CN117632646A - Environment parameter monitoring method and device, storage medium and electronic device - Google Patents

Abstract

The embodiment of the application provides a method and a device for monitoring environmental parameters, a storage medium and electronic equipment, wherein the method comprises the following steps: acquiring environment detection data according to a first period, wherein the environment detection data are detection data obtained by acquiring and determining environment parameters of an area to be detected; displaying an environment monitoring interface according to the environment detection data according to the second period, wherein the first period is shorter than the second period; and displaying an alarm prompt message on an environment monitoring interface under the condition that the target environment detection data meeting the preset alarm condition exists, wherein the expression form of the alarm prompt message is related to the preset alarm condition and the type of the target environment detection data, and the alarm prompt message is used for indicating that the environment parameters of the area to be detected are abnormal. By the method and the device, the technical problem that the processing efficiency of the environment abnormal condition is low due to the fact that the acquisition of the environment detection data is not timely is solved.

Description

Environment parameter monitoring method and device, storage medium and electronic device

Technical Field

The embodiment of the application relates to the field of computers, in particular to a method and a device for monitoring environmental parameters, a storage medium and an electronic device.

Background

At present, the related technology detects the environmental parameters in the area to be detected and judges according to the detected environmental parameters to realize environmental parameter alarming, however, the related technology only can realize alarming prompt aiming at a single environmental parameter, and the area to be detected always has a plurality of environmental parameters with different dimensions, so that an alarming system is always required to be constructed aiming at the different environmental parameters, the alarming efficiency is difficult to ensure, the expression form of the alarming message is single, unified monitoring and alarming cannot be realized aiming at the environmental parameters with different dimensions, and the technical problems of lower monitoring efficiency of the environmental parameters and lower processing efficiency of abnormal conditions are caused.

In view of the above problems, no effective solution has been proposed at present.

Disclosure of Invention

The embodiment of the application provides a monitoring method and device for environmental parameters, a storage medium and an electronic device, which are used for at least solving the problem of low processing efficiency of environmental abnormal conditions caused by untimely acquisition of environmental detection data.

According to one aspect of the present application, there is provided a method for monitoring an environmental parameter, including: acquiring environment detection data according to a first period, wherein the environment detection data are detection data obtained by acquiring and determining environment parameters of an area to be detected; displaying an environment monitoring interface according to the environment detection data according to a second period, wherein the first period is shorter than the second period; and displaying an alarm prompt message on the environment monitoring interface under the condition that the target environment detection data meeting the preset alarm condition exists, wherein the expression form of the alarm prompt message is related to the preset alarm condition and the type of the target environment detection data, and the alarm prompt message is used for indicating that the environment parameters of the area to be detected are abnormal.

According to another aspect of the present application, there is provided a monitoring device for environmental parameters, including: the detection module is used for acquiring environment detection data according to a first period, wherein the environment detection data are detection data obtained by acquiring and determining environment parameters of an area to be detected; the display module is used for displaying an environment monitoring interface according to the environment detection data according to a second period, wherein the first period is shorter than the second period; and the alarm module is used for displaying an alarm prompt message on the environment monitoring interface under the condition that the target environment detection data meeting the preset alarm condition exists, wherein the expression form of the alarm prompt message is related to the preset alarm condition and the type of the target environment detection data, and the alarm prompt message is used for indicating that the environment parameters of the area to be detected are abnormal.

Optionally, the device is configured to display an alarm prompt message on the environment monitoring interface when there is target environment detection data meeting a preset alarm condition in the following manner: determining that the equipment state data of the first equipment is the target environment detection data under the condition that the equipment state data of the first equipment deployed in the area to be detected indicates that the first equipment is in an on state, and displaying a first equipment alarm prompt message on the environment monitoring interface, wherein the first equipment is set to be in a default off state, and the alarm prompt message comprises the first equipment alarm prompt message; and under the condition that the equipment state data of the second equipment deployed in the area to be detected represents that the second equipment is in a closed state, determining the equipment state data of the second equipment as the target environment detection data, and displaying a second equipment alarm prompt message on the environment monitoring interface, wherein the second equipment is set to be in a default open state, and the alarm prompt message comprises the second equipment alarm prompt message.

Optionally, the device is configured to display an alarm prompt message on the environment monitoring interface when there is target environment detection data meeting a preset alarm condition in the following manner: determining that temperature data corresponding to the to-be-detected area is the target environment detection data under the condition that the temperature of the to-be-detected area is higher than a first temperature, and displaying a first temperature alarm prompt message on the environment monitoring interface, wherein the first temperature represents the maximum allowable temperature of the to-be-detected area; canceling to display the first temperature alarm prompt message and displaying a first temperature recovery message under the condition that the first temperature alarm prompt message is displayed and the temperature of the area to be detected is lower than a third temperature, wherein the first temperature recovery message indicates that the temperature of the area to be detected is recovered to be normal, and the third temperature is lower than the first temperature; determining that temperature data corresponding to the to-be-detected area is the target environment detection data under the condition that the temperature of the to-be-detected area is lower than a second temperature, and displaying a second temperature alarm prompt message on the environment monitoring interface, wherein the second temperature represents the minimum allowable temperature of the to-be-detected area; and under the condition that the second temperature alarm prompt message is displayed and the temperature of the area to be detected is higher than a fourth temperature, canceling the display of the first temperature alarm prompt message and displaying a second temperature recovery message, wherein the second temperature recovery message indicates that the temperature of the area to be detected is recovered to be normal, and the fourth temperature is higher than the second temperature.

Optionally, the device is configured to display an alarm prompt message on the environment monitoring interface when there is target environment detection data meeting a preset alarm condition in the following manner: determining humidity data corresponding to the to-be-detected area as the target environment detection data under the condition that the humidity of the to-be-detected area is higher than the first humidity, and displaying a first humidity alarm prompt message on the environment monitoring interface, wherein the first humidity represents the highest allowable humidity of the to-be-detected area; canceling to display the first humidity warning prompt message and displaying a first humidity recovery message under the condition that the first humidity warning prompt message is displayed and the humidity of the to-be-detected area is lower than a third humidity, wherein the first humidity recovery message indicates that the humidity of the to-be-detected area is recovered to be normal, and the third humidity is lower than the first humidity; determining humidity data corresponding to the to-be-detected area as the target environment detection data under the condition that the humidity of the to-be-detected area is lower than second humidity, and displaying a second humidity alarm prompt message on the environment monitoring interface, wherein the second humidity represents the lowest allowable humidity of the to-be-detected area; and under the condition that the second humidity alarm prompt message is displayed and the humidity of the to-be-detected area is higher than the fourth humidity, canceling the display of the first humidity alarm prompt message and displaying a second humidity recovery message, wherein the second humidity recovery message indicates that the humidity of the to-be-detected area is recovered to be normal, and the fourth humidity is higher than the second humidity.

Optionally, the device is further configured to: displaying the alarm prompt message on the environment monitoring interface, playing target alarm audio and sending the prompt message to a target account under the condition that first environment detection data meeting first alarm conditions exist, wherein the preset alarm conditions comprise the first alarm conditions, and the target environment detection data comprise the first environment detection data; and displaying the alarm prompt message on the environment monitoring interface under the condition that second environment detection data meeting a second alarm condition exists, wherein the preset alarm condition comprises the second alarm condition, the second alarm condition is different from the first alarm condition, and the target environment detection data comprises the second environment detection data.

Optionally, the device is further configured to: and marking the third environment detection data in a database under the condition that the third environment detection data meeting the third alarm condition exists, wherein the third alarm condition does not belong to the preset alarm condition, and the third environment detection data does not belong to the target environment detection data.

Optionally, the device is further configured to: periodically obtaining a group of load rates of the target uninterruptible power supply deployed in the region to be detected, wherein the group of load rates are distributed according to a time sequence; sequentially performing abnormality judgment on the group of load rates according to a predetermined load rate threshold value, and determining a group of load rate comparison results; determining that the target uninterruptible power supply is abnormal under the condition that the group of load rate comparison results comprise first comparison results and the number of the first comparison results is larger than a first number, and displaying a power supply alarm prompt message corresponding to the target uninterruptible power supply, wherein the first comparison results indicate that the load rate compared with the load rate threshold is larger than or equal to the load rate threshold; and under the condition that the group of load rate comparison results comprise second comparison results and the second comparison results are larger than a second number, determining that the target uninterruptible power supply is recovered to be normal, and canceling to display the power supply alarm prompt message, wherein the second comparison results indicate that the load rate compared with the load rate threshold is smaller than the load rate threshold.

According to a further embodiment of the present application, there is also provided a computer readable storage medium having stored therein a computer program, wherein the computer program is arranged to perform the steps of any of the method embodiments described above when run.

According to a further embodiment of the present application, there is also provided an electronic device comprising a memory having stored therein a computer program and a processor arranged to run the computer program to perform the steps of any of the method embodiments described above.

In the embodiment of the application, environment detection data are acquired according to a first period, wherein the environment detection data are detection data obtained by acquiring and determining environment parameters of an area to be detected; displaying an environment monitoring interface according to the environment detection data according to the second period, wherein the first period is shorter than the second period; under the condition that the target environment detection data meeting the preset alarm conditions exist, an alarm prompt message is displayed on an environment monitoring interface, wherein the expression form of the alarm prompt message is related to the preset alarm conditions and the types of the target environment detection data, the alarm prompt message is used for indicating that the environment parameters of the area to be detected are abnormal, the purpose of timely acquiring the environment parameters of the area to be detected is achieved, the technical effect of quickly processing various abnormal conditions of the area to be detected is achieved, and the technical problem that the processing efficiency of the environment abnormal conditions is low due to the fact that the acquisition of the environment detection data is not timely is solved.

