CN116933984B - Management method and system based on intelligent building site cloud platform - Google Patents

Abstract

The invention discloses a management method and a system based on an intelligent building site cloud platform, wherein a first dust detector arranged on one side of water pump equipment to be regulated is used for acquiring a plurality of pieces of non-humidified dust concentration data, so that before dust reaches the water pump equipment to be regulated, target power parameters of the water pump equipment to be regulated can be calculated according to the non-humidified dust concentration data, power regulation data are generated based on the difference value between initial power parameters and target power parameters of the water pump equipment to be regulated, and the water pump equipment to be regulated is controlled by means of the power regulation data, so that the water pump equipment to be regulated can operate with the target power parameters. According to the invention, before dust reaches the water pump equipment to be regulated, the power of the water pump equipment to be regulated can be regulated, so that the water pump equipment to be regulated can operate the dust removal with corresponding power.

Description

Management method and system based on intelligent building site cloud platform

Technical Field

The invention relates to the technical field of electric digital data processing, in particular to a management method and system based on an intelligent building site cloud platform.

Background

For sites with large dust lifting, a construction unit is usually required to keep water spraying at the peripheral enclosing wall so as to humidify and remove the lifted dust during construction of the site, thereby being beneficial to preventing and controlling atmospheric pollution. However, the existing construction sites are generally constant in power when spraying, the problem of water resource waste is easily caused when dust is not much, and the problem of insufficient dust prevention is easily caused when dust is much. Therefore, the construction site has the problem of low water spraying accuracy in the dustproof measure.

Therefore, a management strategy based on an intelligent building site cloud platform is needed, so that the problem of low dust removal water spraying accuracy rate of a building site is solved.

Disclosure of Invention

The embodiment of the invention provides a management method and system based on an intelligent building site cloud platform, so as to improve the accuracy of dust removal water spraying on a building site.

In order to solve the above problems, an embodiment of the present invention provides a management method based on an intelligent worksite cloud platform, including:

acquiring a plurality of pieces of non-humidified dust concentration data uploaded by a first dust detector within a preset time; the first dust detector is arranged on one side of the water pump equipment to be regulated and is used for acquiring the concentration of dust before humidification;

determining target power parameters of the water pump equipment to be regulated based on a plurality of pieces of non-humidified dust concentration data;

acquiring an initial power parameter uploaded by the water pump equipment to be regulated, and generating power regulation data based on a difference value between the target power parameter and the initial power parameter;

transmitting the power adjustment data to the water pump equipment to be adjusted so that the water pump equipment to be adjusted adjusts the water pump power from an initial power parameter to a target power parameter according to the power adjustment data; the water pump equipment to be regulated regulates the spraying speed of the dust removing water by controlling the water flow speed of the spraying conduit.

The preset time is the current movement period of the guide rail moving device; the guide rail moving device is connected with the second dust detector;

after the power adjustment data is transmitted to the water pump equipment to be adjusted, the method further comprises:

acquiring a plurality of humidified dust concentration data uploaded by a second dust detector in the current moving period of the guide rail moving device; the second dust detector is arranged on the other side of the water pump equipment to be regulated and is used for acquiring the concentration of dust after humidification; the moving period is the time required for the guide rail moving device to move from the leftmost end of the guide rail to the rightmost end of the guide rail and return to the leftmost end of the guide rail;

selecting the maximum concentration data from the plurality of humidified dust concentration data as target humidified dust concentration data;

judging whether the target humidified dust concentration data is larger than a dust concentration threshold value or not;

if yes, determining a response power parameter based on the target humidified dust concentration data, generating power secondary adjustment data according to the response power parameter, and transmitting the power secondary adjustment data to the water pump equipment to be adjusted so that the water pump equipment to be adjusted adjusts the water pump power from the target power parameter to the response power parameter according to the power secondary adjustment data;

if not, no operation is performed.

The determining the target power parameter of the water pump equipment to be adjusted based on the plurality of non-humidified dust concentration data comprises the following steps:

selecting the maximum concentration data from the plurality of non-humidified dust concentration data as target non-humidified dust concentration data;

substituting the lift parameter and the efficiency parameter of the water pump equipment to be regulated and the target non-humidified dust concentration data into a preset power calculation formula to obtain a target power parameter of the water pump equipment to be regulated; wherein, the power calculation formula is as follows:

；

in the method, in the process of the invention,for the power parameter +.>For dust concentration->For the volume of the water wall formed by the water pump device, < >>Is the lift of the water pump equipment +.>Acceleration of gravity, ++>For the solubility of dust removal water to dust, +.>Is a unit time->Is the working efficiency of the water pump equipment.

