CN115900013A - Air film environment control method, system, electronic device and storage medium - Google Patents

Abstract

The present disclosure relates to a gas film environment control method, a system, an electronic device, and a storage medium, the gas film environment control method including: the method comprises the steps of obtaining environment detection data of the air film, wherein the environment detection data at least comprise the internal and external pressure difference of the air film, determining equipment adjustment parameters according to the environment detection data and target control parameters, determining target equipment according to the equipment adjustment parameters, wherein the target equipment at least comprises a target power frequency fan and a target variable frequency fan, and finally controlling the target equipment according to the target control parameters, and the target equipment is used for adjusting the internal and external pressure difference of the air film to the target pressure difference. According to the environment detection data and the target control parameters, the equipment adjustment parameters for quantitatively adjusting the environment of the air film can be determined, and the target equipment can be accurately determined through the equipment adjustment parameters, so that the internal and external pressure difference of the air film can be accurately controlled to the target pressure difference through the combination of the target power frequency fan and the target variable frequency fan, the accurate adjustment is realized, and the energy consumption is reduced.

Description

Air film environment control method, system, electronic device and storage medium

Technical Field

The present disclosure relates to the field of computer control technologies, and in particular, to a method and a system for controlling an air film environment, an electronic device, and a storage medium.

Background

The air film building is a novel building structure supported by the difference of internal and external air pressure, has the characteristics of large span area and flexibility, and is used for large buildings (such as air ports, waiting halls, industrial plants, warehouses and the like). The totally-enclosed space design of the air film can prevent pollutants such as dust in the air film from being discharged to the atmosphere, and can be applied to powder environments such as coal yards, garbage yards and the like.

In the related art, in the control process of the air film environment, the parameter control is not accurate enough, and a better control effect cannot be achieved.

Disclosure of Invention

The purpose of the present disclosure is to provide an air film environment control method, system, electronic device, and storage medium, determine a device adjustment parameter according to environment detection data and a target control parameter, and then determine a target device according to the device adjustment parameter, wherein the target device at least includes a target power frequency fan and a target variable frequency fan, so that the purpose of accurate control can be achieved by combining the target power frequency fan and the target variable frequency fan.

In order to achieve the above object, a first aspect of the present disclosure provides a gas film environment control method, including:

acquiring environment detection data of the air film, wherein the environment detection data at least comprises the internal and external pressure difference of the air film;

determining equipment adjustment parameters according to the environment detection data and target control parameters, wherein the target control parameters at least comprise a target pressure difference;

determining target equipment according to the equipment adjusting parameters, wherein the target equipment at least comprises a target power frequency fan and a target variable frequency fan;

and controlling the target equipment according to the target control parameter, wherein the target equipment is at least used for adjusting the internal and external pressure difference of the air film to the target pressure difference.

Optionally, the environment detection data further includes correction data, and the device adjustment parameter at least includes a pressure adjustment parameter;

determining equipment adjustment parameters according to the environment detection data and the target control parameters at least comprises the following steps:

according to the correction data, correcting the target pressure difference in the target control parameters to obtain the corrected target pressure difference;

obtaining a pressure adjusting parameter in the equipment adjusting parameters according to the internal and external pressure difference of the air film and the corrected target pressure difference in the environment detection data;

the controlling the target device according to the target pressure difference, wherein the target device is at least used for adjusting the internal and external pressure difference of the air film to the target pressure difference, and comprises the following steps:

and controlling the target equipment according to the corrected target pressure difference, wherein the target equipment is at least used for adjusting the internal and external pressure difference of the air film to the corrected target pressure difference.

Optionally, the correction data comprises at least wind speed and snow thickness;

and correcting the target pressure difference in the target control parameters according to the correction data to obtain the corrected target pressure difference, wherein the correction data at least comprises the following steps:

determining a first adjusting coefficient according to the wind speed;

adjusting the target pressure difference according to the first adjustment coefficient to obtain a first adjustment pressure difference;

determining a second adjustment coefficient according to the snow thickness;

adjusting the target pressure difference according to the second adjustment coefficient to obtain a second adjustment pressure difference;

determining a larger value of the first adjusted differential pressure and the second adjusted differential pressure as a corrected target differential pressure.

