CN114490236A - Star-shaped structure intelligent modeling method applied to machine room equipment monitoring system management - Google Patents

Abstract

The invention discloses an intelligent modeling method of a star structure applied to management of a machine room equipment monitoring system, which fully utilizes Siemens LOGO! 8, the new product bright spots are used while the strong network function network of the upgrade replacement version is used. LOGO! And 8.2, the host module integrates the Web Server function, so that a user does not need to have HTML programming experience. In addition, the programming software LOGO! Soft Commort V8.2 is more powerful, can easily accomplish project engineering configuration conveniently. The method well meets the requirement of effectively managing the traffic signal system resources in different informationized management, and has great popularization significance. Meanwhile, the invention utilizes the technical characteristics of the current cloud product and leads LOGO to be more than that of the current cloud product! 8.2 the host computer is combined with the extranet propelling movement of the cloud connection product through a reasonable intranet networking, and the system operation and the safety of the intranet are greatly enhanced.

Description

Star-shaped structure intelligent modeling method applied to machine room equipment monitoring system management

Technical Field

The invention relates to a modeling method, in particular to a star-shaped structure intelligent modeling method applied to machine room equipment monitoring system management.

Background

At present, there are domestic products related to a machine room dynamic environment comprehensive monitoring system, and the practical application of many clients mainly adopts a third-party hardware and software platform to realize the purpose of real-time monitoring of a machine room and equipment, so that the system can specifically monitor some dynamic environments of a general machine room and also can know the storage problem of spatial data in a file or database mode (for example, products such as building kernel, C-SAFE and the like are adopted), but due to the strong universality, the cost performance overflows, and the technical speciality is too strong, so that the technical dependence on the products after the adoption exists for a long time, and the time cost and the financial cost of a client solution are increased; and the subsequent maintenance also needs to invest technical service cost for upgrading and updating.

In order to solve the above problems, a star-structured intelligent modeling method applied to machine room equipment monitoring system management becomes a problem to be solved urgently in the whole society.

Disclosure of Invention

In order to solve the technical problems, the technical scheme provided by the invention is as follows: the star-shaped structure intelligent modeling method applied to the management of the machine room equipment monitoring system comprises the following steps:

(1) classifying and counting all internal machine rooms and equipment distributed in different places to be remotely and centrally monitored, and classifying model objects of monitoring points: the monitoring content of the machine room and the equipment is classified to summarize the grade and the category of signal acquisition;

(2) selecting a network structure mode of signal acquisition according to the position and the place of equipment and the network distribution and characteristics in an enterprise, and defining the network structure mode as a master-slave structure star-distributed communication mode of a plurality of master stations;

(3) determining the locations of development engineer stations and centralized monitoring points, the number of visitors, the visiting security level, the security level and the like; (ii) a

(4) The alarm modes of different collected signals are selected and determined, and the alarm modes comprise sound alarm, light alarm, text information alarm and graphic alarm;

(5) site intelligent device selection, address and port programming; the method comprises the steps that the main-slave station structure address programming correlation of an intelligent control device, the I/O port signal acquisition input and output function definition of equipment, the access password setting, the address access permission setting and the WEB login permission setting are carried out;

(6) software programming: the method comprises the following steps of functional block logic programming, alarm output programming associated with a data input and output program, and sound, light and text output; programming a man-machine picture of the touch screen; pushing output programming of the cloud connection equipment, and alarm configuration and sharing setting of mobile phone APP of technical and maintenance personnel;

(7) the remote self-contained generator and the power supply start-up switching full-automatic program programming and the monitoring alarm programming.

Furthermore, different equipment alarms in the step (1) are different, three interrupt levels are distinguished in alarm types, the first alarm interrupt is power supply and smoke feeling, the alarm output is a buzzer for prompting an operator on duty, a text display (capable of providing 6 lines of character display) has fault information of an alarm station, and meanwhile, the backlight display is red. The buzzer alarm can be eliminated only by effectively confirming the F1-F4 function key defined on the text display by the attendant, and simultaneously the red alarm can be changed into yellow alarm color to indicate that the state is not eliminated, and at the moment, the alarm occurrence information of the text information site still exists until the operator on duty for eliminating the fault or an engineer logs in the operator through a remote computer can be eliminated and the normal state is recovered. The second interrupt level is the prompt of the temperature and the entrance guard of the machine room, the text is displayed as yellow alarm, and the relevant prompt can not be eliminated by the operators on duty and the engineer station when the message exists, and the relevant prompt can be eliminated only when the text message is changed from yellow to white after the fault leaves. The third interrupt level is a normal hint, such as: the display and information removal are the same as those described above with respect to the network on/off state of each station, power failure in an unimportant place, and the like.

