CN109014101A - A kind of continuous casting mold slab water vapor cooling device and its regulation and control system - Google Patents
A kind of continuous casting mold slab water vapor cooling device and its regulation and control system Download PDFInfo
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- CN109014101A CN109014101A CN201810549347.XA CN201810549347A CN109014101A CN 109014101 A CN109014101 A CN 109014101A CN 201810549347 A CN201810549347 A CN 201810549347A CN 109014101 A CN109014101 A CN 109014101A
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- 238000001816 cooling Methods 0.000 title claims abstract description 33
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Chemical compound O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 24
- 238000009749 continuous casting Methods 0.000 title claims abstract description 20
- 238000005266 casting Methods 0.000 claims abstract description 37
- 239000000758 substrate Substances 0.000 claims abstract description 31
- 238000009434 installation Methods 0.000 claims abstract description 23
- 238000000034 method Methods 0.000 claims description 25
- 230000008569 process Effects 0.000 claims description 22
- 230000005540 biological transmission Effects 0.000 claims description 14
- 238000012806 monitoring device Methods 0.000 claims description 13
- 230000005622 photoelectricity Effects 0.000 claims description 11
- 230000007246 mechanism Effects 0.000 claims description 10
- 238000012544 monitoring process Methods 0.000 claims description 9
- 239000007921 spray Substances 0.000 claims description 8
- 238000002347 injection Methods 0.000 claims description 4
- 239000007924 injection Substances 0.000 claims description 4
- 239000002699 waste material Substances 0.000 abstract description 5
- 238000005507 spraying Methods 0.000 abstract description 2
- 238000010586 diagram Methods 0.000 description 9
- 238000010276 construction Methods 0.000 description 6
- 239000000498 cooling water Substances 0.000 description 3
- 239000002344 surface layer Substances 0.000 description 3
- 238000001704 evaporation Methods 0.000 description 2
- 230000008020 evaporation Effects 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 239000002184 metal Substances 0.000 description 2
- 239000000243 solution Substances 0.000 description 2
- 230000009471 action Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 238000005265 energy consumption Methods 0.000 description 1
- 239000003595 mist Substances 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
- 230000007723 transport mechanism Effects 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22D—CASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
- B22D11/00—Continuous casting of metals, i.e. casting in indefinite lengths
- B22D11/12—Accessories for subsequent treating or working cast stock in situ
- B22D11/124—Accessories for subsequent treating or working cast stock in situ for cooling
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22D—CASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
- B22D11/00—Continuous casting of metals, i.e. casting in indefinite lengths
- B22D11/12—Accessories for subsequent treating or working cast stock in situ
- B22D11/124—Accessories for subsequent treating or working cast stock in situ for cooling
- B22D11/1246—Nozzles; Spray heads
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22D—CASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
- B22D11/00—Continuous casting of metals, i.e. casting in indefinite lengths
- B22D11/16—Controlling or regulating processes or operations
- B22D11/22—Controlling or regulating processes or operations for cooling cast stock or mould
- B22D11/225—Controlling or regulating processes or operations for cooling cast stock or mould for secondary cooling
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Tunnel Furnaces (AREA)
Abstract
The invention discloses a kind of continuous casting mold slab water vapor cooling device and its regulation and control system, it is related to casting cooling control set for adjusting system regions.In the present invention: being fixed with range unit fixed substrate above conveyer belt;Ranging sensing device part is fixed in range unit fixed substrate;Return-air pump installation part is fixed on first adjusting substrate;Steam pump installation part is fixed in first fixed substrate.The present invention is monitored by height of the photoelectric sensing plate to the casting to be cooled on conveyer belt, and the position of return-air connecting leg is adjusted by the first telescopic adjustment power device;The present invention is by being arranged the ranging sensing device part being made of several range sensors, vapor device on driving corresponding position carries out cooling steam spraying, and the gas-returning devices on corresponding position is driven to carry out return-air operation, the waste for effectively reducing the water resource in empty region, reduces electric energy loss to a certain extent.
Description
Technical field
The present invention relates to the cooling control set for adjusting system regions of casting more particularly to a kind of continuous casting mold slab steam are cold
But device and its regulation and control system.
Background technique
Continuously casting is a kind of method of casting, and principle is constantly to pour into one kind and be called knot molten metal
In particulate metal type of brilliant device, the casting for solidifying or having crusted continuously is pulled out from the other end of crystallizer, it can get
The casting of arbitrarily long or specific length.
In the casting come out out of crystallizer, temperature is still higher, consequently facilitating quickly carrying out to high temperature ingot casting
Mill operation obtains corresponding cast product;And the temperature of cast product at this time is still higher, needs further at this time
Casting product carries out corresponding cooling down operation.But traditional continuous casting is using the cooling steam of directly sprinkling, nothing
Method carries out cooling down operation according to the product size of casting or the position being in, and causes the waste of a large amount of water resource, also increases
The big electric energy energy consumption of cooling system, while the high temperature water mist formed on cast product to be cooled also counteracts its rate of temperature fall;
The waste for how effectively reducing the cooling water resources during continuously casting reduces the electric energy loss of its cooling system, Yi Jiti
It rises with the cooling rate on cooling casting, becomes problem to be solved.
