CN111174359A - Humidification control device, humidifier and humidification control method thereof - Google Patents

Abstract

The invention discloses a humidification control device, a humidifier and a humidification control method thereof, wherein the device comprises: the atomizing unit is used for atomizing water in the water storage space of the humidifier to obtain first water molecules; a first water molecule comprising: water molecules of polymeric structure; the activation unit is used for activating the first water molecules obtained through atomization treatment to obtain second water molecules, and outputting the second water molecules to the humidification space of the humidifier so as to humidify the humidification space of the humidifier by using the second water molecules; a second water molecule comprising: water molecules of linear structure. According to the scheme provided by the invention, the problem that the water mist output by the humidifier is not beneficial to human body absorption and not beneficial to human health can be solved, and the effect that the water mist output by the humidifier is beneficial to human body absorption and beneficial to human health is achieved.

Description

Humidification control device, humidifier and humidification control method thereof

Technical Field

The invention belongs to the technical field of humidifiers, and particularly relates to a humidification control method and device, a storage medium and a humidifier, in particular to a control method and device of a low-frequency resonance humidifier, a storage medium and a humidifier.

Background

Some humidifiers can only increase humidity for rooms, water mist output by the humidifiers is common water, water in the humidifiers cannot be optimized, and absorption of human bodies and skins is not facilitated.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

The invention aims to provide a humidification control device, a humidifier and a humidification control method thereof, aiming at overcoming the defect that water mist output by the humidifier is not beneficial to human body absorption and not beneficial to human health, and achieving the effect that the water mist output by the humidifier is beneficial to human body absorption and beneficial to human health.

The invention provides a humidification control device, comprising: an atomization unit and an activation unit; the humidifier comprises an atomization unit, a water storage unit and a water storage unit, wherein the atomization unit is used for atomizing water in a water storage space of the humidifier to obtain first water molecules; a first water molecule comprising: water molecules of polymeric structure; the activation unit is used for activating the first water molecules obtained through atomization treatment to obtain second water molecules, and outputting the second water molecules to the humidification space of the humidifier so as to humidify the humidification space of the humidifier by using the second water molecules; a second water molecule comprising: water molecules of linear structure.

Optionally, an atomizing unit comprising: an ultrasonic atomizer; the ultrasonic atomizer is arranged in the water storage space of the humidifier.

Optionally, an activation unit comprising: an electromagnetic wave generation module; the activation unit is used for activating the first water molecule obtained by the atomization treatment and comprises: the electromagnetic wave generation module outputs electromagnetic waves according to set parameters so as to irradiate first water molecules through the electromagnetic waves, and the first water molecules generate resonance under the irradiation of the electromagnetic waves to realize activation, so that second water molecules are obtained.

Optionally, the electromagnetic wave generating module is arranged in the water storage space of the humidifier, or at the control panel of the humidifier, or in the inner space of the side of the body of the humidifier; the electromagnetic wave output by the electromagnetic wave generation module can be at least irradiated to the output direction of the first water molecule output by the atomization unit.

Optionally, the method further comprises: a detection unit and a control unit; the humidifier comprises a detection unit, a control unit and a control unit, wherein the detection unit is used for detecting a first water level in a water storage space of the humidifier before the atomization unit and the activation unit are started; the control unit is used for determining whether the detected first water level is lower than a set water level or not, and controlling the atomization unit and the activation unit to be closed if the detected first water level is lower than the set water level; and if the detected first water level is higher than or equal to the set water level, controlling the atomization unit and the activation unit to be started.

Optionally, the method further comprises: the detection unit is also used for detecting a second water level in the water storage space of the humidifier after the atomization unit and the activation unit are started; and the control unit is also used for determining whether the detected second water level is lower than the set water level or not, and controlling the humidifier to be powered off if the detected second water level is lower than the set water level.

Optionally, the method further comprises: the detection unit is also used for detecting the first functional state of a first key of the activation unit or detecting the second functional state of a second key of the humidifier after the atomization unit and the activation unit are started; the control unit is also used for determining the detected first functional state of the first key, and controlling the activation unit to be closed if the detected first functional state of the first key is a closing instruction; or the control unit is further configured to determine a detected second function state of the second key, and if the detected second function state of the second key is a close instruction, control the humidifier to be closed, and both the atomizing unit and the activating unit are closed when the humidifier is closed.

In accordance with the above apparatus, a humidifier according to another aspect of the present invention includes: the humidification control device described above.

In another aspect, the present invention provides a humidification control method for a humidifier, including: atomizing water in a water storage space of the humidifier through an atomizing unit to obtain first water molecules; a first water molecule comprising: water molecules of polymeric structure; activating the first water molecules obtained by atomization through an activation unit to obtain second water molecules, and outputting the second water molecules to the humidification space of the humidifier so as to humidify the humidification space of the humidifier by using the second water molecules; a second water molecule comprising: water molecules of linear structure.

