CN212623727U - Integrated intelligent management and control system for inorganically discharging dust - Google Patents

Abstract

The utility model provides an unorganized intelligent management and control system that discharges dust, include: the instrument monitoring system is used for detecting the dust condition of each plant area; the field control system is used for receiving a feedback signal of the instrument monitoring system, comparing the feedback signal with a set target value and calculating; the field spraying equipment is used for receiving a field control system control signal and spraying and dedusting dust in each plant area; the data center system is used for acquiring data of the instrument monitoring system and the field control system and issuing a control instruction to the field control system; the network communication system is used for transmitting the data of the instrument monitoring system and the field control system to the data center system; and the industrial large-screen system is used for displaying data. The utility model discloses a to the on-the-spot remote control who sprays equipment, realized discharging the remote monitoring of dust state to each factory unorganization, realized discharging dust disposal's unified management to the unorganization, reduced the administration work management and control degree of difficulty.

Description

Integrated intelligent management and control system for inorganically discharging dust

Technical Field

The utility model relates to a dust removal control system technical field, concretely relates to unorganized discharges intelligent management and control system of integration of dust.

Background

Dust pollutants discharged in industrial production are one of important precursors of PM 2.5. The dust comes from links such as ore crushing, material transportation, transportation loading and unloading, road raise dust and the like. The industrial dust in these links is mainly emitted in an unorganized emission mode, namely, the industrial dust is lack of effective sealing measures and is randomly emitted into the atmospheric environment.

The main causes of the industrial unorganized emission dust are as follows:

during the transportation, stacking and transferring of bulk materials such as ores, mineral powder, stones, coal and the like, fine dust is easy to scatter into the air due to the transfer fall or the influence of peripheral airflow, and further scatters and overflows along with the airflow to form flying dust.

The first reason is as follows: in the falling process of the bulk material, collision occurs between bulk material particles and between the bulk material and the pipe wall, and dust generation is aggravated. The dust scatters and overflows under the action of disturbed airflow.

The second reason is that: when the bulk material moves in the air at a certain speed, the bulk material can drive the surrounding air to flow together with the bulk material, and the part of the air is called induced air. The induced air can also entrain a part of dust and flow with the air, so that the induced dust is generated.

The unorganized discharged dust enters the atmosphere to form PM2.5 fine particles and raise dust, so that dust pollution is caused, and the environment and the health of human bodies are influenced.

Aiming at the phenomenon of unorganized dust emission generated by most industrial and mining enterprises at present, the technical measures adopted at present mainly comprise spraying dust fall, spraying dust suppressant for dust fall, arranging a windproof dust suppression net, building a closed bin and the like. However, the existing factory dust removal device can only be operated on site usually, has a single structure, and cannot realize remote control and remote monitoring display. In addition, the plant dust removal device of each plant area needs to be operated independently, and unified management cannot be realized. Therefore, the treatment of the industrial unorganized discharged dust is not realized by a single dust removal technology or dust removal equipment, and an integrated management and control system is needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an unorganized intelligent management and control system that discharges dust for solve current mill dust collector and can't realize remote control and remote monitoring demonstration, the problem of unable realization unified management, in order to realize the unified management to unorganized emission dust disposal, in order to reduce the management and control degree of difficulty of administering work.

In order to achieve the purpose, the utility model discloses install instrument monitored control system at each factory, instrument monitored control system will detect information feedback to the field control system, instrument monitored control system and field control system can be again through network communication system with data transmission to data center system, the staff can directly realize the control to the field control system through the data center system, and then realize the remote control to the on-the-spot spraying equipment; meanwhile, data can be displayed through an industrial large-screen system, and further remote monitoring of the unorganized dust emission state of each factory is achieved. Specifically, the technical scheme of the utility model is realized like this:

an integrated intelligent management and control system for inorganically discharging dust comprises:

the instrument monitoring system is arranged in each plant area and is used for detecting the dust condition of each plant area;

the field control system is used for receiving a feedback signal of the instrument monitoring system, comparing the feedback signal with a set target value and calculating;

the field spraying equipment is arranged in each plant area and used for receiving a field control system control signal and spraying and removing dust of dust in each plant area;

the data center system is arranged in the central control room and is used for acquiring data of the instrument monitoring system and the field control system and issuing a control instruction to the field control system;

the network communication system is used for transmitting the data of the instrument monitoring system and the field control system to the data center system and transmitting the control command issued by the data center system to the field control system; and

the industrial large-screen system is arranged in the central control room and is used for receiving data information output by the data center system and displaying data of the instrument monitoring system, the field control system, the field spraying equipment, the data center system and the network communication system.