In order to prevent the attendant from leaving the duty room and not receiving the alarm information, related technology and maintenance backbone staff can be appointed to share the cloud connection push information, the cloud connection equipment has a WeChat information prompt recording function and a simple picture alarm function of a mobile phone cloud connection product APP, and a corresponding station name alarm lamp changes color and flashes when the alarm occurs to indicate that the state occurs.

Further, in the step (2) and the step (3), device configuration is performed according to the allocated address and the gateway of the internal network of the enterprise, an engineer has the right to allocate and modify addresses to all sites in the network, a main program and alarm display content can be modified through programming software, the main station and the slave station can be expanded and modified, remote I/0 can be redefined and modified, and a computer in the network is assigned an access IP address to perform access setting of other computers for screen cheating, so that security is enhanced.

Further, in the step (5), because the site intelligent device has strong expandability, the structure composition of the master and slave stations can be performed by 1 to 8 at most, and each module can perform maximum input/output as follows: 24DI, 20DO, 8AI, 8AO, so that 1 master/slave configuration can constitute a 540 point I/O, in which the I/O in the slave can be invoked by the master each other.

Further, the programming software is LOGO! Soft Commort V8.2, which has 400 functional blocks for use, wherein the clock holding time can be expanded to 480 hours, 4 bit shift registers of 8 bits and 64 analog quantity registers support a Micro SD card as an external memory card, support an Ethernet mode for program uploading/downloading, support an online diagnosis function and support a data recording function. The functions are greatly superior to the products solidified by programs on the market, and the software has the characteristics that the software does not need much professional knowledge and can be used only by slight training and operation practice.

Further, in the step (7), the remote self-contained generator site uses a main machine of a working tape program main program to process the logic relationship between the generator and the power supply, and uses a slave station extension set which is in relationship with the main station as a slave station extension set for monitoring the work of the slave station extension set to realize the whole alarm function.

Compared with the prior art, the invention has the advantages that: the modeling method provided by the invention fully utilizes Siemens LOGO! 8, the new product bright spots are used while the strong network function network of the upgrade replacement version is used. LOGO! And 8.2, the host module integrates the Web Server function, so that a user does not need to have HTML programming experience. In addition, the programming software LOGO! Soft Commort V8.2 is more powerful, can easily accomplish project engineering configuration conveniently. The method well meets the requirement of effectively managing the traffic signal system resources in different informationized management, and has great popularization significance.

Meanwhile, the invention also better utilizes the technical characteristics of the current cloud product and leads the LOGO to be more than that of the current cloud product! 8.2 the host computer is combined with the extranet propelling movement of the cloud connection product through a reasonable intranet networking, and the system operation and the safety of the intranet are greatly enhanced.

In addition LOGO! 8.2 the host computer can also establish effective connection with the configuration king through S7-TCP/IP communication through our practice test, more facilitate the configuration of various man-machine pictures, can reflect the real-time running state of the equipment more vividly, and can also utilize the database function of the configuration king and various charts to generate various data analysis charts and records.

One LOGO is the cost performance! The 8.2 host is half cheaper than the commercially available proprietary module and the functionality and expandability and flexibility are much better than the cured module.

Drawings

FIG. 1 is a flow chart of a star-structured intelligent modeling method applied to equipment room monitoring system management according to the present invention;

FIG. 2 is a machine room monitoring topology diagram of the star-structured intelligent modeling method applied to the management of the machine room equipment monitoring system of the present invention;

fig. 3 is a multi-machine room comprehensive multifunctional remote monitoring system of the star-structured intelligent modeling method applied to machine room equipment monitoring system management in the invention.

Detailed Description

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

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

The invention provides a star structure intelligent modeling method applied to machine room equipment monitoring system management in specific implementation, which comprises the following steps:

(1) classifying and counting all internal machine rooms and equipment distributed in different places to be remotely and centrally monitored, and classifying model objects of monitoring points: the monitoring content of the machine room and the equipment is classified to summarize the grade and the category of signal acquisition;

(2) selecting a network structure mode of signal acquisition according to the position and the place of equipment and the network distribution and characteristics in an enterprise, and defining the network structure mode as a master-slave structure star-distributed communication mode of a plurality of master stations;

(3) determining the locations of development engineer stations and centralized monitoring points, the number of visitors, the visiting security level, the security level and the like;

