with different environmental humidity and environmental temperature. If the sterilization module is integrated with the ultraviolet generator and the positive and negative ion generators at the same time, the target operation parameters can also comprise the target power required by the operation of the ultraviolet generator and the target operation voltage required by the operation of the positive and negative ion generators at the same time, so that the operation parameters determined by the ultraviolet generator and the positive and negative ion generators during starting are adaptively changed according to different environmental humidity and environmental temperature. If the sterilization module is integrated with the ultraviolet generator and the positive and negative ion generator at the same time, the target operation parameters can only comprise the target operation voltage required by the operation of the positive and negative ion generator, and the power of the ultraviolet generator is fixed, so that the power of the ultraviolet generator can not be changed along with different adaptability of the ambient humidity and the ambient temperature.

In the specific implementation process, the ultraviolet generator generates ultraviolet rays to clean the air sucked into the dehumidifying equipment and the province and eliminate microorganisms such as viruses, bacteria and the like; the positive and negative ions generated by the positive and negative ion generator are scattered into the environment along with the air outlet of the dehumidification equipment, so that microorganisms such as viruses, bacteria and the like in the environment, sedimentation dust and the like are eliminated. The sterilization module may also be integrated with other sterilization means such as an ozone generator. The operating parameters thereof in different humidity intervals can also be set.

In the following, the first humidity interval, the second humidity interval, and the third humidity interval are taken as examples:

if the power of the ultraviolet generator is different according to different environmental temperatures and environmental humidities, three kinds of power corresponding to three humidity intervals are configured for the ultraviolet generator: the first power corresponding to the first humidity interval, the second power corresponding to the second humidity interval, and the third power corresponding to the third humidity interval, wherein the first power, the second power, and the third power are sequentially reduced. For example, the first, second, and third powers may be 60W, 45W, and 30W in this order. However, the specific implementation process is not limited to the above example values, and may be adjusted according to the application scenario of the dehumidifying apparatus, for example, the household dehumidifying apparatus is configured with relatively small first to third powers, and the dehumidifying apparatus used in public places is configured with relatively large first to third powers.

If the working voltages required by the operation of the positive and negative ion generators after the start are different according to different ambient temperatures and ambient humidity, three working voltages corresponding to three humidity intervals one by one are correspondingly configured for the positive and negative ion generators: the first working voltage corresponding to the first humidity interval, the second working voltage corresponding to the second humidity interval and the third working voltage corresponding to the third humidity interval, wherein the first working voltage, the second working voltage and the third working voltage are sequentially reduced.

It will be appreciated that if the operating time is too short after the sterilization module is turned on, the sterilization effect is poor and long-term operation results in a shortened life of the sterilization module. In order to ensure good sterilization effect and prolong the service life of the sterilization module, the sterilization module is started and then at least operates for a preset period of time. Therefore, it is necessary to monitor the sterilization time period after the sterilization module is turned on; detecting second humidity data and second temperature data of the environment where the dehumidification equipment is located when the sterilization time after the sterilization module is started reaches a preset time; determining whether to shut down the sterilization module according to the second humidity data and the second temperature data; and if the sterilization module is not closed, updating the operation parameters required by the continuous operation of the sterilization module according to the second humidity data and the second temperature data.

When the operation time length reaches the preset time length after the dehumidification equipment is started, detecting the environmental humidity and the environmental temperature of the environment where the dehumidification equipment is located under the operation state of the sterilization module so as to acquire second humidity data and second temperature data of the environment where the dehumidification equipment is located.

Updating the operating parameters of the sterilization module according to the second humidity data and the second temperature data: determining a target humidity interval in which second humidity data are located from a plurality of humidity intervals which are divided in sequence from large to small according to ambient humidity in advance; and taking the operation parameters which are correspondingly configured in the target humidity interval where the second humidity data are located as the operation parameters required by the sterilization module to operate in the next preset time.

In the implementation process, if the target humidity interval in which the second humidity data is located is the same as the target humidity interval in which the first humidity data is located, the operation parameters of the sterilization module are not changed; if the target humidity interval in which the second humidity data is located is different from the target humidity interval in which the first humidity data is located, the operation parameters required by the sterilization module to operate in the next preset time period are equivalent to the operation parameters used by the sterilization module to operate in the current preset time period.

After updating the operating parameters of the sterilization module based on the second humidity data and the second temperature data, further comprising: controlling the sterilization module to continue sterilization work with the updated operation parameters; and after the sterilizing module works for a preset time period with the updated operation parameters, re-detecting second humidity data and second temperature data of the environment where the dehumidifying equipment is located, and re-judging whether to close the sterilizing module.