Further optimize technical scheme, instrument monitored control system includes:

the system comprises a dust detector, a data center and a data center, wherein the dust detector is arranged at a designated position of each plant area and is used for monitoring and displaying dust particles in each plant area in real time and uploading monitoring data to the data center through a network communication system; and

and the dust detector is arranged at the position, needing dust fall, of each plant area, and is used for monitoring the dust concentration in each plant area, feeding monitoring data back to the field control system, and transmitting the data to the data center by the field control system.

Further optimize technical scheme, on-spot spraying equipment includes former feed bin spraying system, encloses fender spraying system, conveyer belt spraying system and raw materials transport vechicle cleaning system.

Further optimize technical scheme, former feed bin spraying system includes coal shed spraying system, ore deposit storehouse spraying system and sand storehouse spraying system.

Further optimize technical scheme, the field control system includes:

the raw material bin spraying system PLC is used for controlling the spraying operation of the raw material bin spraying system;

the PLC controller of the enclosure spraying system is used for controlling the system spraying operation of the enclosure spraying system;

the PLC controller of the conveyor belt spraying system is used for controlling the spraying operation of the conveyor belt spraying system; and

and the PLC controller of the raw material transport vehicle cleaning system is used for controlling the spraying operation of the raw material transport vehicle cleaning system.

Further optimizing the technical scheme, the data center system comprises:

the redundant server is used for acquiring data transmitted by the field control system and the instrument monitoring system, and storing, recording and displaying the data;

the intelligent spraying operation station is used for displaying data and remotely operating the field spraying equipment;

the printer is used for printing a report chart of required data; and

and the external network control station is used for transmitting the data information acquired by the intelligent spraying operation station to relevant government departments or intelligent mobile phones through the Internet.

Further optimizing the technical scheme, the network communication system comprises:

the industrial Ethernet switch and the network cable are used for transmitting signals of the instrument monitoring system and the field control system; and

and the 4G \5G network equipment is used for uploading the monitoring data of the instrument monitoring system to the data center in real time in a 4G \5G wireless network transmission mode.

The technical scheme is further optimized, the system further comprises a video monitoring system used for shooting and monitoring the actual conditions of each factory, and the output end of the video monitoring system is connected with the input end of the data center system.

Further optimize technical scheme, the video monitoring system includes:

the cameras are arranged in each factory area and used for shooting the dust condition of each factory area;

the video server is used for acquiring and storing video information shot by the camera; and

and the video monitoring station is used for acquiring the content of the video server.

The technical scheme is further optimized, and the industrial large-screen system comprises a large-screen control station and an industrial splicing large screen;

the large-screen control station is used for controlling the computer pictures and contents required to be displayed by industrial splicing large screens and configuration;

and the industrial spliced large screen is used for receiving the data information output by the large screen control station and displaying the output data information.

The utility model discloses the method has following advantage:

the utility model discloses install instrument monitored control system in each factory, instrument monitored control system feeds back the detected information to field control system, and instrument monitored control system and field control system can be again through network communication system with data transmission to data center system, and the staff can directly realize the control to field control system through data center system, and then realize the remote control to field spray equipment; meanwhile, data can be displayed through an industrial large-screen system, and further remote monitoring of the unorganized dust emission state of each factory is achieved. Thereby realized the unified management to unorganized emission dust disposal, reduced the management and control degree of difficulty of administering work.

The utility model discloses an unorganized emission dust integration intelligence management and control system has realized the real-time supervision to the unorganized emission dust, effectively masters and scientific analysis unorganized emission dust distribution, data such as concentration, change law to according to the treatment measure of analysis result making according to local conditions, and carry out intelligent, scientific improvement, improved the whole treatment efficiency of industrial and mining enterprise, reduced the treatment work management and control degree of difficulty.

