CN108759490B - A kind of whole-process automatic dust removal tracking system of smelting furnace and its implementation - Google Patents
A kind of whole-process automatic dust removal tracking system of smelting furnace and its implementation Download PDFInfo
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- CN108759490B CN108759490B CN201810514826.8A CN201810514826A CN108759490B CN 108759490 B CN108759490 B CN 108759490B CN 201810514826 A CN201810514826 A CN 201810514826A CN 108759490 B CN108759490 B CN 108759490B
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- oscillating rod
- cage
- dust
- group
- pivot pin
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F27—FURNACES; KILNS; OVENS; RETORTS
- F27D—DETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
- F27D17/00—Arrangements for using waste heat; Arrangements for using, or disposing of, waste gases
- F27D17/001—Extraction of waste gases, collection of fumes and hoods used therefor
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- Environmental & Geological Engineering (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Manufacture And Refinement Of Metals (AREA)
- Vertical, Hearth, Or Arc Furnaces (AREA)
Abstract
The invention discloses a kind of whole-process automatic dust removal tracking system of smelting furnace and its implementation, including cage telescopic frame group, dust hood, high temperature resistant flexible pipe, dust sucting pipeline, pivoting support, the dust suction end of high temperature resistant flexible pipe connection dust hood and dust sucting pipeline, high temperature resistant flexible pipe is nested into the cavity of cage telescopic frame group, dust hood connects cage telescopic frame group, and the delivery end of dust sucting pipeline connects pivoting support.Have the advantage that whole-process automatic following function, it ensure that best dust suction dust removing effects are saved manually again, be not in maloperation phenomenon, oil cylinder is replaced using cylinder, avoid the combustibility of oil, it can work under Flammable atmosphere, save multi-cylinder cost, double-acting cylinder, it is flexible all dynamic, the elevating movement for hanging load and the inner cavity loading of cage frame is realized, Telescopic to keep appropriate distance between dust hood and bell, that is, reaches best pick-up performance.
Description
Technical field
The present invention relates to a kind of dust pelletizing system more particularly to a kind of whole-process automatic dust removal tracking systems of smelting furnace.
Background technique
Casting industry and amorphous alloy industry, using electric furnace smelting molten steel, electric furnace smelting (hereinafter referred to as smelting furnace) is in work
Smoke contamination can be generated during work, some smelting furnaces have dust collecting system on bell, and some smelting furnaces are not inhaled on bell
Dirt system.
Have the smelting furnace of dust collecting system on bell, in smelting process, during charging, during thermometric, topple over molten steel
In the process, can all there be flue dust not to be sucked away, and distribute into ambient enviroment.
There is no the smelting furnace of dust collecting system on bell, the flue dust of overall process can all distribute in ambient enviroment.
Fixed dust hood is installed above smelting furnace, and is an impediment to smelting furnace normal work.Even if being mounted with, because smelting
Furnace height during the work time and position are variations, and the height distance fire door of dust hood is too close, and pick-up performance is good, but
It is easily to bake badly and be an impediment to smelting furnace by high temperature and work normally;Too high pick-up performance is again bad;Substantially end up with nothing definite.
" environmental law " is not met in this way, does not meet dust content especially no more than 15mg/m3Standard.It is harmful to employee
And the health of periphery personnel.
Summary of the invention
The problem to be solved in the present invention be against the above deficiency, provide a kind of whole-process automatic dust removal tracking system of smelting furnace and
Its implementation, whole-process automatic following function ensure that best dust suction dust removing effects are saved manually again, be not in maloperation
Phenomenon replaces oil cylinder using cylinder, avoids the combustibility of oil, can work under Flammable atmosphere, save multi-cylinder cost, double cropping
With cylinder, stretch all dynamic, realize the elevating movement for hanging load and the inner cavity loading of cage frame, Telescopic make dust hood with
Appropriate distance is kept between bell, that is, reaches best pick-up performance.
To solve the above-mentioned problems, the invention adopts the following technical scheme:
A kind of whole-process automatic dust removal tracking system of smelting furnace, including cage telescopic frame group, dust hood, high temperature resistant flexible pipe,
Dust sucting pipeline, pivoting support, high temperature resistant flexible pipe connect the dust suction end of dust hood and dust sucting pipeline, and high temperature resistant flexible pipe is nested into
In the cavity of cage telescopic frame group, dust hood connects cage telescopic frame group, and the delivery end of dust sucting pipeline connects pivoting support.
Further, the cage telescopic frame group includes first assembly, the second component, third component, double-acting cylinder group
And 3-position-3-way solenoid valve, 3-position-3-way solenoid valve are connected with double-acting cylinder group and operation panel, first assembly includes 21# cage
Frame, 21# cage frame are connected with 24# oscillating rod and 25# oscillating rod;Second component includes 28# cage frame, and 28# cage frame is connected with
26# oscillating rod group and 27# oscillating rod group;Third component includes 29# cage frame, and 29# cage frame is connected with 26# oscillating rod group, double
Active cylinder group connects 21# cage frame and 25# oscillating rod, and 26# oscillating rod group connects 24# oscillating rod, 25# oscillating rod, 27# and swings
Bar group.
Further, the 24# oscillating rod includes first end and the second end, 25# oscillating rod include third end and
4th end;
The 26# oscillating rod group includes 26# oscillating rod, and 26# oscillating rod includes fifth end and the 6th end, and 26# is swung
It has been put into gear on 6th end of bar, has been aligned the through-hole of the 6th end of the through-hole and 26# oscillating rod on gear, by 26#
Oscillating rod tightens together with gear;
The 27# oscillating rod group includes 27# oscillating rod, and 27# oscillating rod includes the 7th end and the 8th end, and 27# is swung
It has been put into gear on 7th end of bar, has been aligned 27# oscillating rod with the through-hole of gear, both 27# oscillating rod and gear is tight
Gu together.