Optionally, the activating treatment of the first water molecule obtained by the atomizing treatment is performed by an activating unit, which includes: the electromagnetic wave generation module outputs electromagnetic waves according to set parameters so as to irradiate first water molecules through the electromagnetic waves, and the first water molecules generate resonance under the irradiation of the electromagnetic waves to realize activation, so that second water molecules are obtained.

Optionally, the method further comprises: detecting, by a detection unit, a first water level in a water storage space of a humidifier before an atomization unit and an activation unit are turned on; determining whether the detected first water level is lower than a set water level or not through a control unit, and controlling the atomization unit and the activation unit to be closed if the detected first water level is lower than the set water level; and if the detected first water level is higher than or equal to the set water level, controlling the atomization unit and the activation unit to be started.

Optionally, the method further comprises: detecting a second water level in the water storage space of the humidifier through the detection unit after the atomization unit and the activation unit are started; and determining whether the detected second water level is lower than a set water level through the control unit, and controlling the humidifier to be powered off if the detected second water level is lower than the set water level.

Optionally, the method further comprises: through the detection unit, after the atomization unit and the activation unit are started, a first function state of a first key of the activation unit is detected, or a second function state of a second key of the humidifier is detected; the detected first function state of the first key is also determined through the control unit, and if the detected first function state of the first key is a closing instruction, the activation unit is controlled to be closed; or, the control unit further determines the detected second function state of the second key, and controls the humidifier to be turned off if the detected second function state of the second key is a turn-off instruction, and both the atomizing unit and the activating unit are turned off when the humidifier is turned off.

According to the scheme of the invention, the humidifier body is provided with the activator, so that the humidifier can be used for humidifying a dry room and can also be used for replenishing water to the skin, the functions of the humidifier are enriched, and the humidifier is also beneficial to human health.

Furthermore, according to the scheme of the invention, the arrangement structure of water molecules in the water tank is changed by adding the low-frequency resonance function, so that the activity of water molecule groups in the water tank is enhanced, the water absorption degree of human bodies and skins is increased, the functions of the humidifier are diversified, and the improvement of the experience effect of users is facilitated.

Furthermore, according to the scheme of the invention, the low-frequency resonance function is arranged in the accommodating space of the humidifier, electromagnetic waves with certain frequency can be emitted in a magnetic field to irradiate water molecules to generate resonance, so that the water molecules play an activation role, the water molecules with a polymerization type structure are converted into the water molecules with a linear structure, and the water molecules with the linear structure can easily enter human cells, thereby being beneficial to human health.

Therefore, according to the scheme of the invention, the activator is arranged on the humidifier body, so that the resonance function is added on the basis of the humidifying function of the humidifier, the water molecules in the polymerization structure are converted into the water molecules in the linear structure, the problem that the water mist output by the humidifier is not beneficial to human body absorption and not beneficial to human body health is solved, and the effect that the water mist output by the humidifier is beneficial to human body absorption and is beneficial to human body health is achieved.

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

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

Fig. 1 is a schematic structural diagram of a humidification control device according to an embodiment of the present invention;

fig. 2 is a schematic view illustrating a humidification control flow of an embodiment of the humidifier of the present invention;

FIG. 3 is a schematic flow chart illustrating an embodiment of a humidification control method of the present invention;

fig. 4 is a schematic flow chart of an embodiment of the method of the present invention, in which the detection unit and the control unit control the opening timing of the atomization unit and the activation unit;

FIG. 5 is a schematic flow chart illustrating an embodiment of controlling the safety of the operation of the atomizing unit and the activating unit after the atomizing unit and the activating unit are turned on by the detecting unit and the controlling unit in the method of the present invention;

fig. 6 is a schematic flow chart of an embodiment of controlling the work interruption condition after the atomization unit and the activation unit are turned on by the detection unit and the control unit in the method of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

According to an embodiment of the present invention, there is provided a humidification control device. Referring to fig. 1, a schematic diagram of an embodiment of the apparatus of the present invention is shown. The humidification control device may include: an atomizing unit and an activating unit. The atomizing unit and the activating unit can be arranged in sequence in a matching way. For example: the activation unit may be disposed at an output side of the atomization unit.

In an optional example, the atomization unit may be configured to atomize water in the water storage space of the humidifier to obtain first water molecules. A first water molecule, which may include: water molecules of polymeric structure.

Optionally, the atomizing unit may include: an ultrasonic atomizer. The ultrasonic atomizer is arranged in the water storage space of the humidifier.

From this, carry out the atomization treatment through the water of ultrasonic atomization ware in to the water storage space of humidifier, can guarantee the effect of atomization treatment.