The utility model discloses starting from the source that the dust gived off, make the dust granule lose the power that drifts away in the air through modes such as front end control, spray, subside and get off. Through the unorganized emission source treatment technology, a plurality of dust sources such as transportation, loading and unloading, crushing, screening, belt transfer and the like can be effectively treated. Effectively reduces the dust emission in places such as mines, quarries, steel plants, storage yards, stock yards, ports and the like, obviously reduces PM2.5 and raise dust pollution, and improves the air quality.

Drawings

Fig. 1 is a schematic view of the structure of the present invention.

Wherein: 1. the system comprises a field spraying device, 11, a raw material bin spraying system, 12, a fence spraying system, 13, a conveyer belt spraying system, 14, a raw material transport vehicle cleaning system, 2, a field control system, 21, a raw material bin spraying system PLC controller, 22, a fence spraying system PLC controller, 23, a conveyer belt spraying system PLC controller, 24, a raw material transport vehicle cleaning system PLC controller, 3, an instrument monitoring system, 31, a dust emission detector, 32, a dust detector, 4, a network communication system, 41, an external network data server, 42, a first redundant data server, 43, a second redundant data server, 5, a data center system, 51, an intelligent spraying operation station, 52, an external network control station, 53, a printer, 54, a firewall, 55, a smart phone, 56, a government-related department, 6, a video monitoring system, 61, a video monitoring station, 62, a data center system, 62, a smart spraying operation station, 52, an external network control station, a printer, Camera 63, video server 7, industrial large screen system 71, large screen control station 72 and industrial splicing large screen.

Detailed Description

The technical solutions of the present invention will be described clearly and completely below with reference to specific embodiments, but those skilled in the art should understand that the embodiments described below are only used for illustrating the present invention and should not be construed as limiting the scope of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

The following will describe preferred embodiments of the present invention in detail with reference to examples. It should be understood that the following examples are given for illustrative purposes only and are not intended to limit the scope of the present invention. Various modifications and substitutions may be made by those skilled in the art without departing from the spirit and scope of the invention, and all such modifications and substitutions are intended to be included within the scope of the claims.

The experimental procedures used in the following examples are all conventional procedures unless otherwise specified. Materials, reagents and the like used in the following examples are commercially available unless otherwise specified.

An integrated intelligent management and control system for inorganically discharged dust is shown in a combined figure 1 and comprises an instrument monitoring system 3, a field control system 2, field spraying equipment 1, a data center system 5, a network communication system 4 and an industrial large-screen system 7.

The instrument monitoring system 3 is arranged in each plant area, and the instrument monitoring system 3 is used for detecting the dust condition of each plant area. The output end of the instrument monitoring system 3 is connected with the input end of the field control system 2.

And the field control system 2 is used for receiving a feedback signal of the instrument monitoring system 3, comparing the feedback signal with a set target value, calculating, and controlling the field spraying equipment 1 to operate according to a calculation result.

And the field spraying equipment 1 is arranged in each plant area, and the field spraying equipment 1 is used for receiving a control signal of the field control system 2 and spraying and removing dust from dust in each plant area. The controlled end of the field spray device 1 is connected to the output end of the field control system 2.

And the data center system 5 is arranged in the central control room, and the data center system 5 is used for collecting data of the instrument monitoring system 3 and the field control system 2 and issuing a control instruction and a set value of a process parameter to the field control system 2. The output ends of the instrument monitoring system 3 and the field control system 2 are respectively connected with the input end of a data center system 5 through a network communication system 4. The output end of the data center system 5 is connected to the controlled end of the field control system 2 through the network communication system 4.

And the network communication system 4 is used for transmitting the data of the instrument monitoring system 3 and the field control system 2 to the data center system 5 and transmitting a control instruction sent by the data center system 5 to the field control system 2.

And the industrial large-screen system 7 is arranged in the central control room, and the industrial large-screen system 7 is used for receiving data information output by the data center system 5 and displaying data of the instrument monitoring system 3, the field control system 2, the field spraying equipment 1, the data center system 5 and the network communication system 4. The input of the industrial large screen system 7 is connected to the output of the data center system 5.

The meter monitoring system 3 includes a dust detector 31 and a dust detector 32.

