阅读说明：本技术 除静电方法、装置、设备和存储介质 (Static electricity removing method, device, equipment and storage medium ) 是由 郭坚文 吴俊文 王帆 于 2021-05-08 设计创作，主要内容包括：本申请涉及一种除静电方法、装置、设备和存储介质,其中,方法包括：获取环境湿度以及环境静电电压,若环境静电电压大于预设静电电压阈值,则表明当前环境需要除静电,则进入除静电模式,以消除环境中存在的静电；若环境静电电压不大于预设静电电压阈值时,则进一步判断环境湿度是否小于预设湿度上限阈值,若是,则表明需要执行防静电操作,增大环境湿度,若环境湿度不小于预设湿度上限阈值,则表明无需执行防静电操作,即无需增大环境湿度,继续监测环境湿度以及环境静电电压。整个过程中,基于环境湿度以及环境静电电压,判断进入除静电模式还是防静电模式,且将除静电和防静电结合,实现对环境中静电合理且有效去除与防止。(The application relates to a static electricity removing method, a static electricity removing device, equipment and a storage medium, wherein the method comprises the following steps: acquiring environment humidity and environment electrostatic voltage, if the environment electrostatic voltage is greater than a preset electrostatic voltage threshold value, indicating that the current environment needs to be destaticized, and entering a destaticizing mode to eliminate static existing in the environment; if the environment electrostatic voltage is not greater than the preset electrostatic voltage threshold, whether the environment humidity is smaller than a preset humidity upper limit threshold is further judged, if yes, the fact that the anti-electrostatic operation needs to be executed is indicated, the environment humidity is increased, if the environment humidity is not smaller than the preset humidity upper limit threshold, the fact that the anti-electrostatic operation does not need to be executed is indicated, namely the fact that the environment humidity does not need to be increased, and the environment humidity and the environment electrostatic voltage are continuously monitored. In the whole process, based on the environment humidity and the environment static voltage, whether the static removing mode or the static preventing mode is entered is judged, and the static removing and the static preventing are combined, so that the static in the environment is reasonably and effectively removed and prevented.)

1. A method of destaticizing, the method comprising:

acquiring environmental humidity and environmental static voltage;

when the environmental static voltage is larger than a preset static voltage threshold value, entering a static elimination mode;

when the environmental static voltage is not greater than the preset static voltage threshold, judging whether the environmental humidity is less than a preset humidity upper limit threshold;

if the environmental humidity is smaller than a preset humidity upper limit threshold value, entering an anti-static mode;

and if the environmental humidity is not less than the preset humidity upper limit threshold value, returning to the step of acquiring the environmental humidity and the environmental static voltage.

2. The method of claim 1, wherein entering the static elimination mode when the ambient static voltage is greater than a preset static voltage threshold comprises:

when the environmental static voltage is greater than the preset static voltage threshold, judging whether the environmental humidity is less than a preset humidity lower limit threshold;

when the environmental humidity is less than a preset lower humidity threshold value, releasing the charged water mist;

and when the ambient humidity is not less than the preset lower humidity threshold, releasing the charged air mass.

3. The method of claim 2, wherein the releasing the charged mist when the ambient humidity is less than a preset lower humidity threshold comprises:

when the environmental humidity is smaller than a preset humidity lower limit threshold, judging whether the environmental static voltage is positive or negative;

if the negative electric water mist is positive, the negative electric water mist is released;

if the water mist is negative, positive water mist is released.

4. The method of claim 2, wherein releasing the charged bolus when the ambient humidity is not less than the preset lower humidity threshold comprises:

when the environmental humidity is not less than a preset humidity lower limit threshold, judging whether the environmental static voltage is positive or negative;

if the current is positive, negative charge radicals are released;

if negative, a positive charge bolus is released.

5. The method of claim 1, wherein entering the anti-static mode if the ambient humidity is less than a predetermined upper humidity threshold comprises:

when the environmental humidity is smaller than a preset humidity upper limit threshold value, the environmental humidity is increased;

periodically collecting environmental humidity data;

and when the environmental humidity is not less than the preset humidity upper limit threshold, stopping increasing the environmental humidity.

6. The method of claim 1, wherein entering the anti-static mode if the ambient humidity is less than a predetermined upper humidity threshold comprises:

when the environmental humidity is smaller than a preset humidity upper limit threshold, judging whether the environmental humidity is smaller than a preset humidity lower limit threshold;

if the environmental humidity is not less than the preset lower humidity threshold, releasing water mist to increase the environmental humidity;

the static electricity removing method further comprises the following steps:

and if the environmental humidity is less than the preset humidity lower limit threshold, entering a static electricity removal mode.