Through the technical scheme, after the sterilization module is started, the second humidity data and the second temperature data of the environment where the dehumidification equipment is located can be periodically detected according to the preset time interval, and the operation parameters of the sterilization module are updated according to the second humidity data and the second temperature data detected each time until the sterilization module is closed. Therefore, in the sterilization process of the sterilization module, the operation parameters of the sterilization module can be adjusted according to the ambient humidity and the temperature, and the sterilization module is automatically closed timely according to the ambient humidity and the temperature, so that the service life of the sterilization module is prolonged while the good sterilization effect is ensured.

In the embodiment of the invention, in order to improve the user interactivity, the dehumidifying device is further provided with an atmosphere lamp for indicating the microorganism condition of the environment where the dehumidifying device is located in different colors: the indicator light color is arranged for each humidity zone in advance, and the atmosphere lamp is controlled to display the indicator light color arranged corresponding to the target humidity zone according to the target humidity zone where the environmental humidity (the first humidity data or the second humidity data) of the environment where the dehumidification device is located.

Reference is made to the above-mentioned divided first humidity interval, second humidity interval and third humidity interval as examples: if the ambient humidity is in the first humidity interval, the atmosphere lamp displays a red indication; if the ambient humidity is in the second humidity interval, the atmosphere lamp displays an orange indication; if the ambient humidity is in the third humidity interval, the atmosphere lamp displays a blue indication.

It should be understood that, in the embodiment of the present invention, the determination of whether to turn on the sterilization module and the determination of the target operation parameters required for operation after the sterilization module is turned on may be performed simultaneously. The following describes the implementation of the sterilization module with an integrated ultraviolet generator and positive and negative ion generator, with reference to fig. 2:

s1, starting operation of dehumidifying equipment to dehumidify the environment;

s2, detecting the ambient humidity (expressed by the gram number of water vapor in one cubic meter of air is expressed as HA) and the ambient temperature in the process of dehumidifying the environment by using dehumidifying equipment so as to obtain first humidity data HA and first temperature data T;

s3, judging whether HA is more than or equal to HA1 or not, if yes, executing S4, starting the ultraviolet generator to operate at a preset first power, starting the positive and negative ion generators, and re-detecting the environmental humidity and the environmental temperature when the sterilization time length after the ultraviolet generator and the positive and negative ion generators are started reaches a preset time length threshold value so as to obtain second humidity data HA and second temperature data T and returning to execute S3; if the HA is not more than or equal to HA1, executing a step S5;

s5, judging whether HA2 is less than or equal to HA1 and T is more than T1, if so, executing S6, starting the ultraviolet generator to operate with a preset second power (the second power is less than the first power), starting the positive and negative ion generators, and re-detecting the environmental humidity and the environmental temperature when the sterilization time after the ultraviolet generator and the positive and negative ion generators are started reaches a preset time threshold so as to obtain second humidity data HA and second temperature data T and returning to execute S5; if HA2 is not more than or equal to HA < HA1, executing S7;

s7, judging whether HA3 is less than or equal to HA2 or not, if so, executing S8, wherein the ultraviolet generator is started to operate at a preset third power, the positive and negative ion generators are started, and when the sterilization time length after the ultraviolet generator and the positive and negative ion generators are started reaches a preset time length threshold value, the ambient humidity and the ambient temperature are re-detected to obtain second humidity data HA and second temperature data T, and returning to execute S7; if HA3 is less than or equal to HA < HA2 and the sterilization module is in the off state, returning to S2, and if HA3 is less than or equal to HA < HA2 and the sterilization module is in the on state, returning to S2 after the sterilization module is turned off.

It should be noted that, the method for controlling the dehumidifying apparatus provided by the embodiment of the present invention is not limited to a single dehumidifying apparatus product, and may be applied to other products integrated with a dehumidifying function, such as an air conditioner, an air purifier, and the like.

Based on the same inventive concept, the embodiment of the invention provides a dehumidifying apparatus control device for controlling a dehumidifying apparatus integrated with a sterilizing module. Referring to fig. 3, the dehumidifying apparatus control apparatus comprises: a first data acquisition unit 301, configured to acquire first humidity data and first temperature data of an environment in which the dehumidification device is located; an opening control unit 302, configured to determine whether to open the sterilization module according to the first humidity data and the first temperature data; and the operation control unit 303 is configured to determine a target operation parameter required for the operation of the sterilization module according to the first humidity data if the sterilization module is turned on, and control the sterilization module to perform sterilization according to the target operation parameter.

In some embodiments, the dehumidifying apparatus control apparatus further comprises: the second data acquisition unit is used for detecting second humidity data and second temperature data of the environment where the dehumidification equipment is located after the sterilization time of the sterilization module reaches a preset time; the closing control unit is used for determining whether to close the sterilization module according to the second humidity data and the second temperature data; and the parameter updating unit is used for updating the operation parameters required by the operation of the sterilization module according to the second humidity data and the second temperature data if the sterilization module is not closed.