Optionally, the determining the target device according to the device adjustment parameter at least includes:

determining the total number of the fans according to the pressure adjusting parameters;

determining a first number of power frequency fans and a second number of variable frequency fans according to the total number of the fans and a preset proportion;

determining a first number of target power frequency fans from the plurality of power frequency fans;

and determining the target variable frequency fans of the second quantity from the plurality of variable frequency fans.

Optionally, the method further comprises:

determining the continuous working time of each target power frequency fan and each target variable frequency fan;

when a fan with continuous working time longer than a preset working time threshold exists in the target power frequency fan and the target variable frequency fan, determining a corresponding replacement fan from a standby power frequency fan and a standby variable frequency fan;

and controlling the replacement fan to replace the fan with the continuous working time length longer than the preset working time length threshold value in the target power frequency fan and the target variable frequency fan.

Optionally, the environment detection data further includes air film internal detection data, the target control parameter further includes an internal environment control parameter, the device adjustment parameter includes an internal environment adjustment parameter, and the target device further includes a target dust settling device and/or a target ventilation device;

determining device adjustment parameters according to the environment detection data and the target control parameters comprises:

determining the internal environment adjustment parameters according to the gas film internal detection data and the internal environment control parameters;

the determining the target device according to the device adjustment parameter includes:

and determining the target dust-settling equipment and/or the target ventilation equipment according to the internal environment adjusting parameters.

Optionally, the method further comprises:

acquiring fire detection data;

when the fire detection data is larger than a preset fire data threshold value, determining target fire-fighting equipment;

and controlling the target fire fighting equipment to work.

A second aspect of the present disclosure provides a gas film environmental control system, comprising a controller, an environmental detection device, and an environmental control device;

the environment detection device is configured to detect environment detection data of a gas film;

the environment control device is configured to provide a target device;

the controller is connected with the environment detection device and the environment control device respectively, and the controller is configured to implement the steps of the air film environment control method according to any one of the first aspect of the present disclosure.

A third aspect of the present disclosure provides a non-transitory computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the air film environmental control method according to any one of the first aspects of the present disclosure.

A fourth aspect of the present disclosure provides an electronic device, comprising:

a memory having a computer program stored thereon;

a processor for executing the computer program in the memory to implement the steps of the air film environmental control method according to any one of the first aspect of the present disclosure.

According to the technical scheme, the environment detection data of the air film is obtained, the environment detection data at least comprises the internal and external pressure difference of the air film, the equipment adjustment parameters are determined according to the environment detection data and the target control parameters, the target control parameters at least comprise the target pressure difference, then the target equipment is determined according to the equipment adjustment parameters, the target equipment at least comprises the target power frequency fan and the target variable frequency fan, finally the target equipment is controlled according to the target control parameters, and the target equipment is at least used for adjusting the internal and external pressure difference of the air film to the target pressure difference. According to the environment detection data and the target control parameters, the equipment adjustment parameters for quantitatively adjusting the environment of the air film can be determined, and the target equipment can be accurately determined through the equipment adjustment parameters, so that the internal and external pressure difference of the air film can be accurately controlled to the target pressure difference through the combination of the target power frequency fan and the target variable frequency fan, and the accurate adjustment is realized to reduce the energy consumption.

Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure, but do not constitute a limitation of the disclosure. In the drawings:

FIG. 1 is a schematic diagram illustrating a gas film environmental control system according to an exemplary embodiment.

FIG. 2 is a flow chart illustrating a method of air film environmental control according to an exemplary embodiment.

FIG. 3 is a flow chart illustrating a method of determining a target pressure differential in accordance with an exemplary embodiment.

Fig. 4 is a flow chart illustrating a method of determining a target device in accordance with an example embodiment.

FIG. 5 is a block diagram of an electronic device shown in accordance with an example embodiment.

Detailed Description

The following detailed description of the embodiments of the disclosure refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

In the related art, the air film environment inside the air film building is controlled by acquiring various detection parameters inside and outside the air film, but in the control process of the air film environment, the parameter control is not accurate enough, for example, when the pressure inside the air film is controlled, the pressure inside the air film cannot be accurately controlled at the target pressure, so that a better control effect cannot be achieved.