7. The method of claim 1, wherein the obtaining the ambient humidity and the ambient electrostatic voltage comprises:

acquiring the environmental humidity;

when the environmental humidity is not less than a preset humidity lower limit threshold, acquiring an environmental static voltage;

the static electricity removing method further comprises the following steps:

and when the environmental humidity is less than a preset humidity lower limit threshold value, entering a static electricity removal mode.

8. An electrostatic elimination apparatus, comprising:

the parameter acquisition module is used for acquiring the environment humidity and the environment electrostatic voltage;

the static eliminating module is used for entering a static eliminating mode when the environmental static voltage is greater than a preset static voltage threshold value;

the judgment module is used for judging whether the environmental humidity is smaller than a preset humidity upper limit threshold value or not when the environmental static voltage is not larger than the preset static voltage threshold value;

the anti-static module is used for entering an anti-static mode when the environmental humidity is smaller than a preset humidity upper limit threshold; and when the environmental humidity is not less than the preset humidity upper limit threshold value, controlling the parameter acquisition module to execute the operation of acquiring the environmental humidity and the environmental electrostatic voltage again.

9. An antistatic device, comprising an antistatic module, an antistatic module and a controller, wherein the controller is loaded with a computer program, and the controller implements the steps of the method according to any one of claims 1 to 7 when executing the computer program to control the antistatic module and the antistatic module to work.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 7.

Technical Field

The present application relates to the field of static electricity removal technologies, and in particular, to a static electricity removal method, apparatus, device, and storage medium.

Background

When air is dry and the environmental humidity is low, especially in autumn and winter, static electricity is easily generated on wool, chemical fiber clothes, metal products and the like, and when people contact the objects, discharge is generated, so that people feel uncomfortable.

At present, space static removing equipment (such as a static removing fan) on the market is mainly used for industrial production, generally is a workshop which can generate a large amount of static in the production processes of textile factories, plastic film factories and the like, and the equipment can continuously blow air for a long time to firmly meet the production requirements, but the implementation process of continuously blowing air for a long time is complex and wastes energy; in addition, a humidifier is used for humidifying to improve the humidity in the air, the mode cannot achieve the static electricity removing effect, and the humidity is required to be more than 70%.

Therefore, the traditional static electricity removing scheme has the defects of complex implementation and poor static electricity removing effect.

Disclosure of Invention

In view of the above, it is necessary to provide a simple and effective static electricity removing method, device, apparatus and storage medium for solving the problems of the conventional static electricity removing scheme that the implementation is complicated and the static electricity removing effect is not good.

A method of destaticizing, the method comprising:

acquiring environmental humidity and environmental static voltage;

when the environmental static voltage is larger than a preset static voltage threshold value, entering a static elimination mode;

when the environmental static voltage is not greater than the preset static voltage threshold, judging whether the environmental humidity is less than a preset humidity upper limit threshold;

if the environmental humidity is smaller than a preset humidity upper limit threshold value, entering an anti-static mode;

and if the environmental humidity is not less than the preset humidity upper limit threshold, returning to obtain the environmental humidity and the environmental static voltage.

In one embodiment, when the ambient electrostatic voltage is greater than the preset electrostatic voltage threshold, entering the static elimination mode includes:

when the environmental static voltage is greater than the preset static voltage threshold, judging whether the environmental humidity is less than a preset humidity lower limit threshold;

when the environmental humidity is less than a preset lower humidity threshold value, releasing the charged water mist;

and when the ambient humidity is not less than the preset lower humidity threshold, releasing the charged air mass.

In one embodiment, when the ambient humidity is less than the preset lower humidity threshold, the releasing the charged mist comprises:

when the environmental humidity is smaller than a preset humidity lower limit threshold, judging whether the environmental static voltage is positive or negative;

if the negative electric water mist is positive, the negative electric water mist is released;

if the water mist is negative, positive water mist is released.

In one embodiment, when the ambient humidity is not less than the preset lower humidity threshold, releasing the charged air mass comprises:

when the environmental humidity is not less than a preset humidity lower limit threshold, judging whether the environmental static voltage is positive or negative;

if the current is positive, negative charge radicals are released;

if negative, a positive charge bolus is released.

In one embodiment, if the ambient humidity is less than the preset upper humidity threshold, entering the anti-static mode includes:

when the environmental humidity is smaller than a preset humidity upper limit threshold value, the environmental humidity is increased;

periodically collecting environmental humidity data;

and when the environmental humidity is not less than the preset humidity upper limit threshold value, stopping increasing the environmental humidity.

In one embodiment, if the ambient humidity is less than the preset upper humidity threshold, entering the anti-static mode includes:

when the environmental humidity is smaller than a preset humidity upper limit threshold, judging whether the environmental humidity is smaller than a preset humidity lower limit threshold;

if the environmental humidity is not less than the preset lower humidity threshold, releasing water mist to increase the environmental humidity;

the static electricity removing method further comprises the following steps:

and if the environmental humidity is less than the preset humidity lower limit threshold, entering a static electricity removal mode.

