CN117148900B - Environment safety management method and device for archive - Google Patents

Abstract

The invention relates to an environment safety management method and device of an archive, comprising the steps of acquiring environment data of the archive in real time; extracting archive temperature data, archive humidity data, archive illumination intensity and archive gas data according to the environment data; calculating a temperature/humidity coefficient according to the archive temperature data and the archive humidity data; calculating an illumination coefficient according to the illumination intensity of the archive; calculating a gas coefficient according to the gas data of the archive; and adjusting temperature data, humidity data, illumination intensity and gas data of the archive according to the temperature/humidity coefficient, the illumination coefficient and the gas coefficient. By collecting the environmental data of the archive in real time and then calculating the safety coefficient corresponding to the environmental coefficient, the environmental data of the archive is regulated autonomously, and the problem that the environmental safety management of the archive is troublesome due to professional judgment too depending on staff is solved.

Description

Environment safety management method and device for archive

Technical Field

The present invention relates to the field of control/regulation technology of archival environments, and in particular, to a method and an apparatus for environmental security management of an archive.

Background

The archive provides a safe and orderly environment, can protect various important files and records for a long time, and is of great importance for retaining historical cultural heritage, legal files, financial records, scientific research data and the like; i.e., archives, help organizations and individuals to manage information efficiently, ensuring availability and integrity of data. However, in the prior art, in the management of the archive, the environment is usually supervised by a professional judgment technology of a staff, but the management of the environment security of the archive is troublesome because the management is too dependent on the professional judgment of the staff.

Disclosure of Invention

The invention aims to provide an environment safety management method for archives, which has the characteristic of simple environment safety management for archives.

The first object of the present invention is achieved by the following technical solutions:

an environmental security management method of an archive, comprising:

determining an archive and target monitoring equipment, and acquiring environmental data of the archive in real time according to the target monitoring equipment;

respectively extracting archive temperature data, archive humidity data, archive illumination intensity and archive gas data according to the environmental data;

Calculating the temperature/humidity coefficient of the archive according to the archive temperature data and the archive humidity data;

calculating the illumination coefficient of the archive according to the illumination intensity of the archive;

calculating the gas coefficient of the archive according to the archive gas data;

and adjusting temperature data, humidity data, illumination intensity and gas data of the archive according to the temperature/humidity coefficient, the illumination coefficient and the gas coefficient.

By adopting the technical scheme, the environment data of the archive is collected in real time, the corresponding safety coefficient of the environment coefficient is calculated, and the environment data of the archive is adjusted autonomously, so that the problem that the environment safety management of the archive is troublesome due to professional judgment of workers is solved, and the environment safety management of the archive is simple and convenient.

The present invention may be further configured in a preferred example, as an environmental security management method, further comprising:

acquiring object motion data of an archive in real time;

and calculating the file data safety coefficient according to the object motion data.

By adopting the technical method, the archive data safety coefficient is calculated by adding the object motion data in the safety management of the archive, and further, objects (including people, books and the like) entering and exiting the archive are determined by the archive data safety coefficient, so that the environmental safety management method of the archive can be further improved.

The present invention may be further configured in a preferred example to adjust temperature data, humidity data, illumination intensity, and gas data of an archive according to a temperature/humidity coefficient, an illumination coefficient, and a gas coefficient, including:

acquiring a preset temperature/humidity coefficient table, a preset illumination coefficient table and a preset gas system table;

regulating temperature data and humidity data of the archive according to a preset temperature/humidity coefficient table and a preset temperature/humidity coefficient;

adjusting illumination intensity of the archive according to a preset illumination coefficient table and an illumination coefficient;

and adjusting gas data of the archive according to a preset gas coefficient table and the gas data.

By adopting the technical method, whether the coefficient corresponding to the current environmental data accords with the standard preset coefficient of the archives stored in the archives is judged according to the reference standard preset coefficient, and if the coefficient does not accord with the standard preset coefficient, the corresponding environmental data is automatically regulated according to the corresponding standard coefficient, so that the archives in the archives can be more effectively stored and the integrity of the archives can be ensured to a certain extent.

The present invention may be further configured in a preferred example, as an environmental security management method, further comprising:

Storing the environmental data in real time to form historical environmental data;

and drawing a history curve record according to the history environment data, and visualizing the history curve record.

By adopting the technical method, the real-time environment data is stored, so that a user can conveniently inquire the environment data of the archive to store the archive at any time, and the environment factors possibly damaging the stored archive in the archive can be tracked according to the history curve record, so that the archive storage mechanism is further perfected.

The present invention may be further configured in a preferred example, as an environmental security management method, further comprising:

the historical environmental data is adjusted using a filtering process.

By adopting the technical method, the stored historical environmental data is filtered, and the historical environmental data can be sorted and classified and stored according to specific standard or condition screening, so that when a user calls the historical environmental data, irrelevant or unnecessary environmental data can be removed, and a data base is provided for quickly inquiring the historical data.

The present invention may be further configured in a preferred example to determine an archive and a target monitoring device, comprising:

Determining an archive;

receiving a connection request of monitoring equipment for monitoring environmental data of the archive according to the archive;

and determining the monitoring device as a target monitoring device according to the connection request.

By adopting the technical method, the user can selectively use the monitoring equipment for monitoring the environmental data in the archives, so that the user can select different monitoring equipment according to different archives, and further the environmental data of the archives can be monitored more accurately, and the environmental safety of the archives can be better managed.

