CN110846448A - Unmanned control system and control process for slag pot logistics in slag treatment workshop by drum method - Google Patents
Unmanned control system and control process for slag pot logistics in slag treatment workshop by drum method Download PDFInfo
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- CN110846448A CN110846448A CN201911326408.7A CN201911326408A CN110846448A CN 110846448 A CN110846448 A CN 110846448A CN 201911326408 A CN201911326408 A CN 201911326408A CN 110846448 A CN110846448 A CN 110846448A
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- slag
- pot
- ladle
- steel
- control device
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- 239000002893 slag Substances 0.000 title claims abstract description 475
- 238000000034 method Methods 0.000 title claims abstract description 32
- 229910000831 Steel Inorganic materials 0.000 claims abstract description 81
- 239000010959 steel Substances 0.000 claims abstract description 81
- 238000009628 steelmaking Methods 0.000 claims abstract description 26
- 230000032258 transport Effects 0.000 claims description 100
- 238000005303 weighing Methods 0.000 claims description 44
- 239000000463 material Substances 0.000 claims description 28
- 239000013049 sediment Substances 0.000 claims 4
- 230000002159 abnormal effect Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 239000000428 dust Substances 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 239000000383 hazardous chemical Substances 0.000 description 1
- 239000007788 liquid Substances 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
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- C—CHEMISTRY; METALLURGY
- C21—METALLURGY OF IRON
- C21B—MANUFACTURE OF IRON OR STEEL
- C21B3/00—General features in the manufacture of pig-iron
- C21B3/04—Recovery of by-products, e.g. slag
- C21B3/06—Treatment of liquid slag
- C21B3/10—Slag pots; Slag cars
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- C—CHEMISTRY; METALLURGY
- C21—METALLURGY OF IRON
- C21B—MANUFACTURE OF IRON OR STEEL
- C21B3/00—General features in the manufacture of pig-iron
- C21B3/04—Recovery of by-products, e.g. slag
- C21B3/06—Treatment of liquid slag
-
- C—CHEMISTRY; METALLURGY
- C21—METALLURGY OF IRON
- C21B—MANUFACTURE OF IRON OR STEEL
- C21B2400/00—Treatment of slags originating from iron or steel processes
- C21B2400/05—Apparatus features
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W30/00—Technologies for solid waste management
- Y02W30/50—Reuse, recycling or recovery technologies
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Manufacturing & Machinery (AREA)
- Materials Engineering (AREA)
- Metallurgy (AREA)
- Organic Chemistry (AREA)
- Refinement Of Pig-Iron, Manufacture Of Cast Iron, And Steel Manufacture Other Than In Revolving Furnaces (AREA)
- Casting Support Devices, Ladles, And Melt Control Thereby (AREA)
- Carbon Steel Or Casting Steel Manufacturing (AREA)
Abstract
The invention relates to a logistics unmanned control system and a control flow of slag pots in a slag treatment workshop by a roller method, wherein the unmanned control system comprises a workshop main control device, a plurality of slag pot delivery trucks, a plurality of roller devices, a plurality of cranes and a slag pot overturning area which are electrically connected with the workshop main control device; if the slag ladle processed by the tipping platform contains steel slag, the slag ladle is transported to a slag ladle tipping area by a crane for deslagging, and after deslagging is finished, the empty slag ladle is transported to a steel-making device for receiving the steel slag. The invention builds an unmanned and intelligent slag treatment workshop through the unmanned control of the slag pot logistics.
Description
Technical Field
The invention relates to a roller method slag treatment workshop, in particular to an unmanned control system and a control flow for slag pot logistics in the roller method slag treatment workshop.
Background
The treatment object in the slag treatment workshop is red slag with the temperature of 1200-1500 ℃, and operators often face the environmental hazards of high temperature, high dust and the like in the treatment process. In order to improve the working efficiency and the working environment, an unmanned slag treatment workshop is urgently needed by steel plants.