As an improvement of the above-mentioned scheme, after the acquisition of the several pieces of non-humidified dust concentration data uploaded by the first dust detector within a preset time, the method further includes:

calculating the average value of the concentration of the non-humidified dust according to a plurality of data of the concentration of the non-humidified dust;

determining moving speed data according to the average value of the concentration of the non-humidified dust and a preset concentration threshold value, and transmitting the moving speed data to a guide rail moving device so that the guide rail moving device moves on a guide rail according to the moving speed data; the length of the guide rail is the length of the corresponding jet guide pipe of the water pump equipment to be regulated; the guide rail moving device moves according to the initial speed when the moving speed data is not received.

As an improvement of the above-described aspect, the rail moving device moves on a rail according to the movement speed data, comprising:

after receiving the moving speed data, the guide rail moving device judges whether the moving speed data is equal to the current speed data or not;

if not, the guide rail moving device moves according to the moving speed data after returning to the left side of the guide rail;

if yes, the guide rail moving device continues to move based on the current speed data.

As an improvement to the above, the concentration threshold includes: a first concentration threshold and a second concentration threshold, the movement speed data comprising: a first movement speed value, a second movement speed value, and a third movement speed value; wherein the second concentration threshold is greater than the first concentration threshold, the second travel speed value is greater than the first travel speed value and less than the third travel speed value;

the determining moving speed data according to the non-humidified dust concentration data and a preset concentration threshold value comprises the following steps:

if the non-humidified dust concentration data is smaller than a first concentration threshold value, the moving speed data is a first moving speed value;

if the non-humidified dust concentration data is greater than or equal to the first concentration threshold value and smaller than the second concentration threshold value, the moving speed data is a second moving speed value;

and if the concentration data of the non-humidified dust is greater than or equal to the second concentration threshold value, the moving speed data is a third moving speed value.

As an improvement of the above-mentioned scheme, the setting heights of the first dust detector and the second dust detector are the same, and the straight line connected based on the horizontal coordinates of the first dust detector and the horizontal coordinates of the second dust detector is perpendicular to the injection duct and does not intersect.

Correspondingly, an embodiment of the invention also provides a management system based on the intelligent building site cloud platform, which comprises: the device comprises a cloud platform, a first dust detector, a second dust detector, water pump equipment to be regulated, a jet guide pipe, a guide rail moving device and a guide rail; the cloud platform executes the intelligent construction site cloud platform-based management method;

the cloud platform is connected with the first dust detector, the second dust detector, the water pump equipment to be regulated and the guide rail moving device in a wireless mode respectively;

the water pump equipment to be regulated is connected with the injection conduit;

the guide rail moving device is connected with the guide rail;

the first dust detector is arranged on one side of the water pump equipment to be regulated, and the second dust detector is arranged on the other side of the water pump equipment to be regulated;

the water pump equipment to be regulated, the jet guide pipe, the guide rail moving device and the guide rail are all arranged on the building site enclosing wall.

Correspondingly, an embodiment of the invention also provides a computer terminal device, which comprises a processor, a memory and a computer program stored in the memory and configured to be executed by the processor, wherein the processor realizes the intelligent building site cloud platform-based management method when executing the computer program.

Correspondingly, an embodiment of the invention also provides a computer readable storage medium, which comprises a stored computer program, wherein the equipment where the computer readable storage medium is located is controlled to execute the intelligent construction site cloud platform-based management method according to the invention when the computer program runs.

From the above, the invention has the following beneficial effects:

the invention provides a management method based on an intelligent building site cloud platform, which is characterized in that a first dust detector arranged on one side of water pump equipment to be regulated is used for acquiring a plurality of pieces of non-humidified dust concentration data, so that before dust reaches the water pump equipment to be regulated, target power parameters of the water pump equipment to be regulated can be calculated according to the non-humidified dust concentration data, power regulation data are generated based on the difference value between initial power parameters and target power parameters of the water pump equipment to be regulated, and the water pump equipment to be regulated is controlled by means of the power regulation data, so that the water pump equipment to be regulated can operate with the target power parameters. According to the invention, before dust reaches the water pump equipment to be regulated, the dust concentration can be obtained in advance, and the power of the water pump equipment to be regulated is regulated, so that the water pump equipment to be regulated can operate the dust removal with corresponding power. The invention collects, calculates and judges the data based on the cloud platform, does not occupy the physical memory additionally, can finish the control of the dust-removing water of the construction site through remote control, and is based on the existing equipment, and the invention is simply paved by adding the dust detector additionally, thereby being easy to improve the existing construction site.