In an optional example, the activation unit may be configured to perform activation processing on the first water molecules obtained through the atomization processing to obtain second water molecules, and output the second water molecules to the humidification space of the humidifier, so as to humidify the humidification space of the humidifier with the second water molecules. A second water molecule, which may include: water molecules of linear structure.

For example: the utility model provides a resonant ultrasonic humidifier of low frequency, through increasing the low frequency resonance function, changes the arrangement structure of the hydrone in the water tank, has strengthened the activity of hydrone group in the water tank, increases human, skin to the absorption degree of water, makes the function pluralism of humidifier, is favorable to promoting user's experience effect.

For example: humidifiers may be used to humidify dry rooms, as well as to moisturize the skin.

Therefore, the water in the water storage space of the humidifier is atomized through the atomization unit, the first water molecules obtained through atomization are activated through the activation unit to obtain second water molecules, the second water molecules are output to the humidification space of the humidifier, the humidification space of the humidifier is humidified through the second water molecules, the water absorption degree of a human body and skin can be increased, and the human body health is facilitated.

Alternatively, the activation unit may comprise: an electromagnetic wave generating module. The electromagnetic wave generation module can comprise an LED lamp. The light waves emitted by the LED lamp are electromagnetic waves. Light waves have reflective, refractive and polarizing properties like electromagnetic waves.

Specifically, the activating unit may perform an activation treatment on the first water molecule obtained by the atomization treatment, and may include: the electromagnetic wave generation module outputs electromagnetic waves according to set parameters so as to irradiate first water molecules through the electromagnetic waves, and the first water molecules generate resonance under the irradiation of the electromagnetic waves to realize activation, so that second water molecules are obtained.

For example: a humidifier with a low-frequency resonance function is provided, wherein a low-frequency resonance device such as an activator (such as an LED lamp) is arranged in an accommodating space of the humidifier, the activator (such as an LED lamp) can emit electromagnetic waves with certain frequency (such as square wave drive with 7.8Hz low frequency) in a magnetic field to irradiate water molecules to generate resonance, so that the water molecules play an activating role, the water molecules with a polymerization type structure are converted into the water molecules with a linear type structure, the water molecules with the linear type structure can easily enter human cells to bring nutrition into the cells, and the acidity is brought out, thereby being beneficial to human health.

For another example: an activator element is added to the interior of the control panel or side of the body in the humidifier product. When the humidifying function is turned on, the resonance function is also turned on to set a duty such as a duty ratio D_kAnd (6) acting. Wherein the duty ratio D_kAnd represents the resonant operating duty cycle of the activator. Such as: all duty cycle data may be in seconds, such as duty cycle 14: 18, typically means that the activator is turned on for 14 seconds and then turned off for 18 seconds, and the resonance time is maintained until the humidification function is turned off or a low water level is detected. If the humidifying function is turned on after the turning-off, the previous data is cleared, and the data is processed according to a new duty ratio (such as the default duty ratio originally set, the memory duty ratio set by the user last time, the duty ratio newly set by the user this time, and the like).

Therefore, the electromagnetic wave output by the electromagnetic wave generation module irradiates the first water molecule obtained through atomization treatment, so that the first water molecule generates resonance under the irradiation of the electromagnetic wave to realize activation to obtain the second water molecule, the arrangement structure of the water molecules in the water tank can be changed, the activity of water molecular groups in the water tank is enhanced, and the water absorption degree of a human body and skin is increased.

More optionally, the electromagnetic wave generating module is arranged in the water storage space of the humidifier, or at the control panel of the humidifier, or in the inner space of the side of the body of the humidifier; the electromagnetic wave output by the electromagnetic wave generation module can be at least irradiated to the output direction of the first water molecule output by the atomization unit. Wherein the electromagnetic wave generating module is an activator.

For example: the accommodating space of the humidifier is internally provided with a low-frequency resonance device such as an activator. For another example: an activator element is added to the interior of the control panel or side of the body in the humidifier product. The activator (such as LED lamp) can emit electromagnetic wave with certain frequency (such as square wave drive with 7.8Hz low frequency) in magnetic field to irradiate water molecules to generate resonance, so that the water molecules can be activated.

Therefore, the electromagnetic wave generating module is arranged at any position on the humidifier body, and the electromagnetic wave output by the electromagnetic wave generating module can at least irradiate the output direction of the first water molecule output by the atomizing unit so as to activate the water molecule.

In an alternative embodiment, the method may further include: the device comprises a detection unit, a control unit, a detection unit, an atomization unit and an activation unit which are respectively connected with the control unit. The process of controlling the opening time of the atomizing unit and the activating unit through the detection unit and the control unit specifically includes the following steps:

in an alternative example, the detection unit may be configured to detect a first water level in the water storage space of the humidifier before the atomization unit and the activation unit are turned on. For example: the detection unit may include a water level sensor to detect the first water level through the water level sensor.