In view of the above problems, embodiments of the present disclosure provide an air film environment control method, an air film environment control system, an electronic device, and a storage medium, where an apparatus adjustment parameter is determined according to environment detection data and a target control parameter, and a target apparatus is determined according to the apparatus adjustment parameter, where the target apparatus at least includes a target power frequency fan and a target variable frequency fan, so that a purpose of accurate control can be achieved through combination of the target power frequency fan and the target variable frequency fan.

Before describing the air film environment control method of the present disclosure, the air film environment control system of the present disclosure is described, fig. 1 is a schematic diagram of an air film environment control system according to an exemplary embodiment, and as shown in fig. 1, the air film environment control system includes a controller 200, an environment detection device 100, and an environment control device 300, where the environment detection device 100 is configured to detect environment detection data of an air film, the environment control device 300 is configured to provide a target device, and the controller 200 is configured to determine the target device from the environment control device according to the environment detection data, so as to implement air film environment control inside an air film building by controlling the target device.

In a possible embodiment, the environment detection data of the air film may include an inside and outside differential pressure of the air film, correction data, and air film inside detection data, wherein the correction data may include an air speed and a snow thickness, and the air film inside detection data may include a gas concentration, a temperature and humidity, a carbon monoxide concentration, and a dust concentration, and wherein the environment detection apparatus 100 may include a plurality of anemometers 101, a plurality of snow thickness meters 102, a plurality of inside and outside differential pressure sensors 103, a gas sensor 104, a temperature and humidity sensor 105, a carbon monoxide sensor 106, a dust detector 107, and a fire detection sensor 108. Anemoscope 101 is used for detecting the wind speed, and snow thickness appearance 102 is used for detecting snow thickness, and gas sensor 104 is used for detecting gas concentration, and interior outer heterodyne pressure sensor 103 is used for detecting the interior outer pressure differential of air film in the membrane, and temperature and humidity sensor 105 is used for detecting the inside temperature and humidity of air film, and carbon monoxide sensor 106 is used for detecting the inside carbon monoxide concentration of air film, and dust detector 107 is used for detecting the inside dust concentration of air film, and fire detection sensor 108 is used for detecting fire detection data.

The environment control device 300 may include a fan including a power frequency fan 301 and a variable frequency fan 302 so as to adjust an internal and external pressure difference of the air film, and the environment control device 300 may further include a dust fall unit 303 and a ventilation unit 304 for providing a target dust fall device and a target ventilation device so as to adjust a gas concentration, a temperature and humidity, a carbon monoxide concentration, and a dust concentration inside the air film. The dust settling unit 303 may include a fog gun, a high-pressure micro-fog device, and the like, and the ventilation unit 304 may include a ventilation tower, an outer ventilation valve, an outer dust collector, and the like, wherein a motor of an induced draft fan in the outer ventilation tower is a variable frequency motor, and an opening of the exhaust valve is adjustable, so as to achieve accurate adjustment.

The environmental control apparatus 300 may further include a fire fighting unit 305, the fire fighting unit 305 being configured to cool and/or extinguish a fire when the fire detection data is greater than a preset fire data threshold. The fire unit 305 may include, among other things, a fire monitor and a sprinkler.

FIG. 2 is a flow chart illustrating a method for controlling an air film environment, as shown in FIG. 2, that may be applied to a controller, according to an exemplary embodiment, the method comprising:

in step S201, environment detection data of the air film is obtained, where the environment detection data at least includes an internal and external pressure difference of the air film.

In this embodiment, the environment detection device may detect environment detection data of the air film, the environment detection data may include environment detection data inside the air film and environment detection data outside the air film, and the controller may acquire the environment detection data from the environment detection device, where the environment detection data at least includes an internal/external pressure difference of the air film, and the internal/external pressure difference of the air film may be a difference between an internal pressure of the air film and an external pressure of the air film.

In step S202, a device adjustment parameter is determined according to the environment detection data and a target control parameter, where the target control parameter at least includes a target pressure difference.

In this embodiment, the device adjustment parameter may be determined according to the environment detection data and a target control parameter corresponding to the environment detection data, where the target control parameter may include at least a target pressure difference, and the device adjustment parameter may include a pressure adjustment parameter, so that the pressure adjustment parameter is determined according to the internal and external pressure differences of the air film and the target pressure difference.