Drawings

FIG. 1 is a block diagram of a hardware architecture of a mobile terminal for a method of monitoring environmental parameters according to an embodiment of the present application;

FIG. 2 is a flow chart of a method of monitoring environmental parameters according to an embodiment of the present application;

FIG. 3 is a flow chart of a method for monitoring environmental parameters according to an embodiment of the present application;

fig. 4 is a block diagram of an environment parameter monitoring device according to an embodiment of the present application.

Detailed Description

Embodiments of the present application will be described in detail below with reference to the accompanying drawings in conjunction with the embodiments.

It should be noted that the terms "first," "second," and the like in the description and claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order.

The method embodiments provided in the embodiments of the present application may be performed in a mobile terminal, a computer terminal or similar computing device. Taking the operation on a mobile terminal as an example, fig. 1 is a block diagram of a hardware structure of a mobile terminal of a method for monitoring environmental parameters according to an embodiment of the present application. As shown in fig. 1, a mobile terminal may include one or more (only one is shown in fig. 1) processors 102 (the processor 102 may include, but is not limited to, a microprocessor MCU or a processing device such as a programmable logic device FPGA) and a memory 104 for storing data, wherein the mobile terminal may also include a transmission device 106 for communication functions and a terminal device 108. It will be appreciated by those skilled in the art that the structure shown in fig. 1 is merely illustrative and not limiting of the structure of the mobile terminal described above. For example, the mobile terminal may also include more or fewer components than shown in fig. 1, or have a different configuration than shown in fig. 1.

The memory 104 may be used to store a computer program, for example, a software program of application software and a module, such as a computer program corresponding to a method for monitoring an environmental parameter in the embodiment of the present application, and the processor 102 executes the computer program stored in the memory 104, thereby performing various functional applications and data processing, that is, implementing the method described above. Memory 104 may include high-speed random access memory, and may also include non-volatile memory, such as one or more magnetic storage devices, flash memory, or other non-volatile solid-state memory. In some examples, the memory 104 may further include memory remotely located relative to the processor 102, which may be connected to the mobile terminal via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The transmission means 106 is arranged to receive or transmit data via a network. Specific examples of the network described above may include a wireless network provided by a communication provider of the mobile terminal. In one example, the transmission device 106 includes a network adapter (Network Interface Controller, simply referred to as NIC) that can connect to other network devices through a base station to communicate with the internet. In one example, the transmission device 106 may be a Radio Frequency (RF) module, which is used to communicate with the internet wirelessly.

Alternatively, in this embodiment, the above-mentioned method for monitoring an environmental parameter may also be implemented by a server, or implemented by a terminal device and the server together.

The above is merely an example, and the present embodiment is not particularly limited.

Optionally, as an optional implementation manner, fig. 2 is a flowchart of a method for monitoring an environmental parameter according to an embodiment of the present application, and as shown in fig. 2, the method for monitoring an environmental parameter includes:

s202, acquiring environment detection data according to a first period, wherein the environment detection data are detection data obtained by acquiring and determining environment parameters of an area to be detected;

optionally, in this embodiment, the environment detection data may include, but is not limited to, temperature data, humidity data, device load rate data, device on state data, device off state data, sound data, illumination data, and the like, the area to be detected may include, but is not limited to, an independent machine room, a cabinet, and the like, and the environment parameters may include, but are not limited to, a temperature parameter, a humidity parameter, a device load rate parameter, a device on state parameter, a device off state parameter, a sound parameter, an illumination parameter, and the like.

The method includes the steps that in the first period, environmental parameters of an area to be detected are collected through collection equipment to obtain environmental detection data, equipment states and the like in the area to be detected can be obtained through the environmental detection data, and specific values of the first period are not limited.

In an exemplary embodiment, the area to be detected is a machine room, a temperature monitor, a humidity detector, a water leakage detector, a machine room door status detector, and the like are disposed in the machine room, and the machine room door status detector respectively collects a temperature parameter, a humidity parameter, a status parameter of a machine room water supply device, and a status parameter of a machine room door in the machine room once in a period of 5 seconds, so as to collect the collected parameters to obtain a set of environment detection data, and the temperature value, the humidity value, the status of the machine room water supply device, and the status of the machine room door in the machine room at different time points in one day can be obtained through the set of environment detection data.

S204, displaying an environment monitoring interface according to the environment detection data according to a second period, wherein the first period is shorter than the second period;

optionally, in the embodiment of the present application, the environment monitoring interface may be displayed on a device including, but not limited to, a computer, a notebook, a mobile phone, an intelligent wearable device, etc., and after the environment detection data is obtained, the environment monitoring interface is displayed on a device through a network, where the environment monitoring interface may include, but not limited to, a display interface of a cloud platform, a display interface of a website, a display interface of a web page, a display interface of an independent application program, etc.

Cloud technology (Cloud technology) refers to a hosting technology that unifies serial resources such as hardware, software, networks and the like in a wide area network or a local area network to realize calculation, storage, processing and sharing of data.

Cloud computing (closed computing) refers to the delivery and usage mode of an IT infrastructure, meaning that required resources are obtained in an on-demand, easily scalable manner through a network; generalized cloud computing refers to the delivery and usage patterns of services, meaning that the required services are obtained in an on-demand, easily scalable manner over a network. Such services may be IT, software, internet related, or other services. Cloud Computing is a product of fusion of traditional computer and network technology developments such as Grid Computing (Grid Computing), distributed Computing (distributed Computing), parallel Computing (Parallel Computing), utility Computing (Utility Computing), network storage (Network Storage Technologies), virtualization (Virtualization), load balancing (Load balancing), and the like.

With the development of the internet, real-time data flow and diversification of connected devices, and the promotion of demands of search services, social networks, mobile commerce, open collaboration and the like, cloud computing is rapidly developed. Unlike the previous parallel distributed computing, the generation of cloud computing will promote the revolutionary transformation of the whole internet mode and enterprise management mode in concept.

It should be noted that, the second period may be understood as a page refresh period of the environment monitoring interface when the environment monitoring interface is displayed, that is, after the environment detection data is obtained, the content included in the environment detection data is displayed on the environment monitoring interface, and the environment monitoring interface is refreshed at intervals of every second period, so as to obtain the environment detection data of the to-be-detected area corresponding to the current time point.

In addition, the first period may be understood that the environmental detection data is acquired once at intervals of the first period, whether the environmental parameters in the area to be detected are changed or not may be obtained by analyzing the environmental detection data acquired at the current time point and the environmental detection data acquired before, the environmental monitoring interface is refreshed to indicate the environmental parameters of the corresponding area to be detected at the current time point, and the second period may be smaller than the first period, that is, after determining the intervals of the first period, the environmental detection data of the area to be detected indicates that the states of the devices in the area to be detected change, where the intervals between the current time point of refreshing the environmental monitoring interface and the historical time point of last refreshing the environmental monitoring interface are greater than the intervals between the current time point of acquiring the current environmental detection data and the historical time point of last acquiring the environmental detection data.

S206, under the condition that the target environment detection data meeting the preset alarm condition exists, an alarm prompt message is displayed on an environment monitoring interface, wherein the expression form of the alarm prompt message is related to the preset alarm condition and the type of the target environment detection data, and the alarm prompt message is used for indicating that the environment parameters of the area to be detected are abnormal;

specifically, after the above-mentioned environmental detection data is obtained, the above-mentioned target environmental detection data may be extracted from a plurality of environmental detection data, where the target environmental detection data represents an environmental parameter at a certain position of an area to be detected, for example, the area to be detected is a machine room, the target environmental detection data is an environmental detection data representation for representing a state of a door of the machine room, and according to the environmental detection data currently obtained, the machine room door is in an open state at this time, and the environmental detection data is the above-mentioned target environmental detection data.

Optionally, in this embodiment of the present application, the target environment detection data may include, but is not limited to, temperature data, humidity data, device load rate data, device open state data, device closed state data, sound data, light data, and the like, and the preset alarm condition may be understood that, obtained by the target environment detection data, an abnormal condition occurs at a position in one to-be-detected area detected by the target environment detection data, or an abnormal condition occurs at a device in one to-be-detected area detected by the target environment detection data, an alarm prompt message is displayed on an environment monitoring interface, after the alarm prompt message is acquired, the abnormal condition is processed according to content included in the alarm prompt message, and preset alarm conditions corresponding to the abnormal condition occurring at different devices in the to-be-detected area or at different positions in the to-be-detected area may be different, that is, the preset alarm condition may include a plurality of, for example, a temperature alarm condition, a humidity alarm condition, and the like.

Further, the alarm alert message may include, but is not limited to, a temperature alarm alert message, a humidity alarm alert message, a device load rate alarm alert message, a device on state alarm alert message, a device off state alarm alert message, a sound alarm alert message, an illumination alarm alert message, etc., and may include a plurality of message types, the type of the alarm alert message being related to a preset alarm condition and a type of target environment detection data, in other words, the plurality of target environment detection data corresponding to a plurality of different abnormal conditions that may occur in the area to be detected, the plurality of different abnormal conditions corresponding to a plurality of different preset alarm conditions, the plurality of different preset alarm conditions being related to the message types of the plurality of alarm alert messages.