Disclosure of Invention
In order to solve the problems, the invention provides an unmanned control system for slag pot material flow in a slag treatment workshop by a roller method, which comprises the following steps:
a workshop main control device;
the slag pot conveying vehicles are in communication connection with the workshop main control device respectively, and slag pots are transported by the slag pot conveying vehicles;
the plurality of roller devices are respectively in communication connection with the workshop main control device;
the cranes are in communication connection with the workshop main control device, the slag ladle which receives the steel slag from the steel-making device is transported to a slag processing workshop through the slag ladle transport vehicle, the crane transports the slag ladle to a tilting platform of the roller device for steel slag processing, if no steel slag exists in the slag ladle processed by the tilting platform, the empty slag ladle is transported to the slag ladle transport vehicle through the crane, and the slag ladle transport vehicle is transported to the steel-making device for steel slag reception;
the slag pot turning area is in communication connection with the workshop main control device; if steel slag exists in the slag ladle processed by the tipping platform, the slag ladle is transported to the slag ladle tipping area by the crane for deslagging, after deslagging is completed, the empty slag ladle is transported to a slag ladle transport vehicle by the crane, and the slag ladle transport vehicle transports the empty slag ladle to a steel-making device for receiving the steel slag.
Preferably, the system also comprises a slag pot fixing and placing area, wherein the slag pot fixing and placing area is in communication connection with the workshop main control device;
if no steel slag exists in the slag ladle processed by the tipping platform and the plurality of slag ladle transport vehicles do not have a ladle receiving condition, the slag ladle is transported to the slag ladle fixing and placing area through a crane and temporarily placed so as to be transported to a steel making device through a subsequent slag ladle transport vehicle with the ladle receiving condition to receive the steel slag;
if the slag pot processed by the tipping platform contains steel slag, but the slag pot tipping area does not have the condition of slag dumping, the slag pot is transported to the slag pot fixing and placing area by a crane for temporary placement, so that the slag pot is transported to the tipping platform of the roller device with the condition of steel slag processing by the crane for steel slag processing.
Preferably, the slag pot fixing and placing area is provided with a plurality of slag pot supports, the slag pot supports are provided with weighing devices, and the weighing devices are used for detecting the material condition in the slag pot on the slag pot supports; the plurality of weighing devices are respectively in communication connection with the control device of the slag pot fixing and placing area, and the control device of the slag pot fixing and placing area is in communication connection with the workshop main control device; when a slag pot is placed on the slag pot support, the weighing device correspondingly sends the material condition in the slag pot to the cranes through the workshop main control device.
Preferably, a weighing system is arranged on the tipping platform, and the weighing device is used for detecting the condition of materials in a slag tank on the tipping platform; the weighing system is in communication connection with the control device of the roller device, the control device of the roller device is in communication connection with the workshop main control device, and the tipping platform can send the material condition in the slag tank on the tipping platform to the workshop main control device through the control device of the roller device;
and the tilting platform steel slag is returned after being processed, and the return information is sent to the slag pot transport vehicle and the crane through the workshop main control device.
Preferably, the slag pot transport vehicle is provided with a weighing device, and the weighing device is used for detecting the material condition in the slag pot on the slag pot transport vehicle; the weighing system is in communication connection with a control device of the slag pot transport vehicle, and the control device of the slag pot transport vehicle is in communication connection with the workshop main control device; the slag pot transport vehicle can send the material condition in the slag pot on the slag pot transport vehicle to the crane through the workshop main control device.
Preferably, the slag pot turning area is provided with a plurality of slag pot supports, the slag pot supports are provided with weighing devices, and the weighing devices are used for detecting the material condition in the slag pot on the slag pot supports; the plurality of weighing devices are in communication connection with the control device of the slag pot turning area, and the control device of the slag pot turning area is in communication connection with the workshop main control device; when a slag pot is placed on the slag pot support, the weighing device correspondingly sends the material condition in the slag pot to the cranes through the workshop main control device.