In step S203, target devices are determined according to the device adjustment parameters, and the target devices at least include a target power frequency fan and a target variable frequency fan.

In this embodiment, the target device may be determined according to the device adjustment parameter, for example, the target power frequency fan and the target variable frequency fan may be determined according to a pressure adjustment parameter in the device adjustment parameter, where the wind power of the target power frequency fan is not adjustable, and the wind power of the target variable frequency fan is adjustable.

In step S204, a target device is controlled according to the target control parameter, and the target device is at least used for adjusting the internal and external pressure difference of the air film to a target pressure difference.

In this embodiment, the target device may be determined according to the target control parameter, where the target device is provided by the environment control device, for example, the target power frequency fan and the target variable frequency fan may be controlled according to the target pressure difference, and since the wind power of the target variable frequency fan is adjustable, the internal and external pressure difference of the air film is accurately adjusted to the target pressure difference, so as to obtain a better control effect.

In one possible embodiment, the environment sensing data further comprises calibration data, and the device adjustment parameters comprise at least a pressure adjustment parameter;

determining equipment adjustment parameters according to the environment detection data and the target control parameters, wherein the equipment adjustment parameters at least comprise:

according to the correction data, correcting the target pressure difference in the target control parameters to obtain the corrected target pressure difference;

and obtaining a pressure adjusting parameter in the equipment adjusting parameters according to the internal and external pressure difference of the air film and the corrected target pressure difference in the environment detection data.

In the embodiment, the target pressure difference is a preset minimum pressure difference value for ensuring the safety of the air film building, so that the pressure in the air film can be reduced as much as possible, the use of a fan is reduced, and the energy is saved. The correction data is used for correcting the target pressure difference so as to obtain more accurate corrected target pressure difference, thereby obtaining more accurate pressure adjustment parameters through the corrected target pressure difference and the internal and external pressure difference of the air film in the environment detection data, and avoiding the influence of the change of the external environment on the safety of the air film building.

In one possible embodiment, the target device is controlled according to a target differential pressure, and the target device is at least used for adjusting the internal and external differential pressures of the air film to the target differential pressure, and comprises:

and controlling the target equipment according to the corrected target pressure difference, wherein the target equipment is at least used for adjusting the internal and external pressure difference of the air film to the corrected target pressure difference.

In this embodiment, the target device is controlled according to the corrected target differential pressure, where the target differential pressure may be a value greater than zero or a value less than or equal to zero, and when the target differential pressure is a value greater than zero, the target device may be controlled so as to increase the difference between the internal and external pressures of the gas membrane to the corrected target differential pressure, and when the target differential pressure is a value less than zero, the target device may be controlled so as to decrease the difference between the internal and external pressures of the gas membrane to the corrected target differential pressure. When the target differential pressure is a value equal to zero, the target device is empty, and the internal and external differential pressures of the air film are not adjusted.

By the method, the pressure in the air film can be kept to be a smaller value as much as possible so as to save energy, and the target pressure difference is adjusted according to the environmental parameters outside the air film, so that the more accurate corrected target pressure difference is obtained, and the danger caused by the over-small pressure in the air film building is avoided.

Fig. 3 is a flow chart illustrating a method of determining a target differential pressure according to an exemplary embodiment, as shown in fig. 3, in one possible implementation, the calibration parameters may include wind speed and snow thickness, and the target differential pressure in the target control parameters is calibrated according to the calibration data to obtain a calibrated target differential pressure, including at least the following steps:

in step S301, a first adjustment factor is determined according to the wind speed.

In step S302, the target differential pressure is adjusted according to the first adjustment coefficient to obtain a first adjusted differential pressure.

In step S303, a second adjustment coefficient is determined based on the snow thickness.

In step S304, the target differential pressure is adjusted according to the second adjustment coefficient to obtain a second adjusted differential pressure.

In step S305, the larger of the first adjusted differential pressure and the second adjusted differential pressure is determined as the corrected target differential pressure.