The temperature in the machine room is 60 ℃ and the air humidity is 40%, and since the temperature alarm condition is known according to the preset alarm condition, the temperature alarm condition is that the temperature in the machine room is 50 ℃ at the highest and 40 ℃ at the lowest, namely, the temperature abnormality condition is considered to occur in the machine room, the temperature alarm condition is that the temperature in the machine room is greater than 50% and 20 ℃ at the lowest, namely, the humidity abnormality condition is considered to occur in the machine room, at the moment, the temperature in the machine room is greater than the maximum temperature in the machine room represented by the temperature alarm condition, the humidity in the machine room belongs to the normal humidity range of the machine room represented by the humidity alarm condition, the temperature abnormality condition occurs in the machine room, and accordingly, a temperature alarm prompt message is displayed on an environment monitoring interface, and the temperature in the machine room is reduced according to the temperature alarm prompt message.

In an exemplary embodiment, fig. 3 is a flowchart of a method for monitoring an environmental parameter according to an embodiment of the present application, as shown in fig. 3, where the method for monitoring an environmental parameter set forth in the present application may be applied to a machine room environmental monitoring scenario:

s1, setting the detection data of the door state detected by the door state detector 302 and the detection data of the temperature and humidity detected by the temperature and humidity detector 304, the detection data of the water leakage state detected by the water leakage detector 306 and the detection data of the load factor detected by the uninterruptible power supply system 308 at intervals of 5 seconds.

S2, acquiring door state detection data, temperature detection data, humidity detection data, water leakage state detection data and load rate detection data, and summarizing to obtain a group of machine room environment detection data;

s3, analyzing the machine room environment detection data obtained in the S2 by combining with preset alarm conditions, and judging whether an abnormal condition occurs in the current machine room;

s3-1, analyzing temperature detection data in a group of machine room environment detection data according to temperature alarm conditions in preset alarm conditions, and determining that the temperature in the machine room is normal, wherein the temperature alarm conditions indicate that the temperature in the machine room cannot exceed 80 degrees and cannot be lower than 40 degrees;

S3-2, analyzing humidity detection data in a group of machine room environment detection data according to humidity alarm conditions in preset alarm conditions to determine that the humidity in the machine room is too high and abnormal, wherein the humidity alarm conditions indicate that the air humidity in the machine room cannot exceed 70% and cannot be lower than 40%;

s3-3, analyzing water leakage state detection data in a group of machine room environment detection data according to water leakage alarm conditions in preset alarm conditions, and determining that no water leakage phenomenon exists in the machine room, wherein the water leakage alarm conditions indicate that water supply equipment in the machine room leaks;

s3-4, analyzing load rate detection data in a group of machine room environment detection data according to the load rate alarm condition in the preset alarm condition, determining that the load rate of an uninterruptible power supply system in the machine room is too high to supply power normally, wherein the load rate of the uninterruptible power supply system is acquired every other time interval, comparing the acquired load rate with the maximum load rate of the uninterruptible power supply system, and if the number of times that the acquired load rate is larger than the maximum load rate exceeds the maximum number of times included in the load rate alarm condition within a period of time, or if the change frequency of the load rate exceeds the load rate fluctuation range included in the load rate alarm condition within the period of time, indicating that the uninterruptible power supply system in the machine room is abnormal;

S3-5, analyzing machine room door state detection data in a group of machine room environment detection data according to machine room door alarm conditions in preset alarm conditions, and determining that an abnormal condition does not exist in the machine room door, wherein the machine room door alarm conditions represent a comparison result of the state of the machine room door and the default state of the machine room door, and the default state of the machine room door can comprise, but is not limited to, an open state, a closed state and the like;

s4, according to S3-2 and S3-4, obtaining humidity of the machine room and abnormality of the uninterruptible power supply system, refreshing an environment monitoring interface of the machine room, displaying a humidity alarm prompt message and a load rate alarm prompt message of the uninterruptible power supply system on the environment monitoring interface, wherein the humidity alarm prompt message indicates that prompt information is sent to related personnel managing the machine room, and carrying out voice prompt in the machine room, and the load rate alarm prompt message is only displayed on the environment monitoring interface.

According to the embodiment of the application, environment detection data are acquired according to a first period, wherein the environment detection data are detection data obtained by acquiring and determining environment parameters of an area to be detected; displaying an environment monitoring interface according to the environment detection data according to the second period, wherein the first period is shorter than the second period; under the condition that the target environment detection data meeting the preset alarm conditions exist, an alarm prompt message is displayed on an environment monitoring interface, wherein the expression form of the alarm prompt message is related to the preset alarm conditions and the types of the target environment detection data, the alarm prompt message is used for indicating that the environment parameters of the area to be detected are abnormal, the purpose of timely acquiring the environment parameters of the area to be detected is achieved, the technical effect of quickly processing various abnormal conditions of the area to be detected is achieved, and the technical problem that the processing efficiency of the environment abnormal conditions is low due to the fact that the acquisition of the environment detection data is not timely is solved.

As an optional solution, displaying an alarm prompt message on the environment monitoring interface when there is target environment detection data meeting a preset alarm condition, including: determining that the equipment state data of the first equipment is the target environment detection data when the equipment state data of the first equipment deployed in the area to be detected indicates that the first equipment is in an on state, and displaying a first equipment alarm prompt message on the environment monitoring interface, wherein the first equipment is set to be in a default off state, and the alarm prompt message comprises the first equipment alarm prompt message; and when the equipment state data of the second equipment deployed in the area to be detected indicates that the second equipment is in a closed state, determining the equipment state data of the second equipment as the target environment detection data, and displaying a second equipment alarm prompt message on the environment monitoring interface, wherein the second equipment is set to be in a default open state, and the alarm prompt message comprises the second equipment alarm prompt message.

Alternatively, in the embodiment of the present application, the first device may be understood as one device located in the area to be detected, and the second device may be understood as one device located in the area to be detected, where the first device and the second device may be the same one device.

Specifically, the current state of the first device is obtained by collecting the state data of the first device, the state data of the first device may be represented by the form including, but not limited to, an image, text, voice, etc., whether an abnormal condition occurs in the first device is judged according to the current state of the first device, if the abnormal condition occurs in the first device, the state of the first device may include, but not limited to, an open state, a closed state, etc., the alarm information of the first device is displayed on the environment monitoring interface, the alarm information of the first device indicates that the state of the first device is changed, and the alarm prompt message includes the alarm information of the first device, that is, the alarm prompt message may find a first device alarm information in the alarm prompt information to prompt that the state of the first device is abnormal.

Further, the current state of the second device is obtained by collecting the state data of the second device, the state data of the second device may be represented by the following forms including, but not limited to, images, characters, voices, and the like, whether an abnormal condition occurs in the second device is judged according to the current state of the second device, if the abnormal condition occurs in the second device, the state of the second device may include, but not limited to, an open state, a closed state, and the like, the alarm information of the second device is displayed on the environment monitoring interface, the alarm information of the second device indicates that the state of the second device is changed, and the alarm prompt message includes alarm information of the second device, that is, the alarm prompt message may find a second device alarm information in the alarm prompt information to prompt that the state of the second device is abnormal.

In an exemplary embodiment, when the area to be detected is taken as the machine room and the machine room door is taken as the first device, the current state of the machine room door is determined to be an open state by acquiring the device state data of the machine room door, and the default state of the machine room door is a closed state, so that the first device alarm information is displayed on the environment monitoring interface.

It should be noted that, when judging whether an abnormal situation occurs in the first device according to the current state of the first device, the state of the first device may be compared with the default device state of the first device, in this embodiment of the present application, the default device state of the first device is an off state, if the current state of the first device is different from the default device state of the first device, that is, the current state of the first device is an on state, at this time, the first device alarm information is displayed on the environment monitoring interface, otherwise, if the current state of the first device is an off state, which indicates that the first device is operating normally, it is not necessary to display the first device alarm information on the environment monitoring interface.

In an exemplary embodiment, when the area to be detected is taken as the machine room, and the machine room door is taken as the second device, the current state of the machine room door is determined to be the closed state by acquiring the device state data of the machine room door, and since the default state of the machine room door is the open state, the second device alarm information is displayed on the environment monitoring interface at this time.

According to the method and the device for processing the state abnormality of the area to be detected, under the condition that the equipment state data of the first equipment deployed in the area to be detected represents that the first equipment is in an on state, the equipment state data of the first equipment is determined to be target environment detection data, the first equipment alarm prompt message is displayed on the environment monitoring interface, the default state of the first equipment is in an off state, under the condition that the equipment state data of the second equipment deployed in the area to be detected represents that the second equipment is in an off state, the equipment state data of the second equipment is determined to be target environment detection data, the second equipment alarm prompt message is displayed on the environment monitoring interface, wherein the default state of the second equipment is in an on state, the alarm prompt message comprises the first equipment alarm prompt message and the second equipment alarm prompt message, the purpose of acquiring the state of the area to be detected according to the environment detection data is achieved, and the processing rate of the state abnormality of the area to be detected is further improved.

