CN112437527A - Intelligent illumination operation and maintenance automatic control method for comprehensive pipe rack - Google Patents

Abstract

The invention discloses an intelligent illumination operation and maintenance automatic control method for a comprehensive pipe rack. The wireless router of the partition is automatically connected through the patrol equipment, the intelligent operation and maintenance platform of the pipe rack receives an equipment access signal of the partition, sends a starting signal to the illumination of the partition and two adjacent partitions, starts the illumination of three partitions, sends a closing signal to the illumination system of the second partition in front of the partition and the illumination system of the second partition behind the partition, when the operation and maintenance personnel move to the next partition, the platform sends the starting signal to the illumination system of the two adjacent partitions of the next partition and sends a closing signal to the illumination system of the second partition in front of and behind the next partition, and when the operation and maintenance personnel leave the pipe rack, the intelligent operation and maintenance platform sends an illumination closing signal to the partition where the wireless router is located and the two adjacent partitions which are connected finally. Compared with the traditional operation and maintenance personnel manually starting the lighting mode, the manual operation is not needed, so that the operation and maintenance personnel can move more conveniently and intelligently in the pipe gallery.

Description

Intelligent illumination operation and maintenance automatic control method for comprehensive pipe rack

Technical Field

The invention relates to the field of intelligent monitoring of urban comprehensive pipe galleries, in particular to an intelligent illumination operation and maintenance automatic control method for a comprehensive pipe gallery.

Background

The traditional lighting control system is started and stopped remotely by a pipe gallery management platform, and the traditional control method is operated by field personnel in a lighting control box and has the following defects: the remote control method needs people to be matched in a monitoring center, so that the labor cost is increased; when the field is started through the lighting control box, the fan control box is frequently arranged on a bypass of the lighting control box, so that the fan is easily started by misoperation; whether the remote operation or the field operation is required, the manual operation is required, the operator is required to receive related training and learning, and certain requirements are required for the technical level of the operator. It is therefore very necessary to optimize conventional lighting control systems based on the engineering background of the utility tunnel.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: through an intelligent illumination operation and maintenance automatic control method for the comprehensive pipe rack, illumination control of the pipe rack is optimized.

The invention adopts the following technical scheme to solve the technical problem, and the intelligent illumination operation and maintenance automatic control method for the comprehensive pipe rack is characterized by comprising the following steps of:

step 1: the operation and maintenance patrol personnel carry the online patrol equipment, and the patrol equipment enters the pipe gallery to be connected with the wireless network of the lighting subarea where the patrol equipment is located;

step 2: the wireless routers of the plurality of lighting partitions respectively wirelessly transmit the equipment connection states to the intelligent operation and maintenance management platform of the monitoring center, and the intelligent operation and maintenance management platform of the monitoring center performs lighting control on the lighting partitions according to the equipment connection states of the wireless routers of the lighting partitions;

and step 3: and repeating the step 2 until the operation and maintenance personnel reach an Nth lighting partition, namely a pipe gallery outlet, the connection state of the wireless router of the Nth lighting partition is that equipment is accessed, the intelligent operation and maintenance management platform of the monitoring center sequentially sends starting pulse signals to the lighting system of the Nth lighting partition, the lighting system of the Nth lighting partition and the lighting system of the (N + 1) th lighting partition respectively, and the lighting of the lighting system of the Nth lighting partition, the lighting system of the (N + 1) th lighting partition and the lighting of the lighting system of the (N-1) th lighting partition are respectively started.