Summary of the invention
The technical problem to be solved in the present invention is to provide a kind of continuous casting mold slab water vapor cooling device and its adjust control
System also reduces electric energy loss to effectively reduce the waste of the water resource in empty region to a certain extent;So that
The evaporation hot gas of cooling cast product surface layer can be recycled quickly, effectively accelerated the cooling rate of casting to be cooled, mentioned
The casting quality of casting to be cooled is risen.
In order to solve the above technical problems, the present invention is achieved by the following technical solutions:
The present invention provides a kind of continuous casting mold slab water vapor cooling device system, including conveyer belt, and transmission needs cold on conveyer belt
But casting;The side of conveyer belt is fixed with the first grating sensing monitoring device;First grating sensing monitoring device is equipped with and conveyer belt position
Set the photoelectric sensing plate matched.
Range unit fixed substrate is fixed with above conveyer belt;Ranging sensing is fixed in range unit fixed substrate
Device part.
Including the first telescopic adjustment power device, telescopic adjustment is connected on the output shaft of the first telescopic adjustment power device
Link mechanism;The end side of telescopic adjustment link mechanism is fixedly connected with the first adjusting substrate;It is fixed on first adjusting substrate
Return-air pump installation part.
Including the first fixed substrate, steam pump installation part is fixed in the first fixed substrate.
Including main process task controller, the first grating sensing monitoring device passes through data information transfer route and main process task controller phase
Even;Ranging sensing device part is connected by data information transfer route with main process task controller;Main process task controller passes through electricity
Gas control transmission line is connected with the first telescopic adjustment power device;Main process task controller passes through electrical control transmission line and water
Heat pump device part is connected;Main process task controller is connected by electrical control transmission line with return-air pump installation part.
Further, it first adjusts on substrate including adjusting support frame plates;Adjust side and the telescopic adjustment of support frame plates
Link mechanism is fixedly connected.
Further, ranging sensing device part includes the first distance measuring sensor, second distance sensor, third distance biography
Sensor, the 4th range sensor and the 5th range sensor;First distance measuring sensor, second distance sensor, third distance pass
Sensor, the 4th range sensor and the 5th range sensor are evenly distributed on the side of range unit fixed substrate;First ranging
Sensor, second distance sensor, third range sensor, the 4th range sensor and the 5th range sensor monitoring direction
Vertically conveyer belt.
Further, including steam connecting leg, steam connecting leg are connected with steam pump installation part;Steam pump installation part packet
Include the first vapor device, the second vapor device, third vapor device, the 4th vapor device and the 5th vapor device;First steam
Steam spray head knot is designed on device, the second vapor device, third vapor device, the 4th vapor device and the 5th vapor device
Structure;The injection direction of steam spray head vertically conveyer belt;First vapor device, the second vapor device, third vapor device,
Steam switch controller is designed in four vapor devices and the 5th vapor device.
Further, return-air pump installation part includes the first gas-returning devices, the second gas-returning devices, third gas-returning devices, the
Four gas-returning devices, the 5th gas-returning devices and the 6th gas-returning devices;First gas-returning devices, the second gas-returning devices, third gas-returning devices,
Return-air switch controller is designed in 4th gas-returning devices, the 5th gas-returning devices and the 6th gas-returning devices;First gas-returning devices,
Return-air company is designed on two gas-returning devices, third gas-returning devices, the 4th gas-returning devices, the 5th gas-returning devices and the 6th gas-returning devices
Pipe;The end-side openings of return-air connecting leg are located proximate to the casting to be cooled of conveyer belt.
A kind of cooling regulation and control system of continuous casting mold slab steam, including distance monitoring triggering part, steam output control
Make part, return-air output control part, timing control part and intermediate output par, c;Distance monitoring triggering part include first away from
From switch module, second distance switch module, third range switch module, the 4th range switch module, the 5th range switch mould
Block and photoelectricity trigger switch module;Steam output control part includes the first steam output unit, the second steam output unit, the
Three steam output units, the 4th steam output unit and the 5th steam output unit;Return-air output control part includes first time
Gas output unit, the second return-air output unit, third return-air output unit, the 4th return-air output unit, the output of the 5th return-air are single
Member and the 6th return-air output unit;Timing control part includes first time relay unit, the second time relay unit;It is intermediate defeated
Part is single including output unit, the 4th centre output among the first intermediate output unit, the second intermediate output unit, third out
Member, the 5th intermediate output unit and sequential export temporary location.
Photoelectricity trigger switch module drive triggers sequential export temporary location, sequential export temporary location driving triggering first
Time relay unit, the second time relay unit.
First distance switch module driving the first intermediate output unit of triggering;First intermediate output unit driving triggering first
Steam output unit;First steam output unit driving the first return-air output unit of triggering and the second return-air output unit.