The invention also provides an unmanned control flow of slag pot logistics in the slag treatment workshop by the roller method, which comprises the following steps:
transporting slag cans which receive steel slag from a steelmaking device to a slag processing workshop through a slag can transport vehicle, transporting the slag cans to a tilting platform of a roller device by a crane for steel slag processing, if no steel slag exists in the slag cans processed by the tilting platform, transporting empty slag cans to a slag can transport vehicle through the crane, and transporting the empty slag cans to the steelmaking device through the slag can transport vehicle for steel slag receiving;
if steel slag exists in the slag ladle processed by the tipping platform, the slag ladle is transported to the slag ladle tipping area by the crane for deslagging, after deslagging is completed, the empty slag ladle is transported to a slag ladle transport vehicle by the crane, and the slag ladle transport vehicle transports the empty slag ladle to a steel-making device for receiving the steel slag.
Preferably, if no steel slag exists in the slag ladle processed by the tipping platform and the plurality of slag ladle transport vehicles do not have a slag ladle receiving condition, the slag ladle is transported to the slag ladle fixing and placing area through the crane and temporarily placed so as to be transported to a steel making device through a subsequent slag ladle transport vehicle with a slag ladle receiving condition to receive the steel slag.
Preferably, if there is steel slag in the slag ladle after the treatment of the tipping platform, but the slag ladle tipping area does not have the condition of slag dumping, the slag ladle is transported to the slag ladle fixing and placing area by a crane for temporary placement, so that the slag ladle is transported to the tipping platform of the roller device with the condition of steel slag treatment by the crane for steel slag treatment.
Compared with the prior art, the invention has the following technical effects:
the roller method slag treatment workshop takes the slag pot logistics operation as the center, and the slag pot is placed on different stations by a crane for unmanned automatic circulation, namely the invention creates the unmanned and intelligent slag treatment workshop through the unmanned control of the slag pot logistics.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. In the drawings:
FIG. 1 is a block diagram of an unmanned control system for slag pot flow in a drum-process slag processing plant according to a preferred embodiment of the present invention;
FIG. 2 is a layout view of a drum-process slag handling plant according to a preferred embodiment of the present invention;
FIG. 3 is a schematic diagram of an unmanned control flow of slag pot logistics in a slag treatment plant adopting a roller method according to a preferred embodiment of the invention.
Detailed Description
The following will describe in detail the unmanned control system for slag pot logistics in a slag processing plant by a drum method with reference to fig. 1 to 3, which is implemented on the premise of the technical solution of the present invention, and a detailed implementation and a specific operation process are provided, but the protection scope of the present invention is not limited to the following examples, and those skilled in the art can modify and color the slag pot logistics without changing the spirit and content of the present invention.
Referring to fig. 1 and 2, an unmanned control system for slag ladle logistics in a slag treatment workshop adopting a roller method comprises a workshop main control device 6, and a plurality of slag ladle transport vehicles 1, a plurality of roller devices 2, a plurality of cranes 5, a slag ladle fixed placement area 3 and a slag ladle overturning area 4 which are in communication connection with the workshop main control device 6, wherein the control system realizes unmanned automatic circulation of slag ladles on the slag ladle transport vehicles 1, the roller devices 2, the cranes 5, the slag ladle fixed placement area 3 and the slag ladle overturning area 4 according to fixed unmanned logistics. These sections are described in detail below.
Slag ladle transport vehicle 1
And the slag pot transport vehicles 1 are respectively in communication connection with the workshop main control device 6, and the slag pots are transported by the slag pot transport vehicles 1. The number of the slag pot transport vehicles 1 is not particularly limited, and the slag pot transport vehicles can be set according to specific requirements in a workshop and can be set with driving routes. In this embodiment, each slag pot transport vehicle 1 is provided with a control device and a weighing device, and the weighing device is used for detecting the material condition in the slag pot on the slag pot transport vehicle 1. On the same slag pot transport vehicle 1, the weighing system is in communication connection with a control device of the slag pot transport vehicle 1, and the control device of the slag pot transport vehicle 1 is in communication connection with the workshop main control device 6; the slag pot transport vehicle 1 can send the material condition in the slag pot on the slag pot transport vehicle to the crane 5 through the workshop main control device 6.
The slag pot transport vehicle 1 is used for automatically placing a slag pot at a specified position according to logic control and sending a signal for taking the slag pot by the crane 5; the slag pot transport vehicle 1 is provided with a weighing system passing through it so as to send the state of it at any time: whether a slag tank is available or not, and the material condition in the slag tank is used for operation judgment of the crane 5.