In this embodiment, a first coefficient lookup table and a second coefficient lookup table are preset, different wind speeds may correspond to different adjustment coefficients, the first coefficient lookup table may be queried according to a current wind speed to obtain a corresponding first adjustment coefficient, different snow thicknesses may correspond to different adjustment coefficients, and the second coefficient lookup table may be queried according to the current snow thickness to obtain a corresponding second adjustment coefficient. The wind speed and the snow thickness can be segmented respectively, the wind speed of each segment corresponds to one adjustment coefficient, and the snow thickness of each segment corresponds to one adjustment coefficient, so that the data volume of the adjustment coefficients is reduced. For example, the first adjustment coefficient may be 1.1, and the target differential pressure is adjusted according to the first adjustment parameter and the second adjustment parameter, respectively, so as to obtain a first adjusted differential pressure and a second adjusted differential pressure, for example, a product of the target differential pressure and the first adjustment parameter may be determined as the first adjusted differential pressure, and a product of the target differential pressure and the second adjustment parameter may be determined as the second adjusted differential pressure. And determining the larger value of the first adjusted differential pressure and the second adjusted differential pressure as the corrected target differential pressure so that the safety of the air film building can be ensured. The internal pressure of the building can be automatically adjusted according to the environmental changes of the external wind and snow.

Fig. 4 is a flowchart illustrating a method for determining a target device according to an exemplary embodiment, and as shown in fig. 4, in one possible implementation, determining the target device according to a device adjustment parameter includes at least the following steps:

in step S401, the total number of fans is determined according to the pressure adjustment parameter.

In step S402, a first number of the power frequency fans and a second number of the variable frequency fans are determined according to the total number of the fans and a preset ratio.

In step S403, a first number of target power frequency fans is determined from the plurality of power frequency fans.

In step S404, a second number of target variable frequency fans are determined from the plurality of variable frequency fans.

The maximum value of the adjustable pressure of the fan can be obtained in advance so as to determine the total number of the fans by combining the pressure adjusting parameter, namely, the total number of the fans is determined according to the absolute value of the pressure adjusting parameter and the maximum value of the adjustable pressure of the fan. Then, a preset proportion can be obtained, wherein the preset proportion is the proportion of the power frequency fans and the variable frequency fans in the fans, so that the first quantity of the power frequency fans and the second quantity of the variable frequency fans can be determined according to the preset proportion and the total number of the fans. Then, determine the target power frequency fan of first quantity from many power frequency fans, determine the target frequency conversion fan of second quantity from many frequency conversion fans.

In a feasible implementation manner, when the pressure adjustment parameter is a value larger than zero, the target power frequency fans with the longest standby time are determined from the plurality of standby power frequency fans, and the target frequency fans with the longest standby time are determined from the plurality of standby frequency conversion fans. When the pressure adjustment parameter is a value smaller than zero, the target power frequency fans with the longest working time are determined from the power frequency fans of multiple works, and the target frequency conversion fans with the longest working time are determined from the frequency conversion fans of multiple works.

In one possible embodiment, the method further comprises:

and determining the continuous working time of each target power frequency fan and each target variable frequency fan.

And when the target power frequency fan and the target frequency conversion fan have fans of which the continuous working time is longer than the preset working time threshold value, determining corresponding replacement fans from the standby power frequency fan and the standby frequency conversion fan.

And controlling the replacement fan to replace the fan with the continuous working time longer than the preset working time threshold value in the target power frequency fan and the target variable frequency fan.

In this embodiment, but the duration operating time of each target power frequency fan of real-time detection and target frequency conversion fan, when having the fan that duration operating time is greater than the length threshold value of predetermineeing operating time in target power frequency fan and the target frequency conversion fan, determine corresponding replacement fan from reserve power frequency fan and reserve frequency conversion fan, so that the fan that the length of replacement duration operating time is greater than length threshold value of predetermineeing operating time, thereby avoid the fan to damage because of the long-time duration work, also can detect the fan of replacement and maintain, thereby prolong the life of fan.

In a possible implementation manner, the operation parameters of each fan can also be detected in real time, the operation parameters may include current, temperature and vibration value of a driving motor of the fan, and when the operation parameters of the fan are greater than a preset operation threshold, it is determined that the fan is a failed fan, for example, when the current of the driving motor of the fan is greater than a preset current threshold, the temperature of the driving motor of the fan is greater than a preset temperature threshold, or the vibration value of the driving motor of the fan is greater than a preset vibration threshold, alarm information corresponding to the fan may be generated and an alarm may be issued by an alarm device. And a corresponding replacement blower is determined to replace the failed blower to avoid affecting the air pressure within the membrane.