Second distance switch module driving the second intermediate output unit of triggering;Second intermediate output unit driving triggering second
Steam output unit;Second steam output unit driving the second return-air output unit of triggering and third return-air output unit.
Third range switch module drive triggers output unit among third;Output unit driving triggering third among third
Steam output unit;Third steam output unit driving triggering third return-air output unit and the 4th return-air output unit.
4th range switch module drive triggers the 4th intermediate output unit;4th intermediate output unit driving triggering the 4th
Steam output unit;4th steam output unit driving the 4th return-air output unit of triggering and the 5th return-air output unit.
5th range switch module drive triggers the 5th intermediate output unit;5th intermediate output unit driving triggering the 5th
Steam output unit;5th steam output unit driving the 5th return-air output unit of triggering and the 6th return-air output unit.
Further, the driving of the second steam output unit is released by the second return-air of the first steam output unit driving triggering
Output unit;The driving of third steam output unit releases single by the third return-air output of the second steam output unit driving triggering
Member;The driving of 4th steam output unit is released by the 4th return-air output unit of third steam output unit driving triggering;5th
The driving of steam output unit is released by the 5th return-air output unit of the 4th steam output unit driving triggering.
Further, the first steam output unit of first time relay unit driving triggering, the second steam output unit, the
Three steam output units, the 4th steam output unit and the 5th steam output unit;The driving of second time relay unit releases the
One steam output unit, the second steam output unit, third steam output unit, the 4th steam output unit and the 5th steam are defeated
Unit out.
Further, photoelectricity trigger switch module drive triggers sequential export temporary location;Sequential export temporary location drives
Dynamic triggering first time relay unit and the second time relay unit;The driving of second time relay unit releases among sequential export
Unit.
Compared with prior art, the beneficial effects of the present invention are:
1, the first grating sensing monitoring device is arranged in the transport mechanism side of casting to be cooled in the present invention, by photoelectric sensing plate to transmission
The height of the casting to be cooled taken is monitored, consequently facilitating the first telescopic adjustment power device to the position of return-air connecting leg into
Row is adjusted, thus to adapt to the height and position of casting to be cooled;
2, the present invention is by the ranging sensing device part that is made of several range sensors of setting, by ranging actually away from
From, effectively the position of casting to be cooled on a moving belt is judged, thus drive vapor device on corresponding position into
The cooling steam spraying of row, and the gas-returning devices on corresponding position is driven to carry out return-air operation, effectively reduce empty region
The waste of interior water resource, also reduces electric energy loss to a certain extent;
3, the return-air connecting leg of the invention by being arranged near the surface layer of casting to be cooled, so that the evaporation of cast product surface layer to be cooled
Hot gas can be recycled quickly, and the cooling rate of casting to be cooled is effectively accelerated, and improve the casting of casting to be cooled
Part quality.
Detailed description of the invention
Fig. 1 is the overall structure diagram of continuous casting mold slab water vapor cooling device system of the invention;
Fig. 2 is the structural schematic diagram of grating sensing monitoring device and ranging sensing device part in the present invention;
Fig. 3 is the structural schematic diagram of vapor device part and gas-returning devices part in the present invention;
Fig. 4 is the logical construction schematic diagram of sequential export control in the present invention;
Fig. 5 is the logical construction schematic diagram of triggering and the driving output of the first steam output unit in the present invention;
Fig. 6 is the logical construction schematic diagram of triggering and the driving output of the second steam output unit in the present invention;
Fig. 7 is the logical construction schematic diagram of triggering and the driving output of the third steam output unit in the present invention;
Fig. 8 is the logical construction schematic diagram of triggering and the driving output of the 4th steam output unit in the present invention;
Fig. 9 is the logical construction schematic diagram of triggering and the driving output of the 5th steam output unit in the present invention;
Wherein: 1- conveyer belt;The first grating sensing monitoring device of 2-;3- photoelectric sensing plate;4- casting to be cooled;5- range unit is fixed
Substrate;6- ranging sensing device part;7- the first telescopic adjustment power device;8- telescopic adjustment link mechanism;9- first is adjusted
Substrate;10- return-air pump installation part;The first fixed substrate of 11-;12- return-air connecting leg;13- steam pump installation part;14- steam
Spray head;15- steam connecting leg;16- main process task controller;
The first distance measuring sensor of 601-;602- second distance sensor;603- third range sensor;The 4th Distance-sensing of 604-
Device;The 5th range sensor of 605-;901- adjusts support frame plates;
The first gas-returning devices of 101-;The second gas-returning devices of 102-;103- third gas-returning devices;The 4th gas-returning devices of 104-;105-
5th gas-returning devices;The 6th gas-returning devices of 106-;
The first vapor device of 131-;The second vapor device of 132-;133- third vapor device;The 4th vapor device of 134-;135-
5th vapor device;
0001- first distance switch module;0002- second distance switch module;0003- third range switch module;0004-
Four range switch modules;The 5th range switch module of 0005-;0006- photoelectricity trigger switch module;
TIM01- first time relay unit;TIM02- the second time relay unit;The intermediate output unit of 1000- first;2000-
Second intermediate output unit;Output unit among 3000- third;The intermediate output unit of 4000- the 4th;It is defeated among 5000- the 5th
Unit out;6000- sequential export temporary location;
0501- the first steam output unit;0502- the second steam output unit;0503- third steam output unit;0504-
Four steam output units;The 5th steam output unit of 0505-;
0100- the first return-air output unit;0200- the second return-air output unit;0300- third return-air output unit;0400-
Four return-air output units;The 5th return-air output unit of 0500-;The 6th return-air output unit of 0600-.