Further, the position F, G, H of the 21# cage frame is respectively welded with a pivot pin, the position F, G, H of 21# cage frame
Pivot pin on be respectively inserted in 1 retaining ring, the first end of a 24# oscillating rod is inserted on the pivot pin of the position G, H of 21# cage frame respectively
It is inserted in the third end of a 25# oscillating rod on the pivot pin of the position F of 21# cage frame, and 21# cage frame and 24# are swung in portion
Bar is positioned, and first assembly is thus constituted;
The position F, G, H of the 28# cage frame is respectively welded with two pivot pins, forms the upper row of the position F, G, H of 28# cage frame
Pivot pin, lower row's pivot pin are respectively inserted in 1 retaining ring, 28# cage on upper row's pivot pin of the position F, G, H of 28# cage frame, lower row's pivot pin
The 6th end of a 26# oscillating rod, 3 26# oscillating rods and 28# cage are respectively inserted on upper row's pivot pin of the position F, G, H of frame
The plane of frame is vertical;Respectively it is inserted in the 7th end of a 27# oscillating rod on lower row's pivot pin of the position F, G, H of 28# cage frame, 3
Branch 27# oscillating rod is vertical with the plane of 28# cage frame, and the direction of 3 27# oscillating rods is contrary with 3 26# oscillating rods,
Two rows of gear correct engagements, and 28# cage frame and 26# oscillating rod, 27# oscillating rod are positioned, thus constitute second
Component;
The position F, G, H of the 29# cage frame is respectively welded with a pivot pin, each on the pivot pin of the position F, G, H of 29# cage frame
It is inserted in 1 retaining ring, is inserted in the 6th end of a 26# oscillating rod on the pivot pin of the position F, G, H of 29# cage frame respectively, and right
29# cage frame and 26# oscillating rod are positioned, and third component is thus constituted.
Further, the fifth end of 3 26# oscillating rods in second component is inserted into first assembly 2 respectively
In the U-shaped mouth of the second end of 24# oscillating rod and in the 9th U-shaped mouth in end of 1 25# oscillating rod, and to 26# oscillating rod and 24#
Oscillating rod, 25# oscillating rod are positioned, and thus first assembly and the second component link together;
The fifth end of 3 26# oscillating rods in the third component is inserted into the swing of 3 27# in the second component respectively
In the 8th U-shaped mouth in end of bar, then respectively 1 pivot pin of insertion, and 26# oscillating rod and 27# oscillating rod are positioned, thus will
First assembly, the second component, third component link together.
Further, the dust pelletizing system includes several second components, need to be according to the needed length of dust pelletizing system come really
The number of fixed second component, when the quantity of the second component is greater than 1, by 3 26# oscillating rods of upper row in next second component
Fifth end be respectively inserted into the 8th U-shaped mouth in end of 3 27# oscillating rods of lower row in second component, then respectively
It is inserted into 1 pivot pin, and 26# oscillating rod and 27# oscillating rod are positioned, thus several second components link together
.
Further, the end a mounting hole of two-way cylinder covers the fixing axle in 21# cage frame in the double-acting cylinder group
On, double-acting cylinder group and 21# cage frame are positioned;By the end the b pivoted housing of cylinder two-way in double-acting cylinder group close to
In first assembly on the 4th end of 25# oscillating rod, by the through-hole of pivoted housing in double-acting cylinder group and the 4th of 25# oscillating rod the
The through-hole of end is aligned, and is positioned to double-acting cylinder group and 25# oscillating rod.
Further, the high temperature resistant flexible pipe is nested into the cavity of cage telescopic frame group, by high temperature resistant flexible pipe
Both ends are tightened together with bolt group with the 21# cage frame of cage telescopic frame group and 29# cage frame, thus constitute the 4th group
Part;
The expansion sweep-up system further includes operation panel and fixed frame, and operation panel is mounted on the easy of fixed frame with bolt group
On the height and position of operation, such 5th component, which just assembles, to be finished.
Further, the dust sucting pipeline is mounted on the 5th component with bolt group, by the lower flange of pivoting support with
Dust sucting pipeline, which is located at turn around, to be supported the upper flange plate of the standpipe lower section of following position and links together, and such pivoting support is just installed
Upper 5th component;
Dust sucting pipeline is located at turn around to the upper flange of the lower flange and pivoting support that support the standpipe upper section of the above position
Disk links together, and dust sucting pipeline is located at turn around to the upper of the lower flange and pivoting support for supporting the standpipe upper section of the above position
Ring flange links together, and the upper end of dust sucting pipeline has been mounted on pivoting support;
The dust suction end of the upper end of 4th component bolt group and dust sucting pipeline is linked together;
Dust hood is linked together with bolt group and the lower end of the 4th component.