In an optional example, the control unit may be configured to determine whether the detected first water level is lower than a set water level, and control the atomizing unit and the activating unit to be turned off if the detected first water level is lower than the set water level; and if the detected first water level is higher than or equal to the set water level, controlling the atomization unit and the activation unit to be started. For example: the control unit can select a humidifier controller.

For example: and electrifying the humidifier to start detecting the water level in the water tank. That is, the water level is detected immediately after the humidifier is powered on and enters a standby state. When the humidifier detects that the water level is low, the humidifying and resonance functions cannot be opened. The humidifier does not detect a low water level, i.e., the detected water level is not a low water level, the humidification function is turned on, and the resonance function is also turned on.

Therefore, the opening time of the atomization unit and the activation unit is controlled by the detection unit and the control unit, the atomization function and the activation function of the humidifier can be opened under the condition that the humidifier can be safely used, humidification processing of atomization and activation is carried out, and the use safety of the humidifier is improved.

In an alternative embodiment, the method may further include: the process of controlling the working safety condition after the atomization unit and the activation unit are started through the detection unit and the control unit can be specifically as follows:

in an optional example, the detection unit may be further configured to detect a second water level in the water storage space of the humidifier after the atomization unit and the activation unit are turned on. For example: the detection unit may include a water level sensor to detect the second water level through the water level sensor.

In an optional example, the control unit may be further configured to determine whether the detected second water level is lower than a set water level, and if the detected second water level is lower than the set water level, the control unit may control the humidifier to be powered off, and the atomizing unit and the activating unit are naturally powered off when the humidifier is powered off. Of course, if the detected second water level is higher than or equal to the set water level, the atomization unit and the activation unit are controlled to be continuously in the open state.

For example: and electrifying the humidifier to start detecting the water level in the water tank. That is, the water level is detected immediately after the humidifier is powered on and enters a standby state. The humidifier does not detect a low water level, i.e., the detected water level is not a low water level, the humidification function is turned on, and the resonance function is also turned on. When the humidifier works and the resonance function is opened, if the low water level of the water tank is detected, the humidifier enters water shortage protection, and the resonance mode is closed.

Therefore, the working safety condition after the atomization unit and the activation unit are started is controlled by the detection unit and the control unit, the continuation or partial or complete suspension of humidification treatment can be controlled according to the water level in the humidification treatment process of atomization and activation combined through the atomization function and the activation function of the humidifier, and the use safety of the humidifier is further improved.

In an alternative embodiment, the method may further include: the process of controlling the work interruption condition after the atomization unit and the activation unit are started through the detection unit and the control unit may specifically be as follows:

in an optional example, the detection unit may be further configured to detect a first functional state of a first key of the activation unit or detect a second functional state of a second key of the humidifier after the atomization unit and the activation unit are turned on. For example: a detection unit, which may include: key state sensor such as pressure sensor

In an optional example, the control unit may be further configured to determine the detected first function state of the first key, and if the detected first function state of the first key is a close instruction, control the activation unit to close, and if the activation unit is closed, the nebulization unit may continue to perform the nebulization process, so that the activation unit of the humidifier may be flexibly selected to be turned on or turned off according to a user's usage requirement. Of course, if the detected first function state of the first key is the open instruction, the activation unit is controlled to be continuously in the open state.

Or, the control unit may be further configured to determine a detected second functional state of the second key, and if the detected second functional state of the second key is a close instruction, control the humidifier to be closed, and when the humidifier is closed, both the atomizing unit and the activating unit are closed. Of course, if the detected second function state of the second key is the opening instruction, the humidifier is controlled to continue to operate, that is, the atomization unit and the activation unit are controlled to continue to be in the opening state.

For example: and electrifying the humidifier to start detecting the water level in the water tank. That is, the water level is detected immediately after the humidifier is powered on and enters a standby state. The humidifier does not detect a low water level, i.e., the detected water level is not a low water level, the humidification function is turned on, and the resonance function is also turned on. When both the humidification function and the resonance function are turned on, the resonance function is turned off when a short press is made on the resonance button on the display panel. Alternatively, when the humidifier is operating and the resonance function is on, the resonance mode is off after shutdown.

Therefore, the work interruption condition after the atomization unit and the activation unit are started is controlled through the detection unit and the control unit, the atomization unit and the activation unit can be flexibly switched on and off according to the use requirements of users, and the atomization device is convenient for the users to use.

Through a large number of tests, the technical scheme of the invention is adopted, and the humidifier body is provided with the activator, so that the humidifier can be used for humidifying a dry room and replenishing water to the skin, the functions of the humidifier are enriched, and the humidifier is also beneficial to human health.

According to an embodiment of the invention, a humidifier corresponding to the humidification control device is also provided. The humidifier may include: the humidification control device described above.