The dust emission detector 31 is installed at a designated position of each plant area, and the dust emission detector 31 is used for monitoring and displaying dust particles in each plant area in real time and uploading monitoring data to the data center through the network communication system 4. Specifically, the dust emission detector 31 monitors and displays indexes such as PM2.5 and PM10 in real time, and uploads monitoring data to the data center in real time in a 4G \5G wireless network transmission mode.

The dust detector 32 is installed at a position where dust is required to fall in each plant area, and the dust detector 32 is used for monitoring the dust concentration in each plant area, feeding monitoring data back to the field control system 2, and transmitting the data to the data center through the field control system 2.

The on-site spraying equipment 1 comprises a raw material bin spraying system 11, an enclosure spraying system 12, a conveying belt spraying system 13 and a raw material transport vehicle cleaning system 14.

Wherein, the raw material bin spraying system 11 can be a raw material shed spraying system or a raw material yard spraying system, etc. The raw material bin spraying system 11 comprises a coal shed spraying system, an ore bin spraying system, a sand bin spraying system and the like.

Raw materials include, but are not limited to, bulk materials such as ores, mineral powders, sand and stone materials, and coal.

Former feed bin spraying system 11, enclose fender spraying system 12 and raw materials transport vechicle cleaning system 14 and include shower, shower head, water tank, water pump, motor, solenoid valve and flowmeter respectively.

And the spray pipe is used for conveying spray water.

And the spray header is used for spraying spray water.

And the water tank is used for containing spray water.

And the water pump is arranged on the spray pipe and used for pumping the spray water in the water tank into the spray pipe.

And the motor is connected with the water pump and used for driving the water pump to operate, and the controlled end of the motor is connected with the output end of the field control system 2.

And the electromagnetic valve is arranged on the spray pipe and used for controlling the on-off of the spray pipe, and the controlled end of the electromagnetic valve is connected to the output end of the field control system 2.

And the flowmeter is arranged on the spray pipe and used for detecting the flow of spray water on the spray pipe, and the signal output end of the flowmeter is connected with the input end of the field control system 2.

The dust detector 32, the flow meter, the motor and the electromagnetic valve are electrically connected with the field control system 2 through a field bus respectively.

The field control system 2 is an electric control system mainly composed of PLC controllers and comprises a raw material bin spraying system PLC controller 21, an enclosure spraying system PLC controller 22, a conveying belt spraying system PLC controller 23 and a raw material transport vehicle cleaning system PLC controller 24. The PLC controllers compare and calculate according to the data of the dust detector and a set target value, and automatically control the operation of the field spraying equipment.

And the raw material bin spraying system PLC controller 21 is used for controlling the spraying operation of the raw material bin spraying system 11. The raw material bin spraying system PLC controller 21 can also be called a raw material shed spraying system PLC controller or a raw material yard spraying system PLC controller or the like.

And the enclosure spraying system PLC 22 is used for controlling the system spraying operation of the enclosure spraying system 12.

And the conveyor belt spraying system PLC controller 23 is used for controlling the spraying operation of the conveyor belt spraying system 13.

And the raw material transport vehicle cleaning system PLC 24 is used for controlling the spraying operation of the raw material transport vehicle cleaning system 14.

The data center system 5 includes redundant servers, a smart shower operator station 51, a printer 53, and an external network control station 52.

And the redundant server is used for acquiring data transmitted by the field control system and the instrument monitoring system, and storing, recording and displaying the data. The redundant servers comprise a first redundant data server 42 and a second redundant data server 43, and respectively transmit data transmitted by the instrument monitoring system 3 or the field control system 2 to the intelligent spraying operation station 51 by taking industrial Ethernet as a communication medium.

And the intelligent spraying operation station 51 is used for displaying data, issuing a control instruction to the field control system 2 and remotely operating the field spraying equipment.

The printer is used for printing a report chart of required data; and

and the external network control station 52 is used for transmitting the data information collected by the intelligent spraying operation station 51 to a government related department 56 or a smart phone 55 through the Internet. Specifically, the external network control station 52 transmits the data information to the government related department 56 through the internet, and the external network control station 52 transmits the data information to the smart phone 55 through the 4G \5G wireless network. A firewall 54 is provided between the external network control station 52 and the government-related department 56, and between the external network control station 52 and the smartphone 55.