Preferably, the tube corridor described in step 1 is divided into a 1 st lighting zone, a 2 nd lighting zone, and an Mth lighting zone, wherein the Nth lighting zone is marked as the outlet of the tube corridor, and N is equal to [1, M ]

Each lighting subarea is provided with a wireless router and a lighting system;

the wireless router is wirelessly connected with the intelligent operation and maintenance management platform of the monitoring center; the lighting system is connected with the intelligent operation and maintenance management platform of the monitoring center in a wireless mode;

the pipe gallery is a wireless network full-coverage place, the patrol personnel carry the patrol equipment to enter the pipe gallery, and the patrol equipment is connected to a wireless network in the pipe gallery through a wireless router;

preferably, the connection status of the wireless router device of the ith lighting partition in step 2 is state_i，i∈[1,M]M represents the number of lighting partitions in the pipe gallery, and the state is defined_iWhen the wireless router of the ith lighting partition has no equipment access, the state is defined_i1 indicates that the wireless router of the ith lighting partition has equipment access;

step 2, the lighting control of each lighting zone according to the equipment connection state of the wireless router of each lighting zone is as follows:

if the connection state of the wireless router equipment of the k illumination zone is state_kChange from 0 to 1:

the intelligent operation and maintenance management platform of the monitoring center respectively sends starting pulse signals to the lighting system of the k-1 lighting subarea, the lighting system of the k lighting subarea and the lighting system of the k +1 lighting subarea in sequence, and respectively starts the lighting of the lighting system of the k-1 lighting subarea, the lighting of the lighting system of the k lighting subarea and the lighting of the lighting system of the k +1 lighting subarea;

the monitoring center intelligent operation and maintenance management platform respectively sends a closing pulse signal to the illumination system of the k-2 illumination subarea and the illumination system of the k +2 illumination subarea, and respectively closes the illumination of the illumination system of the k-2 illumination subarea and the illumination of the illumination system of the k +2 illumination subarea;

if the wireless router of the ith lighting partition detects that the patrol equipment is accessed, the equipment connection state is changed from an equipment-free access state to an equipment access state, and the wireless router of the ith lighting partition wirelessly transmits the equipment connection state to the intelligent operation and maintenance management platform of the monitoring center;

compared with the prior art, the invention has the following main advantages:

the remote control method needs the cooperation of people in the monitoring center, so that the labor cost is increased, and the cooperation of workers in the monitoring center is not needed;

when the field is started through the lighting control box, the fan control box is frequently arranged on the bypass of the lighting control box, so that the fan is easily started by misoperation, and the method can not generate the phenomenon;

in some emergency situations, the intelligent control mode can save more time for operation and maintenance personnel;

more advanced control methods are also a development trend in utility tunnel monitoring.

In a word, based on the engineering characteristics of the comprehensive pipe gallery, the management of the pipe gallery is more intelligent, and the management system is convenient for operation and maintenance personnel to use.

Drawings

FIG. 1: and the operation and maintenance personnel enter the N subarea of the pipe gallery.

FIG. 2: go from the N partition to the N-1 partition.

FIG. 3: going from partition N to partition N + 1.

FIG. 4: and the pipe is separated from the pipe gallery by the N partition.

FIG. 5: a method flow diagram.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other. For the parameters that need to be analyzed in the actual situation, we have noted the parameter setting method above and will not be described herein.

The following describes a specific embodiment of the present invention with reference to fig. 1 to 5, which is an intelligent illumination operation and maintenance automatic control method for a utility tunnel, and includes the following steps:

step 1: the operation and maintenance patrol personnel carry the online patrol equipment, and the patrol equipment is connected with the partitioned wireless network when entering the pipe gallery; an inspection worker carries inspection equipment to enter a pipe gallery, the inspection equipment is automatically connected into a pipe gallery wireless network, when a wireless router detects that the inspection equipment is accessed, the equipment state is changed, and after a monitoring center intelligent operation and maintenance management platform detects that the state of the wireless router is changed, a starting pulse signal is sent to the lighting systems of the two adjacent subareas of the subarea and the subarea, the lighting of the three subareas is started, and a closing pulse signal is sent to the lighting system of the second subarea in front of the subarea and the lighting system of the second subarea behind the subarea, as shown in fig. 1;

the method of step 1 is that in the place where the pipe gallery is wireless and fully covered, the patrolling personnel carry the patrol equipment to enter the pipe gallery, and the patrol equipment can be automatically connected to the wireless network of the pipe gallery;

step 1, the pipe gallery is divided into a 1 st lighting subarea, a 2 nd lighting subarea, and an Mth lighting subarea, wherein the Nth lighting subarea is marked as a pipe gallery outlet, and N belongs to [1, M ]