In an optional embodiment, the scheme of the invention provides a low-frequency resonance ultrasonic humidifier, which has the advantages that the arrangement structure of water molecules in a water tank is changed by adding a low-frequency resonance function, so that the activity of water molecular groups in the water tank is enhanced, the absorption degree of human bodies and skins to water is increased, the functions of the humidifier are diversified, the user experience effect is improved, and the product competitiveness is enhanced.

In particular, the humidifier may be used to humidify a dry room, and may also be used to moisturize the skin. According to the humidifier with the function of low-frequency resonance, the low-frequency resonance device such as the activator is arranged in the accommodating space of the humidifier, the activator (such as an LED lamp) can emit electromagnetic waves with certain frequency (such as square wave drive with the low frequency of 7.8 Hz) in a magnetic field to irradiate water molecules to generate resonance, so that the water molecules play a role in activating, the water molecules with a polymerization type structure are converted into the water molecules with a linear type structure, and the water molecules with the linear type structure can easily enter human body cells to bring nutrition and acidity, so that the humidifier is beneficial to human health. Wherein the magnetic field may be generated by a magnet disposed at the activator.

In an alternative example, the solution of the present invention is to add an activator element to the control panel or the interior of the side of the body in the humidifier product, the function of which can be seen in the example shown in fig. 2.

For example: the activator (such as an LED lamp) can be arranged in a control panel below the water tank, and correspondingly, a transparent opening can be additionally arranged in the water tank of the humidifier, so that the LED lamp can be seen to flicker at low frequency when a user resonates in the humidifier and the user lifts the water tank of the humidifier.

As shown in fig. 2, in the scheme of the present invention, the humidification process of the low-frequency resonance humidifier may include:

step 1, electrifying the humidifier and starting to detect the water level in the water tank. That is, the water level is detected immediately after the humidifier is powered on and enters a standby state. And then executing step 2 or step 3 according to the detection result.

And 2, when the humidifier detects that the water level is a low water level, the humidifying and resonance functions cannot be opened.

And 3, if the humidifier cannot detect the low water level, namely the detected water level is not the low water level, the humidifying function is turned on, and the resonance function is also turned on.

Specifically, when the humidification function is turned on, the resonance function is also turned on to set the duty ratio such as the duty ratio D_kAnd (6) acting.

Wherein the duty ratio D_kAnd represents the resonant operating duty cycle of the activator. For example: all duty cycle data may be in seconds, such as duty cycle 14: 18, typically means that the activator is turned on for 14 seconds and then turned off for 18 seconds, and the resonance time is maintained until the humidification function is turned off or a low water level is detected. If the humidifying function is turned on after the turning-off, the previous data is cleared, and the data is processed according to a new duty ratio (such as the default duty ratio originally set, the memory duty ratio set by the user last time, the duty ratio newly set by the user this time, and the like).

For example: of the foregoing frequencies (square wave drive at a low frequency of 7.8 Hz), the low frequency is 7.8Hz causing the LED lamp to blink. Duty ratio D here_kIt means the ratio of the total low frequency resonance time to the stop resonance time.

Alternatively, in the case where both the humidification function and the resonance function are turned on, if the resonance key on the display panel is pressed for a short time, the resonance function is turned off. Alternatively, when the humidifier is operating and the resonance function is on, the resonance mode is off after shutdown.

Optionally, when the humidifier is working and the resonance function is turned on, if the low water level of the water tank is detected, the humidifier enters water shortage protection, and the resonance mode is turned off.

Since the processes and functions of the humidifier of this embodiment are basically corresponding to the embodiments, principles and examples of the device shown in fig. 1, the description of this embodiment is not given in detail, and reference may be made to the related descriptions in the embodiments, which are not described herein again.

Through a large number of tests, the technical scheme of the invention is adopted, and the arrangement structure of water molecules in the water tank is changed by adding the low-frequency resonance function, so that the activity of water molecule groups in the water tank is enhanced, the water absorption degree of human bodies and skins is increased, the functions of the humidifier are diversified, and the experience effect of users is favorably improved.

According to an embodiment of the present invention, there is also provided a humidification control method of a humidifier corresponding to the humidifier, as shown in fig. 3, which is a schematic flow chart of an embodiment of the method of the present invention. The humidification control method of the humidifier may include: step S110 and step S120.

At step S110, water in the water storage space of the humidifier is atomized by the atomization unit to obtain a first water molecule. A first water molecule, which may include: water molecules of polymeric structure.

At step S120, the first water molecules obtained by the atomization process are activated by the activation unit to obtain second water molecules, and the second water molecules are output to the humidification space of the humidifier to humidify the humidification space of the humidifier with the second water molecules. A second water molecule, which may include: water molecules of linear structure.