In one embodiment, acquiring the ambient humidity and the ambient electrostatic voltage comprises:

acquiring the environmental humidity;

when the environmental humidity is not less than a preset humidity lower limit threshold, acquiring an environmental static voltage;

the static electricity removing method further comprises the following steps:

and when the environmental humidity is less than a preset humidity lower limit threshold value, entering a static electricity removal mode.

A static discharge apparatus, the apparatus comprising:

the parameter acquisition module is used for acquiring the environment humidity and the environment electrostatic voltage;

the static eliminating module is used for entering a static eliminating mode when the environmental static voltage is greater than a preset static voltage threshold value;

the judgment module is used for judging whether the environmental humidity is smaller than a preset humidity upper limit threshold value or not when the environmental static voltage is not larger than the preset static voltage threshold value;

the anti-static module is used for entering an anti-static mode when the environmental humidity is smaller than a preset humidity upper limit threshold; and when the environmental humidity is not less than the preset humidity upper limit threshold value, controlling the parameter acquisition module to re-execute the operation of acquiring the environmental humidity and the environmental electrostatic voltage.

The application also provides a static removing device, which comprises a static removing module, a static preventing module and a controller, wherein the controller is loaded with a computer program, and the steps of the method are realized when the controller executes the computer program so as to control the static removing module and the static preventing module to work.

A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:

acquiring environmental humidity and environmental static voltage;

when the environmental static voltage is larger than a preset static voltage threshold value, entering a static elimination mode;

when the environmental static voltage is not greater than the preset static voltage threshold, judging whether the environmental humidity is less than a preset humidity upper limit threshold;

if the environmental humidity is smaller than a preset humidity upper limit threshold value, entering an anti-static mode;

and if the environmental humidity is not less than the preset humidity upper limit threshold, returning to obtain the environmental humidity and the environmental static voltage.

According to the static electricity removing method, the static electricity removing device, the static electricity removing equipment and the storage medium, the environment humidity and the environment static electricity voltage are obtained, if the environment static electricity voltage is larger than a preset static electricity voltage threshold value, it is indicated that the static electricity needs to be removed in the current environment, and then a static electricity removing mode is entered to remove the static electricity existing in the environment; if the environment electrostatic voltage is not greater than the preset electrostatic voltage threshold, whether the environment humidity is smaller than a preset humidity upper limit threshold is further judged, if yes, the fact that the anti-electrostatic operation needs to be executed is indicated, the environment humidity is increased, if the environment humidity is not smaller than the preset humidity upper limit threshold, the fact that the anti-electrostatic operation does not need to be executed is indicated, namely the fact that the environment humidity does not need to be increased, and the environment humidity and the environment electrostatic voltage are continuously monitored. In the whole process, whether the static electricity removing mode or the static electricity preventing mode is judged based on the environment humidity and the environment static electricity voltage, the implementation process is simple, the static electricity removing and the static electricity preventing are combined, and the static electricity in the environment is reasonably and effectively removed and prevented.

Drawings

FIG. 1 is a schematic flow chart of a static discharge method according to an embodiment;

FIG. 2 is a schematic flow chart of a static elimination method according to another embodiment;

FIG. 3 is a schematic flow chart illustrating an exemplary destaticizing mode;

FIG. 4 is a schematic flow chart illustrating the antistatic mode according to an embodiment;

FIG. 5 is a schematic flow chart of a static elimination method in an application example;

FIG. 6 is a block diagram showing the structure of an electrostatic eliminating apparatus according to an embodiment;

FIG. 7 is a schematic structural view of a static eliminating apparatus in an application example;

fig. 8 is an internal structural view of the static eliminating apparatus in one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

To explain the technical solution and the principle of the static electricity removing method of the present application in detail, the following first introduces the relevant matters related to static electricity.

Static electricity is generated by charge transfer and accumulation due to contact separation between objects. Water is a conductor that can transfer static charges, but is only effective when the air humidity is high. When the humidity of the air is greater than the preset humidity upper limit value (for example, 50%), the water in the air forms a water film on the surface of the object to diffuse the static charges accumulated on the object, so that the electric charges on different objects cannot generate a potential difference, and static electricity cannot be generated. When the air humidity is lower than the preset humidity lower limit value (30%), no water film exists on the surface of the object, electric charge transfer is easy to generate due to friction, the electric charge is not easy to diffuse, and static electricity is easy to generate. Based on the technical principle, the static electricity removing scheme is based on the principle, humidity and static voltage in the environment are used as judgment bases, the current static electricity removing mode or the humidification static electricity preventing mode is identified, static electricity removing and static electricity preventing are combined, simple and effective static electricity removing and preventing can be achieved, convenience is brought to life of people, and the static electricity removing device is particularly suitable for daily household environments, for example, applied to static electricity removing household appliances, such as air conditioners and air purifiers with static electricity removing functions.