A kind of implementation method of the whole-process automatic dust removal tracking system of smelting furnace, including manual activity mode and auto-action side
Formula two ways;
The manual activity mode includes the shift action on lifting action and dust hood level on dust hood facade;
Lifting action on the dust hood facade be by operation panel manually, automatic knob from " sky " position rotate to
" manual " position, including dust hood reduce action process, protect position action process and increase action process;
The dust hood reduce action process the following steps are included:
Lifting knob is rotated from " sky " position to " drop " position, A interface stream of the compressed air from 3-position-3-way solenoid valve
Enter, enter in cylinder by the C interface of 3-position-3-way solenoid valve and the E interface of double-acting cylinder, cylinder rod stretches out, and pushes 25#
Pivot pin centre swinging of the oscillating rod around third end;
The swing of 25# oscillating rod has pushed pivot pin of the 26# oscillating rod connecting with 25# oscillating rod around the 6th end to put
It is dynamic;
The swing of 26# oscillating rod has pushed the Forward of 28# cage frame;
The Forward of 28# cage frame has pulled synchronous around the 6th with the two 26# oscillating rods 261 connected of 24# oscillating rod 24
The pivot pin of end is swung, and the swing for two 26# oscillating rods connecting with 24# oscillating rod has pulled two 24# oscillating rods around the
The pivot pin of one end is swung;
Pivot pin of three 26# oscillating rods around the 6th end is swung, so that the gear synchronous on 26# oscillating rod is around the 6th
The pivot pin of end rotates;
The gear of 26# oscillating rod is engaged with the gear of 27# oscillating rod, so that the gear of 27# oscillating rod is around the 7th end
Pivot pin rotation;
The gear of 27# oscillating rod rotates so that pivot pin of the 27# oscillating rod around the 7th end is swung;
Pivot pin of the 27# oscillating rod around the 7th end is swung, so that axis of the 26# oscillating rod of next stage around the 6th end
Pin is swung, and .., such level-one level-one is transmitted down, until being transmitted to 29# cage frame, is thus stretched out cage telescopic frame group
;
High temperature resistant flexible pipe is fixed together with cage telescopic frame group both ends, when telescopic frame group is stretched out, high temperature resistant flexible pipe
It is synchronous to stretch out;
Dust hood and the 29# cage frame of cage telescopic frame group are fixed together, the stretching of cage telescopic frame group, and dust hood is same
Step reduces height;
Guarantor's position action process the following steps are included:
When lifting knob on operation panel is rotated to " protect position " position, 3-position-3-way solenoid valve blocks A mouthfuls, so that three
Three mouths of A interface, B interface, C interface of position-3-way solenoid valve are mutually obstructed, and the cylinder rod extension elongation of double-acting cylinder is fixed
In state instantly, so as to be maintained at position instantly motionless for the collapsing length of telescoping mechanism;
The raising action process the following steps are included:
When lifting knob on operation panel is rotated to " liter " position, A interface of the compressed air from 3-position-3-way solenoid valve
Flow into, the D interface by B interface and double-acting cylinder enters in double-acting cylinder, and cylinder rod retracts, pull 25# oscillating rod around
The pivot pin centre swinging of third end 25a;
It carries out reducing the reverse motion process of action process with dust hood, telescopic frame group is shunk;
The contraction of cage telescopic frame group drives high temperature resistant flexible pipe synchronous;
The contraction of cage telescopic frame group drives dust hood is synchronous to increase;
Shift action in dust hood level be by the manual, automatic knob on operation panel from " sky " position rotate to
" manual " position, including be moved to the left action process, protect position action process, the action process that moves right, emergency stop action process, return
Multiple action process, the process that stops working and power cut-off process;
It is described be moved to the left action process the following steps are included:
Left and right knob on operation panel is rotated from " sky " position to " left side " position, the motor of pivoting support rotates, motor
Rotation is engaged by gear so that dust sucting pipeline is located at turn around the standpipe for supporting the above position around the rotation of its center of circle.Dust sucting pipeline position
Standpipe in the above position of pivoting support is rotated around its center of circle drives its transverse tube to rotate around its same center of circle, and dust sucting pipeline upper section is horizontal
The rotation of pipe drives cage telescopic frame group+dust hood+high temperature resistant flexible pipe mobile toward left-hand relative to operation panel again;
Guarantor's position action process the following steps are included:
By the left and right knob on operation panel to " sky " position, motor power-off is stopped rotating, and cage telescopic frame group+dust hood+
High temperature resistant flexible pipe stops movement in the horizontal plane, protects position to realize;
It is described move right action process the following steps are included:
Left and right knob on operation panel is rotated from " sky " position to " right side " position, pivoting support motor reversely rotates, electricity
Machine rotation is engaged by gear so that dust sucting pipeline is located at turn around the standpipe for supporting the above position around the rotation of its center of circle, dust sucting pipeline
The standpipe for supporting the above position is located at turn around around its center of circle rotation its transverse tube of drive around its same center of circle rotation, dust sucting pipeline upper section
The rotation of transverse tube drives cage telescopic frame group+dust hood+high temperature resistant flexible pipe mobile toward dextrad relative to operation panel again;
The emergency stop action process the following steps are included:
If meeting emergency, need to stop working, take " emergency stop " button, just the electricity went off;
The reply action process the following steps are included:
After taking " emergency stop " button, when needing to reply work, rotates " emergency stop " button and be just powered;
It is described stop working process the following steps are included:
" switch " knob of operation panel is rotated to off-position, four knobs are turned off the light, and are stopped working;
The power cut-off process the following steps are included:
Work finishes, and dust hood is risen to highest in facade, is rotated in the horizontal plane to 3. position, disconnected to operation panel
Electricity, the switching knob lamp on operation panel go out, and indicate power supply to cut off, the power cut-off that can be trusted.
This patent has the advantage that compared with prior art
1. replaces oil cylinder using cylinder, the combustibility of oil is avoided, can be worked under Flammable atmosphere, such as: metal smelting
It refines, be poured, forging, the occasions such as boiler.2. using gear engaged transmission principle, power is transmitted down, save multi-cylinder at
This.3. double-acting cylinder stretches all dynamic, realizes the elevating movement for hanging load and the inner cavity loading of cage frame.4. is devised
" protecting position " function, so that collapsing length control on demand.5. three groups of oscillating rods of cage frame, are triangularly arranged, triangle are utilized
The stability of shape, by cage frame stable position.6. " rotation+flexible " function to keep between dust hood and bell rationally away from
From reaching best pick-up performance, there is the various Functions of harmless bell.7. the whole-process automatic following function of, that is, ensure that most
Good dust suction dust removing effects are saved manually again, are not in maloperation phenomenon.