For example: the utility model provides a resonant ultrasonic humidifier of low frequency, through increasing the low frequency resonance function, changes the arrangement structure of the hydrone in the water tank, has strengthened the activity of hydrone group in the water tank, increases human, skin to the absorption degree of water, makes the function pluralism of humidifier, is favorable to promoting user's experience effect.

For example: humidifiers may be used to humidify dry rooms, as well as to moisturize the skin.

Therefore, the water in the water storage space of the humidifier is atomized through the atomization unit, the first water molecules obtained through atomization are activated through the activation unit to obtain second water molecules, the second water molecules are output to the humidification space of the humidifier, the humidification space of the humidifier is humidified through the second water molecules, the water absorption degree of a human body and skin can be increased, and the human body health is facilitated.

Optionally, the activating the first water molecule obtained by the atomizing in step S120 by the activating unit may include: the electromagnetic wave generation module outputs electromagnetic waves according to set parameters so as to irradiate first water molecules through the electromagnetic waves, and the first water molecules generate resonance under the irradiation of the electromagnetic waves to realize activation, so that second water molecules are obtained.

For example: a humidifier with increased low-frequency resonance function is characterized in that a low-frequency resonance method such as an activator is arranged in an accommodating space of the humidifier, the activator (such as an LED lamp) can emit electromagnetic waves with certain frequency (such as square wave drive with 7.8Hz low frequency) in a magnetic field to irradiate water molecules to generate resonance, so that the water molecules play an activating role, the water molecules with a polymerization type structure are converted into the water molecules with a linear type structure, the water molecules with the linear type structure can easily enter human cells to bring nutrition into the human cells, and acidity is brought out, so that the humidifier is beneficial to human health.

For another example: an activator element is added to the interior of the control panel or side of the body in the humidifier product. When the humidifying function is turned on, the resonance function is also turned on to set a duty such as a duty ratio D_kAnd (6) acting. Wherein the duty ratio D_kAnd represents the resonant operating duty cycle of the activator. Such as: all duty cycle data may be in seconds, such as duty cycle 14: 18, typically means that the activator is turned on for 14 seconds and then turned off for 18 seconds, and the resonance time is maintained until the humidification function is turned off or a low water level is detected. If the humidifying function is turned on after the shutdown, the previous data is cleared, and the data is processed according to a new duty ratio (such as original setting)A predetermined default duty ratio, a previously set memory duty ratio by the user, a newly set duty ratio by the user this time, etc.).

Therefore, the electromagnetic wave output by the electromagnetic wave generation module irradiates the first water molecule obtained through atomization treatment, so that the first water molecule generates resonance under the irradiation of the electromagnetic wave to realize activation to obtain the second water molecule, the arrangement structure of the water molecules in the water tank can be changed, the activity of water molecular groups in the water tank is enhanced, and the water absorption degree of a human body and skin is increased.

In an alternative embodiment, the method may further include: and the opening time of the atomization unit and the activation unit is controlled by the detection unit and the control unit.

With reference to the schematic flow chart of an embodiment of the method of the present invention shown in fig. 4, in which the detection unit and the control unit control the opening timings of the atomizing unit and the activation unit, a specific process of controlling the opening timings of the atomizing unit and the activation unit by the detection unit and the control unit is further described, and the specific process may include: step S210 and step S220.

Step S210, detecting, by the detection unit, a first water level in the water storage space of the humidifier before the atomization unit and the activation unit are turned on. For example: the detection unit may include a water level sensor to detect the first water level through the water level sensor.

Step S220, determining whether the detected first water level is lower than a set water level or not through the control unit, and controlling the atomization unit and the activation unit to be closed if the detected first water level is lower than the set water level; and if the detected first water level is higher than or equal to the set water level, controlling the atomization unit and the activation unit to be started.

For example: and electrifying the humidifier to start detecting the water level in the water tank. That is, the water level is detected immediately after the humidifier is powered on and enters a standby state. When the humidifier detects that the water level is low, the humidifying and resonance functions cannot be opened. The humidifier does not detect a low water level, i.e., the detected water level is not a low water level, the humidification function is turned on, and the resonance function is also turned on.

Therefore, the opening time of the atomization unit and the activation unit is controlled by the detection unit and the control unit, the atomization function and the activation function of the humidifier can be opened under the condition that the humidifier can be safely used, humidification processing of atomization and activation is carried out, and the use safety of the humidifier is improved.

In an alternative embodiment, the method may further include: and controlling the working safety condition of the atomization unit and the activation unit after the atomization unit and the activation unit are started through the detection unit and the control unit.

In the method of the present invention shown in fig. 5, a specific process of controlling the working safety condition after the atomization unit and the activation unit are turned on by the detection unit and the control unit is further described below with reference to a schematic flow chart of an embodiment of controlling the working safety condition after the atomization unit and the activation unit are turned on by the detection unit and the control unit, and the specific process may include: step S310 and step S320.