In one embodiment, as shown in fig. 1, there is provided a static electricity removing method including the steps of:

s200: and acquiring the ambient humidity and the ambient electrostatic voltage.

The environmental humidity and the environmental electrostatic voltage can be collected by external equipment (devices) and then introduced into the equipment, and can also be directly collected by a sensor arranged in the equipment. Taking the application of the static electricity removing method to the air conditioner as an example, the humidity sensor and the static voltage sensor which are arranged in the air conditioner respectively acquire and acquire the environmental humidity and the environmental static voltage. Optionally, in the process of acquiring the ambient humidity and the ambient electrostatic voltage, multiple periodic sampling may be performed to obtain an average value, so as to improve the accuracy of acquiring the ambient humidity and the ambient electrostatic voltage.

S400: and when the environmental static voltage is greater than the preset static voltage threshold value, entering a static elimination mode.

The preset electrostatic voltage threshold is a preset threshold, which is specifically set according to an actual application environment, for example, it may be set to an electrostatic voltage that is harmless to a human body or cannot obviously sense the corresponding electrostatic voltage, or it may be directly set to 0 in an application environment where static electricity is relatively sensitive, that is, the electrostatic voltage mainly exists, that is, the static electricity removal mode is entered. In practical application, the preset electrostatic voltage threshold value also supports manual adjustment of a user, for example, when the static electricity removal method is applied to an air conditioner, the user can adjust the static electricity removal degree through a remote controller, and correspondingly adjust the preset electrostatic voltage threshold value. It will be appreciated that the process is similar when applied to other devices such as air purifiers. And when the environmental static voltage is greater than the preset static voltage threshold value, indicating that the environment needs to be subjected to static electricity removal operation at present, and entering a static electricity removal mode.

S600: and when the environmental electrostatic voltage is not greater than the preset electrostatic voltage threshold, judging whether the environmental humidity is less than a preset humidity upper limit threshold.

When the environmental electrostatic voltage is not greater than the preset electrostatic voltage threshold, it indicates that the static electricity removal mode is not needed at present, but to effectively prevent static electricity, it is necessary to further determine whether the environmental humidity is less than the preset humidity upper limit threshold. As described above, there is a certain correlation between the generation of static electricity and the ambient humidity, and static electricity is more likely to be generated as the ambient humidity is lower. The preset humidity upper threshold is a preset value, and is based on the same principle as the preset electrostatic voltage threshold, and the preset humidity upper threshold is an upper limit obtained according to practical application experience, and determines a threshold for starting the anti-electrostatic mode, which also supports the adjustment of a user in practical application. For example, when continuing to be applied to air conditioner, the user can prevent the static degree through the remote controller adjustment, and correspondingly, when needing higher degree to prevent static, can increase and preset humidity upper limit value, enter into promptly and prevent the static mode more easily, when needing lower degree to prevent static, can suitably adjust and preset humidity upper limit value, improve promptly and enter into the ambient humidity threshold of preventing the static mode. Preferably, the preset upper humidity threshold may be set to 50%.

S820: and if the environmental humidity is less than the preset upper humidity limit threshold, entering an anti-static mode.

If the environment humidity is smaller than the preset humidity upper limit threshold value, it is indicated that the environment has a large electrostatic influence risk, the anti-static treatment is required, and at this time, the anti-static mode is entered. The specific entering of the antistatic mode can be to increase the ambient humidity, which will reduce the possibility of static electricity generation.

S840: and if the environmental humidity is not less than the preset humidity upper limit threshold, returning to obtain the environmental humidity and the environmental static voltage.

If the environment humidity is not less than the preset humidity upper limit threshold, the current environment is indicated, and the environment humidity and the environment electrostatic voltage state are continuously detected.

The static electricity removing method comprises the steps of obtaining environment humidity and environment static electricity voltage, if the environment static electricity voltage is larger than a preset static electricity voltage threshold value, indicating that the current environment needs to be subjected to static electricity removal, and entering a static electricity removing mode to remove static electricity existing in the environment; if the environment electrostatic voltage is not greater than the preset electrostatic voltage threshold, whether the environment humidity is smaller than a preset humidity upper limit threshold is further judged, if yes, the fact that the anti-electrostatic operation needs to be executed is indicated, the environment humidity is increased, if the environment humidity is not smaller than the preset humidity upper limit threshold, the fact that the anti-electrostatic operation does not need to be executed is indicated, namely the fact that the environment humidity does not need to be increased, and the environment humidity and the environment electrostatic voltage are continuously monitored. In the whole process, whether the static electricity removing mode or the static electricity preventing mode is judged based on the environment humidity and the environment static electricity voltage, the implementation process is simple, the static electricity removing and the static electricity preventing are combined, and the static electricity in the environment is reasonably and effectively removed and prevented.