As an optional solution, displaying an alarm prompt message on the environment monitoring interface when there is target environment detection data meeting a preset alarm condition, including: determining that temperature data corresponding to the to-be-detected area is the target environment detection data under the condition that the temperature of the to-be-detected area is higher than a first temperature, and displaying a first temperature alarm prompt message on the environment monitoring interface, wherein the first temperature represents the allowable highest temperature of the to-be-detected area; when the first temperature alarm prompt message is displayed and the temperature of the to-be-detected area is lower than a third temperature, canceling the display of the first temperature alarm prompt message and displaying a first temperature recovery message, wherein the first temperature recovery message indicates that the temperature of the to-be-detected area is recovered to be normal, and the third temperature is lower than the first temperature; determining that the temperature data corresponding to the to-be-detected area is the target environment detection data under the condition that the temperature of the to-be-detected area is lower than a second temperature, and displaying a second temperature alarm prompt message on the environment monitoring interface, wherein the second temperature represents the minimum allowable temperature of the to-be-detected area; and under the condition that the second temperature alarm prompt message is displayed and the temperature of the to-be-detected area is higher than a fourth temperature, canceling the display of the first temperature alarm prompt message and displaying a second temperature recovery message, wherein the second temperature recovery message indicates that the temperature of the to-be-detected area is recovered to be normal, and the fourth temperature is higher than the second temperature.

Optionally, in this embodiment of the present application, the temperature of the area to be detected may be obtained, the obtained current temperature is compared with the first temperature, if the current temperature exceeds the first temperature, the temperature of the area to be detected is indicated to be abnormal, and further, a first temperature alarm prompt message is displayed on the environment monitoring interface, where the first temperature alarm prompt message indicates that the temperature of the area to be detected is too high, and cooling treatment needs to be performed, and the first temperature may be flexibly set manually, and may be understood as the highest temperature in the area to be detected, and if the temperature of the area to be detected is higher than the first temperature, the temperature of the area to be detected is considered to be abnormal, and the temperature of the area to be detected is taken as target environment detection data, and indicates that the first temperature alarm prompt message needs to be performed on the environment monitoring interface.

Further, if the first temperature alarm prompt message is displayed on the environment monitoring interface, the temperature of the area to be detected is reduced after a period of time, the current temperature is lower than the third temperature, which means that the temperature of the area to be detected is recovered to be normal, the first temperature alarm prompt message can be continuously displayed on the environment monitoring interface without being used for the environment monitoring interface, that is, as long as the current temperature of the area to be detected is lower than or equal to the third temperature, the first temperature alarm prompt message is not continuously displayed on the environment monitoring interface, and meanwhile, the first temperature recovery message is displayed on the environment monitoring interface, through which the temperature of the area to be detected can be known to be normal, wherein the third temperature can be flexibly set, the third temperature can be understood as the normal temperature in the area to be detected, the third temperature is lower than the first temperature, and when the temperature of the area to be detected is the third temperature, the area to be detected is considered to be not abnormal.

On the other hand, if the current temperature of the area to be detected is lower than the second temperature, displaying a second temperature alarm prompt message on the environment monitoring interface, wherein the second temperature alarm prompt message indicates that the temperature of the area to be detected is too low and needs to be subjected to heating treatment, the second temperature can be flexibly set artificially, the second temperature can be understood as the lowest temperature in the area to be detected, if the temperature of the area to be detected is lower than the second temperature, the temperature of the area to be detected is considered to be abnormal, the temperature of the area to be detected is taken as target environment detection data, and the display of the second temperature alarm prompt message on the environment monitoring interface is indicated.

In addition, if the second temperature alarm prompt message is displayed on the environment monitoring interface, after a period of time, the temperature of the area to be detected rises, the current temperature is higher than the fourth temperature, which means that the temperature of the area to be detected is recovered to be normal, the second temperature alarm prompt message can be continuously displayed on the environment monitoring interface without being used for the environment monitoring interface, that is, as long as the current temperature of the area to be detected is higher than or equal to the fourth temperature, the second temperature alarm prompt message is not continuously displayed on the environment monitoring interface, and meanwhile, the second temperature recovery message is displayed on the environment monitoring interface, through which the temperature of the area to be detected can be known to be normal, wherein the fourth temperature can be flexibly set, the fourth temperature can be understood to be the normal temperature in the area to be detected, the fourth temperature is higher than the second temperature, and when the temperature of the area to be detected is the fourth temperature, no abnormality is considered to occur in the area to be detected, and the third temperature and the second temperature can be the same or different.

It should be noted that, under the condition that the temperature of the area to be detected changes many times, the environmental monitoring interface may perform a first temperature alarm prompt message according to the temperature change, a first temperature recovery prompt message, a second temperature alarm prompt message, and a display switch of the second temperature recovery prompt message, for example, after the temperature of the area to be detected is higher than the first temperature at a first time point, that is, the first temperature alarm prompt message is displayed on the environmental monitoring interface, after the temperature of the area to be detected is reduced, the temperature of the area to be detected is found to be lower than the second temperature, that is, the second temperature alarm prompt message is displayed on the environmental monitoring interface, or after the temperature of the area to be detected is reduced, the temperature of the area to be detected is found to be higher than the second temperature, that is lower than the third temperature, that is, the first temperature alarm prompt message is displayed on the environmental monitoring interface, that is lower than the first temperature, that is higher than the second temperature, that is, the first temperature alarm prompt message is displayed on the environmental monitoring interface is cancelled, and the first temperature alarm prompt message is displayed on the environmental monitoring interface is displayed at the same when the second time point, that the temperature of the area to be detected is lower than the first temperature, that is higher than the second temperature is lower than the first temperature, that is found to be higher than the first temperature, the temperature alarm prompt message is displayed on the environmental monitoring interface, and displaying a second temperature recovery prompt message.

Through the embodiment of the application, the mode of setting the first temperature, the second temperature, the third temperature and the fourth temperature is adopted to judge whether the temperature of the area to be detected can be determined as target environment detection data, so that corresponding first temperature alarm prompt messages are displayed on an environment monitoring interface according to the temperature of the area to be detected, the first temperature recovery prompt messages, the second temperature alarm prompt messages and the second temperature recovery prompt messages are ensured, the timeliness of acquiring the temperature of the area to be detected is ensured, and the purpose of rapidly judging whether the area to be detected has temperature abnormality is achieved.

As an optional solution, displaying an alarm prompt message on the environment monitoring interface when there is target environment detection data meeting a preset alarm condition, including: determining humidity data corresponding to the to-be-detected area as the target environment detection data under the condition that the humidity of the to-be-detected area is higher than the first humidity, and displaying a first humidity alarm prompt message on the environment monitoring interface, wherein the first humidity represents the highest allowable humidity of the to-be-detected area; when the first humidity warning prompt message is displayed and the humidity of the to-be-detected area is lower than a third humidity, canceling the display of the first humidity warning prompt message and displaying a first humidity recovery message, wherein the first humidity recovery message indicates that the humidity of the to-be-detected area is recovered to be normal, and the third humidity is lower than the first humidity; determining that the humidity data corresponding to the to-be-detected area is the target environment detection data under the condition that the humidity of the to-be-detected area is lower than a second humidity, and displaying a second humidity alarm prompt message on the environment monitoring interface, wherein the second humidity represents the lowest allowable humidity of the to-be-detected area; and under the condition that the second humidity alarm prompt message is displayed and the humidity of the to-be-detected area is higher than the fourth humidity, canceling the display of the first humidity alarm prompt message and displaying a second humidity recovery message, wherein the second humidity recovery message indicates that the humidity of the to-be-detected area is recovered to be normal, and the fourth humidity is higher than the second humidity.

Optionally, in this embodiment of the present application, the humidity of the area to be detected may be obtained, the obtained current humidity is compared with the first humidity, if the current humidity exceeds the first humidity, the humidity of the area to be detected is indicated to be abnormal, and further, a first humidity alarm prompt message is displayed on an environment monitoring interface, the first humidity alarm prompt message indicates that the humidity of the area to be detected is too high, and cooling treatment needs to be performed, where the first humidity may be flexibly set manually, the first humidity may be understood as the highest humidity in the area to be detected, if the humidity of the area to be detected is higher than the first humidity, that is, the humidity of the area to be detected is regarded as target environment detection data, and the display of the first humidity alarm prompt message needs to be performed on the environment monitoring interface is indicated.

Further, if the first humidity alert prompt message is displayed on the environment monitoring interface, the humidity of the area to be detected is reduced after a period of time, the current humidity is lower than the third humidity, which means that the humidity of the area to be detected is recovered to be normal, the first humidity alert prompt message can be continuously displayed on the environment monitoring interface without being used for the environment monitoring interface, that is, as long as the current humidity of the area to be detected is lower than or equal to the third humidity, the first humidity alert prompt message is not continuously displayed on the environment monitoring interface, and meanwhile, the first humidity recovery message is displayed on the environment monitoring interface, through which the humidity of the area to be detected can be known to be normal, wherein the third humidity can be flexibly set, the third humidity can be understood as the normal humidity in the area to be detected, the third humidity is lower than the first humidity, and when the humidity of the area to be detected is the third humidity, the area to be detected is considered to be abnormal.

On the other hand, if the current humidity of the area to be detected is lower than the second humidity, displaying a second humidity warning prompt message on the environment monitoring interface, wherein the second humidity warning prompt message indicates that the humidity of the area to be detected is too low and needs to be subjected to heating treatment, the second humidity can be flexibly set artificially, the second humidity can be understood as the lowest humidity in the area to be detected, if the humidity of the area to be detected is lower than the second humidity, the humidity of the area to be detected is considered to be abnormal, the humidity of the area to be detected is taken as target environment detection data, and the display of the second humidity warning prompt message on the environment monitoring interface is indicated.