The data center system 5 has the following functions:

1) and (5) a data acquisition function. This function is implemented by the redundant server and the network communication system 4.

And data of each dust detector and the field control system on the field are collected in real time and displayed in forms of a table, a bar chart, a pie chart and the like.

The data of other field control systems can be accessed, and the linkage among the systems is realized through the data.

2) And (5) controlling functions. This function is achieved by the intelligent spray operator station 51 and the network communication system 4.

And monitoring the operation of each system on the site. And issuing a control instruction according to the control requirement, and enabling each system to operate according to a set target.

3) A data service function. This function is realized by the cooperation of the intelligent spray operator station 51 and the external network control station 52.

And providing required data for relevant government departments and users.

The network communication system 4 comprises an external network data server 41, an industrial Ethernet switch, a network cable, 4G \5G network equipment and the like.

The industrial Ethernet switch and the network cable are used for transmitting signals of the instrument monitoring system and the field control system.

And the 4G \5G network equipment is used for uploading the monitoring data of the instrument monitoring system to the data center in real time in a 4G \5G wireless network transmission mode. The dust emission detector 31 uploads the monitoring data to the data center in real time in a 4G \5G wireless network transmission mode

The external network data server 41 transmits data transmitted by the meter monitoring system 3 or the field control system 2 to the external network control station 52 through an industrial ethernet as a communication medium.

The industrial large screen system 7 is mainly used for displaying various data and pictures, and display contents can be set as required. The industrial large screen system 7 includes a large screen control station 71 and an industrial tiled large screen 72.

And the large screen control station 71 is used for controlling the industrial spliced large screen 72 and computer pictures and contents required to be displayed by configuration.

And the industrial splicing large screen 72 is used for receiving the data information output by the large screen control station 71 and displaying the output data information.

The utility model discloses still include video monitor system 6, video monitor system 6 is used for shooting and monitors each factory actual conditions, can show each position monitoring condition of whole factory in real time according to the demand.

The video surveillance system 6 includes a camera 62, a video surveillance station 61 and a video server 63.

The video server is used for acquiring and storing video information shot by the camera; and

a video monitoring station for acquiring the content of the video server

The cameras 62 are arranged in each factory area, and the cameras 62 are used for shooting dust conditions of each factory area.

And the video server 63 collects and stores the video information shot by the camera 62 and transmits the information shot by the camera 62 to the video monitoring station 61.

And the video monitoring station 61 is used for acquiring the content of the video server 63.

The utility model discloses carrying out inorganization emission dust integration management and control process as follows.

The dust detector 31 and the dust detector 32 provided in each plant area monitor the dust condition in each plant area, respectively. The dust detector 32 firstly feeds back the monitoring data to the field control system 2, the field control system 2 compares and calculates the data of the dust detector 32 with a set target value, if the monitoring data value is greater than or equal to the set target value, the field control system 2 controls the corresponding field spraying equipment 1 to operate, namely controls the motor and the electromagnetic valve in the field spraying equipment 1 to operate, so that the spraying operation of the plant is realized, and the purpose of dedusting the plant is realized.

Meanwhile, the dust emission detector 31 transmits the monitoring signal to the intelligent spraying operation station 51 through the network communication system 4, and the field control system 2 transmits the received data information to the intelligent spraying operation station 51 through the network communication system 4 by using the industrial ethernet as a communication medium. The intelligent spraying operation station 51 outputs the data information to the large-screen control station 71, and the large-screen control station 71 outputs the data information to the industrial splicing large screen 72 for display.

The utility model provides a camera 62 shoots the back to the factory situation, can use industrial ethernet to the communication medium, will shoot information and transmit to video monitoring station 61 through video server 63, and then the staff of being convenient for looks over the situation in factory.

The utility model discloses an unorganized emission dust integration intelligence management and control system has realized the real-time supervision to the unorganized emission dust, effectively masters and scientific analysis unorganized emission dust distribution, data such as concentration, change law to according to the treatment measure of analysis result making according to local conditions, and carry out intelligent, scientific improvement, in order to improve the whole treatment efficiency of industrial and mining enterprises, reduce the treatment work management and control degree of difficulty.