The present invention may be further configured in a preferred example, as an environmental security management method, further comprising:

acquiring the running state of target monitoring equipment;

and correcting the target monitoring equipment according to the running state.

By adopting the technical method, whether the target monitoring equipment can normally operate or not is further determined by determining the operating state of the target monitoring equipment, if the target monitoring equipment cannot normally operate, the target monitoring equipment needs to be corrected, the target monitoring equipment can be replaced, and the environmental data acquisition of the archives is further ensured.

The present invention may be further configured in a preferred example, as an environmental security management method, further comprising:

Setting a preset period for the timer;

and generating a timely management prompt signal according to a preset period, wherein the timely management prompt signal is used for reminding the tidying archive.

By adopting the technical method, the timer is provided with a preset period, the timer counts time according to the preset period, and when the timer counts time to the preset period, a timing management prompt signal is generated, and the timing management prompt signal is used for prompting a user to sort the archives, namely, periodically sort the archives, so that the user can better maintain the archives.

The present invention may be further configured in a preferred example, as an environmental security management method, further comprising:

respectively generating a temperature/humidity alarm signal, an illumination alarm signal, a gas alarm signal and a archive data security alarm signal according to the temperature/humidity coefficient, the illumination coefficient, the gas coefficient and the archive data security coefficient;

and visualizing the temperature/humidity alarm signal, the illumination alarm signal, the gas alarm signal and the archival data security alarm signal.

By adopting the technical method, when the coefficient corresponding to the environmental data of the archive is not corresponding to the preset standard, a corresponding alarm signal is automatically generated, and the alarm signal is visualized, so that a user timely knows the environmental data of the current state of the archive, and further, the user maintains the archive.

The second object of the present invention is to provide an environmental security management device for archives, which has the characteristics of simple and convenient environmental security management for archives.

The second object of the present invention is achieved by the following technical solutions:

an environmental security management apparatus for an archive, comprising:

the determining module is used for determining the archive and the target monitoring equipment and acquiring environmental data of the archive in real time according to the target monitoring equipment;

the extraction module is used for respectively extracting archive temperature data, archive humidity data, archive illumination intensity and archive gas data according to the environmental data;

the first calculation module is used for calculating the temperature/humidity coefficient of the archive according to the archive temperature data and the archive humidity data;

the second calculation module is used for calculating the illumination coefficient of the archive according to the illumination intensity of the archive;

the third calculation module is used for calculating the gas coefficient of the archive according to the archive gas data;

and the adjusting module is used for adjusting temperature data, humidity data, illumination intensity and gas data of the archive according to the temperature/humidity coefficient, the illumination coefficient and the gas coefficient.

The present invention may be further configured in a preferred example, in that the environmental security management apparatus further includes: an object motion acquisition module and a fourth calculation module:

The object motion acquisition module is used for acquiring object motion data of the archive in real time;

and the fourth calculation module is used for calculating the archival data safety coefficient according to the object motion data.

The present invention may be further configured in a preferred example, as an adjustment module, including:

the acquisition unit is used for acquiring a preset temperature/humidity coefficient table, a preset illumination coefficient table and a preset gas system table;

the first adjusting unit is used for adjusting temperature data and humidity data of the archive according to a preset temperature/humidity coefficient table and a preset temperature/humidity coefficient;

the second adjusting unit is used for adjusting the illumination intensity of the archive according to a preset illumination coefficient table and an illumination coefficient;

and the third adjusting unit is used for adjusting the gas data of the archive according to a preset gas coefficient table and the gas data.

The present invention may be further configured in a preferred example, in that the environmental security management apparatus further includes: a storage module and a rendering/visualization module:

the storage module is used for storing the environmental data in real time to form historical environmental data;

and the drawing/visualizing module is used for drawing a history curve record according to the history environment data and visualizing the history curve record.

The present invention may be further configured in a preferred example, in that the environmental security management apparatus further includes: and a filtering module:

and the filtering module is used for adjusting the historical environment data by using a filtering processing mode.

The present invention may be further configured in a preferred example, to determine a module, including: a first determination unit, a receiving unit, and a second determination unit:

the first determining unit is used for determining the archive;

a receiving unit for receiving a connection request of a monitoring device for monitoring environmental data of the archive according to the archive;

and the second determining unit is used for determining the monitoring device as the target monitoring device according to the connection request.

The present invention may be further configured in a preferred example, in that the determining module further includes: an operation state acquisition unit and a correction unit:

an operation state acquisition unit for acquiring an operation state of the target monitoring device;

and the correction unit is used for correcting the target monitoring equipment according to the running state.

The present invention may be further configured in a preferred example, in that the environmental security management apparatus further includes: the device comprises a setting module and a generating module:

the setting module is used for setting a preset period for the timer;

The generation module is used for generating a timely management prompt signal according to a preset period, wherein the timely management prompt signal is used for reminding the tidying archive.

The present invention may be further configured in a preferred example, in that the environmental security management apparatus further includes: the signal generation module and the visualization module:

the signal generation module is used for respectively generating a temperature/humidity alarm signal, an illumination alarm signal, a gas alarm signal and a archive data safety alarm signal according to the temperature/humidity coefficient, the illumination coefficient, the gas coefficient and the archive data safety coefficient;

and the visualization module is used for visualizing the temperature/humidity alarm signal, the illumination alarm signal, the gas alarm signal and the archive data security alarm signal.