In addition, if the second humidity alarm prompt message is displayed on the environment monitoring interface, the humidity of the area to be detected rises after a period of time, the current humidity is higher than the fourth humidity, which means that the humidity of the area to be detected is recovered to be normal, the second humidity alarm prompt message may not be continuously displayed on the environment monitoring interface, that is, as long as the current humidity of the area to be detected is higher than or equal to the fourth humidity, the second humidity alarm prompt message will not be continuously displayed on the environment monitoring interface, and meanwhile, the second humidity recovery message is displayed on the environment monitoring interface, through which the humidity of the area to be detected can be known to be normal, wherein the fourth humidity can be flexibly set, the fourth humidity can be understood to be the normal humidity in the area to be detected, the fourth humidity is higher than the second humidity, and when the humidity of the area to be detected is the fourth humidity, the area to be detected is considered to be not abnormal, and the third humidity and the second humidity can be the same or different in value.

It should be noted that, under the condition that the humidity of the area to be detected changes for multiple times, the environment monitoring interface may perform a first humidity alarm prompt message according to the humidity change, a first humidity recovery prompt message, a second humidity alarm prompt message, and a display switch of the second humidity recovery prompt message, for example, after the temperature of the area to be detected is higher than the first humidity at a first time point, that is, the first humidity alarm prompt message is displayed on the environment monitoring interface, the humidity of the area to be detected is found to be lower than the second humidity, that is, the second humidity alarm prompt message is displayed on the environment monitoring interface, or after the temperature of the area to be detected is reduced, the humidity of the area to be detected is found to be higher than the second humidity, that is, the third humidity is lower than the third humidity, that is, the first humidity alarm prompt message is displayed on the environment monitoring interface, that is cancelled when the temperature of the area to be detected is lower than the first humidity alarm prompt message is displayed on the environment monitoring interface, that is higher than the first humidity alarm prompt message is found to be higher than the environment monitoring interface, and the second humidity is found to be higher than the first humidity at the temperature of the environment monitoring interface, and the temperature of the area to be detected is lower than the third humidity, that is found to be higher than the first humidity alarm prompt message is displayed on the environment monitoring interface, and displaying a second humidity recovery prompting message.

Through this embodiment, adopt to set up first humidity, second humidity, whether the mode of third humidity and fourth humidity judges to wait to detect regional humidity and can be confirmed as target environment detection data to according to waiting to detect regional humidity and show corresponding first humidity warning prompt message at the environment monitoring interface, first humidity resumes prompt message, second humidity warning prompt message, second humidity resumes prompt message, has ensured to obtain the timeliness of waiting to detect regional humidity, thereby has realized judging fast whether waiting to detect regional humidity abnormal condition's purpose.

As an alternative, the method further includes: displaying the alarm prompt message on the environment monitoring interface, playing a target alarm audio and sending the prompt message to a target account under the condition that the first environment detection data meeting the first alarm condition exists, wherein the preset alarm condition comprises the first alarm condition, and the target environment detection data comprises the first environment detection data; and displaying the alarm prompt message on the environment monitoring interface under the condition that second environment detection data meeting second alarm conditions exist, wherein the preset alarm conditions comprise the second alarm conditions, the second alarm conditions are different from the first alarm conditions, and the target environment detection data comprise the second environment detection data.

Optionally, in an embodiment of the present application, the first environmental detection data and the second environmental detection data may include, but are not limited to, temperature data, humidity data, device load rate data, device open state data, device closed state data, sound data, illumination data, and the like.

The first alarm condition may be understood as an abnormal situation occurring at a location in the to-be-detected area obtained through the first environment detection data, or an abnormal situation occurring at a device in the to-be-detected area detected by the first environment detection data, where the first alarm condition may include, but is not limited to, a temperature alarm condition, a humidity alarm condition, and the like, and the alarm prompt message is displayed on the environment monitoring interface, and meanwhile, a target alarm audio is played, where the target alarm audio indicates that an abnormality occurs in the to-be-detected area, and the target account may receive the prompt message, and may be understood as a management object account having a management authority for managing the to-be-detected area, or an operation object account having an operation authority for operating a device included in the to-be-detected area, so as to achieve the purpose of timely processing the abnormal situation of the to-be-detected area by sending the prompt message to the target account.

Taking the temperature of the area to be detected as an example, the first alarm condition may include, but is not limited to, that the temperature of the area to be detected represented by the first environmental detection data is higher than the maximum temperature allowed by the area to be detected, that the temperature of the area to be detected represented by the first environmental detection data is lower than the minimum temperature allowed by the area to be detected, and further, taking the humidity of the area to be detected as an example, that the humidity of the area to be detected represented by the first environmental detection data is higher than the maximum humidity allowed by the area to be detected, that the humidity of the area to be detected represented by the first environmental detection data is lower than the minimum humidity allowed by the area to be detected, and so on.

The second alarm condition may be understood as that an abnormal condition occurs at a position in the area to be detected by the second environmental detection data, an alarm prompt message is displayed on an environmental monitoring interface, or an abnormal condition occurs at a device in the area to be detected by the second environmental detection data, an alarm prompt message is displayed on the environmental monitoring interface, and the second alarm condition may include, but is not limited to, a temperature alarm condition, a humidity alarm condition, and the like.

Taking the temperature of the area to be detected as an example, the above-mentioned second alarm condition may include, but is not limited to, that the temperature of the area to be detected represented by the first environmental detection data is lower than the maximum temperature allowed by the area to be detected, and is higher than a second high temperature, which represents the maximum temperature of the normal temperature allowed by the area to be detected, for example, when the temperature of the area to be detected is 80 degrees at the maximum, the second high temperature is 60 degrees, and when the temperature of the area to be detected is lower than or equal to 60 degrees, the temperature of the area to be detected is considered to be normal, and when the temperature of the area to be detected is any temperature value between 80 degrees and 60 degrees, the temperature of the area to be detected is considered to be the second environmental detection data, so as to satisfy the second alarm condition.

It should be noted that, the meaning indicated by the first alarm condition and the second alarm condition are different, that is, the alarm information prompting manner of the to-be-detected area indicated by the first alarm condition is different, for example, the following are illustrated:

taking the humidity of the area to be detected as an example, the first alarm condition may include, but is not limited to, that the humidity of the area to be detected represented by the first environmental detection data is higher than the highest humidity allowed by the area to be detected, and the second alarm condition may include, but is not limited to, that the humidity of the area to be detected represented by the first environmental detection data is lower than the highest humidity allowed by the area to be detected, and higher than the second high humidity, that represents the highest humidity of the normal humidity allowed by the area to be detected, for example, when the humidity of the area to be detected is at most 80 degrees, the second high humidity is at most 60 degrees, and when the humidity of the area to be detected is lower than or equal to 60 degrees, the humidity of the area to be detected is considered to be normal, if the humidity of the area to be detected exceeds 80 degrees, that represents the humidity of the area to be detected is the first environmental detection data, and when the humidity of the area to be detected is any humidity value between 80 degrees and 60 degrees, that the humidity of the area to be detected is considered to be the second environmental detection data, and the second alarm condition is satisfied.

According to the method and the device, the environment detection data of the area to be detected are judged by adopting the first alarm condition and the second alarm condition, and then the prompting mode of the alarm information is determined according to the environment detection data.

As an alternative, the method further includes: and marking the third environment detection data in a database under the condition that the third environment detection data meeting the third alarm condition is determined to exist, wherein the third alarm condition does not belong to the preset alarm condition, and the third environment detection data does not belong to the target environment detection data.

Optionally, in this embodiment of the present application, the third environment detection data may include, but is not limited to, temperature data, humidity data, device load rate data, device open state data, device closed state data, sound data, illumination data, and the like, where the third environment detection data does not exist in the target environment detection data, the third alarm condition does not exist in the preset alarm condition, and the third environment detection data is determined according to the third alarm condition to obtain a determination result, and if the third environment detection data meets the third alarm condition, that is, the abnormal content of the to-be-detected area represented by the third environment detection data is marked in the database, without displaying an alarm prompt message on the environment monitoring interface.

Taking the area to be detected as a machine room, for example, the default state of the machine room door is a closed state, and the third alarm condition may include, but is not limited to, that the state of the machine room door represented by the third environment detection data is an open state, where the current state of the machine room door is marked in the database and is different from the default state, and the machine room door is abnormal.

As an alternative, the method further includes: periodically obtaining a group of load rates of the target uninterruptible power supply deployed in the region to be detected, wherein the group of load rates are distributed according to a time sequence; sequentially performing abnormality judgment on the group of load rates according to a predetermined load rate threshold value, and determining a group of load rate comparison results; determining that the target uninterruptible power supply is abnormal under the condition that the group of load rate comparison results comprise first comparison results and the number of the first comparison results is larger than a first number, and displaying a power supply alarm prompt message corresponding to the target uninterruptible power supply, wherein the first comparison results indicate that the load rate compared with the load rate threshold is larger than or equal to the load rate threshold; and under the condition that the group of load rate comparison results comprise second comparison results and the second comparison results are larger than a second number, determining that the target uninterruptible power supply is recovered to be normal, and canceling to display the power supply alarm prompt message, wherein the second comparison results indicate that the load rate compared with the load rate threshold is smaller than the load rate threshold.