The utility model discloses starting from the source that the dust gived off, make the dust granule lose the power that drifts away in the air through modes such as front end control, spray, subside and get off. Through the unorganized emission source treatment technology, a plurality of dust sources such as transportation, loading and unloading, crushing, screening, belt transfer and the like can be effectively treated. Effectively reduces the dust emission in places such as mines, quarries, steel plants, storage yards, stock yards, ports and the like, obviously reduces PM2.5 and raise dust pollution, and improves the air quality.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. The utility model provides an integration intelligence management and control system of unorganized emission dust which characterized in that includes:

the instrument monitoring system is arranged in each plant area and is used for detecting the dust condition of each plant area;

the field control system is used for receiving a feedback signal of the instrument monitoring system, comparing the feedback signal with a set target value and calculating;

the field spraying equipment is arranged in each plant area and used for receiving a field control system control signal and spraying and removing dust of dust in each plant area;

the data center system is arranged in the central control room and is used for acquiring data of the instrument monitoring system and the field control system and issuing a control instruction to the field control system;

the network communication system is used for transmitting the data of the instrument monitoring system and the field control system to the data center system and transmitting the control command issued by the data center system to the field control system; and

the industrial large-screen system is arranged in the central control room and is used for receiving data information output by the data center system and displaying data of the instrument monitoring system, the field control system, the field spraying equipment, the data center system and the network communication system.

2. The system of claim 1, wherein the meter monitoring system comprises:

the system comprises a dust detector, a data center and a data center, wherein the dust detector is arranged at a designated position of each plant area and is used for monitoring and displaying dust particles in each plant area in real time and uploading monitoring data to the data center through a network communication system; and

and the dust detector is arranged at the position, needing dust fall, of each plant area, and is used for monitoring the dust concentration in each plant area, feeding monitoring data back to the field control system, and transmitting the data to the data center by the field control system.

3. The system of claim 1, wherein the field spray equipment comprises a raw material bin spray system, a containment spray system, a conveyor belt spray system, and a raw material carrier cleaning system.

4. The system of claim 3, wherein the raw material bin spray system comprises a coal shed spray system, a mineral ore bin spray system, and a sand bin spray system.

5. The system of claim 3, wherein the site control system comprises:

the raw material bin spraying system PLC is used for controlling the spraying operation of the raw material bin spraying system;

the PLC controller of the enclosure spraying system is used for controlling the spraying operation of the enclosure spraying system;

the PLC controller of the conveyor belt spraying system is used for controlling the spraying operation of the conveyor belt spraying system; and

and the PLC controller of the raw material transport vehicle cleaning system is used for controlling the spraying operation of the raw material transport vehicle cleaning system.

6. The system of claim 1, wherein the data center system comprises:

the redundant server is used for acquiring data transmitted by the field control system and the instrument monitoring system, and storing, recording and displaying the data;

the intelligent spraying operation station is used for displaying data and remotely operating the field spraying equipment;

the printer is used for printing a report chart of required data; and

and the external network control station is used for transmitting the data information acquired by the intelligent spraying operation station to relevant government departments or intelligent mobile phones through the Internet.

7. The system of claim 6, wherein the network communication system comprises:

the industrial Ethernet switch and the network cable are used for transmitting signals of the instrument monitoring system and the field control system; and

and the 4G \5G network equipment is used for uploading the monitoring data of the instrument monitoring system to the data center in real time in a 4G \5G wireless network transmission mode.

8. The system according to claim 1, further comprising a video monitoring system for capturing and monitoring the actual conditions of each plant area, wherein the output end of the video monitoring system is connected to the input end of the data center system.

9. The system of claim 8, wherein the video surveillance system comprises:

the cameras are arranged in each factory area and used for shooting the dust condition of each factory area;

the video server is used for acquiring and storing video information shot by the camera; and

and the video monitoring station is used for acquiring the content of the video server.

10. The system of claim 1, wherein the industrial large screen system comprises a large screen control station and an industrial splicing large screen;

the large-screen control station is used for controlling the computer pictures and contents required to be displayed by industrial splicing large screens and configuration;

and the industrial spliced large screen is used for receiving the data information output by the large screen control station and displaying the output data information.

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