Technical solution of the present invention is described in detail with reference to the accompanying drawings and examples.
Detailed description of the invention
Attached drawing 1 is the structural schematic diagram of whole-process automatic dust removal tracking system in the embodiment of the present invention;
Attached drawing 2 is the structural schematic diagram of dust hood in the embodiment of the present invention;
Attached drawing 3 is the schematic view of the front view of cage telescopic frame group in the embodiment of the present invention;
Attached drawing 4 is the overlooking structure diagram of cage telescopic frame group in the embodiment of the present invention;
Attached drawing 5 is the schematic view of the front view of 21# cage frame in the embodiment of the present invention;
Attached drawing 6 is the overlooking structure diagram of 21# cage frame in the embodiment of the present invention;
Attached drawing 7 is the structural schematic diagram of 3-position-3-way solenoid valve in the embodiment of the present invention;
Attached drawing 8 is the structural schematic diagram of double-acting cylinder group in the embodiment of the present invention;
Attached drawing 9 is the structural schematic diagram of double-acting cylinder in the embodiment of the present invention;
Attached drawing 10 is the schematic view of the front view of 24# oscillating rod in the embodiment of the present invention;
Attached drawing 11 is the left view structural representation of 24# oscillating rod in the embodiment of the present invention;
Attached drawing 12 is the schematic view of the front view of 25# oscillating rod in the embodiment of the present invention;
Attached drawing 13 is the left view structural representation of 25# oscillating rod in the embodiment of the present invention;
Attached drawing 14 is the structural schematic diagram of 26# oscillating rod group in the embodiment of the present invention;
Attached drawing 15 is the structural schematic diagram of 26# oscillating rod in the embodiment of the present invention;
Attached drawing 16 is the structural schematic diagram of 27# oscillating rod group in the embodiment of the present invention;
Attached drawing 17 is the structural schematic diagram of 27# oscillating rod in the embodiment of the present invention;
Attached drawing 18 is the schematic view of the front view of 28# cage frame group in the embodiment of the present invention;
Attached drawing 19 is the overlooking structure diagram of 28# cage frame group in the embodiment of the present invention;
Attached drawing 20 is the schematic view of the front view of 29# cage frame group in the embodiment of the present invention;
Attached drawing 21 is the overlooking structure diagram of 29# cage frame group in the embodiment of the present invention;
Attached drawing 22 is the structural schematic diagram of high temperature resistant flexible pipe in the embodiment of the present invention;
Attached drawing 23 is the structural schematic diagram of dust sucting pipeline in the embodiment of the present invention;
Attached drawing 24 is the structural schematic diagram of operation panel and fixed frame in the embodiment of the present invention;
Attached drawing 25 is the structural schematic diagram of pivoting support in the embodiment of the present invention;
Attached drawing 26 is the B of pivoting support in the embodiment of the present invention to structural schematic diagram;
Attached drawing 27-32 is the working state schematic representation of dust pelletizing system in the embodiment of the present invention;
Attached drawing 33 is running track figure of the dust hood on facade in the embodiment of the present invention;
Attached drawing 34 is the running track figure of dust hood in the horizontal plane in the embodiment of the present invention;
In figure: 1- dust hood;2- cage telescopic frame group: 21-21# cage frame, 22- 3-position-3-way solenoid valve, 23- double acting
Air cylinder group, 24-24# oscillating rod, 25-25# oscillating rod, 26-26# oscillating rod, 27-27# oscillating rod, 28-28# cage frame, 29-
29# cage frame;3- high temperature resistant flexible pipe;4- dust sucting pipeline;5- pivoting support;6- operation panel;7- fixed frame.
Specific embodiment
Embodiment 1, as shown in Fig. 1 to Figure 34, a kind of whole-process automatic dust removal tracking system of smelting furnace, including cage telescopic frame
Group 2, dust hood 1, high temperature resistant flexible pipe 3, dust sucting pipeline 4, pivoting support 5, operation panel 6 and fixed frame 7, high temperature resistant flexible pipe 3
The dust suction end of dust hood 1 and dust sucting pipeline 4 is connected, high temperature resistant flexible pipe 3 is nested into the cavity of cage telescopic frame group 2, dust suction
1 connection cage telescopic frame group 2 of cover, the delivery end of dust sucting pipeline 4 connect pivoting support 5.
The cage telescopic frame group 2 includes double-acting cylinder group 23,26# oscillating rod group 26,27# oscillating rod group 27,21# cage
Formula frame 21,28# cage frame 28,29# cage frame 29,24# oscillating rod 24,25# oscillating rod 25,3-position-3-way solenoid valve 22.
The 24# oscillating rod 24 includes first end 24a and the second end 24b, 25# oscillating rod includes third end 25a
With the 4th end 25b.
The 3-position-3-way solenoid valve 22 includes A interface, B interface, C interface.
The double-acting cylinder group 23 includes double-acting cylinder, and double-acting cylinder includes the end a and the end b, double acting gas
Pivoted housing has been inserted in the end b of cylinder, and rotation pivoted housing makes the through-hole alignment of the two, and insertion pivot pin is inserted in retaining ring, in axis on pivot pin
Split pin tail portion is broken into two with one's hands, pivoted housing and double-acting cylinder is linked together by insertion opening pin on pin, and double-acting cylinder group 23 is just
Assembling finishes.
The 26# oscillating rod group 26 includes 26# oscillating rod 261, and 26# oscillating rod 261 includes fifth end 261a and the 6th
It has been put into gear on 6th end 261b of end 261b, 26# oscillating rod 261, has made the through-hole alignment of the two, is pressed into two cones
Pin, the two is tightened together, and 26# oscillating rod group 26 is finished with regard to assembling.