Furthermore, the second dust detector is arranged on the other side of the water pump to be regulated to acquire the humidified dust concentration data, and the dust can be prevented from being removed by judging the concentration of the humidified dust concentration data, so that the water resource is saved, and meanwhile, the accuracy of dust removal water spraying on a construction site is further improved.

Furthermore, the guide rail moving device is connected to the second dust detector, so that dust with different concentrations possibly appears on the same plane to be in contact with the water wall generated by the water pump to be regulated in consideration of irregular movement of dust, and therefore, the second dust detector is driven to dynamically detect through movement of the guide rail moving device, the problem of poor dust removal effect caused by uneven concentration distribution can be solved, and the accuracy of dust removal water spraying of a construction site is further improved while water resources are saved.

Drawings

FIG. 1 is a flow chart of a method for intelligent building site cloud platform based management according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a management system based on an intelligent building site cloud platform according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a terminal device according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, fig. 1 is a flow chart of a management method based on an intelligent building site cloud platform according to an embodiment of the present invention, as shown in fig. 1, the embodiment includes steps 101 to 104, where each step is specifically as follows:

step 101: acquiring a plurality of pieces of non-humidified dust concentration data uploaded by a first dust detector within a preset time; the first dust detector is arranged on one side of the water pump equipment to be regulated and used for acquiring the concentration of dust before humidification.

In this embodiment, after the acquiring the plurality of non-humidified dust concentration data uploaded by the first dust detector within the preset time, the method further includes:

calculating the average value of the concentration of the non-humidified dust according to a plurality of data of the concentration of the non-humidified dust;

determining moving speed data according to the average value of the concentration of the non-humidified dust and a preset concentration threshold value, and transmitting the moving speed data to a guide rail moving device so that the guide rail moving device moves on a guide rail according to the moving speed data; the length of the guide rail is the length of the corresponding jet guide pipe of the water pump equipment to be regulated; the guide rail moving device moves according to the initial speed when the moving speed data is not received.

In this embodiment, the rail moving device moves on a rail according to the movement speed data, including:

after receiving the moving speed data, the guide rail moving device judges whether the moving speed data is equal to the current speed data or not;

if not, the guide rail moving device moves according to the moving speed data after returning to the left side of the guide rail;

if yes, the guide rail moving device continues to move based on the current speed data.

In this embodiment, the concentration threshold includes: a first concentration threshold and a second concentration threshold, the movement speed data comprising: a first movement speed value, a second movement speed value, and a third movement speed value; wherein the second concentration threshold is greater than the first concentration threshold, the second travel speed value is greater than the first travel speed value and less than the third travel speed value;

the determining moving speed data according to the non-humidified dust concentration data and a preset concentration threshold value comprises the following steps:

if the non-humidified dust concentration data is smaller than a first concentration threshold value, the moving speed data is a first moving speed value;

if the non-humidified dust concentration data is greater than or equal to the first concentration threshold value and smaller than the second concentration threshold value, the moving speed data is a second moving speed value;

and if the concentration data of the non-humidified dust is greater than or equal to the second concentration threshold value, the moving speed data is a third moving speed value.

In a specific embodiment, after the concentration data of the non-humidified dust collected by the first dust detector is obtained, the average value is obtained, and the average value and the concentration threshold value are compared, when the average value is smaller than 8mg/m of the first concentration threshold value (namely, the first concentration threshold value disclosed by the invention), the dust caused by construction is not much, and the track moving device can move at a speed of 0.5m/s (namely, the first moving speed value disclosed by the invention); when the average value is more than 8mg/m and less than 10mg/m (namely, the second concentration threshold value of the invention), more dust is caused by construction at the moment, and the track moving device can move at a speed of 1m/s (namely, the second moving speed value of the invention); when the average value is more than 10mg/m of dust (namely, the second concentration threshold value according to the invention), the dust caused by construction exceeds the standard at the moment, and the track moving device can move at a speed of 2m/s (namely, the third moving speed value according to the invention). Wherein the second dust detector can detect dust at a frequency of 0.5s once.