As shown in fig. 2, in one embodiment, S400 includes:

s420: when the environmental static voltage is greater than the preset static voltage threshold, judging whether the environmental humidity is less than a preset humidity lower limit threshold;

s442: when the environmental humidity is less than a preset lower humidity threshold value, releasing the charged water mist;

s444: and when the ambient humidity is not less than the preset lower humidity threshold, releasing the charged air mass.

When the environmental electrostatic voltage is greater than the preset electrostatic voltage threshold, it indicates that the static electricity removal operation needs to be executed at present, and further determines whether the environmental humidity is less than a preset humidity lower limit threshold, where a setting principle of the preset humidity lower limit threshold is similar to the preset humidity upper limit threshold, and is less than the preset humidity upper limit threshold, and may be specifically 30%. When the environment humidity is smaller than the preset humidity lower limit value, indicating that the environment humidity is continuously increased at present, releasing the charged water mist, specifically releasing positive and negative water ions, and when the environment humidity is not smaller than the preset humidity lower limit value, releasing the charged air mass, specifically releasing positive and negative air masses. Specifically, the device may ionize air and water by ionizing air to generate negative and positive air masses and water and positive and negative ions.

Further, in the process of releasing the charged water mist or the charged air mass, the positive and negative of the environmental electrostatic voltage are further judged so as to release ions corresponding to neutralization. Specifically, when the environment humidity is smaller than a preset humidity lower limit threshold value and the charged water mist is released, judging whether the environment electrostatic voltage is positive or negative; if the negative electric water mist is positive, the negative electric water mist is released; if the water mist is negative, positive electric water mist is released; when the environment humidity is smaller than a preset humidity lower limit threshold value and charged air mass is released, judging whether the environment electrostatic voltage is positive or negative; if the current is positive, negative charge radicals are released; if negative, a positive charge bolus is released.

Taking practical application to an air conditioner or an air purifier as an example, a specific flow of the static electricity removal mode in practical application is shown in fig. 3, which specifically includes the following steps:

1. the air conditioner enters a static electricity removal mode;

2. a humidity detection module (humidity sensor) detects indoor humidity;

3. judging whether the humidity is lower than 30%, if not, entering a step 4; if yes, entering step 5;

4. judging whether the electrostatic voltage is negative, if so, releasing positive air mass; if not, releasing negative charge radicals;

5. judging whether the electrostatic voltage is positive, and if so, releasing negative electric water mist; if not, releasing the positive electric water mist.

In one embodiment, if the ambient humidity is less than the preset upper humidity threshold, entering the anti-static mode includes:

when the environmental humidity is smaller than a preset humidity upper limit threshold value, the environmental humidity is increased; periodically collecting environmental humidity data; and when the environmental humidity is not less than the preset humidity upper limit threshold value, stopping increasing the environmental humidity.

Ambient humidity is less than and predetermines humidity upper limit threshold value, it is comparatively dry to show the current environment, produce static relatively easily, this moment need increase ambient humidity, release water smoke, because increase ambient humidity is a progressive process, consequently need continuously detect the change of ambient humidity, environmental humidity data is gathered to the periodicity, when ambient humidity no longer continues to be less than and predetermines humidity upper limit threshold value, stop increasing ambient humidity, avoid too big ambient humidity to bring inconvenience and uncomfortable for the user.

Further, when the ambient humidity is smaller than the preset upper humidity limit threshold, further judging whether the ambient humidity is smaller than the preset lower humidity limit threshold, if not, continuing to perform the anti-static treatment, and releasing water mist to increase the ambient humidity; if so, the current environment humidity is too low, static electricity is easily generated, in other words, a large static electricity removing requirement exists currently, and then the static electricity removing mode is automatically entered.

Taking practical application to an air conditioner or an air purifier as an example, the specific flow of the electricity-proof mode in practical application is shown in fig. 4, and the specific flow specifically comprises the following steps:

1. the humidity sensor continuously detects the indoor humidity;

2. judging whether the indoor humidity is less than 50% of a preset humidity upper limit threshold, if so, entering a step 3, otherwise, returning to the step 1, and continuously detecting the indoor humidity;

3. further judging whether the indoor humidity is less than a preset humidity lower limit threshold value by 30%, if so, entering a static electricity removing mode, and if not, entering a step 4;

4. and releasing positive and negative water ions simultaneously, increasing the environmental humidity, returning to the step 1, and continuously detecting the indoor humidity until the indoor humidity is not lower than the preset humidity upper limit threshold value by 50%.