The plurality of roller devices 2 are respectively in communication connection with the workshop main control device 6. The roller device 2 is used for processing the steel slag. In the invention, the roller devices 2 are automatic mechanical equipment, and the number of the roller devices 2 is not particularly limited and can be set according to specific requirements in a workshop. In this embodiment, each roller device 2 is provided with a control device, the tipping platform of each roller device 2 is provided with a weighing system, the weighing device is used for detecting the material condition in the slag tank on the tipping platform, and the weighing system is in communication connection with the control device of the roller device 2. On the same roller device 2, a control device of the roller device 2 is in communication connection with the workshop main control device 6, and the tipping platform can send the material condition in the slag tank on the tipping platform to the workshop main control device 6 through the control device of the roller device 2;
the tilting platform steel slag is returned after being processed, and the return information is sent to the slag pot transport vehicle 1 and the crane 5 through the workshop main control device 6;
the roller device 2 has the function of automatically receiving the slag tank at the designated position according to logic control; a function of waiting for the crane 5 to take the slag pot (with or without material) after the operation is finished and the slag pot is returned to a designated position; the roller device 2 has the function of timely displaying the material condition of the slag pot, and communicates with the crane 5 at any time to judge the operation of the crane 5.
Crane 5
The cranes 5 are in communication connection with the workshop main control device 6, slag cans which receive steel slag from the steel-making device 7 are transported to a slag processing workshop 8 through the slag can transport vehicle 1, the cranes 5 transport the slag cans to a tilting platform of the roller device 2 for steel slag processing, if no steel slag exists in the slag cans processed by the tilting platform, the empty slag cans are transported to the slag can transport vehicle 1 through the cranes 5, and the empty slag cans are transported to the steel-making device 7 through the slag can transport vehicle 1 to receive the steel slag;
the crane 5 has the function of automatically realizing corresponding tank taking or tank placing of the slag tank on the slag tank transport vehicle 1, the roller device 2, the slag tank fixing and placing area 3 and the slag tank turning area 4 according to logic control; in order to ensure safe production, the main hook and the auxiliary hook of the crane 5 are always in the upper limit position (can be adjusted according to requirements) when being idle, the slag ladle taken out at each place is always lifted to the upper limit position, and then the cart and the trolley are moved.
Slag ladle overturning area 4
The slag ladle overturning area 4 is in communication connection with the workshop main control device 6; if steel slag exists in the slag ladle processed by the tipping platform, the slag ladle is transported to the slag ladle tipping area 4 by the crane 5 for deslagging, after deslagging is completed, the empty slag ladle is transported to the slag ladle transport vehicle 1 by the crane 5, and the slag ladle transport vehicle 1 transports the empty slag ladle to the steel-making device 7 for receiving the steel slag.
In this embodiment, the slag pot overturning area 4 is provided with a control device and a plurality of slag pot supports, each of which is provided with a weighing device, and each weighing device is used for detecting the material condition in the slag pot on the slag pot support corresponding to the weighing device. The weighing device is in communication connection with the control device of the slag ladle overturning area 4, and the control device of the slag ladle overturning area 4 is in communication connection with the workshop main control device. When a slag pot is placed on the slag pot support, the corresponding weighing device sends the material condition in the slag pot to the crane 5 through the workshop main control device 6.