In this embodiment, the first dust detector and the second dust detector are disposed at the same height, and are perpendicular to the injection duct and do not intersect with each other based on a straight line formed by connecting the horizontal coordinates of the first dust detector and the horizontal coordinates of the second dust detector.

In a specific embodiment, the position of the first dust detector and the position of the second dust detector are on a uniform horizontal plane, and the horizontal plane is perpendicular to the jet pipe and the wall surface.

Step 102: and determining target power parameters of the water pump equipment to be regulated based on the plurality of non-humidified dust concentration data.

In this embodiment, the determining, based on the plurality of the non-humidified dust concentration data, the target power parameter of the water pump apparatus to be adjusted includes:

selecting the maximum concentration data from the plurality of non-humidified dust concentration data as target non-humidified dust concentration data;

substituting the lift parameter and the efficiency parameter of the water pump equipment to be regulated and the target non-humidified dust concentration data into a preset power calculation formula to obtain a target power parameter of the water pump equipment to be regulated; wherein, the power calculation formula is as follows:

；

in the method, in the process of the invention,for the power parameter +.>For dust concentration->For the volume of the water wall formed by the water pump device, < >>Is the lift of the water pump equipment +.>Acceleration of gravity, ++>For the solubility of dust removal water to dust, +.>Is a unit time->Is the working efficiency of the water pump equipment.

Step 103: and acquiring an initial power parameter uploaded by the water pump equipment to be regulated, and generating power regulation data based on a difference value between the target power parameter and the initial power parameter.

In this embodiment, in a specific embodiment, the target power parameter and the initial power parameter are differenced, and the power difference is converted into the device parameter of the water pump device to be adjusted by combining the control parameter of the water pump device to be adjusted, so as to generate the power adjustment data.

Step 104: transmitting the power adjustment data to the water pump equipment to be adjusted so that the water pump equipment to be adjusted adjusts the water pump power from an initial power parameter to a target power parameter according to the power adjustment data; the water pump equipment to be regulated regulates the spraying speed of the dust removing water by controlling the water flow speed of the spraying conduit.

In this embodiment, the preset time is a current movement period of the guide rail moving device; the guide rail moving device is connected with the second dust detector;

after the power adjustment data is transmitted to the water pump equipment to be adjusted, the method further comprises:

acquiring a plurality of humidified dust concentration data uploaded by a second dust detector in the current moving period of the guide rail moving device; the second dust detector is arranged on the other side of the water pump equipment to be regulated and is used for acquiring the concentration of dust after humidification; the moving period is the time required for the guide rail moving device to move from the leftmost end of the guide rail to the rightmost end of the guide rail and return to the leftmost end of the guide rail;

selecting the maximum concentration data from the plurality of humidified dust concentration data as target humidified dust concentration data;

judging whether the target humidified dust concentration data is larger than a dust concentration threshold value or not;

if yes, determining a response power parameter based on the target humidified dust concentration data, generating power secondary adjustment data according to the response power parameter, and transmitting the power secondary adjustment data to the water pump equipment to be adjusted so that the water pump equipment to be adjusted adjusts the water pump power from the target power parameter to the response power parameter according to the power secondary adjustment data;

if not, no operation is performed.

In a specific embodiment, the preset time may be a ratio of 2 times the length of the guide rail to the moving speed of the guide rail moving device.

In a specific embodiment, the dust concentration threshold may be set to 3mg/m, which may be adaptively adjusted by the user.

Referring to fig. 2, fig. 2 is a schematic structural diagram of a management system based on an intelligent building site cloud platform according to an embodiment of the present invention, including: a cloud platform 201, a first dust detector 202, a second dust detector 203, a water pump device 204 to be regulated, an ejector conduit 205, a guide rail moving device 206 and a guide rail 207; the cloud platform executes the intelligent construction site cloud platform-based management method;

the cloud platform is connected with the first dust detector, the second dust detector, the water pump equipment to be regulated and the guide rail moving device in a wireless mode respectively;

the water pump equipment to be regulated is connected with the injection conduit;

the guide rail moving device is connected with the guide rail;

the first dust detector is arranged on one side of the water pump equipment to be regulated, and the second dust detector is arranged on the other side of the water pump equipment to be regulated;

the water pump equipment to be regulated, the jet guide pipe, the guide rail moving device and the guide rail are all arranged on the building site enclosing wall.