Alternatively, in the embodiment of the present application, the above-described target uninterruptible power supply is a device for protecting electronic devices from problems such as power interruption, voltage fluctuation, or frequency variation, and the target uninterruptible power supply is generally composed of a battery, an inverter, and a voltage regulator, and is capable of providing power supply when power is interrupted to ensure that the device can normally operate, and the target uninterruptible power supply can be applied to various devices such as a computer, a communication device, a medical device, and the like to ensure that they can continue to operate without being affected when power fails.

For example, the target uninterruptible power supply may supply power to a plurality of devices, and the determining whether the state of the target uninterruptible power supply is abnormal by acquiring a set of load rates of the target uninterruptible power supply may be achieved by:

s1, acquiring a load rate threshold of a target uninterruptible power supply, wherein the load rate threshold can be set manually;

s2, acquiring the load rate of the target uninterruptible power supply according to the time sequence in a period of time to obtain a group of load rates;

s3, comparing each load rate in the group of load rates with a load rate threshold, and if the load rate is greater than or equal to the load rate threshold, the comparison result corresponding to the load rate is a first comparison result;

S4, counting comparison results corresponding to each load rate in a group of load rates to obtain a group of comparison results, comparing the number of first comparison results in the group of comparison results with the first number, and if the number of the first comparison results is larger than the first number, namely the target uninterruptible power supply is abnormal, wherein the first number can represent the maximum load rate acceptable by the target uninterruptible power supply;

s5, displaying a power supply alarm prompt message to indicate that the target uninterruptible power supply is abnormal.

Further, after the exception handling of the target uninterruptible power supply, the load rate of the target uninterruptible power supply can be obtained again in a period of time according to the time sequence, a group of load rates is obtained, each load rate in the group of load rates is compared with a load rate threshold, if the load rate is smaller than the load rate threshold, the comparison result corresponding to the load rate is a second comparison result, the comparison result corresponding to each load rate in the group of load rates is counted, a group of comparison results is obtained, the number of the second comparison results in the group of comparison results is compared with the first number, if the number of the second comparison results is larger than the second number, namely the target uninterruptible power supply is recovered to be normal, and a vanishing power supply alarm prompt message is canceled, so that the target uninterruptible power supply can continue to supply power for the equipment normally.

In addition, if the state of the target uninterruptible power supply is determined not to be abnormal according to the set of load rates of the uninterruptible power supply within a period of time, however, if the fluctuation range of the load change rate of the target uninterruptible power supply exceeds the preset fluctuation range of the load change rate of the target uninterruptible power supply, the target uninterruptible power supply is considered to be abnormal, for example, if the fluctuation range of the preset load change rate of the target uninterruptible power supply is 20% to 30% and the fluctuation range of the load change rate of the target uninterruptible power supply is 45% to 60% within the period of time, the state of the target uninterruptible power supply is considered to be abnormal.

According to the embodiment of the application, the comparison result is obtained by comparing the value of the load rate of the uninterruptible power supply with the load rate threshold value, and the state of the uninterruptible power supply is determined according to the comparison result, wherein when the number of the first comparison results in the comparison result is larger than the first number, the target uninterruptible power supply is determined to be abnormal, the power supply warning prompt message is displayed, and when the number of the second comparison results in the comparison result is larger than the second number, the target uninterruptible power supply is determined to be normal, the mode of displaying the power supply warning prompt message is canceled, and the timeliness of acquiring the target uninterruptible power supply in the to-be-detected area is ensured, so that the purpose of rapidly judging whether the target uninterruptible power supply is abnormal or not in the to-be-detected area is achieved.

The foregoing is merely an example, and the present application is not limited in any way.

It will be apparent that the embodiments described above are only some, but not all, of the embodiments of the present application.

The present application is specifically described below with reference to specific examples:

illustratively, the present application proposes a method of monitoring an environmental parameter. The system can detect environmental parameters of all sub-mechanism machine rooms under jurisdiction at a headquarter of an application system, generate an alarm when abnormal conditions occur, record the environmental parameters and facilitate post-hoc statistical analysis.

Optionally, in this embodiment, the environment parameter collecting tool may include, but is not limited to, an environment parameter collecting tool, an environment detecting system, and the like, where the environment collecting tool may include, but is not limited to, a collecting module and an upper computer, the collecting module includes, but is not limited to, a door alarm detector, a temperature and humidity detector, a water leakage detecting system, an uninterruptible power supply system, and the like, and the upper computer uploads the environment parameter to the server after receiving the environment parameter collected by the collecting module, and the server feeds back the environment parameter to the alarm system.

The door alarm detector can detect the state of a machine room door at fixed time, for example, the door sets the environmental parameter of the corresponding door to 1 in an open state, the door sets the environmental parameter of the corresponding door to 0 in a closed state, further, the physical component of the door alarm detector is a door magnetic sensor which is arranged above a door frame and consists of a wireless transmitting module and a magnetic block, a component of a reed pipe is arranged at the position of the two arrows of the wireless transmitting module, when the distance between a magnet and the reed pipe is not more than 1.5 cm, the reed pipe is in an open state, when the distance between the magnet and the reed pipe is more than 1.5 cm, the reed pipe is in a closed state, so that the short circuit of an internal circuit of the door alarm detector is caused, and an alarm signal is emitted to an upper computer when the door alarm detector lights an alarm indicator.

The temperature and humidity detector can comprise, but is not limited to, a TH-06 intelligent temperature and humidity sensor and the like, wherein the TH-06 intelligent temperature and humidity sensor can be manufactured by using a semiconductor element with high sensitivity to temperature and humidity changes, the temperature and humidity detector is deployed in a machine room, the temperature, humidity and dew point temperature of the machine room environment can be detected, the acquired temperature parameter, humidity parameter and dew point temperature are transmitted to an upper computer as environment parameters corresponding to temperature and humidity detection and are communicated with the upper computer, the temperature and humidity detector can detect the temperature parameter, humidity parameter, dew point temperature and the like in the measuring range of the temperature and humidity detector, in addition, the temperature and humidity detector is deployed in the machine room, when the temperature and humidity value of the machine room environment are detected, the temperature parameter and the humidity parameter can be transmitted to a processor in the temperature and humidity detector, the processor can output the successfully processed temperature parameter and humidity parameter after processing the temperature parameter and the humidity parameter, the successfully processed temperature parameter and the humidity parameter can be displayed on an LCD screen carried by the temperature and humidity detector, and humidity detector, and the temperature and humidity detector can also be displayed by an independent display screen connected with the temperature and humidity detector.

The water leakage detection system can detect the water leakage condition of the machine room, when the water leakage condition exists in the machine room, the corresponding environment parameter is set to be 1, when the water leakage condition does not exist in the machine room, the corresponding environment parameter is set to be 0, the water leakage detection system can be composed of a water leakage induction rope, a non-positioning water leakage detection control module and a buzzer, wherein the water leakage rope is composed of two metal wires and one layer of insulating material, the water leakage phenomenon exists in the machine room or not is judged by utilizing the conductivity of water, current formed when the water leakage rope contacts with the water can flow to a side leakage control module through the water leakage rope, the side leakage control module can comprise but is not limited to use twisted pair serial RS-485 communication, RS-485 is a standard industrial modbus protocol, the side leakage control module transmits water leakage information to an upper computer and a buzzer in the water leakage detection system after receiving the current, and the buzzer sounds on site personnel in the machine room after receiving the water leakage information, and the water leakage of the machine room is prompted.

The uninterruptible power supply system can acquire data such as the load rate of the uninterruptible power supply system through a network protocol, and the uninterruptible power supply system utilizes a board card of the system and uses the network communication protocol to upload state information of the uninterruptible power supply system to an upper computer at regular time.

The upper computer can comprise, but is not limited to, a data acquisition terminal realized based on an ARM architecture, the data acquisition terminal is provided with a Linux operating system and a plurality of types of equipment ports, a plurality of functional interfaces are integrated, functions such as on-site data acquisition, protocol conversion, intelligent alarm and the like can be realized, the data acquisition terminal has the characteristics of high integration, high reliability, high cost performance, convenience in installation, low power consumption and the like, meanwhile, the data acquisition terminal supports an RJ45 communication terminal and can provide 12V power supply for equipment connected with the data acquisition terminal, wherein the maximum current of a single port is less than or equal to 1A, the sum of currents of all the terminals is less than or equal to 1A, the total output power is less than or equal to 12W, the data acquisition terminal can output an independent power supply through a power supply interface of a phoenix terminal of 2 paths 12V/1A, and the whole output power does not exceed 24W.

The above-mentioned collection module may periodically collect environmental parameters in the machine room, for example, collect environmental parameters once every 5 seconds, upload the environmental parameters to a server of the environmental detection system in real time through a network, and after the environmental parameters are processed by the server, in a case that the environmental parameters reach a corresponding alarm threshold range, the collection module of the environmental parameters, which is determined to be collected by the environmental detection system, may perform alarm prompt in the machine room, and include, but is not limited to: real-time alarm, delay alarm, fluctuation alarm and the like.