The third object of the present invention is to provide an environmental security management device for archives, which has the characteristics of simple and convenient environmental security management for archives.

The third object of the present invention is achieved by the following technical solutions:

an environment safety management device of an archive comprises a memory and a processor, wherein the memory stores a computer program capable of being loaded by the processor and executing the environment safety management method of the archive.

The fourth object of the present invention is to provide a computer storage medium capable of storing a corresponding program, which has the characteristic of facilitating the realization of simple and convenient environmental security management of archives.

The fourth object of the present invention is achieved by the following technical solutions:

a computer-readable storage medium storing a computer program capable of being loaded by a processor and executing any one of the above-described methods of environmental security management of an archive.

In summary, the present invention includes at least one of the following beneficial technical effects:

1. acquiring environmental data of an archive in real time; extracting archive temperature data, archive humidity data, archive illumination intensity and archive gas data according to the environment data; calculating a temperature/humidity coefficient according to the archive temperature data and the archive humidity data; calculating an illumination coefficient according to the illumination intensity of the archive; calculating a gas coefficient according to the gas data of the archive; and adjusting temperature data, humidity data, illumination intensity and gas data of the archive according to the temperature/humidity coefficient, the illumination coefficient and the gas coefficient. The environment data of the archive is collected in real time, and the safety coefficient corresponding to the environment coefficient is calculated, so that the environment data of the archive is regulated autonomously, the problem that the environment safety management of the archive is troublesome due to professional judgment of workers is solved, and the environment safety management effect of the archive is simple and convenient;

2. The archive security coefficient is calculated by adding object motion data in the security management of the archive, and objects (including people, books and the like) entering and exiting the archive are further determined by the archive security coefficient, so that the environmental security management method of the archive can be further improved;

3. judging whether the coefficient corresponding to the current environmental data accords with the standard preset coefficient of the files stored in the archive according to the reference standard preset coefficient, and if not, automatically adjusting the corresponding environmental data according to the corresponding standard coefficient, so that the archive data in the archive can be more effectively stored and the integrity of the archive data is ensured to a certain extent.

Drawings

FIG. 1 is a flow chart of an environmental security management method for an archive in accordance with an embodiment of the present invention;

FIG. 2-1 is a flowchart illustrating steps S1-S8 in an environmental security management method for an archive according to an embodiment of the present invention;

FIG. 2-2 is a flowchart illustrating steps S8-S15 in the environmental security management method for linking the archive of FIG. 2-1;

FIG. 3 is a flowchart illustrating another exemplary embodiment of a method for environmental security management of a archive in accordance with the present invention;

FIG. 4 is a flow chart of another method for managing environmental security of a repository according to an embodiment of the present invention.

Detailed Description

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

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, an embodiment of a method for managing environmental security of an archive according to an embodiment of the present application includes steps S1 to S6.

In the embodiment of the application, the environmental security management method of the archive can be applied to terminal equipment, and the terminal equipment can be hardware platform equipment of X86, ARM, MIPS, RISC-V or Loongarch instruction sets.

S1, determining an archive and target monitoring equipment, and acquiring environmental data of the archive in real time according to the target monitoring equipment;

in this implementation, the archive needs to be managed, and then the archive and the monitoring device used in the archive need to be determined, that is, the archive and the corresponding target monitoring device need to be determined first; after the target monitoring equipment and the archives are determined, the environment data of the corresponding archives are acquired through the implementation of the target monitoring equipment.

In practical application, the target monitoring device is integrated by a temperature sensor, a humidity sensor, an illumination sensor and a gas sensor, namely, the target monitoring device can realize the functions of one-key triggering, one-key startup and one-key shutdown. And then the target monitoring equipment can acquire the environmental data of the archive in real time through a temperature sensor, a humidity sensor, an illumination sensor and a gas sensor.

In the embodiment of the application, the target monitoring device may be integrated by a temperature sensor, a humidity sensor, an illumination sensor and a gas sensor; the sensor may be integrated with a plurality of sensors such as a temperature sensor, a humidity sensor, an illumination sensor, a gas sensor, an object motion sensor, a vibration sensor, and a radiation sensor, which are not particularly limited herein.

In one possible embodiment, as shown in FIG. 3, step S1 includes S101-S105;

s101, determining an archive;

in practical application, determining the archives and the corresponding target monitoring equipment need to determine the archives firstly, namely determining which archives need to be subjected to environmental security management of the archives; when it is necessary to conduct environmental security management on which archive, which archive is determined as the archive in the present embodiment.

S102, receiving a connection request of monitoring equipment for monitoring environmental data of the archive according to the archive;

after determining the archive, the user determines what data the environmental data of the archive needs to be monitored according to the actual situation of the actual archive, for example, the equipment needing to monitor the temperature, humidity and light intensity characteristics of the archive is monitored, the user communicates the sensors for detecting the temperature, the humidity and the light intensity with the archive, and at this time, the environmental safety management device of the archive receives a connection request of the corresponding detection equipment, where the connection request includes the ID of the connection equipment and the type of the connection equipment.

S103, determining the monitoring equipment as target monitoring equipment according to the connection request;

after receiving the connection request, the environmental safety management device of the archive will agree to connect the monitoring devices for detecting the environmental data of the archive, and when the monitoring devices are connected successfully, the monitoring devices connected successfully are determined as target monitoring devices.