In a specific embodiment, to better illustrate the management method according to the present invention, an example is illustrated with reference to fig. 2 (the data transmission related to the following method is transmitted by wireless means):

the first dust detector 202 is close to a construction site, when dust is generated and transmitted, the first dust detector 202 is contacted first, and at the moment, the first dust detector 202 transmits dust data acquired in a preset time to the cloud platform 201, and at the moment, the dust is not humidified; the cloud platform 201 analyzes the data after receiving the data collected by the first dust detector 202, obtains power adjustment data, and transmits the power adjustment data to the water pump device 204 to be adjusted;

since the water pump device 204 to be regulated is operated according to the initial power (the dust removal treatment is required during construction in the construction site, the water pump device to be regulated also starts to operate with the initial power at the beginning of the construction), the water pump device 204 to be regulated adjusts the power after receiving the power regulation data, and the dust removal water is controlled to be sprayed out of the spray conduit 205;

meanwhile, the cloud platform 201 also needs to calculate the movement time of the rail moving device 206 based on the data collected by the first dust detector 202, generate movement control data, control the rail moving device 206 to move back and forth with the time corresponding to the movement control data after completing one back and forth movement, and execute the movement control data after completing one back and forth movement of the rail moving device 206, so that data collision can be avoided, and the time used for collecting the data of the first dust detector 202 and the second dust detector 203 is consistent when the same batch of dust passes.

After the dust passes through the water wall formed by the jet pipe 205, the second dust detector 203 needs to collect the dust concentration along the guide rail 207, determine whether the concentration threshold is exceeded, generate a power secondary adjustment data when the concentration threshold is exceeded, and adjust the water pump device 204 to be adjusted to operate with new power, so as to ensure dust removal.

According to the method, the first dust detector arranged on one side of the water pump equipment to be adjusted is used for acquiring a plurality of pieces of non-humidified dust concentration data, so that before dust reaches the water pump equipment to be adjusted, the target power parameter of the water pump equipment to be adjusted can be calculated according to the non-humidified dust concentration data, power adjustment data are generated based on the difference value between the initial power parameter and the target power parameter of the water pump equipment to be adjusted, and the water pump equipment to be adjusted is controlled by means of the power adjustment data, so that the water pump equipment to be adjusted can operate with the target power parameter. According to the invention, before dust reaches the water pump equipment to be regulated, the dust concentration can be obtained in advance, and the power of the water pump equipment to be regulated is regulated, so that the water pump equipment to be regulated can operate the dust removal with corresponding power. The invention collects, calculates and judges the data based on the cloud platform, does not occupy the physical memory additionally, can finish the control of the dust-removing water of the construction site through remote control, and is based on the existing equipment, and the invention is simply paved by adding the dust detector additionally, thereby being easy to improve the existing construction site.

In the second embodiment, referring to fig. 3, fig. 3 is a schematic structural diagram of a terminal device according to an embodiment of the present invention.

A terminal device of this embodiment includes: a processor 301, a memory 302 and a computer program stored in said memory 302 and executable on said processor 301. The processor 301, when executing the computer program, implements the steps of the above-described smart-site-cloud-platform-based management method in an embodiment, for example, all the steps of the smart-site-cloud-platform-based management method shown in fig. 1. Alternatively, the processor may implement functions of each module in the above-described device embodiments when executing the computer program, for example: all modules of the intelligent building site cloud platform-based management apparatus shown in fig. 2.

In addition, the embodiment of the invention also provides a computer readable storage medium, which comprises a stored computer program, wherein the equipment where the computer readable storage medium is located is controlled to execute the intelligent building site cloud platform-based management method according to any embodiment when the computer program runs.

It will be appreciated by those skilled in the art that the schematic diagram is merely an example of a terminal device and does not constitute a limitation of the terminal device, and may include more or less components than illustrated, or may combine certain components, or different components, e.g., the terminal device may further include an input-output device, a network access device, a bus, etc.