Specific embodiment
In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right
The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and
It is not used in the restriction present invention.
Specific embodiment one:
The present invention is a kind of continuous casting mold slab water vapor cooling device system, including conveyer belt 1, and transmission needs cold on conveyer belt 1
But casting 4;The side of conveyer belt 1 is fixed with the first grating sensing monitoring device 2;First grating sensing monitoring device 2 is equipped with and transmission
The photoelectric sensing plate 3 matched with 1 position;Range unit fixed substrate 5 is fixed with above conveyer belt 1;Range unit is fixed
Ranging sensing device part 6 is fixed on substrate 5.
Including the first telescopic adjustment power device 7, flexible tune is connected on the output shaft of the first telescopic adjustment power device 7
Save link mechanism 8;The end side of telescopic adjustment link mechanism 8 is fixedly connected with the first adjusting substrate 9;First is adjusted on substrate 9 admittedly
Surely it is equipped with return-air pump installation part 10;Including the first fixed substrate 11, steam pump installation is fixed in the first fixed substrate 11
Part 13.
Including main process task controller 16, the first grating sensing monitoring device 2 is controlled by data information transfer route and main process task
Device 16 is connected;Ranging sensing device part 6 is connected by data information transfer route with main process task controller 16;Main process task control
Device 16 is connected by electrical control transmission line with the first telescopic adjustment power device 7;Main process task controller 16 passes through electric-controlled
Transmission line processed is connected with steam pump installation part 13;Main process task controller 16 is filled by electrical control transmission line and return-air pump
Part 10 is set to be connected.
Further, it first adjusts on substrate 9 including adjusting support frame plates 901;Adjust support frame plates 901 side with stretch
Contracting adjusts link mechanism 8 and is fixedly connected.
Further, ranging sensing device part 6 includes the first distance measuring sensor 601, second distance sensor 602, the
Three range sensors 603, the 4th range sensor 604 and the 5th range sensor 605;First distance measuring sensor 601, second away from
It is evenly distributed on from sensor 602, third range sensor 603, the 4th range sensor 604 and the 5th range sensor 605
The side of range unit fixed substrate 5;First distance measuring sensor 601, second distance sensor 602, third range sensor
603, the monitoring direction of the 4th range sensor 604 and the 5th range sensor 605 vertically conveyer belt 1.
Further, including steam connecting leg 15, steam connecting leg 15 are connected with steam pump installation part 13;Steam pump installation
Part 13 includes the first vapor device 131, the second vapor device 132, third vapor device 133, the 4th vapor device 134 and the
Five vapor devices 135;First vapor device 131, the second vapor device 132, third vapor device 133, the 4th vapor device 134
With 14 structure of steam spray head is designed on the 5th vapor device 135;The injection direction of steam spray head 14 vertically conveyer belt 1;
First vapor device 131, the second vapor device 132, third vapor device 133, the 4th vapor device 134 and the 5th vapor device
Steam switch controller is designed in 135.
Further, return-air pump installation part 10 includes the first gas-returning devices 101, the second gas-returning devices 102, third return-air
Device 103, the 4th gas-returning devices 104, the 5th gas-returning devices 105 and the 6th gas-returning devices 106;First gas-returning devices 101, second
Gas-returning devices 102, third gas-returning devices 103, the 4th gas-returning devices 104, the 5th gas-returning devices 105 and the 6th gas-returning devices 106
Inside it is designed with return-air switch controller;First gas-returning devices 101, the second gas-returning devices 102, third gas-returning devices 103, the 4th time
Return-air connecting leg 12 is designed on device of air 104, the 5th gas-returning devices 105 and the 6th gas-returning devices 106;The end side of return-air connecting leg 12
To be cooled casting 4 of the aperture position close to conveyer belt 1.
A kind of cooling regulation and control system of continuous casting mold slab steam, including distance monitoring triggering part, steam output control
Make part, return-air output control part, timing control part and intermediate output par, c.
Distance monitoring triggering part include first distance switch module 0001, second distance switch module 0002, third away from
From switch module 0003, the 4th range switch module 0004, the 5th range switch module 0005 and photoelectricity trigger switch module
0006;Steam output control part is defeated including the first steam output unit 0501, the second steam output unit 0502, third steam
Unit 0503, the 4th steam output unit 0504 and the 5th steam output unit 0505 out;Return-air output control part includes the
One return-air output unit 0100, the second return-air output unit 0200, third return-air output unit 0300, the 4th return-air output unit
0400, the 5th return-air output unit 0500 and the 6th return-air output unit 0600;Timing control part includes first time relay
Unit TIM01, the second time relay unit TOM02;Intermediate output par, c includes among the first intermediate output unit 1000, second
Output unit 3000, the 4th intermediate output unit 4000, the 5th intermediate 5000 and of output unit among output unit 2000, third
Sequential export temporary location 6000.