In a possible embodiment, the environment detection data further includes air film internal detection data, the target control parameter further includes an internal environment control parameter, the device adjustment parameter includes an internal environment adjustment parameter, and the target device further includes a target dust reduction device and/or a target ventilation device.

Determining device adjustment parameters according to the environmental detection data and the target control parameters, including:

and determining internal environment adjustment parameters according to the internal detection data of the air film and the internal environment control parameters.

Determining the target device according to the device adjustment parameter, comprising:

and determining target dust fall equipment and/or target ventilation equipment according to the internal environment adjusting parameters.

In this embodiment, the environmental detection data further includes gas film internal detection data, wherein the gas film internal detection data may include gas concentration, temperature and humidity, carbon monoxide concentration, and dust concentration. The target control parameters further comprise internal environment control parameters, wherein the internal environment control parameters may comprise a target gas concentration, a target temperature and humidity, a target carbon monoxide concentration and a target dust concentration, wherein the target temperature and humidity are divided into a target temperature and a target humidity. The target ventilation equipment can be determined according to at least one of the target gas concentration, the target temperature and humidity and the target carbon monoxide concentration, and the target dust falling equipment can be determined according to the target dust concentration. So that make inside gas concentration, humiture, carbon monoxide concentration and the dust concentration adjustment of air film to target gas concentration, target humiture, target carbon monoxide concentration and target dust concentration through target air regenerating device and target dust fall equipment, thereby avoid harmful gas etc. to cause the threat to the inside personnel's of air film safety.

In one possible embodiment, the method further comprises:

and acquiring fire detection data.

And when the fire detection data is larger than a preset fire data threshold value, determining the target fire fighting equipment.

And controlling the target fire fighting equipment to work.

In this embodiment, fire detection data may be obtained by the fire detection sensor, where the fire detection data may include a temperature and a smoke concentration of a target object, and when the fire detection data is greater than a preset fire data threshold, a target fire fighting device corresponding to the target object is determined from the fire fighting unit, so as to control the target fire fighting device to operate.

The air film building is a novel building structure supported by the difference between the internal air pressure and the external air pressure, and in a safety range, the larger the air pressure of the inner space of the air film is, the higher the wind load can be resisted, and the higher the snow load capacity is, so that the possibility of deformation of the air film building is smaller, and the safety is higher. When the emergency door is opened, the frequency converter fails, the sensor fails, and the internal and external pressure difference of the air film is too low or too high, alarm information can be automatically generated to remind an attendant to deal with the abnormity in time.

FIG. 5 is a block diagram illustrating an electronic device in accordance with an example embodiment. For example, the electronic device 500 may be provided as a server. Referring to fig. 5, the electronic device 500 comprises a processor 522, which may be one or more in number, and a memory 532 for storing computer programs executable by the processor 522. The computer programs stored in memory 532 may include one or more modules that each correspond to a set of instructions. Further, the processor 522 may be configured to execute the computer program to perform the above-described air film environmental control method.

Additionally, the electronic device 500 may also include a power component 526 and a communication component 550, the power component 526 may be configured to perform power management of the electronic device 500, and the communication component 550 may be configured to enable communication, e.g., wired or wireless communication, of the electronic device 500. In addition, the electronic device 500 may also include input/output (I/O) interfaces 558. The electronic device 500 may operate based on an operating system stored in the memory 532.

In another exemplary embodiment, a computer readable storage medium comprising program instructions which, when executed by a processor, implement the steps of the above-described air film environmental control method is also provided. For example, the non-transitory computer readable storage medium may be the memory 532 described above including program instructions that are executable by the processor 522 of the electronic device 500 to perform the air film environmental control method described above.

In another exemplary embodiment, a computer program product is also provided, which comprises a computer program executable by a programmable apparatus, the computer program having code portions for performing the above-described air film environment control method when executed by the programmable apparatus.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the invention. To avoid unnecessary repetition, the disclosure does not separately describe various possible combinations.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims (10)

1. A method for controlling an atmosphere of a gas film, comprising:

acquiring environment detection data of the air film, wherein the environment detection data at least comprises the internal and external pressure difference of the air film;

determining equipment adjustment parameters according to the environment detection data and target control parameters, wherein the target control parameters at least comprise a target pressure difference;

determining target equipment according to the equipment adjusting parameters, wherein the target equipment at least comprises a target power frequency fan and a target variable frequency fan;

and controlling the target equipment according to the target control parameter, wherein the target equipment is at least used for adjusting the internal and external pressure difference of the air film to the target pressure difference.