S104, acquiring the running state of the target monitoring equipment;

when the connection of the target monitoring device is successful, in order to further determine that the connected monitoring device cannot normally operate, further acquiring an operation state of the target monitoring device is required, where the operation state may include: normal operation and abnormal operation.

In this embodiment, the data display of the devices connected to 50 may be freely adjusted, and the running state of the current target monitoring device may be displayed in real time.

S105, correcting the target monitoring equipment according to the running state.

When the running state of the target monitoring equipment is obtained, further judging whether the running state is an abnormal running state, and when the running state of the target monitoring equipment is determined to be the abnormal running state, prompting that the target monitoring equipment has a fault, and removing the monitoring equipment to be not the target monitoring equipment; when the target monitoring equipment is removed, a connection request of the monitoring equipment for monitoring the environmental data of the archive can be received at any time, so that the target monitoring equipment is redetermined; if the operation state of the target monitoring device is determined to be the normal operation state, the target monitoring device is not required to be corrected, namely the target monitoring device is kept to be determined.

S2, respectively extracting archive temperature data, archive humidity data, archive illumination intensity and archive gas data according to the environmental data;

in this embodiment, since the target monitoring device is integrated with the temperature sensor, the humidity sensor, the illumination sensor and the gas sensor, the environmental data collected by the target monitoring device includes the temperature data, the humidity data, the illumination intensity and the gas data of the archive, so that the environmental data needs to be extracted, and the archive temperature data, the archive humidity data, the archive illumination intensity and the archive gas data are extracted respectively; in this embodiment, the data extraction may be performed by a temperature unit, a humidity unit, an illumination intensity unit, and a gas data unit, that is, when the unit in the data belongs to the temperature unit, the data is determined as the archive temperature data, and the archive humidity data, the archive illumination intensity data, and the archive gas data are similar.

S3, calculating the temperature/humidity coefficient of the archive according to the archive temperature data and the archive humidity data;

after the archive temperature data and archive humidity data are extracted, further temperature/humidity coefficients are calculated, for example:

1. substituting the detected temperature data into a formula I to calculate saturated water vapor pressure;

wherein the method comprises the steps ofIs saturated water vapor pressure, and T is temperature data.

2. Substituting the monitored humidity data and the saturated water vapor pressure into a formula II to calculate the actual water vapor pressure;

where E is the actual water vapor pressure, RH is the detected humidity data,is saturated water vapor pressure.

3. Calculating the relative temperature/humidity coefficient:

wherein RH_coefficient is the relative temperature/humidity coefficient, E is the actual water vapor pressure,is saturated water vapor pressure.

In this embodiment, the range of the temperature/humidity coefficient is [0,10].

S4, calculating the illumination coefficient of the archive according to the illumination intensity of the archive;

the illumination intensity includes illumination intensity and light intensity of the light source, and an illumination coefficient is calculated using the illumination intensity and the light intensity of the light source, and specifically, the illumination coefficient is equal to the illumination intensity divided by the light intensity of the light source. The illuminance is a value of the illuminance intensity detected from the photosensor; the light intensity of a light source is the total power or lumens of the light generated by the light source itself.

In this embodiment, the illumination coefficient has a value range of [0,10].

S5, calculating the gas coefficient of the archive according to the archive gas data;

the archive gas data comprise the absolute temperature of the gas, the absolute pressure of the gas, the average mass of gas molecules and the dynamic viscosity of the gas, and the absolute temperature, the absolute pressure of the gas, the average mass of the gas molecules and the dynamic viscosity of the gas are substituted into a formula III to calculate the gas diffusion coefficient of the archive:

where D is the diffusion coefficient, K is the Boltzmann constant (about 1.380649 ×10-23J/K), T is the absolute temperature of the gas, P is the absolute pressure of the gas, μ is the dynamic viscosity of the gas, and pi is the circumference ratio.

In this embodiment, the range of values of the gas coefficient is [0,10].

And S6, adjusting temperature data, humidity data, illumination intensity and gas data of the archive according to the temperature/humidity coefficient, the illumination coefficient and the gas coefficient.

In one possible embodiment, as shown in FIG. 4, step S6 may include S601-S604;

s601, acquiring a preset temperature/humidity coefficient table, a preset illumination coefficient table and a preset gas system table;

before the corresponding environmental data is adjusted in the archive, the preset temperature/humidity coefficient table, the preset illumination coefficient table and the preset gas coefficient table are required to be acquired, for example, the temperature/humidity coefficient table is as follows:

The preset illumination coefficient table is as follows:

the preset gas system table is as follows:

s602, adjusting temperature data and humidity data of the archive according to a preset temperature/humidity coefficient table and a preset temperature/humidity coefficient;

when a preset temperature/humidity coefficient table is obtained, and after the temperature/humidity coefficient is determined, judging whether the temperature and the humidity detected by the target detection equipment are equal to the temperature and the humidity corresponding to the coefficient in the preset temperature/humidity coefficient table, if not, calculating the difference value of the temperature and the humidity detected by the target detection equipment and the temperature and the humidity corresponding to the coefficient in the preset temperature/humidity coefficient table, and automatically adjusting the temperature/humidity in the archive according to the difference value.