The driving triggering sequential export temporary location 6000 of photoelectricity trigger switch module 0006, sequential export temporary location 6000
Driving triggering first time relay unit TIM01, the second time relay unit TOM02.
Driving the first intermediate output unit 1000 of triggering of first distance switch module 0001;First intermediate output unit 1000
Driving the first steam output unit 0501 of triggering;First steam output unit 0501 driving the first return-air output unit 0100 of triggering
With the second return-air output unit 0200.
Driving the second intermediate output unit 2000 of triggering of second distance switch module 0002;Second intermediate output unit 2000
Driving the second steam output unit 0502 of triggering;Second steam output unit 0502 driving the second return-air output unit 0200 of triggering
With third return-air output unit 0300.
Output unit 3000 among the driving triggering third of third range switch module 0003;Output unit 3000 among third
Driving triggering third steam output unit 0503;The driving triggering third return-air output unit 0300 of third steam output unit 0503
With the 4th return-air output unit 0400.
4th range switch module 0004 driving the 4th intermediate output unit 4000 of triggering;4th intermediate output unit 4000
Driving the 4th steam output unit 0504 of triggering;4th steam output unit 0504 driving the 4th return-air output unit 0400 of triggering
With the 5th return-air output unit 0500.
5th range switch module 0005 driving the 5th intermediate output unit 5000 of triggering;5th intermediate output unit 5000
Driving the 5th steam output unit 0505 of triggering;5th steam output unit 0505 driving the 5th return-air output unit 0500 of triggering
With the 6th return-air output unit 0600.
Further, the driving of the second steam output unit 0502 is released by the driving triggering of the first steam output unit 0501
Second return-air output unit 0200;The driving of third steam output unit 0503 is released to be driven by the second steam output unit 0502 and be touched
The third return-air output unit 0300 of hair;The driving of 4th steam output unit 0504 is released is driven by third steam output unit 0503
4th return-air output unit 0400 of dynamic triggering;The driving of 5th steam output unit 0505 is released by the 4th steam output unit
5th return-air output unit 0500 of 0504 driving triggering.
Further, the first steam output unit 0501 of first time relay unit TIM01 driving triggering, the second steam are defeated
Unit 0502, third steam output unit 0503, the 4th steam output unit 0504 and the 5th steam output unit 0505 out;The
Two time relay unit TOM02 driving releases the first steam output unit 0501, the second steam output unit 0502, third steam
Output unit 0503, the 4th steam output unit 0504 and the 5th steam output unit 0505.
Further, the driving of photoelectricity trigger switch module 0006 triggering sequential export temporary location 6000;In sequential export
Between unit 6000 driving triggering first time relay unit TIM01 and the second time relay unit TOM02;Second time relay list
First TOM02 driving releases sequential export temporary location 6000.
Specific embodiment two further carries out explaination explanation to the present invention:
As shown in Figure 1, Figure 2, Figure 3 shows, the photoelectric sensing plate 3 on the first grating sensing monitoring device 2 is to the casting to be cooled on conveyer belt 1
4 actual (real) thickness/be highly monitored;The first distance measuring sensor 601, the second distance sensor of ranging sensing device part 6
602, third range sensor 603, the 4th range sensor 604 and the 5th range sensor 605 to 4 position of casting to be cooled into
Row monitors, and at the position where casting 4 to be cooled, the actual range that corresponding range sensor monitors is less than sensor and extremely passes
Send the distance on 1 surface of band.
Main process task controller 16 carries out drive control to the first telescopic adjustment power device 7, to adjust return-air connecting leg 12
Position, it is ensured that upper side of the lower ending opening position of return-air connecting leg 12 close to casting 4 to be cooled;16 basis of main process task controller
Physical location on 4 place conveyer belt 1 of casting to be cooled, to the first vapor device 131, the second vapor device 132, third steam
Device 133, the 4th vapor device 134 and the 5th vapor device 135 are regulated and controled, and carry out cooling water to 4 range of casting to be cooled
The supply of vapour operates;Main process task controller 16 is according to actual cooling water vapor injection, to the first gas-returning devices 101, the second return-air
Device 102, third gas-returning devices 103, the 4th gas-returning devices 104, the 5th gas-returning devices 105 and the 6th gas-returning devices 106 carry out
Regulation, the gas-returning devices that the vapor device two sides of spray cooling steam occur for driving carry out hot gas cycle operation.