Slag pot fixing and placing area 3
The slag pot fixing and placing area 3 is in communication connection with the workshop main control device 6. The fixed district 3 of placing of slag ladle is equipped with controlling means and a plurality of slag ladle support, each all be provided with weighing device on the slag ladle support, weighing device is used for detecting the material condition in the slag ladle on the slag ladle support. The weighing devices are respectively in communication connection with the control device of the slag pot fixing and placing area, and the control device of the slag pot fixing and placing area is in communication connection with the workshop main control device. When the slag pot is placed on the slag pot support, the weighing device sends the material condition in the slag pot to the crane 5 through the workshop main control device 6. If no steel slag exists in the slag ladle processed by the tipping platform and the slag ladle transport vehicles 1 do not have the condition of receiving the slag ladle, the slag ladle is transported to the slag ladle fixing and placing area 3 through the crane 5 and temporarily placed so as to be transported to the steel making device 7 through the subsequent slag ladle transport vehicle 1 with the condition of receiving the slag ladle. In this embodiment, if there is steel slag in the slag ladle processed by the tipping table, but the slag ladle tipping area 4 does not have the condition of dumping the slag (if the steel slag in the slag ladle tipping area 4 is full, this information can be measured by the weighing device thereon, and cannot bear more steel slag to dump), then the slag ladle is transported to the slag ladle fixing and placing area 3 by a crane 5 for temporary placement, so that the slag ladle is transported to the tipping table of the roller device 2 having the condition of processing the steel slag by the crane 5 for steel slag processing.
Referring to fig. 3, the present invention further provides an unmanned control process for slag pot logistics in a slag treatment workshop by a roller method, which includes normal operation, heavy-pot operation, and abnormal operation, and the following operations are respectively described in detail:
normal operation
A slag ladle receiving steel slag from the steel making device 7 (such as pouring the steel slag into the slag ladle through a converter) is transported to a parking space of a slag processing workshop 8 through a slag ladle transport vehicle 1, the slag ladle transport vehicle 1 sends an in-place instruction after being in place, a crane 5 receives the instruction and makes operation judgment according to the tilting platform state of a roller device 2 (the tilting platform judges whether the tilting platform is in a ladle receiving position according to a control device of the roller device 2, whether the tilting platform has a ladle receiving condition or not, and if the tilting platform is in the ladle receiving position, the crane 5 sends a prepared instruction), and if the tilting platform of the roller device 2 is not in the ladle receiving position, the slag ladle cannot be transported to the tilting platform of the roller device 2 from the slag ladle transport vehicle 1; if the tipping platform of the roller device 2 is at the receiving position and has the receiving condition, the crane 5 transports the slag pot from the slag pot transport vehicle 1 to the tipping platform of the roller device 2 for steel slag treatment.
After the steel slag is processed, the tilting platform returns to the state of being capable of taking the slag pot, and at the moment, an instruction for returning the tilting platform to the original state is sent. The crane 5 finishes the tank taking operation after receiving the instruction, and the next action after the crane 5 takes the tank is divided into the following conditions:
if no steel slag exists in the slag ladle processed by the tipping platform, the crane 5 transports the empty slag ladle to a slag ladle transport vehicle 1 with a ladle sitting state, and the empty slag ladle is transported to a steel making device 7 through the slag ladle transport vehicle 1 to be connected with the steel slag; if no slag ladle transport vechicle 1 possesses the state of sitting the jar, hoist 5 then puts the slag ladle at the fixed district 3 of placing of slag ladle and keeps in, when having slag ladle transport vechicle 1 to possess the state of sitting the jar, hoist 5 puts the slag ladle again and possesses the slag ladle transport vechicle 1 of sitting the jar state, transports empty slag ladle to steelmaking device 7 department through this slag ladle transport vechicle 1 and connects the slag.
If the slag ladle processed by the tipping platform contains steel slag, the slag ladle is transported to the slag ladle tipping area 4 by the crane 5 for deslagging, and after deslagging is finished, the empty slag ladle is transported to the slag ladle transport vehicle 1 by the crane 5 and transported to the steel-making device 7 by the slag ladle transport vehicle 1 for receiving the steel slag; if no slag ladle transport vechicle 1 possesses the state of sitting the jar, hoist 5 then puts the slag ladle at the fixed district 3 of placing of slag ladle and keeps in, when having slag ladle transport vechicle 1 to possess the state of sitting the jar, hoist 5 puts the slag ladle again and possesses the slag ladle transport vechicle 1 of sitting the jar state, transports empty slag ladle to steelmaking device 7 department through this slag ladle transport vechicle 1 and connects the slag.