The 27# oscillating rod group 27 includes 27# oscillating rod 271, and 27# oscillating rod 271 includes the 7th end 271a and the 8th
It has been put into gear on 7th end 271a of end 271b, 27# oscillating rod 271, has made the through-hole alignment of the two, is pressed into two cones
Pin, the two is tightened together, and 27# oscillating rod group 27 is finished with regard to assembling.
The position F, G, H of the 21# cage frame 21 is respectively welded with a pivot pin, the pivot pin of the position F, G, H of 21# cage frame 21
On be respectively inserted in 1 retaining ring, the first end of a 24# oscillating rod 24 is inserted on the pivot pin of the position G, H of 21# cage frame 21 respectively
The third end 25a of a 25# oscillating rod 25 is inserted on the pivot pin of the position F of 24a, 21# cage frame 21, then on each pivot pin respectively
It is inserted in 1 retaining ring, a split pin is respectively inserted on each pivot pin and breaks its tail portion into two with one's hands, thus constitutes first assembly.
The position F, G, H of the 28# cage frame 28 is respectively welded with two pivot pins, the upper row of the position F, G, H of 28# cage frame 28
It is respectively inserted in 1 retaining ring on pivot pin, lower row's pivot pin, is respectively inserted in a 26# on upper row's pivot pin of the position F, G, H of 28# cage frame 28
6th end 261b of oscillating rod 261,3 26# oscillating rods 261 are vertical with the plane of 28# cage frame 28;28# cage frame 28
F, be respectively inserted in the 7th end 271a of a 27# oscillating rod 271 on lower row's pivot pin of the position G, H, 3 27# oscillating rods 271 with
The plane of 28# cage frame 28 is vertical, and the direction of 3 27# oscillating rods 271 is contrary with 3 26# oscillating rods 261, two toothrows
Take turns correct engagement;It is respectively inserted in 1 retaining ring on row's pivot pin above and below again, a split pin is respectively inserted on each pivot pin and by its tail
Portion is broken into two with one's hands, thus constitutes the second component.
The position F, G, H of the 29# cage frame 29 is respectively welded with a pivot pin, the pivot pin of the position F, G, H of 29# cage frame 29
On be respectively inserted in 1 retaining ring, the 6th end an of oscillating rod 261 is inserted on the pivot pin of the position F, G, H of 29# cage frame 29 respectively
261b;1 retaining ring is respectively inserted on each pivot pin again, a split pin is respectively inserted on each pivot pin and breaks its tail portion into two with one's hands, in this way
Just constitute third component.
The fifth end 261a of 3 26# oscillating rods 261 in second component is inserted into 2 24# pendulum in first assembly respectively
In the second end 24bU type mouth of lever 24 and in the 9th end 25cU type mouth of 1 25# oscillating rod 25, then respectively 1 axis of insertion
Pin, 1 retaining ring is respectively inserted on each pivot pin, 1 split pin is respectively inserted on each pivot pin and breaks its tail portion into two with one's hands, thus by the
One component and the second component link together.
The dust pelletizing system includes several second components, and the second component need to be determined according to the needed length of dust pelletizing system
Number, when the quantity of the second component be greater than 1 when, by the 5th of 3 26# oscillating rods 261 of upper row in next second component the
End 261a is respectively inserted into the 8th end 271bU type mouth of 3 27# oscillating rods 271 of lower row in second component,
It is respectively inserted into 1 pivot pin again, 1 retaining ring is respectively inserted on each pivot pin, 1 split pin is respectively inserted on each pivot pin and breaks its tail portion
It opens, thus several second components links together.
The fifth end 261a of 3 26# oscillating rods in third component is inserted into the pendulum of 3 27# in the second component respectively
In 8th end 271bU type mouth of lever 271, then respectively 1 pivot pin of insertion, 1 retaining ring is respectively inserted on each pivot pin, in each pivot pin
Upper 1 split pin of each insertion simultaneously breaks its tail portion into two with one's hands, and thus first assembly, the second component, third component link together
.
The end a mounting hole of two-way cylinder cylinder covers the cylinder in 21# cage frame and fixes in the double-acting cylinder group 23
On axis, then it is inserted in 1 retaining ring and is inserted into 1 split pin in fixing axle and breaks its tail portion into two with one's hands;It will be double in double-acting cylinder group 23
On the 4th end 25b of 25# oscillating rod 25, the two through-hole is aligned close in first assembly to the end the b pivoted housing of cylinder, is inserted
Enter 1 pivot pin, 1 retaining ring is inserted on pivot pin, 1 split pin is inserted on pivot pin and breaks its tail portion into two with one's hands.
The above cage telescopic frame group 2 is finished with regard to assembling.
High temperature resistant flexible pipe 3 is nested into the cavity of cage telescopic frame group 2, by the both ends spiral shell of high temperature resistant flexible pipe 3
Bolt group tightens together with the 21# cage frame of cage telescopic frame group 2 and 29# cage frame, thus constitutes the 4th component, this is
The telescopic body of expansion sweep-up system.
Operation panel 6 is mounted on the easy-operating height and position of fixed frame 7 with bolt group, such 5th component just assembles
It finishes.
Using smelting furnace fire door center as the center of circle, the installation site of suitable 5th component is searched out, adjusts the water of dust sucting pipeline 4
Flat length, using this length as radius, by the signal of attached drawing 1, on the basis of the 5th component is mounted on chemical bolt.
Dust sucting pipeline 4 is mounted on the 5th component with bolt group.
Illustrate by attached drawing 1, be also pivoting support 5(to turntable bearing with bolt group) lower flange is located at dust sucting pipeline 4
The upper flange plate of the standpipe lower section of 5 or less position of pivoting support links together, and such pivoting support 5 is just installed.