Step S310, detecting a second water level in the water storage space of the humidifier by the detection unit, further after the atomization unit and the activation unit are turned on. For example: the detection unit may include a water level sensor to detect the second water level through the water level sensor.

Step S320, determining whether the detected second water level is lower than the set water level through the control unit, and if the detected second water level is lower than the set water level, controlling the humidifier to shut down, wherein the atomization unit and the activation unit are also naturally shut down when the humidifier is shut down. Of course, if the detected second water level is higher than or equal to the set water level, the atomization unit and the activation unit are controlled to be continuously in the open state.

For example: and electrifying the humidifier to start detecting the water level in the water tank. That is, the water level is detected immediately after the humidifier is powered on and enters a standby state. The humidifier does not detect a low water level, i.e., the detected water level is not a low water level, the humidification function is turned on, and the resonance function is also turned on. When the humidifier works and the resonance function is opened, if the low water level of the water tank is detected, the humidifier enters water shortage protection, and the resonance mode is closed.

Therefore, the working safety condition after the atomization unit and the activation unit are started is controlled by the detection unit and the control unit, the continuation or partial or complete suspension of humidification treatment can be controlled according to the water level in the humidification treatment process of atomization and activation combined through the atomization function and the activation function of the humidifier, and the use safety of the humidifier is further improved.

In an alternative embodiment, the method may further include: and controlling the work interruption condition after the atomization unit and the activation unit are started through the detection unit and the control unit.

In the method of the present invention shown in fig. 6, a specific process of controlling the operation interruption condition after the activation of the atomizing unit and the activating unit by the detecting unit and the controlling unit is further described with reference to a flowchart of an embodiment of controlling the operation interruption condition after the activation of the atomizing unit and the activating unit by the detecting unit and the controlling unit, and the specific process may include: step S410 to step S430.

Step S410, by the detection unit, after the atomization unit and the activation unit are turned on, detecting a first functional state of a first key of the activation unit, or detecting a second functional state of a second key of the humidifier. For example: a detection unit, which may include: key state sensor such as pressure sensor

Step S420, the detected first function state of the first key is further determined through the control unit, if the detected first function state of the first key is a close instruction, the activation unit is controlled to be closed, and under the condition that the activation unit is closed, the atomization unit can continue to perform atomization processing, so that the activation unit of the humidifier can be flexibly selected to be opened or closed according to the use requirements of the user. Of course, if the detected first function state of the first key is the open instruction, the activation unit is controlled to be continuously in the open state.

Or, in step S430, the control unit further determines the detected second function state of the second key, and controls the humidifier to be turned off if the detected second function state of the second key is a turn-off instruction, and both the atomizing unit and the activating unit are turned off when the humidifier is turned off. Of course, if the detected second function state of the second key is the opening instruction, the humidifier is controlled to continue to operate, that is, the atomization unit and the activation unit are controlled to continue to be in the opening state.

For example: and electrifying the humidifier to start detecting the water level in the water tank. That is, the water level is detected immediately after the humidifier is powered on and enters a standby state. The humidifier does not detect a low water level, i.e., the detected water level is not a low water level, the humidification function is turned on, and the resonance function is also turned on. When both the humidification function and the resonance function are turned on, the resonance function is turned off when a short press is made on the resonance button on the display panel. Alternatively, when the humidifier is operating and the resonance function is on, the resonance mode is off after shutdown.

Therefore, the work interruption condition after the atomization unit and the activation unit are started is controlled through the detection unit and the control unit, the atomization unit and the activation unit can be flexibly switched on and off according to the use requirements of users, and the atomization device is convenient for the users to use.

Since the processing and functions implemented by the method of the present embodiment substantially correspond to the embodiments, principles and examples of the humidifier, reference may be made to the related descriptions in the foregoing embodiments without being detailed in the description of the present embodiment, which is not described herein again.

Through a large number of tests, the technical scheme of the embodiment is adopted, the low-frequency resonance function is arranged in the accommodating space of the humidifier, electromagnetic waves with certain frequency can be emitted in a magnetic field, water molecules are irradiated to generate resonance, the water molecules play an activation role, the water molecules with the polymerization type structure are converted into the water molecules with the linear type structure, the water molecules with the linear type structure can easily enter human cells, and the humidifier is beneficial to human health.

In summary, it is readily understood by those skilled in the art that the advantageous modes described above can be freely combined and superimposed without conflict.

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

Claims (13)

1. A humidification control device, comprising: an atomization unit and an activation unit; wherein the content of the first and second substances,

the atomizing unit is used for atomizing water in the water storage space of the humidifier to obtain first water molecules; a first water molecule comprising: water molecules of polymeric structure;

the activation unit is used for activating the first water molecules obtained through atomization treatment to obtain second water molecules, and outputting the second water molecules to the humidification space of the humidifier so as to humidify the humidification space of the humidifier by using the second water molecules; a second water molecule comprising: water molecules of linear structure.