In one embodiment, acquiring the ambient humidity and the ambient electrostatic voltage comprises:

acquiring the environmental humidity; when the environmental humidity is not less than a preset humidity lower limit threshold, acquiring an environmental static voltage;

the static electricity removing method further comprises the following steps: and when the environmental humidity is less than a preset humidity lower limit threshold value, entering a static electricity removal mode.

In this embodiment, preferentially acquire environment humidity, when environment humidity is less than preset humidity lower limit threshold value, indicate that the environment is too dry, very easily produce a large amount of static, there is urgent destaticization demand this moment, directly enter into the destaticization mode, and do not continue to refer to and detect static voltage to the very first time destatics the environment, it is convenient to bring for the user.

In order to explain the technical solution and effect of the static eliminating method of the present application in detail, the following description will be given by taking the application of the static eliminating method of the present application to an air conditioner as an example. It will be appreciated that the overall method is similar in its treatment when applied to devices including air purifiers. The whole scheme flow is shown in fig. 5, and comprises the following steps:

1. powering on the air conditioner;

2. the static detection module detects indoor static electricity quantity and static voltage; if yes, entering step 3, otherwise, entering step 4;

3. entering a static electricity removal mode; judging whether the indoor static electricity quantity and the static voltage return to normal levels; if yes, entering step 4;

4. entering an anti-static mode;

5. the above process is continued until the air conditioner is turned off.

It should be understood that, although the steps in the flowcharts are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a part of the steps in each of the flowcharts described above may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of performing the steps or stages is not necessarily sequential, but may be performed alternately or alternately with other steps or at least a part of the steps or stages in other steps.

In one embodiment, as shown in fig. 6, the present application further provides a static discharge apparatus, comprising:

a parameter obtaining module 200, configured to obtain ambient humidity and ambient electrostatic voltage;

the static elimination module 400 is used for entering a static elimination mode when the environmental static voltage is greater than a preset static voltage threshold value;

the determining module 600 is configured to determine whether the ambient humidity is less than a preset humidity upper threshold when the ambient electrostatic voltage is not greater than the preset electrostatic voltage threshold;

the anti-static module 800 is used for entering an anti-static mode when the environmental humidity is smaller than a preset humidity upper limit threshold; when the ambient humidity is not less than the preset humidity upper threshold, the control parameter obtaining module 200 re-executes the operation of obtaining the ambient humidity and the ambient electrostatic voltage.

The static electricity removing device acquires environment humidity and environment static electricity voltage, and if the environment static electricity voltage is greater than a preset static electricity voltage threshold value, the current environment needs to be subjected to static electricity removal, and then the static electricity removing device enters a static electricity removing mode to remove static electricity existing in the environment; if the environment electrostatic voltage is not greater than the preset electrostatic voltage threshold, whether the environment humidity is smaller than a preset humidity upper limit threshold is further judged, if yes, the fact that the anti-electrostatic operation needs to be executed is indicated, the environment humidity is increased, if the environment humidity is not smaller than the preset humidity upper limit threshold, the fact that the anti-electrostatic operation does not need to be executed is indicated, namely the fact that the environment humidity does not need to be increased, and the environment humidity and the environment electrostatic voltage are continuously monitored. In the whole process, whether the static electricity removing mode or the static electricity preventing mode is judged based on the environment humidity and the environment static electricity voltage, the implementation process is simple, the static electricity removing and the static electricity preventing are combined, and the static electricity in the environment is reasonably and effectively removed and prevented.

In one embodiment, the static elimination module 400 is further configured to determine whether the ambient humidity is less than a preset humidity lower threshold when the ambient static voltage is greater than the preset static voltage threshold; when the environmental humidity is less than a preset lower humidity threshold value, releasing the charged water mist; and when the ambient humidity is not less than the preset lower humidity threshold, releasing the charged air mass.

In one embodiment, the static elimination module 400 is further configured to determine whether the ambient static voltage is positive or negative when the ambient humidity is less than the preset humidity lower threshold; if the negative electric water mist is positive, the negative electric water mist is released; if the water mist is negative, positive water mist is released.

In one embodiment, the static elimination module 400 is further configured to determine whether the ambient static voltage is positive or negative when the ambient humidity is not less than the preset lower humidity threshold; if the current is positive, negative charge radicals are released; if negative, a positive charge bolus is released.

In one embodiment, the anti-static module 800 is further configured to increase the ambient humidity when the ambient humidity is less than the preset upper humidity threshold; periodically collecting environmental humidity data; and when the environmental humidity is not less than the preset humidity upper limit threshold value, stopping increasing the environmental humidity.

In one embodiment, the anti-static module 800 is further configured to determine whether the ambient humidity is less than a preset humidity lower threshold when the ambient humidity is less than a preset humidity upper threshold; if the environmental humidity is not less than the preset lower humidity threshold, releasing water mist to increase the environmental humidity;

the static electricity removing module 400 is further configured to enter a static electricity removing mode when the ambient humidity is less than a preset lower humidity threshold.