In one exemplary embodiment, the real-time alarm environment detection system presents the environment parameters in the server in real time on the web page at a refresh rate of 5 minutes/time and alarms the data meeting the alarm conditions. The following are illustrated:

s1, alarming when the door is opened, wherein the door is closed to be 1 in a normal state, and the open state of the circuit is changed to be 0 after the door is opened, so that alarming occurs.

S2, carrying out temperature alarm, wherein the upper limit threshold value of the high-temperature alarm of the machine room is 30 degrees, the temperature alarm is exceeded, the recovery threshold value is 28 degrees, and the alarm is canceled when the temperature is lower than the temperature; the lower limit threshold value of the low-temperature alarm of the machine room is 12 degrees, and the recovery threshold value is 15 degrees.

S3, humidity alarm, wherein the upper limit threshold value of the machine room humidity alarm is 70% of air humidity, and the recovery threshold value is 65%; the lower threshold was 10% and the recovery threshold was 15%.

S4, water leakage alarming, wherein a circuit is disconnected in a normal state, and the state is 0; when water leakage occurs, the circuit is communicated to generate current, the state is 1, and a water leakage alarm is sent out.

Alternatively, in the present embodiment, the alarm levels may be classified into three types:

s1, emergency level. The alarm of the level is water leakage alarm, when the alarm occurs, sound alarm can be generated in the detection room at the same time, and a short message prompt is sent to a responsible person of the corresponding website, so that the alarm needs to be processed immediately.

S2, importance level. The level alarm comprises a temperature and humidity alarm, and when the alarm of the level is generated, only the alarm is popped up, no alarm sound and no short message alarm are generated, so that the alarm needs to be processed in time.

S3, general grade. The level alarms include door alarms, and when the alarms are generated, the alarms are not generated on the page of the detection room, and only the background database is recorded, so that technicians can perform data analysis, and the alarms are required to be analyzed and processed later.

In addition, the delay alarm system mainly aims at the uninterruptible power supply equipment, and due to the fluctuation of power supply and the time trend of the uninterruptible power supply equipment, false alarm is often generated only by setting up the upper and lower alarm thresholds for the uninterruptible power supply, so that the reliability of the alarm system is greatly reduced. Therefore, on the basis of the original real-time alarm system, for example, an upper limit threshold of 70% of the uninterrupted power source load rate and a recovery threshold of 65% of the uninterrupted power source load rate are not set, a delay alarm is set up for the uninterrupted power source load rate, load rate data uploaded by the uninterrupted power source can be judged once per minute, after comparison with the threshold, the comparison result is synthesized for nearly 20 times, namely, the alarm is carried out for the alarm times exceeding 12 times in 20 minutes, until the condition that the real-time load rate of the uninterrupted power source is lower than the recovery threshold by 12 times or more in 20 minutes is met, the alarm is canceled, and for the uninterrupted power source, in addition to the delay alarm, the fluctuation alarm is also carried out, the requirement of the threshold alarm times is not met by the uninterrupted power source in 20 minutes when the fluctuation alarm is generated, but the fluctuation load rate change of the uninterrupted power source continuously exceeds the fluctuation upper limit (20%), namely, the uninterrupted power source with the original load rate range of 20% -30% fluctuates to 45% -65% in a short time, although the fluctuation upper limit of the fluctuation alarm is not met, the fluctuation load rate is generated, and the fluctuation alarm is the same as the logic alarm time delay alarm.

Optionally, in this embodiment, the present application comprehensively utilizes the collection hardware and the detection system, realizes the remote detection to the computer lab environment, establishes corresponding alarm level simultaneously in order to handle different problems, has realized the hierarchical processing to the computer lab warning, has improved alarm efficiency.

From the description of the above embodiments, it will be clear to a person skilled in the art that the method according to the above embodiments may be implemented by means of software plus the necessary general hardware platform, but of course also by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk), including several instructions for causing a front-end device (which may be a mobile phone, a computer, a server, or a network device, etc.) to perform the method of the embodiments of the present application.

According to another aspect of the embodiments of the present application, a device for accessing a system is further provided, where the device is used to implement the foregoing embodiments and preferred implementations, and the description is omitted herein. As used below, the term "module" may be a combination of software and/or hardware that implements a predetermined function. While the means described in the following embodiments are preferably implemented in software, implementation in hardware, or a combination of software and hardware, is also possible and contemplated.

Fig. 4 is a block diagram of an environment parameter monitoring device according to an embodiment of the present application, and as shown in fig. 4, the device includes:

the detection module 402 is configured to obtain environmental detection data according to a first period, where the environmental detection data is detection data obtained by performing environmental parameter acquisition and determination on an area to be detected;

a display module 404, configured to display an environment monitoring interface according to the environment detection data according to a second period, where the first period is shorter than the second period;

and the alarm module 406 is configured to display an alarm prompt message on the environment monitoring interface when it is determined that there is target environment detection data that meets a preset alarm condition, where a representation form of the alarm prompt message is related to both the preset alarm condition and a type of the target environment detection data, and the alarm prompt message is used to indicate that an abnormality exists in an environment parameter of the area to be detected.

As an alternative, the device is configured to display an alarm prompt message on the environment monitoring interface when there is target environment detection data that meets a preset alarm condition in the following manner: determining that the equipment state data of the first equipment is the target environment detection data when the equipment state data of the first equipment deployed in the area to be detected indicates that the first equipment is in an on state, and displaying a first equipment alarm prompt message on the environment monitoring interface, wherein the first equipment is set to be in a default off state, and the alarm prompt message comprises the first equipment alarm prompt message; and when the equipment state data of the second equipment deployed in the area to be detected indicates that the second equipment is in a closed state, determining the equipment state data of the second equipment as the target environment detection data, and displaying a second equipment alarm prompt message on the environment monitoring interface, wherein the second equipment is set to be in a default open state, and the alarm prompt message comprises the second equipment alarm prompt message.

As an alternative, the device is configured to display an alarm prompt message on the environment monitoring interface when there is target environment detection data that meets a preset alarm condition in the following manner: determining that temperature data corresponding to the to-be-detected area is the target environment detection data under the condition that the temperature of the to-be-detected area is higher than a first temperature, and displaying a first temperature alarm prompt message on the environment monitoring interface, wherein the first temperature represents the allowable highest temperature of the to-be-detected area; when the first temperature alarm prompt message is displayed and the temperature of the to-be-detected area is lower than a third temperature, canceling the display of the first temperature alarm prompt message and displaying a first temperature recovery message, wherein the first temperature recovery message indicates that the temperature of the to-be-detected area is recovered to be normal, and the third temperature is lower than the first temperature; determining that the temperature data corresponding to the to-be-detected area is the target environment detection data under the condition that the temperature of the to-be-detected area is lower than a second temperature, and displaying a second temperature alarm prompt message on the environment monitoring interface, wherein the second temperature represents the minimum allowable temperature of the to-be-detected area; and under the condition that the second temperature alarm prompt message is displayed and the temperature of the to-be-detected area is higher than a fourth temperature, canceling the display of the first temperature alarm prompt message and displaying a second temperature recovery message, wherein the second temperature recovery message indicates that the temperature of the to-be-detected area is recovered to be normal, and the fourth temperature is higher than the second temperature.

As an alternative, the device is configured to display an alarm prompt message on the environment monitoring interface when there is target environment detection data that meets a preset alarm condition in the following manner: determining humidity data corresponding to the to-be-detected area as the target environment detection data under the condition that the humidity of the to-be-detected area is higher than the first humidity, and displaying a first humidity alarm prompt message on the environment monitoring interface, wherein the first humidity represents the highest allowable humidity of the to-be-detected area; when the first humidity warning prompt message is displayed and the humidity of the to-be-detected area is lower than a third humidity, canceling the display of the first humidity warning prompt message and displaying a first humidity recovery message, wherein the first humidity recovery message indicates that the humidity of the to-be-detected area is recovered to be normal, and the third humidity is lower than the first humidity; determining that the humidity data corresponding to the to-be-detected area is the target environment detection data under the condition that the humidity of the to-be-detected area is lower than a second humidity, and displaying a second humidity alarm prompt message on the environment monitoring interface, wherein the second humidity represents the lowest allowable humidity of the to-be-detected area; and under the condition that the second humidity alarm prompt message is displayed and the humidity of the to-be-detected area is higher than the fourth humidity, canceling the display of the first humidity alarm prompt message and displaying a second humidity recovery message, wherein the second humidity recovery message indicates that the humidity of the to-be-detected area is recovered to be normal, and the fourth humidity is higher than the second humidity.

As an alternative, the above device is further configured to: displaying the alarm prompt message on the environment monitoring interface, playing a target alarm audio and sending the prompt message to a target account under the condition that the first environment detection data meeting the first alarm condition exists, wherein the preset alarm condition comprises the first alarm condition, and the target environment detection data comprises the first environment detection data; and displaying the alarm prompt message on the environment monitoring interface under the condition that second environment detection data meeting second alarm conditions exist, wherein the preset alarm conditions comprise the second alarm conditions, the second alarm conditions are different from the first alarm conditions, and the target environment detection data comprise the second environment detection data.

As an alternative, the above device is further configured to: and marking the third environment detection data in a database under the condition that the third environment detection data meeting the third alarm condition is determined to exist, wherein the third alarm condition does not belong to the preset alarm condition, and the third environment detection data does not belong to the target environment detection data.