Each lighting subarea is provided with a wireless router and a lighting system;

the wireless router is wirelessly connected with the intelligent operation and maintenance management platform of the monitoring center; the lighting system is connected with the intelligent operation and maintenance management platform of the monitoring center in a wireless mode;

the model of the wireless router is as follows; mosha scientific AWK 1131A;

the type of the lighting system is as follows; based on ohm dragon CS1D-42S PLC illumination automatic coordinated control system;

the model of the night watching equipment is as follows; jinhaige J-T1;

the pipe gallery is a wireless network full-coverage place, the patrol personnel carry the patrol equipment to enter the pipe gallery, and the patrol equipment is connected to a wireless network in the pipe gallery through a wireless router;

step 2: the wireless routers of the plurality of lighting partitions respectively wirelessly transmit the equipment connection states to the intelligent operation and maintenance management platform of the monitoring center, and the intelligent operation and maintenance management platform of the monitoring center performs lighting control on the lighting partitions according to the equipment connection states of the wireless routers of the lighting partitions;

step 2, the connection state of the wireless router equipment of the ith lighting partition is state_i，i∈[1,M]M represents the number of lighting partitions in the pipe gallery, and the state is defined_iWhen the wireless router of the ith lighting partition has no equipment access, the state is defined_i1 indicates that the wireless router of the ith lighting partition has equipment access; when the operation and maintenance personnel move to the next subarea, the patrol equipment is accessed into the wireless router of the next subarea, the intelligent operation and maintenance management platform of the monitoring center sends a starting pulse signal to the next subarea and two adjacent subarea lighting systems of the next subarea, sends a closing pulse signal to the second subarea lighting system in front of the next subarea and the second subarea lighting system behind the next subarea, and closes the lighting of the previous subarea, as shown in fig. 2;

step 2, the lighting control of each lighting zone according to the equipment connection state of the wireless router of each lighting zone is as follows:

if the connection state of the wireless router equipment of the k illumination zone is state_kChange from 0 to 1:

the intelligent operation and maintenance management platform of the monitoring center respectively sends starting pulse signals to the lighting system of the k-1 lighting subarea, the lighting system of the k lighting subarea and the lighting system of the k +1 lighting subarea in sequence, and respectively starts the lighting of the lighting system of the k-1 lighting subarea, the lighting of the lighting system of the k lighting subarea and the lighting of the lighting system of the k +1 lighting subarea;

the monitoring center intelligent operation and maintenance management platform respectively sends a closing pulse signal to the illumination system of the k-2 illumination subarea and the illumination system of the k +2 illumination subarea, and respectively closes the illumination of the illumination system of the k-2 illumination subarea and the illumination of the illumination system of the k +2 illumination subarea;

if the wireless router of the ith lighting partition detects that the patrol equipment is accessed, the equipment connection state is changed from an equipment-free access state to an equipment access state, and the wireless router of the ith lighting partition wirelessly transmits the equipment connection state to the intelligent operation and maintenance management platform of the monitoring center;

and step 3: and repeating the step 2 until the operation and maintenance personnel reach an Nth lighting partition, namely a pipe gallery outlet, the connection state of the wireless router of the Nth lighting partition is that equipment is accessed, the intelligent operation and maintenance management platform of the monitoring center sequentially sends starting pulse signals to the lighting system of the Nth lighting partition, the lighting system of the Nth lighting partition and the lighting system of the (N + 1) th lighting partition respectively, and the lighting of the lighting system of the Nth lighting partition, the lighting system of the (N + 1) th lighting partition and the lighting of the lighting system of the (N-1) th lighting partition are respectively started. When the operation and maintenance personnel leave the pipe rack, the patrol equipment which is previously accessed to the wireless network of the pipe rack is offline, the intelligent operation and maintenance management platform of the monitoring center sends illumination closing pulse signals to the partition where the wireless router which is connected last is located and two adjacent partitions, and the illumination closing pulse signals are shown in figure 3

It should be understood that parts of the application not described in detail are prior art.