In one embodiment, the parameter obtaining module 200 is further configured to obtain an ambient humidity; when the environmental humidity is not less than a preset humidity lower limit threshold, acquiring an environmental static voltage;

the static electricity removing module 400 is further configured to enter a static electricity removing mode when the ambient humidity is less than a preset lower humidity threshold.

For specific examples of the static electricity removing device, reference may be made to the above examples of the static electricity removing method, which are not described herein again. All or part of each module in the static electricity removing device can be realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the static electricity removing equipment, and can also be stored in a memory in the static electricity removing equipment in a software form, so that the processor can call and execute the corresponding operations of the modules.

In addition, the application also provides a static electricity removing device, which comprises a static electricity removing module, a static electricity preventing module and a controller, wherein the controller is loaded with a computer program, and the controller realizes the steps of the static electricity removing method when executing the computer program so as to control the static electricity removing module and the static electricity preventing module to work.

For specific examples of the static removing device, reference may be made to the above examples of the static removing method, which are not described herein again.

In practical applications, the static electricity removing method and apparatus of the present application can be applied to a system architecture as shown in fig. 7, and the system architecture specifically includes a humidity sensing module, a static electricity sensing module, a signal processing module, a controller, a condensed water ionization module, and an air ionization module; the ionization module is controlled to ionize according to indoor humidity and electrostatic voltage to release positive/negative water mist or positive/negative air mass, the positive/negative water mist or the positive/negative air mass is taken out through an air outlet of an air conditioner indoor unit and blown to the surface of an object, and positive/negative static electricity on the object is neutralized, so that the static electricity eliminating effect is achieved; after static electricity is eliminated, the air humidity is detected, water mist is blown out of an air outlet of an air conditioner indoor unit, the air humidity is kept at a reasonable value (about 50 percent), and static electricity is prevented from being generated. The specific processing flow is as follows:

1. after the air conditioner is started, the static detection module starts to continuously detect indoor static quantity and static voltage;

1.1, when no static electricity is detected in a room, the system enters an anti-static mode and starts to work in an anti-static mode;

1.2, when the indoor static electricity is detected, the system enters a static electricity removing mode, starts static electricity removing work until the indoor static voltage returns to a normal level, exits the static electricity removing mode and enters an anti-static mode.

2. Wherein the static electricity removing mode comprises the following steps:

the system enters a static electricity removal mode and the humidity sensor begins to detect the indoor humidity. When the indoor humidity is detected to be lower than 30%, according to the indoor static voltage detected previously, if the indoor static voltage is positive, the condensed water ionization module is controlled to ionize and release negative electric water mist; if the static voltage is negative, the condensed water ionization module is controlled to ionize and release positive water mist; when the indoor humidity is detected to be higher than 30%, controlling the air ionization module to ionize and release negative charge radicals according to the previously detected indoor static voltage if the indoor static voltage is positive; and if the voltage is negative static voltage, the air ionization module is controlled to ionize and release positive air mass.

3. Wherein the antistatic mode is as follows:

the system enters an antistatic mode and the humidity sensor begins to detect the indoor humidity. When the indoor humidity is detected to be higher than 50%, carrying out cycle detection; when the indoor humidity is detected to be lower than 50%, judging whether the indoor humidity is lower than 30%, if so, exiting the anti-static mode and entering a static elimination mode; if the water content is not lower than 30%, the condensed water ionization module is controlled to ionize and simultaneously release positive and negative water ions, and the positive and negative water ions are blown out through an air outlet of an air conditioner indoor unit and flow into indoor air. In the flowing process, water ions are condensed into small water drops due to positive and negative attraction to form water mist, and the water mist is continuously released to improve the indoor humidity; generally, when the air humidity is lower than 30%, the object surface is easy to generate static electricity by rubbing with the air, and when the static electricity on the object surface is low and the air humidity is more than 45%, the static electricity is not easy to generate, so that the static electricity can be effectively prevented by maintaining the air humidity at a reasonable value after the static electricity is removed.

In one embodiment, a static discharge apparatus is provided, and the static discharge apparatus may be a server, and the internal structure thereof may be as shown in fig. 8. The static eliminating device comprises a processor, a memory and a network interface which are connected through a system bus. Wherein, the processor of the static eliminating device is used for providing calculation and control capability. The memory of the static eliminating device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the static eliminating equipment is used for storing data such as preset threshold values and the like. The network interface of the static eliminating device is used for connecting and communicating with an external terminal through a network. The computer program is executed by a processor to implement a static discharge method.

It will be understood by those skilled in the art that the structure shown in fig. 8 is a block diagram of only a part of the structure related to the present application, and does not constitute a limitation to the static discharge apparatus to which the present application is applied, and a specific static discharge apparatus may include more or less components than those shown in the drawings, or combine some components, or have a different arrangement of components.