(4) the alarm modes of different collected signals are selected and determined, and the alarm modes comprise sound alarm, light alarm, text information alarm and graphic alarm;

(5) site intelligent device selection, address and port programming; the method comprises the steps that the main-slave station structure address programming correlation of an intelligent control device, the I/O port signal acquisition input and output function definition of equipment, the access password setting, the address access permission setting and the WEB login permission setting are carried out;

(6) software programming: the method comprises the following steps of functional block logic programming, alarm output programming related to a data input and output program, and sound, light and text output; programming a man-machine picture of the touch screen; the method comprises the following steps of pushing output programming of the cloud connection equipment, and carrying out APP alarm configuration and sharing setting on a mobile phone by technical and maintenance personnel;

(7) the remote self-contained generator and the power supply start-up switching full-automatic program programming and the monitoring alarm programming.

The specific embodiment of the invention is as follows: when in use, the invention comprises the following steps: a

(1) Classifying and counting all internal machine rooms and equipment distributed in different places to be remotely and centrally monitored, and classifying model objects of monitoring points: the machine room and the equipment monitoring content are classified to summarize the grade and the category of signal acquisition, different equipment alarms are different, three interrupt grades are distinguished in the alarm types, the first alarm interrupt is power supply and smoke feeling, the alarm output is a buzzer for prompting an operator on duty, a text display (capable of providing 6 lines of character display) has fault information of an alarm station, and meanwhile, the backlight display is red. The buzzer alarm can be eliminated only by effectively confirming the F1-F4 function key defined on the text display by the attendant, and simultaneously the red alarm can be changed into yellow alarm color to indicate that the state is not eliminated, and at the moment, the alarm occurrence information of the text information site still exists until the operator on duty for eliminating the fault or an engineer logs in the operator through a remote computer can be eliminated and the normal state is recovered. The second interrupt level is the prompt of the temperature and the entrance guard of the machine room, the text is displayed as yellow alarm, and the relevant prompt can not be eliminated by the operators on duty and the engineer station when the message exists, and the relevant prompt can be eliminated only when the text message is changed from yellow to white after the fault leaves. The third interrupt level is a normal hint, such as: the display and information removal are the same as those described above with respect to the network on/off state of each station, power failure in an unimportant place, and the like.

(2) Selecting a network structure mode of signal acquisition according to the position and the place of equipment and the network distribution and characteristics in an enterprise, and defining the network structure mode as a master-slave structure star-distributed communication mode of a plurality of master stations;

(3) determining the locations of development engineer stations and centralized monitoring points, the number of visitors, the visiting security level, the security level and the like; the equipment configuration is carried out according to the allocated address and the gateway of the internal network of the enterprise, an engineer has the right to carry out address allocation and modification on all sites in the network, a main program and alarm display content can be modified through programming software, the main station and the slave station can be expanded and modified, remote I/0 can be redefined and modified, and computers in the network are assigned access IP addresses to carry out screen cheating and other computer access settings so as to enhance the security.

(4) The alarm modes of different collected signals are selected and determined, and the alarm modes comprise sound alarm, light alarm, text information alarm and graphic alarm;

(5) site intelligent device selection, address and port programming; the method comprises the steps that the main-slave station structure address programming correlation of an intelligent control device, the I/O port signal acquisition input and output function definition of equipment, the access password setting, the address access permission setting and the WEB login permission setting are carried out;

because the site intelligent device has strong expandability, the structure composition of 1 to 8 master-slave stations can be carried out maximally, and each module can carry out maximum input/output as follows: 24DI, 20DO, 8AI, 8AO, so that 1 master/slave configuration can constitute a 540 point I/O, in which the I/O in the slave can be invoked by the master each other.

(6) Software programming: the method comprises the following steps of functional block logic programming, alarm output programming associated with a data input and output program, and sound, light and text output; programming a man-machine picture of the touch screen; pushing output programming of the cloud connection equipment, and alarm configuration and sharing setting of mobile phone APP of technical and maintenance personnel; the programming software is LOGO! Soft Comfort V8.2, it has 400 functional blocks to use, wherein the clock retention time can be expanded to 480 hours, 8 bit shift registers 4, 64 analog quantity registers, support Micro SD card as external memory card, support Ethernet mode to carry on the program upload/download, support the online diagnostic function, support the data recording function. The functions are greatly superior to the products solidified by programs on the market, and the software has the characteristics that the software does not need much professional knowledge and can be used only by slight training and operation practice.