S603, adjusting illumination intensity of the archive according to a preset illumination coefficient table and an illumination coefficient;

when the preset illumination coefficient table is obtained, and the illumination coefficient is determined, judging whether the illumination intensity monitored by the target monitoring equipment is equal to the illumination intensity corresponding to the illumination coefficient corresponding to the preset illumination coefficient table, if not, calculating the difference value of the illumination intensity detected by the target monitoring equipment and the illumination intensity corresponding to the illumination coefficient corresponding to the preset illumination coefficient table, and automatically adjusting the illumination intensity in the archive according to the difference value.

S604, adjusting gas data of the archive according to a preset gas coefficient table and a gas coefficient.

When the preset gas system table is obtained, and the gas coefficient is determined, judging whether the gas concentration monitored by the target monitoring equipment is equal to various gas concentrations corresponding to the gas coefficient used relatively in the preset gas system table, if not, calculating various differences between the various gas concentrations detected by the target monitoring equipment and the various gas concentrations corresponding to the gas coefficient used relatively in the preset gas system table, and automatically adjusting the gas data of the archive types according to the various differences.

In one possible embodiment, as shown in FIGS. 2-1 and 2-2, the steps include S7-S15.

S7, acquiring object motion data of the archive in real time;

in order to further determine the data security of the archive, it is necessary to integrate an object motion sensor on the target monitoring device, so that the target monitoring device may acquire the object motion data of the archive in real time through the object motion sensor, for example: when a person enters/exits from the archive, the target monitoring device can detect that the person enters/exits from the archive; the object detection device may also detect when a person enters/exits the archive if it carries archive data into/out of the archive. When the object monitoring device monitors that the object enters/exits the archive, the object monitoring device acquires the object motion data.

S8, calculating file data safety coefficients according to the object motion data;

after the object motion data is obtained, the archival data security coefficient can be calculated according to the object motion data, specifically:

1. defining a normal movement pattern comprising setting a normal movement time and setting a normal movement expected to occur; for example, if the acquired object motion data is not in normal motion time nor in normal motion mode of normal motion expected to occur, the profile data security factor may be determined to be greater than 5.

2. Performing time window analysis on the object motion sensor, and checking motion data in a specific time period; for example, if the motion data of the object is not included in the acquired motion data of the object for a specific period of time, the profile data security coefficient may be determined to be greater than 5.

3. The safety factor is determined by analyzing the motion data according to the set normal motion time and the set expected normal motion.

In this embodiment, the value range of the security coefficient of the file data is [0,10].

S9, storing the environmental data in real time to form historical environmental data;

when the target detection equipment acquires the real-time environment data of the archive, immediately storing the real-time environment data acquired in real time, thereby forming historical environment data; in this embodiment, when the environment data is stored in real time, the environment data is recorded and stored by a time stamp.

S10, adjusting historical environment data by using a filtering processing mode;

when the historical environmental data is stored, since the historical environmental data may have various noise effects, further filtering is required to process the historical environmental data, so as to eliminate noise and unnecessary fluctuation, and obtain more stable and reliable environmental data. Specific:

1. the historical environmental data is preprocessed, such as data cleaning and outlier removal, to ensure the quality of the input data.

2. Calculating mean filtering, median filtering, low-pass filtering and high-pass filtering by using a filter, wherein the mean filtering is calculated as an average value of a group of data, and the average value is used for replacing original data points; calculating median filtering to calculate the median of a group of data, and replacing the original data points with the median; calculating low-pass filtering to filter high-frequency noise, and reserving a low-frequency signal for smoothing data; the high-pass filtering is calculated to filter out low-frequency signals, and high-frequency noise is reserved for detecting rapid changes.

3. Relevant parameters such as window size, filter coefficients are set.

4. The selected filter is applied to the original historical environmental data. A filter is applied to each data point to obtain smoothed output data.

5. The filter parameters can be adjusted as needed to further improve the stability and accuracy of the data.

6. Recording the filtered historical environmental data.

S11, drawing a history curve record according to history environment data, and visualizing the history curve record;

after the historical environment data is subjected to filtering processing, a historical curve record can be drawn according to the filtered historical environment data, the recording time can be used for binding the data record in a specific time interval by the time module, and finally the historical curve record is visualized, so that a user can intuitively know the historical environment data of the archive through the historical curve record.

S12, setting a preset period for the timer;

in this embodiment, the environmental data of the archive is acquired in real time through the target monitoring device, so that the environmental data of the archive has linkage; furthermore, a preset period can be set for the timer, and the preset period can be used for starting the target monitoring equipment by one key, so that the target monitoring equipment can acquire environmental data from the archive in real time at the preset period time.

In this embodiment, the signal trigger setting supporting the start of the time period, the time region, and the end of the time period, the multi-signal trigger supporting the time point, the linkage trigger characteristic supporting the signal trigger and the signal recovery, and the periodic signal trigger function are realized by setting a preset period to perform one-key on/one-key off on the target monitoring device.

In this embodiment, the preset period may be 30 days, or may be 7 days, or may be 1 day, or may be any specific time, which is not specifically limited herein.

And S13, generating a timely management prompt signal according to a preset period, wherein the timely management prompt signal is used for reminding the tidying archive.

After the preset period is set, the preset period is stored in the timer, the timer starts to count from 0, when the time recorded in the timer reaches the preset period or is multiple of the preset period, the environment safety management device of the archive will automatically generate a timely management prompt signal, and the timely management prompt signal is visualized in sound/color, so that the user is reminded to sort the archive through the timely management prompt signal, namely, the archive is regularly sorted, and the archive can be better maintained by the user.