Illustrate by attached drawing 1, dust sucting pipeline 4 is located at turn around to the laxative remedy of the standpipe upper section of 5 or more positions of bearing with bolt group
The upper flange plate of blue disk and pivoting support 5 links together, and the upper end of such dust sucting pipeline 4 has just been mounted on pivoting support 5
.
The upper end of 4th component is linked together with bolt group and the dust suction end of dust sucting pipeline 4.
Dust hood 1 is linked together with bolt group and the lower end of the 4th component.
The compressed air in the A interface of 3-position-3-way solenoid valve 22 and workshop is connected.
Double-acting cylinder D interface, the E of the B interface of 3-position-3-way solenoid valve 22, C interface and double-acting cylinder group 23 are connect
Mouth is connected with tracheae.
The end a power supply line of 3-position-3-way solenoid valve 22 is connect with " liter " connector of the knob of operation panel 6, the end b power supply line
It is connect with " drop " connector;Operation panel 6 is connected with the mains.
The motor power-supply wire of pivoting support 5 and " left and right " knob of operation panel 6 are linked together, right and left has been debugged
To.
The main control PLC of " the automatic, manual " knob of operation panel 6 and smelting furnace is connected.
It is whole so just to install, it connects with the mains, just has all-the-way tracking dedusting function.
According to the dust hood running track line that attached drawing 18 is illustrated, borrow smelting furnace main control PLC is programmed as follows:
After operation panel 6 is powered, " switch " eddy flow lamp is bright, and " switch " knob is rotated from off-position to "ON" position,
Remaining four knob bright lights, indicates that power supply has been all turned on.
A kind of implementation method of the whole-process automatic dust removal tracking system of smelting furnace includes manual activity mode and auto-action side
Formula two ways.
The manual activity mode includes the shift action on lifting action and dust hood level on dust hood facade.
Lifting action on the dust hood facade be by operation panel 6 manually, automatic knob from " sky " position rotate to
" manual " position, including dust hood reduce action process, protect position action process and increase action process.
The dust hood reduce action process the following steps are included:
Lifting knob is rotated from " sky " position to " drop " position, A interface of the compressed air from 3-position-3-way solenoid valve 22
It flows into, enters in cylinder by the C interface of 3-position-3-way solenoid valve 22 and the E interface of double-acting cylinder, cylinder rod stretches out, and pushes
Pivot pin centre swinging of the 25# oscillating rod around third end 25a;
The swing of 25# oscillating rod has pushed the axis of the 26# oscillating rod that connect with 25# oscillating rod around the 6th end 261b
Pin is swung;
The swing of 26# oscillating rod has pushed the Forward of 28# cage frame;
The Forward of 28# cage frame has pulled synchronous around the 6th with the two 26# oscillating rods 261 connected of 24# oscillating rod 24
The pivot pin of end 261b is swung, and the swing for two 26# oscillating rods connecting with 24# oscillating rod 24 has pulled two 24# oscillating rods
24 around first end 24a pivot pin swing;
Three 26# oscillating rods 261 are swung around the pivot pin of the 6th end 261b, so that the gear on 26# oscillating rod 261 is same
The pivot pin walked around the 6th end 261b rotates;
The gear of 26# oscillating rod 261 is engaged with the gear of 27# oscillating rod 271 so that the gear of 27# oscillating rod 271 around
The pivot pin of 7th end 271a rotates;
The gear of 27# oscillating rod 271 rotates so that 27# oscillating rod 271 is swung around the pivot pin of the 7th end 271a.
27# oscillating rod 271 is swung around the pivot pin of the 7th end 271a, so that the 26# oscillating rod 261 of next stage is around the
The pivot pin of six end 261b is swung, and .., such level-one level-one is transmitted down, until being transmitted to 29# cage frame, will thus be stretched
Frame group 2 is stretched out;
High temperature resistant flexible pipe 3 is fixed together with 2 both ends of cage telescopic frame group, when telescopic frame group 2 is stretched out, high temperature resistant flexible
Pipe 3 is synchronous to be stretched out;
Dust hood 1 and the 29# cage frame of cage telescopic frame group 2 are fixed together, the stretching of cage telescopic frame group 2, dust suction
Cover 1 is synchronous to reduce height.
Guarantor's position action process the following steps are included:
When lifting knob on operation panel 6 is rotated to " protect position " position, 3-position-3-way solenoid valve 22 blocks A mouthfuls, makes
Three mouths of A interface, B interface, C interface for obtaining 3-position-3-way solenoid valve 22 are mutually obstructed, and the cylinder rod of double-acting cylinder stretches out length
Degree is fixed on state instantly, so as to be maintained at position instantly motionless for the collapsing length of telescoping mechanism.
The raising action process the following steps are included:
When lifting knob on operation panel 6 is rotated to " liter " position, compressed air connects from the A of 3-position-3-way solenoid valve 22
Mouth flows into, and the D interface by B interface and double-acting cylinder enters in double-acting cylinder, and cylinder rod retracts, and pulls 25# oscillating rod
25 around third end 25a pivot pin centre swinging;
It carries out reducing the reverse motion process of action process with dust hood, telescopic frame group 2 is shunk;
The contraction of cage telescopic frame group 2 drives 3 synchronous of high temperature resistant flexible pipe;
The contraction of cage telescopic frame group 2 drives dust hood 1 is synchronous to increase.
Shift action in dust hood level is by the manual, automatic knob on operation panel 6 from the rotation of " sky " position
To " manual " position, including be moved to the left action process, protect position action process, the action process that moves right, emergency stop action process,
Reply action process, the process that stops working and power cut-off process.