Specific embodiment three further carries out explaination explanation to the present invention:
As shown in figure 4, the driving triggering sequential export temporary location 6000 of photoelectricity trigger switch module 0006, sequential export centre are single
Member 6000 forms self-locking;Sequential export temporary location 6000 driving triggering first time relay unit TIM01 and the second time after
Electric unit TOM02;Trigger action after the completion of first time relay unit TIM01, the second time relay unit TOM02 countdown,
Second time relay unit TOM02 driving releases sequential export temporary location 6000.
As shown in figure 5, driving the first intermediate output unit 1000 of triggering of first distance switch module 0001, the first centre are defeated
Unit 1000 is formed self-locking out;The intermediate driving of output unit 1000 the first water of triggering of first time relay unit TIM01 and first
Vapour output unit 0501, the first steam output unit 0501 form self-locking;First steam output unit 0501 driving triggering first
Return-air output unit 0100, the second return-air output unit 0200;Second time relay unit TOM02 driving releases defeated among first
Unit 1000 out;Second time relay unit TOM02 driving releases the first steam output unit 0501;Second steam output unit
0502 driving is released by the second return-air output unit 0200 of the first steam output unit 0501 driving triggering.
As shown in fig. 6, driving the second intermediate output unit 2000 of triggering of second distance switch module 0002, the second centre are defeated
Unit 2000 is formed self-locking out;The intermediate driving of output unit 2000 the second water of triggering of first time relay unit TIM01 and second
Vapour output unit 0502, the second steam output unit 0502 form self-locking;Second steam output unit 0502 driving triggering second
Return-air output unit 0200, third return-air output unit 0300;Second time relay unit TOM02 driving releases defeated among second
Unit 2000 out;Second time relay unit TOM02 driving releases the second steam output unit 0502;Third steam output unit
0503 driving is released by the third return-air output unit 0300 of the second steam output unit 0502 driving triggering.
As shown in fig. 7, output unit 3000 among the driving triggering third of third range switch module 0003, third centre are defeated
Unit 3000 is formed self-locking out;First time relay unit TIM01 and the third centre driving triggering third water of output unit 3000
Vapour output unit 0503, third steam output unit 0503 form self-locking;The driving triggering third of third steam output unit 0503
Return-air output unit 0300, the 4th return-air output unit 0400;Second time relay unit TOM02 driving releases defeated among third
Unit 3000 out;Second time relay unit TOM02 driving releases third steam output unit 0503;4th steam output unit
0504 driving is released by the 4th return-air output unit 0400 of the driving triggering of third steam output unit 0503.
As shown in figure 8, the 4th range switch module 0004 driving the 4th intermediate output unit 4000 of triggering, the 4th centre are defeated
Unit 4000 is formed self-locking out;The intermediate driving of output unit 4000 the 4th water of triggering of first time relay unit TIM01 and the 4th
Vapour output unit 0504, the 4th steam output unit 0504 form self-locking;4th steam output unit 0504 driving triggering the 4th
Return-air output unit 0400, the 5th return-air output unit 0500;Second time relay unit TOM02 driving releases defeated among the 4th
Unit 4000 out;Second time relay unit TOM02 driving releases the 4th steam output unit 0504;5th steam output unit
0505 driving is released by the 5th return-air output unit 0500 of the 4th steam output unit 0504 driving triggering.
As shown in figure 9, the 5th range switch module 0005 driving the 5th intermediate output unit 5000 of triggering, the 5th centre are defeated
Unit 5000 is formed self-locking out;The intermediate driving of output unit 5000 the 5th water of triggering of first time relay unit TIM01 and the 5th
Vapour output unit 0505, the 5th steam output unit 0505 form self-locking;5th steam output unit 0505 driving triggering the 5th
Return-air output unit 0500, the 6th return-air output unit 0600;Second time relay unit TOM02 driving releases defeated among the 5th
Unit 5000 out;Second time relay unit TOM02 driving releases the 5th steam output unit 0505.
In the description of this specification, the description of reference term " one embodiment ", " example ", " specific example " etc. means
Particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least one implementation of the invention
In example or example.In the present specification, schematic expression of the above terms may not refer to the same embodiment or example.
Moreover, particular features, structures, materials, or characteristics described can be in any one or more of the embodiments or examples to close
Suitable mode combines.
Present invention disclosed above preferred embodiment is only intended to help to illustrate the present invention.There is no detailed for preferred embodiment
All details are described, are not limited the invention to the specific embodiments described.Obviously, according to the content of this specification,
It can make many modifications and variations.These embodiments are chosen and specifically described to this specification, is in order to better explain the present invention
Principle and practical application, so that skilled artisan be enable to better understand and utilize the present invention.The present invention is only
It is limited by claims and its full scope and equivalent.