In this embodiment, after the timer reaches the preset period, a reset initialization is performed, and then the timer is restarted; or after reaching the preset period, continuing to count time, and indicating that one preset period is reached when the count time reaches the multiple of the preset period; the details are not particularly limited herein.

S14, respectively generating a temperature/humidity alarm signal, an illumination alarm signal, a gas alarm signal and a archive data safety alarm signal according to the temperature/humidity coefficient, the illumination coefficient, the gas coefficient and the archive data safety coefficient;

After the temperature/humidity coefficient, the illumination coefficient, the gas coefficient and the archive data safety coefficient are calculated, whether the temperature/humidity coefficient, the illumination coefficient, the gas coefficient and the archive data safety coefficient reach the early warning condition is further judged, namely when the temperature/humidity coefficient, the illumination coefficient, the gas coefficient and the archive data safety coefficient reach the early warning condition, corresponding temperature/humidity warning signals, illumination warning signals, gas warning signals and archive data safety warning signals are automatically generated, for example:

when the value ranges of the temperature/humidity coefficient, the illumination coefficient, the gas coefficient and the archive data safety coefficient are all [0,10], the early warning condition can be set to generate a corresponding warning signal when the coefficient value is larger than 5.

And S15, visualizing the temperature/humidity alarm signal, the illumination alarm signal, the gas alarm signal and the archive data security alarm signal.

After the temperature/humidity alarm signal, the illumination alarm signal, the gas alarm signal and the archive data safety alarm signal are generated, in order to enable a user to quickly know that the dangers exist in the archive warehouse of the temperature/humidity, the illumination, the gas and the archive data safety alarm signal, the temperature/humidity alarm signal, the illumination alarm signal, the gas alarm signal and the archive data safety alarm signal need to be visualized, and the user is reminded to further conduct safety management on the archive warehouse.

The beneficial effects that this application embodiment can reach include:

1. acquiring environmental data of an archive in real time; extracting archive temperature data, archive humidity data, archive illumination intensity and archive gas data according to the environment data; calculating a temperature/humidity coefficient according to the archive temperature data and the archive humidity data; calculating an illumination coefficient according to the illumination intensity of the archive; calculating a gas coefficient according to the gas data of the archive; and adjusting temperature data, humidity data, illumination intensity and gas data of the archive according to the temperature/humidity coefficient, the illumination coefficient and the gas coefficient. Through the environmental data of real-time collection archives, the corresponding factor of safety of factor of environment is calculated again, and then independent regulation archives environmental data has solved because too relies on the professional judgement of staff, can make the comparatively trouble problem of environmental security management to the archives, has simple and convenient formula to the environmental security management of archives.

2. The archive security management method is characterized in that the archive security coefficient is calculated by adding object motion data in the archive security management, and objects (including people, books and the like) entering and exiting the archive are further determined by the archive security coefficient, so that the archive environment security management method can be further improved.

3. Judging whether the coefficient corresponding to the current environmental data accords with the standard preset coefficient of the files stored in the archive according to the reference standard preset coefficient, and if not, automatically adjusting the corresponding environmental data according to the corresponding standard coefficient, so that the archive data in the archive can be more effectively stored and the integrity of the archive data is ensured to a certain extent.

4. The user can selectively use the monitoring equipment for monitoring the environmental data in the archives, so that the user can select different monitoring equipment according to different archives, the environmental data of the archives can be monitored more accurately, and the environmental safety of the archives can be better managed; by determining the running state of the target monitoring equipment, whether the target monitoring equipment can normally run or not is further determined, if the target monitoring equipment cannot normally run, the target monitoring equipment needs to be corrected, the target monitoring equipment can be replaced, and environmental data acquisition of the archive is further guaranteed.

5. The stored historical environmental data is sorted and classified and stored by using filtering according to specific standard or condition screening, so that when a user invokes the historical environmental data, irrelevant or unnecessary environmental data can be removed, and a data base is provided for quickly querying the historical data.

The embodiment of the application also provides an environmental safety management device of the archive, which comprises a determining module, an extracting module, a first calculating module, a second calculating module, a third calculating module and an adjusting module.

In this embodiment, the determining module may determine the archive and the target monitoring device, and obtain environmental data of the archive in real time according to the target monitoring device; finally, the environmental data is sent to an extraction module; the extraction module extracts the archival temperature data, the archival humidity data, the archival illumination intensity and the archival gas data according to the environmental data respectively, sends the archival temperature data and the archival humidity data to the first calculation module, sends the archival illumination intensity to the second calculation module, and sends the archival gas data to the third calculation unit.

The first calculation module calculates the temperature/humidity coefficient of the archive according to the archive temperature data and the archive humidity data, and sends the temperature/humidity coefficient to the adjustment module; the second calculation module calculates the illumination coefficient of the archive according to the illumination intensity of the archive, and sends the illumination coefficient to the adjustment module; the third calculation module calculates the gas coefficient of the archive according to the archive gas data and sends the gas coefficient to the adjustment module; the adjusting module adjusts temperature data, humidity data, illumination intensity and gas data of the archive according to the temperature/humidity coefficient, the illumination coefficient and the gas coefficient.