It should be understood that the above description of the preferred embodiments is given for clearness of understanding and no unnecessary limitations should be understood therefrom, and all changes and modifications may be made by those skilled in the art without departing from the scope of the invention as defined by the appended claims.

Claims (3)

1. An intelligent illumination operation and maintenance automatic control method for a comprehensive pipe rack is characterized by comprising the following steps:

step 1: the operation and maintenance patrol personnel carry the online patrol equipment, and the patrol equipment enters the pipe gallery to be connected with the wireless network of the lighting subarea where the patrol equipment is located;

step 2: the wireless routers of the plurality of lighting partitions respectively wirelessly transmit the equipment connection states to the intelligent operation and maintenance management platform of the monitoring center, and the intelligent operation and maintenance management platform of the monitoring center performs lighting control on the lighting partitions according to the equipment connection states of the wireless routers of the lighting partitions;

and step 3: and repeating the step 2 until the operation and maintenance personnel reach an Nth lighting partition, namely a pipe gallery outlet, the connection state of the wireless router of the Nth lighting partition is that equipment is accessed, the intelligent operation and maintenance management platform of the monitoring center sequentially sends starting pulse signals to the lighting system of the Nth lighting partition, the lighting system of the Nth lighting partition and the lighting system of the (N + 1) th lighting partition respectively, and the lighting of the lighting system of the Nth lighting partition, the lighting system of the (N + 1) th lighting partition and the lighting of the lighting system of the (N-1) th lighting partition are respectively started.

2. The intelligent illumination operation and maintenance automatic control method for the comprehensive pipe rack according to claim 1, characterized in that:

step 1, the pipe gallery is divided into a 1 st lighting subarea, a 2 nd lighting subarea, and an Mth lighting subarea, wherein the Nth lighting subarea is marked as a pipe gallery outlet, and N belongs to [1, M ]

Each lighting subarea is provided with a wireless router and a lighting system;

the wireless router is wirelessly connected with the intelligent operation and maintenance management platform of the monitoring center; the lighting system is connected with the intelligent operation and maintenance management platform of the monitoring center in a wireless mode;

the piping lane is wireless network all standing place, and the personnel of patrolling and examining carry and patrol equipment and get into the piping lane, patrol equipment and link into wireless network in the piping lane through wireless router.

3. The intelligent illumination operation and maintenance automatic control method for the comprehensive pipe rack according to claim 1, characterized in that:

step 2, the connection state of the wireless router equipment of the ith lighting partition is state_i，i∈[1,M]M represents the number of lighting partitions in the pipe gallery, and the state is defined_iWhen the wireless router of the ith lighting partition has no equipment access, the state is defined_i1 indicates that the wireless router of the ith lighting partition has equipment access;

step 2, the lighting control of each lighting zone according to the equipment connection state of the wireless router of each lighting zone is as follows:

if the connection state of the wireless router equipment of the k illumination zone is state_kChange from 0 to 1:

the intelligent operation and maintenance management platform of the monitoring center respectively sends starting pulse signals to the lighting system of the k-1 lighting subarea, the lighting system of the k lighting subarea and the lighting system of the k +1 lighting subarea in sequence, and respectively starts the lighting of the lighting system of the k-1 lighting subarea, the lighting of the lighting system of the k lighting subarea and the lighting of the lighting system of the k +1 lighting subarea;

the monitoring center intelligent operation and maintenance management platform respectively sends a closing pulse signal to the illumination system of the k-2 illumination subarea and the illumination system of the k +2 illumination subarea, and respectively closes the illumination of the illumination system of the k-2 illumination subarea and the illumination of the illumination system of the k +2 illumination subarea;

and if the wireless router of the ith lighting partition detects that the patrol equipment is accessed, the equipment connection state is changed from the equipment-free access state to the equipment access state, and the wireless router of the ith lighting partition wirelessly transmits the equipment connection state to the intelligent operation and maintenance management platform of the monitoring center.

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