Claims (9)
1. a kind of continuous casting mold slab water vapor cooling device system, it is characterised in that:
Including conveyer belt (1), transmission needs to be cooled down casting (4) on the conveyer belt (1);
The side of the conveyer belt (1) is fixed with the first grating sensing monitoring device (2);
First grating sensing monitoring device (2) is equipped with the photoelectric sensing plate (3) matched with conveyer belt (1) position;
Range unit fixed substrate (5) are fixed with above the conveyer belt (1);
Ranging sensing device part (6) is fixed on the range unit fixed substrate (5);
Including the first telescopic adjustment power device (7), it is connected with and stretches on the output shaft of the first telescopic adjustment power device (7)
Contracting adjusts link mechanism (8);
The end side of the telescopic adjustment link mechanism (8) is fixedly connected with the first adjusting substrate (9);
Return-air pump installation part (10) is fixed in first adjusting substrate (9);
Including the first fixed substrate (11), steam pump installation part (13) is fixed on first fixed substrate (11);
Including main process task controller (16), first grating sensing monitoring device (2) passes through data information transfer route and main process task
Controller (16) is connected;
Ranging sensing device part (6) is connected by data information transfer route with main process task controller (16);
The main process task controller (16) is connected by electrical control transmission line with the first telescopic adjustment power device (7);
The main process task controller (16) is connected by electrical control transmission line with steam pump installation part (13);
The main process task controller (16) is connected by electrical control transmission line with return-air pump installation part (10).
2. a kind of continuous casting mold slab water vapor cooling device system according to claim 1, it is characterised in that:
Described first is adjusted on substrate (9) including adjusting support frame plates (901);
The side for adjusting support frame plates (901) is fixedly connected with telescopic adjustment link mechanism (8).
3. a kind of continuous casting mold slab water vapor cooling device system according to claim 1, it is characterised in that:
Ranging sensing device part (6) include the first distance measuring sensor (601), second distance sensor (602), third away from
From sensor (603), the 4th range sensor (604) and the 5th range sensor (605);
First distance measuring sensor (601), second distance sensor (602), third range sensor (603), the 4th distance
Sensor (604) and the 5th range sensor (605) are evenly distributed on the side of range unit fixed substrate (5);
First distance measuring sensor (601), second distance sensor (602), third range sensor (603), the 4th distance
The monitoring direction of sensor (604) and the 5th range sensor (605) vertically conveyer belt (1).
4. a kind of continuous casting mold slab water vapor cooling device system according to claim 1, it is characterised in that:
Including steam connecting leg (15), the steam connecting leg (15) is connected with steam pump installation part (13);
Steam pump installation part (13) includes the first vapor device (131), the second vapor device (132), third steam dress
Set (133), the 4th vapor device (134) and the 5th vapor device (135);
First vapor device (131), the second vapor device (132), third vapor device (133), the 4th vapor device
(134) and on the 5th vapor device (135) it is designed with steam spray head (14) structure;
The injection direction of the steam spray head (14) vertically conveyer belt (1);
First vapor device (131), the second vapor device (132), third vapor device (133), the 4th vapor device
(134) and in the 5th vapor device (135) it is designed with steam switch controller.
5. a kind of continuous casting mold slab water vapor cooling device system according to claim 1, it is characterised in that:
Return-air pump installation part (10) includes the first gas-returning devices (101), the second gas-returning devices (102), third return-air dress
Set (103), the 4th gas-returning devices (104), the 5th gas-returning devices (105) and the 6th gas-returning devices (106);
First gas-returning devices (101), the second gas-returning devices (102), third gas-returning devices (103), the 4th gas-returning devices
(104), return-air switch controller is designed in the 5th gas-returning devices (105) and the 6th gas-returning devices (106);
First gas-returning devices (101), the second gas-returning devices (102), third gas-returning devices (103), the 4th gas-returning devices
(104), return-air connecting leg (12) are designed on the 5th gas-returning devices (105) and the 6th gas-returning devices (106);
The end-side openings of the return-air connecting leg (12) are located proximate to the casting to be cooled (4) of conveyer belt (1).