The processor 301 may be a central processing unit (Central Processing Unit, CPU), but may also be other general purpose processors, digital signal processors (Digital Signal Processor, DSP), application specific integrated circuits (Application Specific Integrated Circuit, ASIC), off-the-shelf programmable gate arrays (Field-Programmable Gate Array, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, or the like. The general purpose processor may be a microprocessor or the processor may be any conventional processor or the like, and the processor 301 is a control center of the terminal device, and connects various parts of the entire terminal device using various interfaces and lines.

The memory 302 may be used to store the computer program and/or module, and the processor 301 may implement various functions of the terminal device by running or executing the computer program and/or module stored in the memory and invoking data stored in the memory 302. The memory 302 may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program (such as a sound playing function, an image playing function, etc.) required for at least one function, and the like; the storage data area may store data (such as audio data, phonebook, etc.) created according to the use of the handset, etc. In addition, the memory may include high-speed random access memory, and may also include non-volatile memory, such as a hard disk, memory, plug-in hard disk, smart Media Card (SMC), secure Digital (SD) Card, flash Card (Flash Card), at least one disk storage device, flash memory device, or other volatile solid-state storage device.

Wherein the terminal device integrated modules/units may be stored in a computer readable storage medium if implemented in the form of software functional units and sold or used as stand alone products. Based on such understanding, the present invention may implement all or part of the flow of the method of the above embodiment, or may be implemented by a computer program to instruct related hardware, where the computer program may be stored in a computer readable storage medium, and when the computer program is executed by a processor, the computer program may implement the steps of each of the method embodiments described above. Wherein the computer program comprises computer program code which may be in source code form, object code form, executable file or some intermediate form etc. The computer readable medium may include: any entity or device capable of carrying the computer program code, a recording medium, a U disk, a removable hard disk, a magnetic disk, an optical disk, a computer Memory, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), an electrical carrier signal, a telecommunications signal, a software distribution medium, and so forth.

It should be noted that the above-described apparatus embodiments are merely illustrative, and the units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed over a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. In addition, in the drawings of the embodiment of the device provided by the invention, the connection relation between the modules represents that the modules have communication connection, and can be specifically implemented as one or more communication buses or signal lines. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

While the foregoing is directed to the preferred embodiments of the present invention, it will be appreciated by those skilled in the art that changes and modifications may be made without departing from the principles of the invention, such changes and modifications are also intended to be within the scope of the invention.

Claims (6)

1. A management method based on an intelligent building site cloud platform is characterized by being applied to the cloud platform and comprising the following steps:

acquiring a plurality of pieces of non-humidified dust concentration data uploaded by a first dust detector within a preset time; the first dust detector is arranged on one side of the water pump equipment to be regulated and is used for acquiring the concentration of dust before humidification;

determining target power parameters of the water pump equipment to be regulated based on a plurality of pieces of non-humidified dust concentration data;

acquiring an initial power parameter uploaded by the water pump equipment to be regulated, and generating power regulation data based on a difference value between the target power parameter and the initial power parameter;

transmitting the power adjustment data to the water pump equipment to be adjusted so that the water pump equipment to be adjusted adjusts the water pump power from an initial power parameter to a target power parameter according to the power adjustment data; the water pump equipment to be regulated regulates the spraying speed of the dust removal water by controlling the water flow speed of the spraying conduit;

the preset time is the current movement period of the guide rail moving device; the guide rail moving device is connected with the second dust detector;

after the power adjustment data is transmitted to the water pump equipment to be adjusted, the method further comprises:

acquiring a plurality of humidified dust concentration data uploaded by a second dust detector in the current moving period of the guide rail moving device; the second dust detector is arranged on the other side of the water pump equipment to be regulated and is used for acquiring the concentration of dust after humidification; the moving period is the time required for the guide rail moving device to move from the leftmost end of the guide rail to the rightmost end of the guide rail and return to the leftmost end of the guide rail;

controlling the water pump equipment to be regulated to regulate target power parameters according to the humidified dust concentration data;

the controlling the water pump equipment to be adjusted to adjust the target power parameter according to the humidified dust concentration data specifically comprises the following steps:

selecting the maximum concentration data from the plurality of humidified dust concentration data as target humidified dust concentration data;

judging whether the target humidified dust concentration data is larger than a dust concentration threshold value or not;

if yes, determining a response power parameter based on the target humidified dust concentration data, generating power secondary adjustment data according to the response power parameter, and transmitting the power secondary adjustment data to the water pump equipment to be adjusted so that the water pump equipment to be adjusted adjusts the water pump power from the target power parameter to the response power parameter according to the power secondary adjustment data;