2. The gas film environmental control method of claim 1, wherein the environmental test data further comprises calibration data, the equipment adjustment parameters comprise at least a pressure adjustment parameter;

determining equipment adjustment parameters according to the environment detection data and the target control parameters at least comprises the following steps:

according to the correction data, correcting the target pressure difference in the target control parameters to obtain the corrected target pressure difference;

obtaining a pressure adjusting parameter in the equipment adjusting parameters according to the internal and external pressure difference of the air film and the corrected target pressure difference in the environment detection data;

the controlling the target device according to the target pressure difference, wherein the target device is at least used for adjusting the internal and external pressure difference of the air film to the target pressure difference, and comprises the following steps:

and controlling the target equipment according to the corrected target pressure difference, wherein the target equipment is at least used for adjusting the internal and external pressure difference of the air film to the corrected target pressure difference.

3. The air film environmental control method of claim 2, wherein the calibration data includes at least wind speed and snow thickness;

and correcting the target pressure difference in the target control parameters according to the correction data to obtain the corrected target pressure difference, wherein the correction data at least comprises the following steps:

determining a first adjusting coefficient according to the wind speed;

adjusting the target pressure difference according to the first adjustment coefficient to obtain a first adjustment pressure difference;

determining a second adjustment coefficient according to the snow thickness;

adjusting the target pressure difference according to the second adjustment coefficient to obtain a second adjustment pressure difference;

determining a larger value of the first adjusted differential pressure and the second adjusted differential pressure as a corrected target differential pressure.

4. The gas film environmental control method according to claim 2,

the determining the target device according to the device adjustment parameter at least includes:

determining the total number of the fans according to the pressure adjusting parameters;

determining a first number of power frequency fans and a second number of variable frequency fans according to the total number of the fans and a preset proportion;

determining a first number of target power frequency fans from the plurality of power frequency fans;

and determining the target variable frequency fans of the second quantity from the plurality of variable frequency fans.

5. The gas film environmental control method of claim 1, further comprising:

determining the continuous working time of each target power frequency fan and each target variable frequency fan;

when a fan with continuous working time longer than a preset working time threshold exists in the target power frequency fan and the target variable frequency fan, determining a corresponding replacement fan from a standby power frequency fan and a standby variable frequency fan;

and controlling the replacement fan to replace the fan with the continuous working time length longer than the preset working time length threshold value in the target power frequency fan and the target variable frequency fan.

6. The gas film environmental control method according to claim 1,

the environment detection data further comprises air film internal detection data, the target control parameters further comprise internal environment control parameters, the equipment adjustment parameters comprise internal environment adjustment parameters, and the target equipment further comprises target dust settling equipment and/or target ventilation equipment;

determining device adjustment parameters according to the environment detection data and the target control parameters comprises:

determining the internal environment adjustment parameters according to the gas film internal detection data and the internal environment control parameters;

the determining the target device according to the device adjustment parameter includes:

and determining the target dust settling equipment and/or the target ventilation equipment according to the internal environment adjusting parameters.

7. The gas film environmental control method of claim 1, further comprising:

acquiring fire detection data;

when the fire detection data are larger than a preset fire data threshold value, determining target fire fighting equipment;

and controlling the target fire fighting equipment to work.

8. The air film environment control system is characterized by comprising a controller, environment detection equipment and environment control equipment;

the environment detection device is configured to detect environment detection data of a gas film;

the environment control device is configured to provide a target device;

the controller is respectively connected with the environment detection device and the environment control device, and the controller is configured to realize the steps of the air film environment control method of any one of claims 1 to 7.

9. A non-transitory computer readable storage medium having stored thereon a computer program, wherein the program when executed by a processor implements the steps of the gas film environmental control method of any one of claims 1 to 7.

10. An electronic device, comprising:

a memory having a computer program stored thereon;

a processor for executing the computer program in the memory to implement the steps of the air film environmental control method of any one of claims 1 to 7.

Images