In some embodiments, the activation control unit 302 includes: the first opening control subunit is used for determining whether to open the sterilization module according to the first temperature data if the first humidity data reaches a first lower humidity threshold and does not reach a second lower humidity threshold, wherein the second lower humidity threshold is higher than the first lower humidity threshold; and the second opening control subunit is used for opening the sterilization module if the first humidity data reaches the second humidity threshold lower limit.

In some embodiments, the first opening control subunit is specifically configured to: if the first temperature data reach the lower limit of a preset temperature threshold, starting the sterilization module; otherwise, the sterilization module is not started.

In some embodiments, a plurality of humidity intervals are divided in sequence from large to small according to the ambient humidity in advance, and each humidity interval is configured with an operation parameter for the sterilization module, and the operation control unit 303 includes: a section determining subunit, configured to determine a target humidity section in which the first humidity data is located; and the parameter determination subunit is used for taking the operation parameters which are correspondingly configured in the target humidity interval as target operation parameters required by operation after the sterilization module is started.

In some embodiments, the plurality of humidity intervals includes a first humidity interval, a second humidity interval, and a third humidity interval, where the humidity is sequentially ordered from big to small, and the parameter determining subunit is specifically configured to: if the target humidity interval is a first humidity interval, taking the first operation parameter configured for the first humidity interval as a target operation parameter required by the operation after the sterilization module is started; if the target humidity interval is a second humidity interval, taking a second operation parameter configured for the second humidity interval as a target operation parameter required by the operation after the sterilization module is started, wherein the sterilization efficiency of the second operation parameter is lower than that of the first operation parameter; and if the target humidity interval is a third humidity interval, taking a third operation parameter configured for the third humidity interval as a target operation parameter required by the operation after the sterilization module is started, wherein the sterilization efficiency of the third operation parameter is lower than that of the second operation parameter.

In some embodiments, the sterilization module includes an ultraviolet generator and a positive and negative ion generator; the target operating parameters include a target power required for the ultraviolet generator to operate; or the target operating parameters include both the target power required for the operation of the ultraviolet generator and the target operating voltage required for the operation of the positive and negative ionizer.

In some embodiments, the operation control unit 303 is further configured to: after updating the operation parameters required by the operation of the sterilization module according to the second humidity data and the second temperature data, controlling the sterilization module to continue sterilization work with the updated operation parameters;

in some embodiments, after the duration of the sterilization module working with the updated operation parameters reaches the preset duration, re-detecting second humidity data and second temperature data of the environment where the dehumidification device is located, and judging whether to close the sterilization module based on the re-detection result.

The dehumidifying apparatus control device according to the embodiment of the present invention is a device for implementing the foregoing dehumidifying apparatus control method, and further details of implementation of the device may refer to the foregoing dehumidifying apparatus control method embodiment, and for brevity of description, details are not repeated here.

Based on the same inventive concept, an embodiment of the present invention provides a dehumidifying apparatus integrated with a sterilization module, and referring to fig. 4, the dehumidifying apparatus includes a memory 404, a processor 402, and a computer program stored on the memory 404 and executable on the processor 402, wherein the processor 402 implements the foregoing dehumidifying apparatus control method when executing the program.

Where in FIG. 4 a bus architecture (represented by bus 400), bus 400 may comprise any number of interconnected buses and bridges, with bus 400 linking together various circuits, including one or more processors, represented by processor 402, and memory, represented by memory 404. Bus 400 may also link together various other circuits such as peripheral devices, voltage regulators, power management circuits, etc., as are well known in the art and, therefore, will not be described further herein. Bus interface 405 provides an interface between bus 400 and receiver 401 and transmitter 403. The receiver 401 and the transmitter 403 may be the same element, i.e. a transceiver, providing a means for communicating with various other apparatus over a transmission medium. The processor 402 is responsible for managing the bus 400 and general processing, while the memory 404 may be used to store data used by the processor 402 in performing operations.

The functions described herein may be implemented in hardware, software executed by a processor, firmware, or any combination thereof. If implemented in software that is executed by a processor, the functions may be stored on or transmitted over as one or more instructions or code on a computer-readable medium. Other examples and implementations are within the scope and spirit of the invention and the appended claims. For example, due to the nature of software, the functions described above may be implemented using software executed by a processor, hardware, firmware, hardwired, or a combination of any of these. In addition, each functional unit may be integrated in one processing unit, each unit may exist alone physically, or two or more units may be integrated in one unit.

In the several embodiments provided in the present application, it should be understood that the disclosed technology content may be implemented in other manners. The above-described embodiments of the apparatus are merely exemplary, and the division of the units, for example, may be a logic function division, and may be implemented in another manner, for example, a plurality of units or components may be combined or may be integrated into another system, or some features may be omitted, or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be through some interfaces, units or modules, or may be in electrical or other forms.