If the slag pot processed by the tipping platform contains steel slag, but the slag pot tipping area 4 does not have the condition of slag dumping, the slag pot is transported to the slag pot fixing and placing area 3 by the crane 5 for temporary placement, and when the tipping platform of any roller device 2 has the condition of steel slag processing, the slag pot is transported to the tipping platform of the roller device 2 by the crane 5 for steel slag processing.
Heavy tank operation
The heavy slag tank operation means that when the display numerical value of the overload limiter of the main coil of the crane 5 is larger than the rated lifting capacity, the slag tank is the heavy slag tank, and the corresponding operation is as follows:
the crane 5 lifts the heavy slag ladle to the ladle overturning area 4 for releasing (releasing means pouring the steel slag). After the releasing is finished, the crane 5 puts the slag pot back to any slag pot transport vehicle 1 with a sitting tank, and if the slag pot transport vehicle 1 does not have receiving conditions, the crane 5 stores the slag pot in the slag pot fixing and placing area 3.
Abnormal operation
1) Under the conditions that foreign matters exist on slag pot trunnions or large blocks of cold steel at a furnace mouth exist in the slag pot, and the like, a main coil portal frame of the crane 5 cannot descend to enable plates to be hooked into the trunnions, and can be lifted to the roller device 2 or the slag pot overturning area 4 for releasing after treatment; the information is notified to the control device of the crane 5 by the operator of the slag pot carrier 1; after the slag pot transport vehicle 1 is in place, the slag pot transport vehicle is manually processed.
2) The liquid steel slag in the slag ladle is encrusted due to the fact that the steel slag in the slag ladle is untreated for a long time (due to faults of the slag ladle transport vehicle 1 and the like), and the steel slag needs to be lifted to the slag ladle overturning area 4 by the crane 5 to be subjected to crust breaking treatment and then to be put on the roller device 2 for operation; this information is confirmed by the surface operator and manually processed at the appropriate time.
3) When the tilting table of the roller system tilts to the process, molten steel or large slag steel is found in the slag pot (which can be found by manual observation through a camera system), and a crane 5 is needed to lift the slag pot to tilt the pot area 4 for discharge; this information is confirmed by the floor drum operator and manually processed at the appropriate time.
Claims (9)
1. The utility model provides an unmanned control system of sediment jar commodity circulation in cylinder method sediment processing workshop which characterized in that includes:
a workshop main control device;
the slag pot conveying vehicles are in communication connection with the workshop main control device respectively, and slag pots are transported by the slag pot conveying vehicles;
the plurality of roller devices are respectively in communication connection with the workshop main control device;
the cranes are in communication connection with the workshop main control device, the slag ladle which receives the steel slag from the steel-making device is transported to a slag processing workshop through the slag ladle transport vehicle, the crane transports the slag ladle to a tilting platform of the roller device for steel slag processing, if no steel slag exists in the slag ladle processed by the tilting platform, the empty slag ladle is transported to the slag ladle transport vehicle through the crane, and the slag ladle transport vehicle is transported to the steel-making device for steel slag reception;
the slag pot turning area is in communication connection with the workshop main control device; if steel slag exists in the slag ladle processed by the tipping platform, the slag ladle is transported to the slag ladle tipping area by the crane for deslagging, after deslagging is completed, the empty slag ladle is transported to a slag ladle transport vehicle by the crane, and the slag ladle transport vehicle transports the empty slag ladle to a steel-making device for receiving the steel slag.
2. The system for unmanned control of slag pot logistics in a slag treatment workshop adopting a roller method according to claim 1, further comprising a slag pot fixing and placing area, wherein the slag pot fixing and placing area is in communication connection with the workshop main control device;
if no steel slag exists in the slag ladle processed by the tipping platform and the plurality of slag ladle transport vehicles do not have a ladle receiving condition, the slag ladle is transported to the slag ladle fixing and placing area through a crane and temporarily placed so as to be transported to a steel making device through a subsequent slag ladle transport vehicle with the ladle receiving condition to receive the steel slag;
if the slag pot processed by the tipping platform contains steel slag, but the slag pot tipping area does not have the condition of slag dumping, the slag pot is transported to the slag pot fixing and placing area by a crane for temporary placement, so that the slag pot is transported to the tipping platform of the roller device with the condition of steel slag processing by the crane for steel slag processing.