As an alternative, the above device is further configured to: periodically obtaining a group of load rates of the target uninterruptible power supply deployed in the region to be detected, wherein the group of load rates are distributed according to a time sequence; sequentially performing abnormality judgment on the group of load rates according to a predetermined load rate threshold value, and determining a group of load rate comparison results; determining that the target uninterruptible power supply is abnormal under the condition that the group of load rate comparison results comprise first comparison results and the number of the first comparison results is larger than a first number, and displaying a power supply alarm prompt message corresponding to the target uninterruptible power supply, wherein the first comparison results indicate that the load rate compared with the load rate threshold is larger than or equal to the load rate threshold; and under the condition that the group of load rate comparison results comprise second comparison results and the second comparison results are larger than a second number, determining that the target uninterruptible power supply is recovered to be normal, and canceling to display the power supply alarm prompt message, wherein the second comparison results indicate that the load rate compared with the load rate threshold is smaller than the load rate threshold.

The specific manner in which the various modules perform the operations in the apparatus of the above embodiments have been described in detail in connection with the embodiments of the method, and will not be described in detail herein.

It should be noted that each of the above modules may be implemented by software or hardware, and for the latter, it may be implemented by, but not limited to: the modules are all located in the same processor; alternatively, the above modules may be located in different processors in any combination.

Embodiments of the present application also provide a computer readable storage medium having a computer program stored therein, wherein the computer program is arranged to perform the steps of any of the method embodiments described above when run.

In one exemplary embodiment, the computer readable storage medium may include, but is not limited to: a usb disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a removable hard disk, a magnetic disk, or an optical disk, or other various media capable of storing a computer program.

Embodiments of the present application also provide an electronic device comprising a memory having a computer program stored therein and a processor arranged to run the computer program to perform the steps of any of the method embodiments described above.

In an exemplary embodiment, the electronic apparatus may further include a transmission device connected to the processor, and an input/output device connected to the processor.

Specific examples in this embodiment may refer to the examples described in the foregoing embodiments and the exemplary implementation, and this embodiment is not described herein.

It will be appreciated by those skilled in the art that the modules or steps of the application described above may be implemented in a general purpose computing device, they may be concentrated on a single computing device, or distributed across a network of computing devices, they may be implemented in program code executable by computing devices, so that they may be stored in a storage device for execution by computing devices, and in some cases, the steps shown or described may be performed in a different order than that shown or described herein, or they may be separately fabricated into individual integrated circuit modules, or multiple modules or steps of them may be fabricated into a single integrated circuit module. Thus, the present application is not limited to any specific combination of hardware and software.

The foregoing is merely a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and variations may be made to the present application by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the principles of the present application should be included in the protection scope of the present application.

Claims (10)

1. A method for monitoring environmental parameters, comprising:

acquiring environment detection data according to a first period, wherein the environment detection data are detection data obtained by acquiring and determining environment parameters of an area to be detected;

displaying an environment monitoring interface according to the environment detection data according to a second period, wherein the first period is shorter than the second period;

and displaying an alarm prompt message on the environment monitoring interface under the condition that the target environment detection data meeting the preset alarm condition exists, wherein the expression form of the alarm prompt message is related to the preset alarm condition and the type of the target environment detection data, and the alarm prompt message is used for indicating that the environment parameters of the area to be detected are abnormal.

2. The method according to claim 1, wherein displaying an alarm prompt message on the environment monitoring interface in the presence of target environment detection data satisfying a preset alarm condition, comprises:

Determining that the equipment state data of the first equipment is the target environment detection data under the condition that the equipment state data of the first equipment deployed in the area to be detected indicates that the first equipment is in an on state, and displaying a first equipment alarm prompt message on the environment monitoring interface, wherein the first equipment is set to be in a default off state, and the alarm prompt message comprises the first equipment alarm prompt message;

and under the condition that the equipment state data of the second equipment deployed in the area to be detected represents that the second equipment is in a closed state, determining the equipment state data of the second equipment as the target environment detection data, and displaying a second equipment alarm prompt message on the environment monitoring interface, wherein the second equipment is set to be in a default open state, and the alarm prompt message comprises the second equipment alarm prompt message.

3. The method according to claim 1, wherein displaying an alarm prompt message on the environment monitoring interface in the presence of target environment detection data satisfying a preset alarm condition, comprises:

determining that temperature data corresponding to the to-be-detected area is the target environment detection data under the condition that the temperature of the to-be-detected area is higher than a first temperature, and displaying a first temperature alarm prompt message on the environment monitoring interface, wherein the first temperature represents the maximum allowable temperature of the to-be-detected area;

Canceling to display the first temperature alarm prompt message and displaying a first temperature recovery message under the condition that the first temperature alarm prompt message is displayed and the temperature of the area to be detected is lower than a third temperature, wherein the first temperature recovery message indicates that the temperature of the area to be detected is recovered to be normal, and the third temperature is lower than the first temperature;

determining that temperature data corresponding to the to-be-detected area is the target environment detection data under the condition that the temperature of the to-be-detected area is lower than a second temperature, and displaying a second temperature alarm prompt message on the environment monitoring interface, wherein the second temperature represents the minimum allowable temperature of the to-be-detected area;

and under the condition that the second temperature alarm prompt message is displayed and the temperature of the area to be detected is higher than a fourth temperature, canceling the display of the first temperature alarm prompt message and displaying a second temperature recovery message, wherein the second temperature recovery message indicates that the temperature of the area to be detected is recovered to be normal, and the fourth temperature is higher than the second temperature.

4. The method according to claim 1, wherein displaying an alarm prompt message on the environment monitoring interface in the presence of target environment detection data satisfying a preset alarm condition, comprises:

Determining humidity data corresponding to the to-be-detected area as the target environment detection data under the condition that the humidity of the to-be-detected area is higher than the first humidity, and displaying a first humidity alarm prompt message on the environment monitoring interface, wherein the first humidity represents the highest allowable humidity of the to-be-detected area;

canceling to display the first humidity warning prompt message and displaying a first humidity recovery message under the condition that the first humidity warning prompt message is displayed and the humidity of the to-be-detected area is lower than a third humidity, wherein the first humidity recovery message indicates that the humidity of the to-be-detected area is recovered to be normal, and the third humidity is lower than the first humidity;

determining humidity data corresponding to the to-be-detected area as the target environment detection data under the condition that the humidity of the to-be-detected area is lower than second humidity, and displaying a second humidity alarm prompt message on the environment monitoring interface, wherein the second humidity represents the lowest allowable humidity of the to-be-detected area;

and under the condition that the second humidity alarm prompt message is displayed and the humidity of the to-be-detected area is higher than the fourth humidity, canceling the display of the first humidity alarm prompt message and displaying a second humidity recovery message, wherein the second humidity recovery message indicates that the humidity of the to-be-detected area is recovered to be normal, and the fourth humidity is higher than the second humidity.

5. The method according to claim 1, wherein the method further comprises:

displaying the alarm prompt message on the environment monitoring interface, playing target alarm audio and sending the prompt message to a target account under the condition that first environment detection data meeting first alarm conditions exist, wherein the preset alarm conditions comprise the first alarm conditions, and the target environment detection data comprise the first environment detection data;

and displaying the alarm prompt message on the environment monitoring interface under the condition that second environment detection data meeting a second alarm condition exists, wherein the preset alarm condition comprises the second alarm condition, the second alarm condition is different from the first alarm condition, and the target environment detection data comprises the second environment detection data.

6. The method according to claim 1, wherein the method further comprises:

and marking the third environment detection data in a database under the condition that the third environment detection data meeting the third alarm condition exists, wherein the third alarm condition does not belong to the preset alarm condition.

7. The method according to claim 1, wherein the method further comprises:

periodically obtaining a group of load rates of the target uninterruptible power supply deployed in the region to be detected, wherein the group of load rates are distributed according to a time sequence;

sequentially performing abnormality judgment on the group of load rates according to a predetermined load rate threshold value, and determining a group of load rate comparison results;

determining that the target uninterruptible power supply is abnormal under the condition that the group of load rate comparison results comprise first comparison results and the number of the first comparison results is larger than a first number, and displaying a power supply alarm prompt message corresponding to the target uninterruptible power supply, wherein the first comparison results indicate that the load rate compared with the load rate threshold is larger than or equal to the load rate threshold;

and under the condition that the group of load rate comparison results comprise second comparison results and the second comparison results are larger than a second number, determining that the target uninterruptible power supply is recovered to be normal, and canceling to display the power supply alarm prompt message, wherein the second comparison results indicate that the load rate compared with the load rate threshold is smaller than the load rate threshold.

8. A monitoring device for environmental parameters, comprising:

the detection module is used for acquiring environment detection data according to a first period, wherein the environment detection data are detection data obtained by acquiring and determining environment parameters of an area to be detected;

the display module is used for displaying an environment monitoring interface according to the environment detection data according to a second period, wherein the first period is shorter than the second period;

and the alarm module is used for displaying an alarm prompt message on the environment monitoring interface under the condition that the target environment detection data meeting the preset alarm condition exists, wherein the expression form of the alarm prompt message is related to the preset alarm condition and the type of the target environment detection data, and the alarm prompt message is used for indicating that the environment parameters of the area to be detected are abnormal.

9. A computer readable storage medium, characterized in that a computer program is stored in the computer readable storage medium, wherein the computer program, when being executed by a processor, implements the steps of the method according to any of the claims 1 to 7.

10. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the steps of the method of any one of claims 1 to 7 when the computer program is executed.