if not, no operation is performed;

after the acquisition of the plurality of non-humidified dust concentration data uploaded by the first dust detector within the preset time, the method further comprises:

calculating the average value of the concentration of the non-humidified dust according to a plurality of data of the concentration of the non-humidified dust;

determining moving speed data according to the average value of the concentration of the non-humidified dust and a preset concentration threshold value, and transmitting the moving speed data to a guide rail moving device so that the guide rail moving device moves on a guide rail according to the moving speed data; the length of the guide rail is the length of the corresponding jet guide pipe of the water pump equipment to be regulated; the guide rail moving device moves according to the initial speed when the moving speed data is not received;

the guide rail moving device moves on a guide rail according to the moving speed data, and comprises:

after receiving the moving speed data, the guide rail moving device judges whether the moving speed data is equal to the current speed data or not;

if not, the guide rail moving device moves according to the moving speed data after returning to the left side of the guide rail;

if yes, the guide rail moving device continues to move based on the current speed data;

the concentration threshold comprises: a first concentration threshold and a second concentration threshold, the movement speed data comprising: a first movement speed value, a second movement speed value, and a third movement speed value; wherein the second concentration threshold is greater than the first concentration threshold, the second travel speed value is greater than the first travel speed value and less than the third travel speed value;

the determining moving speed data according to the non-humidified dust concentration data and a preset concentration threshold value comprises the following steps:

if the non-humidified dust concentration data is smaller than a first concentration threshold value, the moving speed data is a first moving speed value;

if the non-humidified dust concentration data is greater than or equal to the first concentration threshold value and smaller than the second concentration threshold value, the moving speed data is a second moving speed value;

and if the concentration data of the non-humidified dust is greater than or equal to the second concentration threshold value, the moving speed data is a third moving speed value.

2. The intelligent worksite cloud platform-based management method of claim 1, wherein the determining the target power parameter of the water pump apparatus to be adjusted based on the plurality of non-humidified dust concentration data comprises:

selecting the maximum concentration data from the plurality of non-humidified dust concentration data as target non-humidified dust concentration data;

substituting the lift parameter and the efficiency parameter of the water pump equipment to be regulated and the target non-humidified dust concentration data into a preset power calculation formula to obtain a target power parameter of the water pump equipment to be regulated; wherein, the power calculation formula is as follows:

；

in the method, in the process of the invention,for the power parameter +.>For dust concentration->For the volume of the water wall formed by the water pump device, < >>Is the lift of the water pump equipment +.>Acceleration of gravity, ++>For the solubility of dust removal water to dust, +.>Is a unit time->Is the working efficiency of the water pump equipment.

3. The intelligent worksite cloud platform-based management method of claim 1, wherein the first dust detector and the second dust detector are arranged at the same height, and are perpendicular to the injection duct and do not intersect with each other based on a straight line formed by connecting the horizontal coordinates of the first dust detector and the horizontal coordinates of the second dust detector.

4. An intelligent building site cloud platform-based management system, which is characterized by comprising: the device comprises a cloud platform, a first dust detector, a second dust detector, water pump equipment to be regulated, a jet guide pipe, a guide rail moving device and a guide rail; wherein the cloud platform performs the smart worksite cloud platform-based management method of any one of claims 1 to 3;

the cloud platform is connected with the first dust detector, the second dust detector, the water pump equipment to be regulated and the guide rail moving device in a wireless mode respectively;

the water pump equipment to be regulated is connected with the injection conduit;

the guide rail moving device is connected with the guide rail;

the first dust detector is arranged on one side of the water pump equipment to be regulated, and the second dust detector is arranged on the other side of the water pump equipment to be regulated;

the water pump equipment to be regulated, the jet guide pipe, the guide rail moving device and the guide rail are all arranged on the building site enclosing wall.

5. A computer terminal device comprising a processor, a memory and a computer program stored in the memory and configured to be executed by the processor, the processor implementing a smart worksite cloud platform-based management method according to any one of claims 1 to 3 when the computer program is executed.

6. A computer readable storage medium, characterized in that the computer readable storage medium comprises a stored computer program, wherein the computer program when run controls a device in which the computer readable storage medium is located to execute a management method based on an intelligent worksite cloud platform according to any one of claims 1 to 3.