3. The unmanned control system for the logistics of the slag pot in the slag treatment workshop by the roller method according to claim 2, wherein a plurality of slag pot brackets are arranged in the slag pot fixing and placing area, weighing devices are arranged on the slag pot brackets, and the weighing devices are used for detecting the conditions of materials in the slag pot on the slag pot brackets; the plurality of weighing devices are respectively in communication connection with the control device of the slag pot fixing and placing area, and the control device of the slag pot fixing and placing area is in communication connection with the workshop main control device; when a slag pot is placed on the slag pot support, the weighing device correspondingly sends the material condition in the slag pot to the cranes through the workshop main control device.
4. The logistics unmanned control system for the slag pot in the slag processing workshop adopting the roller method according to claim 1, wherein a weighing system is arranged on the tipping platform, and the weighing device is used for detecting the condition of materials in the slag pot on the tipping platform; the weighing system is in communication connection with the control device of the roller device, the control device of the roller device is in communication connection with the workshop main control device, and the tipping platform can send the material condition in the slag tank on the tipping platform to the workshop main control device through the control device of the roller device;
and the tilting platform steel slag is returned after being processed, and the return information is sent to the slag pot transport vehicle and the crane through the workshop main control device.
5. The system for unmanned control of slag pot logistics in a slag processing workshop by a roller method according to claim 1, wherein a weighing device is arranged on the slag pot transport vehicle and used for detecting the condition of materials in the slag pot on the slag pot transport vehicle; the weighing system is in communication connection with a control device of the slag pot transport vehicle, and the control device of the slag pot transport vehicle is in communication connection with the workshop main control device; the slag pot transport vehicle can send the material condition in the slag pot on the slag pot transport vehicle to the crane through the workshop main control device.
6. The unmanned control system for the logistics of the slag pot in the slag treatment workshop by the roller method according to claim 1, wherein the slag pot turning area is provided with a plurality of slag pot supports, the slag pot supports are provided with weighing devices, and the weighing devices are used for detecting the conditions of materials in the slag pot on the slag pot supports; the plurality of weighing devices are in communication connection with the control device of the slag pot turning area, and the control device of the slag pot turning area is in communication connection with the workshop main control device; when a slag pot is placed on the slag pot support, the weighing device correspondingly sends the material condition in the slag pot to the cranes through the workshop main control device.
7. The utility model provides an unmanned control procedure of sediment jar commodity circulation in cylinder method sediment processing workshop which characterized in that includes:
transporting slag cans which receive steel slag from a steelmaking device to a slag processing workshop through a slag can transport vehicle, transporting the slag cans to a tilting platform of a roller device by a crane for steel slag processing, if no steel slag exists in the slag cans processed by the tilting platform, transporting empty slag cans to a slag can transport vehicle through the crane, and transporting the empty slag cans to the steelmaking device through the slag can transport vehicle for steel slag receiving;
if steel slag exists in the slag ladle processed by the tipping platform, the slag ladle is transported to the slag ladle tipping area by the crane for deslagging, after deslagging is completed, the empty slag ladle is transported to a slag ladle transport vehicle by the crane, and the slag ladle transport vehicle transports the empty slag ladle to a steel-making device for receiving the steel slag.
8. The unmanned control process for the logistics of slag pots in a slag processing workshop by a roller method according to claim 7, wherein if no steel slag exists in the slag pots processed by the tilting platform, and none of the plurality of slag pot transport carts has a slag receiving condition, the slag pot is transported to the slag pot fixing and placing area by a crane and temporarily placed so as to be transported to a steel making device by a subsequent slag pot transport cart with a slag receiving condition to receive the steel slag.
9. The unmanned control process for the logistics of slag pots in a slag processing plant by a drum method according to claim 7, wherein if the slag pot processed by the tilting table contains steel slag but the tilting zone of the slag pot does not have the condition of slag dumping, the slag pot is transported to the fixed placing zone of the slag pot by a crane for temporary placement so as to be transported to the tilting table of the drum device with the condition of steel slag processing by the crane for steel slag processing.
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