The units described as separate components may or may not be physically separate, and components as control devices may or may not be physical units, may be located in one place, or may be distributed over a plurality of units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied essentially or in part or all of the technical solution or in part in the form of a software product stored in a storage medium, including instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a removable hard disk, a magnetic disk, or an optical disk, or other various media capable of storing program codes.

The above description is only an example of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. A dehumidification apparatus control method, the dehumidification apparatus integrated with a sterilization module, the method comprising:

acquiring first humidity data and first temperature data of an environment where the dehumidification equipment is located;

determining whether to start the sterilization module according to the first humidity data and the first temperature data;

and if the sterilization module is started, determining a target operation parameter required by the operation of the sterilization module according to the first humidity data, and controlling the sterilization module to perform sterilization work according to the target operation parameter.

2. The method of claim 1, further comprising, after said controlling said sterilization module to perform a sterilization operation at said target operating parameter:

after the sterilization time length of the sterilization module reaches a preset time length, detecting second humidity data and second temperature data of the environment where the dehumidification equipment is located;

determining whether to shut down the sterilization module according to the second humidity data and the second temperature data;

and if the sterilization module is not closed, updating operation parameters required by the operation of the sterilization module according to the second humidity data and the second temperature data.

3. The method of claim 1, wherein said determining whether to turn on the sterilization module based on the first humidity data and the first temperature data comprises:

if the first humidity data reach a first humidity threshold lower limit and do not reach a second humidity threshold lower limit, determining whether to start the sterilization module according to the first temperature data, wherein the second humidity threshold lower limit is higher than the first humidity threshold lower limit;

and if the first humidity data reaches the lower limit of the second humidity threshold, starting the sterilization module.

4. A method as claimed in claim 3, wherein said determining whether to turn on the sterilization module based on the first temperature data comprises:

if the first temperature data reach the lower limit of a preset temperature threshold, starting the sterilization module; otherwise, the sterilization module is not started.

5. The method of claim 1, wherein a plurality of humidity intervals are divided in sequence from large to small according to ambient humidity in advance, each humidity interval is configured with an operation parameter for the sterilization module, and the determining the target operation parameter required for the sterilization module to operate according to the first humidity data includes:

determining a target humidity interval in which the first humidity data are located;

and taking the operation parameters which are correspondingly configured in the target humidity interval as target operation parameters required by operation after the sterilization module is started.

6. The method of claim 5, wherein the plurality of humidity intervals includes a first humidity interval, a second humidity interval, and a third humidity interval, in which the humidity is sequentially ordered from big to small, and the operating parameters configured corresponding to the target humidity interval are used as target operating parameters required for operation after the sterilization module is turned on, and include:

if the target humidity interval is a first humidity interval, taking the first operation parameter configured for the first humidity interval as a target operation parameter required by the operation after the sterilization module is started;

if the target humidity interval is a second humidity interval, taking a second operation parameter configured for the second humidity interval as a target operation parameter required by the operation after the sterilization module is started, wherein the sterilization efficiency of the second operation parameter is lower than that of the first operation parameter;

and if the target humidity interval is a third humidity interval, taking a third operation parameter configured for the third humidity interval as a target operation parameter required by the operation after the sterilization module is started, wherein the sterilization efficiency of the third operation parameter is lower than that of the second operation parameter.

7. The method of claim 6, wherein the sterilization module comprises an ultraviolet generator and a positive and negative ion generator;

the target operating parameters include a target power required for the ultraviolet generator to operate; or alternatively

The target operating parameters include both a target power required for operation of the ultraviolet generator and a target operating voltage required for operation of the positive and negative ionizers.

8. The method of claim 2, further comprising, after updating the operating parameters required for operation of the sterilization module based on the second humidity data and the second temperature data:

controlling the sterilization module to continue sterilization work with the updated operation parameters;

and after the working time of the sterilization module with the updated operation parameters reaches the preset time, re-detecting second humidity data and second temperature data of the environment where the dehumidification equipment is located, and judging whether to close the sterilization module based on a re-detection result.

9. A dehumidification apparatus control device, the dehumidification apparatus integrated with a sterilization module, the control device comprising:

the first data acquisition unit is used for acquiring first humidity data and first temperature data of the environment where the dehumidification equipment is located;

the starting control unit is used for determining whether to start the sterilization module according to the first humidity data and the first temperature data;

and the operation control unit is used for determining target operation parameters required by the operation of the sterilization module according to the first humidity data if the sterilization module is started, and controlling the sterilization module to perform sterilization work according to the target operation parameters.

10. A dehumidification device integrated with a sterilization module, characterized in that it comprises a memory, a processor and a computer program stored on the memory and executable on the processor, which processor implements the method according to any one of claims 1-8 when executing the program.