(7) The remote self-contained generator and the power supply start-up switching full-automatic program programming and the monitoring alarm programming. The remote equipment such as a self-contained generator site is used for processing the logical relation between the generator and a power supply by a main machine of a working band-pass main program, and then a slave station extension set which is in relation with a main station is used for monitoring the working of the slave station extension set to realize the whole alarm function.

The invention relates to a communication structure for carrying out equipment comprehensive monitoring in industries such as enterprises, local railway technical management and the like, and a data acquisition modeling and management method, which are mainly used for strengthening and improving management of a machine room and equipment, and mastering dynamic information of a machine room power environment and important equipment in real time, wherein the dynamic information mainly comprises machine room power supplies distributed in different places, machine room main equipment operation control, machine room temperature, air conditioner operation, fire alarm, access control and the like. The method can quickly create spatial and non-spatial data models of various traffic systems, really realizes multidimensional grasping and understanding of the state of equipment in a machine room, and particularly relates to a star-shaped structure intelligent modeling method applied to real-time monitoring and management of the machine room and the equipment.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (6)

1. The star structure intelligent modeling method applied to the machine room equipment monitoring system management is characterized in that: the method comprises the following steps:

(1) classifying and counting all internal machine rooms and equipment distributed in different places to be remotely and centrally monitored, and classifying model objects of monitoring points: the monitoring content of the machine room and the equipment is classified to summarize the grade and the category of signal acquisition;

(2) selecting a network structure mode of signal acquisition according to the position and the place of equipment and the network distribution and characteristics in an enterprise, and defining the network structure mode as a master-slave structure star-distributed communication mode of a plurality of master stations;

(3) determining the locations of development engineer stations and centralized monitoring points, the number of visitors, the visiting security level, the security level and the like; (ii) a

(4) The alarm modes of different collected signals are selected and determined, and the alarm modes comprise sound alarm, light alarm, text information alarm and graphic alarm;

(5) site intelligent device selection, address and port programming; the method comprises the steps that the main-slave station structure address programming correlation of an intelligent control device, the I/O port signal acquisition input and output function definition of equipment, the access password setting, the address access permission setting and the WEB login permission setting are carried out;

(6) software programming: the method comprises the following steps of functional block logic programming, alarm output programming associated with a data input and output program, and sound, light and text output; programming a man-machine picture of the touch screen; pushing output programming of the cloud connection equipment, and alarm configuration and sharing setting of mobile phone APP of technical and maintenance personnel;

(7) the remote self-contained generator and the power supply start-up switching full-automatic program programming and the monitoring alarm programming.

2. The star-structured intelligent modeling method applied to machine room equipment monitoring system management according to claim 1, characterized in that: three interruption levels are distinguished in the alarm types in the step (1), wherein the first alarm interruption level is a power supply and a smoke feeling, and the alarm output is a buzzer for prompting an operator on duty; the second interruption level is the temperature of the machine room and the entrance guard prompt; the third interrupt level is a normal hint.

3. The star-structured intelligent modeling method applied to machine room equipment monitoring system management according to claim 1, characterized in that: in the step (2) and the step (3), equipment configuration is carried out according to the allocated address and the gateway of the internal network of the enterprise, an engineer has the right to allocate and modify addresses to all sites in the network, a main program and alarm display content can be modified through programming software, the main station and the slave station can be expanded and modified, remote I/0 can be redefined and modified, and the computer in the network is assigned an access IP address to carry out access setting of other computers.

4. The star-structured intelligent modeling method applied to machine room equipment monitoring system management according to claim 1, characterized in that: in the step (5), the intelligent control device has expandability, and can be formed by a master-slave station structure with maximum 1 to 8, and each module can also be formed by maximum input/output of 24DI, 20DO, 8AI and 8AO, so that 1 master/slave station structure can form 540-point I/O, and in the master-slave structure, the I/O in the slave stations can be called by the master station.

5. The star-structured intelligent modeling method applied to machine room equipment monitoring system management according to claim 1, characterized in that: the programming software is LOGO! Soft Comfort V8.2, it has 400 functional blocks to use, wherein the clock retention time can be expanded to 480 hours, 8 bit shift registers 4, 64 analog quantity registers, support Micro SD card as external memory card, support Ethernet mode to carry on the program upload/download, support the online diagnostic function, support the data recording function.

6. The star-structured intelligent modeling method applied to machine room equipment monitoring system management according to claim 1, characterized in that: in the step (7), the remote self-contained generator site processes the logic relationship between the generator and the power supply by a main machine of a working band-pass main program, and then a slave station extension set which is in relationship with the main station is used for monitoring the work of the slave station extension set to realize the whole alarm function.

Images