2. The humidification control device of claim 1, wherein the atomization unit comprises: an ultrasonic atomizer; the ultrasonic atomizer is arranged in the water storage space of the humidifier.

3. The humidification control device according to claim 1, wherein the activation unit includes: an electromagnetic wave generation module;

the activation unit is used for activating the first water molecule obtained by the atomization treatment and comprises:

the electromagnetic wave generation module outputs electromagnetic waves according to set parameters so as to irradiate first water molecules through the electromagnetic waves, and the first water molecules generate resonance under the irradiation of the electromagnetic waves to realize activation, so that second water molecules are obtained.

4. The humidification control device as claimed in claim 3, wherein the electromagnetic wave generation module is disposed in the water storage space of the humidifier, or at the control panel of the humidifier, or in the inner space of the side of the body of the humidifier; the electromagnetic wave output by the electromagnetic wave generation module can be at least irradiated to the output direction of the first water molecule output by the atomization unit.

5. The humidification control device of any one of claims 1 to 4, further comprising: a detection unit and a control unit; wherein the content of the first and second substances,

the detection unit is used for detecting a first water level in the water storage space of the humidifier before the atomization unit and the activation unit are started;

the control unit is used for determining whether the detected first water level is lower than a set water level or not, and controlling the atomization unit and the activation unit to be closed if the detected first water level is lower than the set water level; and if the detected first water level is higher than or equal to the set water level, controlling the atomization unit and the activation unit to be started.

6. The humidification control device of claim 5, further comprising:

the detection unit is also used for detecting a second water level in the water storage space of the humidifier after the atomization unit and the activation unit are started;

and the control unit is also used for determining whether the detected second water level is lower than the set water level or not, and controlling the humidifier to be powered off if the detected second water level is lower than the set water level.

7. The humidification control device of claim 5, further comprising:

the detection unit is also used for detecting the first functional state of a first key of the activation unit or detecting the second functional state of a second key of the humidifier after the atomization unit and the activation unit are started;

the control unit is also used for determining the detected first functional state of the first key, and controlling the activation unit to be closed if the detected first functional state of the first key is a closing instruction;

or the control unit is further configured to determine a detected second function state of the second key, and if the detected second function state of the second key is a close instruction, control the humidifier to be closed, and both the atomizing unit and the activating unit are closed when the humidifier is closed.

8. A humidifier, comprising: the humidification control device of any one of claims 1 to 7.

9. A humidification control method of a humidifier according to claim 8, comprising:

atomizing water in a water storage space of the humidifier through an atomizing unit to obtain first water molecules; a first water molecule comprising: water molecules of polymeric structure;

activating the first water molecules obtained by atomization through an activation unit to obtain second water molecules, and outputting the second water molecules to the humidification space of the humidifier so as to humidify the humidification space of the humidifier by using the second water molecules; a second water molecule comprising: water molecules of linear structure.

10. The humidification control method according to claim 9, wherein the activation processing of the first water molecule obtained by the atomization processing by the activation unit includes:

the electromagnetic wave generation module outputs electromagnetic waves according to set parameters so as to irradiate first water molecules through the electromagnetic waves, and the first water molecules generate resonance under the irradiation of the electromagnetic waves to realize activation, so that second water molecules are obtained.

11. The humidification control method according to claim 9 or 10, further comprising:

detecting, by a detection unit, a first water level in a water storage space of a humidifier before an atomization unit and an activation unit are turned on;

determining whether the detected first water level is lower than a set water level or not through a control unit, and controlling the atomization unit and the activation unit to be closed if the detected first water level is lower than the set water level; and if the detected first water level is higher than or equal to the set water level, controlling the atomization unit and the activation unit to be started.

12. The humidification control method according to claim 11, further comprising:

detecting a second water level in the water storage space of the humidifier through the detection unit after the atomization unit and the activation unit are started;

and determining whether the detected second water level is lower than a set water level through the control unit, and controlling the humidifier to be powered off if the detected second water level is lower than the set water level.

13. The humidification control method according to claim 11, further comprising:

through the detection unit, after the atomization unit and the activation unit are started, a first function state of a first key of the activation unit is detected, or a second function state of a second key of the humidifier is detected;

the detected first function state of the first key is also determined through the control unit, and if the detected first function state of the first key is a closing instruction, the activation unit is controlled to be closed;

or, the control unit further determines the detected second function state of the second key, and controls the humidifier to be turned off if the detected second function state of the second key is a turn-off instruction, and both the atomizing unit and the activating unit are turned off when the humidifier is turned off.

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