6. a kind of cooling regulation and control system of continuous casting mold slab steam, it is characterised in that:
Including distance monitoring triggering part, steam output control part, return-air output control part, timing control part and centre
Output par, c;
The distance monitoring triggering part includes first distance switch module (0001), second distance switch module (0002), the
Three range switch modules (0003), the 4th range switch module (0004), the 5th range switch module (0005) and photoelectricity triggering
Switch module (0006);
The steam output control part includes the first steam output unit (0501), the second steam output unit (0502), the
Three steam output units (0503), the 4th steam output unit (0504) and the 5th steam output unit (0505);
The return-air output control part includes the first return-air output unit (0100), the second return-air output unit (0200), the
Three return-air output units (0300), the 4th return-air output unit (0400), the 5th return-air output unit (0500) and the 6th return-air
Output unit (0600);
The timing control part includes first time relay unit (TIM01), the second time relay unit (TOM02);
The intermediate output par, c is including in the first intermediate output unit (1000), the second intermediate output unit (2000), third
Between among output unit (3000), the 4th intermediate output unit (4000), the 5th intermediate output unit (5000) and sequential export
Unit (6000);
Photoelectricity trigger switch module (0006) driving triggers sequential export temporary location (6000), among the sequential export
Unit (6000) driving triggering first time relay unit (TIM01), the second time relay unit (TOM02);
First distance switch module (0001) the driving first intermediate output unit (1000) of triggering;
First intermediate output unit (1000) the driving first steam output unit (0501) of triggering;
First steam output unit (0501) driving, the first return-air output unit (0100) of triggering and the output of the second return-air are single
First (0200);
Second distance switch module (0002) the driving second intermediate output unit (2000) of triggering;
Second intermediate output unit (2000) the driving second steam output unit (0502) of triggering;
Second steam output unit (0502) driving, the second return-air output unit (0200) of triggering and the output of third return-air are single
First (0300);
Output unit (3000) among third range switch module (0003) the driving triggering third;
Output unit (3000) drives triggering third steam output unit (0503) among the third;
Third steam output unit (0503) driving triggering third return-air output unit (0300) and the output of the 4th return-air are single
First (0400);
4th range switch module (0004) driving the 4th intermediate output unit (4000) of triggering;
4th intermediate output unit (4000) driving the 4th steam output unit (0504) of triggering;
4th steam output unit (0504) driving the 4th return-air output unit (0400) of triggering and the output of the 5th return-air are single
First (0500);
5th range switch module (0005) driving the 5th intermediate output unit (5000) of triggering;
5th intermediate output unit (5000) driving the 5th steam output unit (0505) of triggering;
5th steam output unit (0505) driving the 5th return-air output unit (0500) of triggering and the output of the 6th return-air are single
First (0600).
7. the cooling regulation and control system of a kind of continuous casting mold slab steam according to claim 6, it is characterised in that:
Second steam output unit (0502) driving is released by the second of the driving triggering of the first steam output unit (0501)
Return-air output unit (0200);
Third steam output unit (0503) driving is released by the third of the second steam output unit (0502) driving triggering
Return-air output unit (0300);
4th steam output unit (0504) driving is released by the 4th of third steam output unit (0503) driving triggering the
Return-air output unit (0400);
5th steam output unit (0505) driving is released by the 5th of the driving triggering of the 4th steam output unit (0504) the
Return-air output unit (0500).
8. the cooling regulation and control system of a kind of continuous casting mold slab steam according to claim 6, it is characterised in that:
The first steam output unit (0501) of first time relay unit (TIM01) the driving triggering, the output of the second steam are single
First (0502), third steam output unit (0503), the 4th steam output unit (0504) and the 5th steam output unit
(0505);
Second time relay unit (TOM02) driving releases the first steam output unit (0501), the second steam output list
First (0502), third steam output unit (0503), the 4th steam output unit (0504) and the 5th steam output unit
(0505).
9. the cooling regulation and control system of a kind of continuous casting mold slab steam according to claim 6, it is characterised in that:
Photoelectricity trigger switch module (0006) driving triggering sequential export temporary location (6000);
Sequential export temporary location (6000) driving triggering first time relay unit (TIM01) and the second time relay list
First (TOM02);
Second time relay unit (TOM02) driving releases sequential export temporary location (6000).
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US3915216A (en) * | 1972-09-06 | 1975-10-28 | Concast Ag | Method of controlling the secondary cooling of a continuously cast strand |
JPS57127505A (en) * | 1981-01-22 | 1982-08-07 | Nippon Steel Corp | Direct rolling manufacturing device for steel |
JPH06339759A (en) * | 1993-06-01 | 1994-12-13 | Nippon Steel Corp | Steam cooling device for continuous casting equipment |
CN1107765A (en) * | 1993-10-29 | 1995-09-06 | 丹尼利机械厂联合股票公司 | Method for thermal surface treatment in a continuous casting machine and relative device |
CN1180325A (en) * | 1996-03-19 | 1998-04-29 | 石川岛播磨重工业株式会社 | Non-contact heat absrobers for strip continuous casting |
CN206898331U (en) * | 2017-07-14 | 2018-01-19 | 新昌县七星街道金源机床配件经营部 | Draw continuous casting installation for casting under a kind of copper alloy section bar |
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2018
- 2018-05-31 CN CN201810549347.XA patent/CN109014101B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
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US3915216A (en) * | 1972-09-06 | 1975-10-28 | Concast Ag | Method of controlling the secondary cooling of a continuously cast strand |
JPS57127505A (en) * | 1981-01-22 | 1982-08-07 | Nippon Steel Corp | Direct rolling manufacturing device for steel |
JPH06339759A (en) * | 1993-06-01 | 1994-12-13 | Nippon Steel Corp | Steam cooling device for continuous casting equipment |
CN1107765A (en) * | 1993-10-29 | 1995-09-06 | 丹尼利机械厂联合股票公司 | Method for thermal surface treatment in a continuous casting machine and relative device |
CN1180325A (en) * | 1996-03-19 | 1998-04-29 | 石川岛播磨重工业株式会社 | Non-contact heat absrobers for strip continuous casting |
CN206898331U (en) * | 2017-07-14 | 2018-01-19 | 新昌县七星街道金源机床配件经营部 | Draw continuous casting installation for casting under a kind of copper alloy section bar |
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