In one possible embodiment, the environmental security management apparatus of the archive further includes: the device comprises an object motion acquisition module, a fourth calculation module, a storage module, a drawing/visualizing module, a filtering module, a setting module, a generating module, a signal generating module and a visualizing module.

The adjusting module comprises an acquiring unit, a first adjusting unit, a second adjusting unit and a third adjusting unit; the determining module comprises a first determining unit, a receiving unit, a second determining unit, an operation state obtaining unit and a correcting unit.

In this embodiment, the determining module may determine the archive through the first determining unit, and send the archive to the receiving unit; the receiving unit receives a connection request of the monitoring device for monitoring the environmental data of the archive according to the archive, and sends the connection request to the second determining unit; the second determining unit determines the monitoring equipment as target monitoring equipment according to the connection request and sends the target monitoring equipment to the running state obtaining unit; the operation state acquisition unit acquires the operation state of the target monitoring equipment and sends the operation state to the correction unit; the correction unit corrects the target monitoring equipment according to the running state; and when the correction unit determines the target monitoring equipment, the determination module acquires the environmental data of the archive in real time according to the target monitoring equipment and sends the environmental data to the extraction module and the storage module.

The storage module stores the environmental data in real time to form historical environmental data, the historical environmental data is sent to the filtering module, the filtering module adjusts the historical environmental data by using a filtering processing mode, and the filtered historical environmental data is sent to the drawing/visualizing module; the drawing/visualizing module draws a history curve record according to the history environment data and visualizes the history curve record.

The extraction module is used for respectively extracting archive temperature data, archive humidity data, archive illumination intensity and archive gas data according to the environmental data, sending the archive temperature data and the archive humidity data to the first calculation module, sending the archive illumination intensity to the second calculation module and sending the archive gas data to the third calculation unit; the first calculation module calculates the temperature/humidity coefficient of the archive according to the archive temperature data and the archive humidity data, and sends the temperature/humidity coefficient to the adjustment module and the signal generation module; the second calculation module calculates the illumination coefficient of the archive according to the illumination intensity of the archive, and sends the illumination coefficient to the adjustment module and the signal generation module; the third calculation module calculates the gas coefficient of the archive according to the archive gas data and sends the gas coefficient to the adjustment module and the signal generation module.

The object motion acquisition module acquires object motion data of the archive in real time and sends the object motion data to the fourth calculation module; and the fourth calculation module calculates the safety coefficient of the archival data according to the object motion data and sends the safety coefficient of the archival data to the adjustment module and the generation module.

The signal generation module generates a temperature/humidity alarm signal, an illumination alarm signal, a gas alarm signal and a file data safety alarm signal according to the temperature/humidity coefficient, the illumination coefficient, the gas coefficient and the file data safety coefficient respectively, and sends the temperature/humidity alarm signal, the illumination alarm signal, the gas alarm signal and the file data safety alarm signal to the visualization module; the visualization module visualizes the temperature/humidity alarm signal, the illumination alarm signal, the gas alarm signal and the archive data security alarm signal.

The adjusting module acquires a preset temperature/humidity coefficient table, a preset illumination coefficient table and a preset gas coefficient table through the acquiring unit, and sends the preset temperature/humidity coefficient table to the first adjusting unit, the preset illumination coefficient table to the second adjusting unit and the preset gas coefficient table to the third adjusting unit.

The first adjusting unit adjusts temperature data and humidity data of the archive according to a preset temperature/humidity coefficient table and a preset temperature/humidity coefficient; the second adjusting unit adjusts the illumination intensity of the archive according to a preset illumination coefficient table and an illumination coefficient; and the third adjusting unit adjusts the gas data of the archive according to a preset gas coefficient table and the gas data.

The setting module sets a preset period for the timer and sends the preset period to the generating module; the generation module generates a timely management prompt signal according to a preset period, and the timely management prompt signal is used for reminding the tidying archive.

It should be noted that: in the device provided in the above embodiment, when implementing the functions thereof, only the division of the above functional modules is used as an example, in practical application, the above functional allocation may be implemented by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules, so as to implement all or part of the functions described above. In addition, the embodiments of the apparatus and the method provided in the foregoing embodiments belong to the same concept, and specific implementation processes of the embodiments of the method are detailed in the method embodiments, which are not repeated herein.

The embodiment of the application provides an environment safety management device for an archive. The environmental security management apparatus of the archive may include: at least one processor, at least one network interface, a user interface, a memory, at least one communication bus.

The processor is configured to invoke the method of environmental security management of an archive stored in the memory, which when executed by the one or more processors, causes the environmental security management device of the archive to perform the method as described in one or more of the embodiments above.

The embodiment of the application further provides a computer readable storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the method for managing environmental security of the archive in the foregoing embodiment is implemented, so that repetition is avoided, and details are not repeated here.

It should be noted that, for simplicity of description, the foregoing method embodiments are all expressed as a series of action combinations, but it should be understood by those skilled in the art that the present application is not limited by the order of actions described, as some steps may be performed in other order or simultaneously in accordance with the present application. Further, those skilled in the art will also appreciate that the embodiments described in the specification are all preferred embodiments, and that the acts and modules referred to are not necessarily required in the present application.

The present embodiment is only for explanation of the present invention and is not to be construed as limiting the present invention, and modifications to the present embodiment, which may not creatively contribute to the present invention as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present invention.