In one embodiment, there is provided a static discharge apparatus comprising a memory and a processor, the memory having a computer program stored therein, the processor implementing the following steps when executing the computer program:

acquiring environmental humidity and environmental static voltage;

when the environmental static voltage is larger than a preset static voltage threshold value, entering a static elimination mode;

when the environmental static voltage is not greater than the preset static voltage threshold, judging whether the environmental humidity is less than a preset humidity upper limit threshold;

if the environmental humidity is smaller than a preset humidity upper limit threshold value, entering an anti-static mode;

and if the environmental humidity is not less than the preset humidity upper limit threshold, returning to obtain the environmental humidity and the environmental static voltage.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

when the environmental static voltage is greater than the preset static voltage threshold, judging whether the environmental humidity is less than a preset humidity lower limit threshold; when the environmental humidity is less than a preset lower humidity threshold value, releasing the charged water mist; and when the ambient humidity is not less than the preset lower humidity threshold, releasing the charged air mass.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

when the environmental humidity is smaller than a preset humidity lower limit threshold, judging whether the environmental static voltage is positive or negative; if the negative electric water mist is positive, the negative electric water mist is released; if the water mist is negative, positive water mist is released.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

when the environmental humidity is not less than a preset humidity lower limit threshold, judging whether the environmental static voltage is positive or negative; if the current is positive, negative charge radicals are released; if negative, a positive charge bolus is released.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

when the environmental humidity is smaller than a preset humidity upper limit threshold value, the environmental humidity is increased; periodically collecting environmental humidity data; and when the environmental humidity is not less than the preset humidity upper limit threshold value, stopping increasing the environmental humidity.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

when the environmental humidity is smaller than a preset humidity upper limit threshold, judging whether the environmental humidity is smaller than a preset humidity lower limit threshold; if the environmental humidity is not less than the preset lower humidity threshold, releasing water mist to increase the environmental humidity; and if the environmental humidity is less than the preset humidity lower limit threshold, entering a static electricity removal mode.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

acquiring the environmental humidity; when the environmental humidity is not less than a preset humidity lower limit threshold, acquiring an environmental static voltage; and when the environmental humidity is less than a preset humidity lower limit threshold value, entering a static electricity removal mode.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of:

acquiring environmental humidity and environmental static voltage;

when the environmental static voltage is larger than a preset static voltage threshold value, entering a static elimination mode;

when the environmental static voltage is not greater than the preset static voltage threshold, judging whether the environmental humidity is less than a preset humidity upper limit threshold;

if the environmental humidity is smaller than a preset humidity upper limit threshold value, entering an anti-static mode;

and if the environmental humidity is not less than the preset humidity upper limit threshold, returning to obtain the environmental humidity and the environmental static voltage.

In one embodiment, the computer program when executed by the processor further performs the steps of:

when the environmental static voltage is greater than the preset static voltage threshold, judging whether the environmental humidity is less than a preset humidity lower limit threshold; when the environmental humidity is less than a preset lower humidity threshold value, releasing the charged water mist; and when the ambient humidity is not less than the preset lower humidity threshold, releasing the charged air mass.

In one embodiment, the computer program when executed by the processor further performs the steps of:

when the environmental humidity is smaller than a preset humidity lower limit threshold, judging whether the environmental static voltage is positive or negative; if the negative electric water mist is positive, the negative electric water mist is released; if the water mist is negative, positive water mist is released.

In one embodiment, the computer program when executed by the processor further performs the steps of:

when the environmental humidity is not less than a preset humidity lower limit threshold, judging whether the environmental static voltage is positive or negative; if the current is positive, negative charge radicals are released; if negative, a positive charge bolus is released.

In one embodiment, the computer program when executed by the processor further performs the steps of:

when the environmental humidity is smaller than a preset humidity upper limit threshold value, the environmental humidity is increased; periodically collecting environmental humidity data; and when the environmental humidity is not less than the preset humidity upper limit threshold value, stopping increasing the environmental humidity.

In one embodiment, the computer program when executed by the processor further performs the steps of:

when the environmental humidity is smaller than a preset humidity upper limit threshold, judging whether the environmental humidity is smaller than a preset humidity lower limit threshold; if the environmental humidity is not less than the preset lower humidity threshold, releasing water mist to increase the environmental humidity; and if the environmental humidity is less than the preset humidity lower limit threshold, entering a static electricity removal mode.

In one embodiment, the computer program when executed by the processor further performs the steps of:

acquiring the environmental humidity; when the environmental humidity is not less than a preset humidity lower limit threshold, acquiring an environmental static voltage; and when the environmental humidity is less than a preset humidity lower limit threshold value, entering a static electricity removal mode.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.