It is described be moved to the left action process the following steps are included:
Left and right knob on operation panel 6 is rotated from " sky " position to " left side " position, the motor of pivoting support 5 rotates, electricity
Machine rotation is engaged by gear so that the standpipe that dust sucting pipeline 4 is located at turn around 5 or more positions of bearing is rotated around its center of circle.Sweep-up pipe
The standpipe that road 4 is located at turn around 5 or more positions of bearing is rotated around its center of circle drives its transverse tube to rotate around its same center of circle, dust sucting pipeline
The rotation of 4 upper section transverse tubes drives cage telescopic frame group 2+ dust hood 1+ high temperature resistant flexible pipe 3 to move relative to operation panel toward left-hand again
It is dynamic.
Guarantor's position action process the following steps are included:
By the left and right knob on operation panel 6 to " sky " position, motor power-off is stopped rotating, cage telescopic frame group 2+ dust hood
1+ high temperature resistant flexible pipe 3 stops movement in the horizontal plane, protects position to realize.
It is described move right action process the following steps are included:
Left and right knob on operation panel 6 is rotated from " sky " position to " right side " position, 5 motor of pivoting support reversely rotates,
Motor rotation is engaged by gear so that the standpipe that dust sucting pipeline 4 is located at turn around 5 or more positions of bearing is rotated around its center of circle.Dust suction
The standpipe that pipeline 4 is located at turn around 5 or more positions of bearing is rotated around its center of circle drives its transverse tube to rotate around its same center of circle, dust suction
The rotation of 4 upper section transverse tube of pipeline drives cage telescopic frame group 2+ dust hood 1+ high temperature resistant flexible pipe 3 to turn right relative to operation panel again
To movement.
The emergency stop action process the following steps are included:
If meeting emergency, need to stop working, take " emergency stop " button, just the electricity went off.
The reply action process the following steps are included:
After taking " emergency stop " button, when needing to reply work, rotates " emergency stop " button and be just powered.
It is described stop working process the following steps are included:
" switch " knob of operation panel 6 is rotated to off-position, four knobs are turned off the light, and are stopped working.
The power cut-off process the following steps are included:
Work finishes, and dust hood 1 is risen to highest in facade, is rotated in the horizontal plane to 3. position, disconnected to operation panel 6
Electricity, the switching knob lamp on operation panel 6 go out, and indicate power supply to cut off, the power cut-off that can be trusted.
The auto-action mode the following steps are included:
Manual, automatic knob on operation panel 6 is rotated from " sky " position to " automatic " position, main control PLC will foundation
The movement of smelting furnace commands cage telescopic frame group 2+ dust hood 1+ high temperature resistant flexible pipe 3+ to inhale according to the program of above-mentioned " programming "
Dirt pipeline 4 is run by program.
Under normal circumstances, " manual " function is used when equipment debugging, when normal operation, use " automatic " function.
By the above-mentioned course of work, dust hood keeps optimum position with smelting furnace fire door always, reaches best pick-up performance,
The flue dust overflowed in smelting furnace is inhaled into after dust pelletizing system handled, and qualified discharge makes smelting furnace ambient enviroment meet ring
Regulation is protected, protection periphery personnel are physically and mentally healthy.
The above is the citing of best mode for carrying out the invention, wherein the part that do not address in detail is that this field is common
The common knowledge of technical staff.Protection scope of the present invention is based on the contents of the claims, any based on technology of the invention
The equivalent transformation of enlightenment and progress, also within protection scope of the present invention.
Claims (9)
1. a kind of whole-process automatic dust removal tracking system of smelting furnace, it is characterised in that: including cage telescopic frame group (2), dust hood
(1), high temperature resistant flexible pipe (3), dust sucting pipeline (4), pivoting support (5), high temperature resistant flexible pipe (3) connect dust hood (1) and inhale
The dust suction end of dirt pipeline (4), high temperature resistant flexible pipe (3) are nested into the cavity of cage telescopic frame group (2), dust hood (1) connection
The delivery end of cage telescopic frame group (2), dust sucting pipeline (4) connects pivoting support (5);
The cage telescopic frame group (2) includes first assembly, the second component, third component, double-acting cylinder group (23) He Sanwei
Three-way magnetic valve (22), 3-position-3-way solenoid valve (22) are connected with double-acting cylinder group (23) and operation panel (6), first assembly packet
21# cage frame (21) is included, 21# cage frame (21) is connected with 24# oscillating rod (24) and 25# oscillating rod (25);Second component includes
28# cage frame (28), 28# cage frame (28) are connected with 26# oscillating rod group (26) and 27# oscillating rod group (27);Third component packet
29# cage frame (29) is included, 29# cage frame (29) is connected with 26# oscillating rod group (26), and double-acting cylinder group (23) connects 21# cage
Formula frame and 25# oscillating rod (25), 26# oscillating rod group (26) connect 24# oscillating rod (24), 25# oscillating rod (25), 27# oscillating rod
Group (27).
2. a kind of whole-process automatic dust removal tracking system of smelting furnace as described in claim 1, it is characterised in that: the 24# is swung
Bar (24) includes first end (24a) and the second end (24b), and 25# oscillating rod includes third end (25a) and the 4th end
(25b);
The 26# oscillating rod group (26) includes 26# oscillating rod (261), 26# oscillating rod (261) include fifth end (261a) and
6th end (261b) has been put into gear on the 6th end (261b) of 26# oscillating rod (261), has made through-hole and 26# on gear
The through-hole of 6th end (261b) of oscillating rod (261) is aligned, and 26# oscillating rod (261) is tightened together with gear;
The 27# oscillating rod group (27) includes 27# oscillating rod (271), 27# oscillating rod (271) include the 7th end (271a) and
8th end (271b) has been put into gear on the 7th end (271a) of 27# oscillating rod (271), make 27# oscillating rod (271) with
The through-hole of gear is aligned, and both 27# oscillating rod (271) and gear are tightened together.