Claims (10)

1. An environmental security management method for an archive, comprising:

determining an archive and target monitoring equipment, and acquiring environmental data of the archive in real time according to the target monitoring equipment;

respectively extracting archive temperature data, archive humidity data, archive illumination intensity and archive gas data according to the environment data;

calculating a temperature/humidity coefficient of the archive according to the archive temperature data and the archive humidity data, and calculating the temperature/humidity coefficient according to the following formula:

wherein RH_coefficient is the temperature/humidity coefficient, E is the actual water vapor pressure determined according to the temperature data of the archive, E _δ A saturated water vapor pressure determined from the archive humidity data;

calculating an illumination coefficient of the archive according to the archive illumination intensity, wherein the archive illumination intensity comprises illumination intensity and light source light intensity, and determining the illumination coefficient according to division of the illumination intensity by the light source light intensity;

calculating a gas coefficient of the archive based on the archive gas data, wherein the archive gas data comprises an absolute temperature of a gas, an absolute pressure of the gas and a dynamic viscosity of the gas, and substituting the absolute temperature, the absolute pressure and the dynamic viscosity into the following formula to calculate the gas coefficient:

Wherein D is the gas coefficient, K is boltzmann constant, k= 1.380649 ×10-23J/K, T is the absolute temperature, P is the absolute pressure, μ is the dynamic viscosity, and pi is the circumference ratio;

and adjusting temperature data, humidity data, illumination intensity and gas data of the archive according to the temperature/humidity coefficient, the illumination coefficient and the gas coefficient.

2. The environmental security management method according to claim 1, wherein the environmental security management method further comprises:

acquiring object motion data of the archive in real time;

and calculating the archival data safety coefficient according to the object motion data.

3. The environmental safety management method according to claim 1 or 2, wherein the adjusting of the temperature data, the humidity data, the illumination intensity, and the gas data according to the temperature/humidity coefficient, the illumination coefficient, and the gas coefficient for the archive comprises:

acquiring a preset temperature/humidity coefficient table, a preset illumination coefficient table and a preset gas system table;

regulating temperature data and humidity data of the archive according to the preset temperature/humidity coefficient table and the temperature/humidity coefficient;

Adjusting the illumination intensity of the archive according to the preset illumination coefficient table and the illumination coefficient;

and adjusting the gas data of the archive according to the preset gas system table and the gas data.

4. The environmental security management method according to claim 1, wherein the environmental security management method further comprises:

storing the environmental data in real time to form historical environmental data;

and drawing a history curve record according to the history environment data, and visualizing the history curve record.

5. The environmental security management method according to claim 4, further comprising:

and adjusting the historical environment data by using a filtering processing mode.

6. The environmental security management method of claim 1, wherein the determining the archive and the target monitoring device comprises:

determining an archive;

receiving a connection request of monitoring equipment for monitoring environment data of the archive according to the archive;

and determining the monitoring equipment as target monitoring equipment according to the connection request.

7. The environmental security management method according to claim 6, further comprising:

Acquiring the running state of the target monitoring equipment;

and correcting the target monitoring equipment according to the running state.

8. The environmental security management method according to claim 1, wherein the environmental security management method further comprises:

setting a preset period for the timer;

and generating a timely management prompt signal according to the preset period, wherein the timely management prompt signal is used for reminding and sorting the archive.

9. The environmental security management method according to claim 2, characterized in that the environmental security management method further comprises:

respectively generating a temperature/humidity alarm signal, an illumination alarm signal, a gas alarm signal and a archive data security alarm signal according to the temperature/humidity coefficient, the illumination coefficient, the gas coefficient and the archive data security coefficient;

and visualizing the temperature/humidity alarm signal, the illumination alarm signal, the gas alarm signal and the archive data security alarm signal.

10. An environmental security management apparatus for an archive, comprising:

the determining module is used for determining an archive and target monitoring equipment and acquiring environmental data of the archive in real time according to the target monitoring equipment;

The extraction module is used for respectively extracting archive temperature data, archive humidity data, archive illumination intensity and archive gas data according to the environment data;

the first calculation module is used for calculating the temperature/humidity coefficient of the archive according to the archive temperature data and the archive humidity data, and calculating the temperature/humidity coefficient through the following formula:

wherein RH_coefficient is the temperature/humidity coefficient, E is the actual water vapor pressure determined according to the temperature data of the archive, E _δ A saturated water vapor pressure determined from the archive humidity data;

the second calculation module is used for calculating the illumination coefficient of the archive according to the illumination intensity of the archive, wherein the illumination intensity of the archive comprises illumination intensity and light source light intensity, and the illumination coefficient is determined according to the illumination intensity divided by the light source light intensity;

a third calculation module, configured to calculate a gas coefficient of the archive according to the archive gas data, where the archive other data includes an absolute temperature of the gas, an absolute pressure of the gas, and a dynamic viscosity of the gas, and the absolute temperature, the absolute pressure, and the dynamic viscosity are substituted into the following formula to calculate the gas coefficient:

Wherein D is the gas coefficient, K is boltzmann constant, k= 1.380649 ×10-23J/K, T is the absolute temperature, P is the absolute pressure, μ is the dynamic viscosity, and pi is the circumference ratio;

and the adjusting module is used for adjusting temperature data, humidity data, illumination intensity and gas data of the archive according to the temperature/humidity coefficient, the illumination coefficient and the gas coefficient.