3. a kind of whole-process automatic dust removal tracking system of smelting furnace as claimed in claim 2, it is characterised in that: the 21# cage
The position F, G, H of frame (21) is respectively welded with a pivot pin, is inserted in a 24# on the pivot pin of the position G, H of 21# cage frame (21) respectively
The first end (24a) of oscillating rod (24) is inserted in a 25# oscillating rod (25) on the pivot pin of the position F of 21# cage frame (21)
Third end (25a), and 21# cage frame (21) and 24# oscillating rod (24) are positioned, form first assembly;
The position F, G, H of the 28# cage frame (28) is respectively welded with two pivot pins, forms the position F, G, H of 28# cage frame (28)
Upper row's pivot pin, lower row's pivot pin are respectively inserted in a 26# oscillating rod on upper row's pivot pin of the position F, G, H of 28# cage frame (28)
(261) the 6th end (261b), 3 26# oscillating rods (261) are vertical with the plane of 28# cage frame (28);28# cage frame
(28) the 7th end (271a) of a 27# oscillating rod (271), 3 27# pendulum are respectively inserted on lower row's pivot pin of the position F, G, H
Lever (271) is vertical with the plane of 28# cage frame (28), and the direction of 3 27# oscillating rods (271) and 3 26# oscillating rods
(261) contrary, two rows of gear correct engagements, and to 28# cage frame (28) and 26# oscillating rod (261), 27# oscillating rod
(271) it is positioned, forms the second component;
The position F, G, H of the 29# cage frame (29) is respectively welded with a pivot pin, the pivot pin of the position F, G, H of 29# cage frame (29)
Upper the 6th end (261b) for being inserted in a 26# oscillating rod (261) respectively, and to 29# cage frame (29) and 26# oscillating rod
(261) it is positioned, forms third component.
4. a kind of whole-process automatic dust removal tracking system of smelting furnace as claimed in claim 3, it is characterised in that: second component
In the fifth ends (261a) of 3 26# oscillating rods (261) be inserted into second of 2 24# oscillating rods (24) in first assembly respectively
9th end (25c) of end (24b) and 1 25# oscillating rod (25), and to 26# oscillating rod (261) and 24# oscillating rod (24),
25# oscillating rod (25) is positioned, and first assembly and the second component are linked together;
The fifth end (261a) of 3 26# oscillating rods (261) in the third component is inserted into 3 in the second component respectively
8th end (271b) of 27# oscillating rod (271), and 26# oscillating rod (261) and 27# oscillating rod (271) are positioned, it will
First assembly, the second component, third component link together.
5. a kind of whole-process automatic dust removal tracking system of smelting furnace as claimed in claim 3, it is characterised in that: the dust pelletizing system
Including several the second components, when the quantity of the second component is greater than 1,3 26# of upper row in next second component are swung
The fifth end (261a) of bar (261) is respectively inserted into the of 3 27# oscillating rods (271) of the lower row in second component
Eight ends (271b), and 26# oscillating rod (261) and 27# oscillating rod (271) are positioned, several the second components are connected
Together.
6. a kind of whole-process automatic dust removal tracking system of smelting furnace as claimed in claim 2, it is characterised in that: the double acting gas
Cylinder group (23) includes the end a and the end b, and the end a mounting hole of two-way cylinder is covered in 21# cage frame in double-acting cylinder group (23)
Fixing axle on, double-acting cylinder group (23) and 21# cage frame are positioned;By two-way cylinder in double-acting cylinder group (23)
The end b pivoted housing close in first assembly on the 4th end (25b) of 25# oscillating rod (25), by double-acting cylinder group (23)
The through-hole of middle pivoted housing is aligned with the through-hole of the 4th end (25b) of 25# oscillating rod (25), to double-acting cylinder group (23) and 25#
Oscillating rod (25) is positioned.
7. a kind of whole-process automatic dust removal tracking system of smelting furnace as described in claim 1, it is characterised in that: the high temperature resistant is stretched
The draw (3) is nested into the cavity of cage telescopic frame group (2), and the both ends of high temperature resistant flexible pipe (3) are stretched with bolt group with cage
The 21# cage frame and 29# cage frame of contracting frame group (2) tighten together, and form the 4th component;
The expansion sweep-up system further includes operation panel (6) and fixed frame (7), and operation panel (6) is mounted on fixation with bolt group
On the easy-operating height and position of frame (7), the 5th component, which just assembles, to be finished.
8. a kind of whole-process automatic dust removal tracking system of smelting furnace as claimed in claim 7, it is characterised in that: the dust sucting pipeline
(4) it is mounted on the 5th component, the lower flange of pivoting support (5) and dust sucting pipeline (4) is located at turn around bearing (5) with bottom
The upper flange plate for the standpipe lower section set links together, and pivoting support (5) is mounted on the 5th component;
Dust sucting pipeline (4) is located at turn around the upper of the lower flange of the standpipe upper section of bearing (5) above position and pivoting support (5)
Ring flange links together, and dust sucting pipeline (4) is located at turn around the lower flange of the standpipe upper section of bearing (5) above position and is returned
The upper flange plate for turning bearing (5) links together, and the upper end of dust sucting pipeline (4) is mounted on pivoting support (5);
The upper end of 4th component and the dust suction end of dust sucting pipeline (4) are linked together;
Dust hood (1) and the lower end of the 4th component are linked together.
9. a kind of implementation method of the whole-process automatic dust removal tracking system of smelting furnace, it is characterised in that: including manual activity mode and
Auto-action mode two ways;
The manual activity mode includes the shift action on lifting action and dust hood level on dust hood facade;
Lifting action on the dust hood facade is to rotate manual, automatic knob on operation panel (6) to " hand from " sky " position
It is dynamic " position, including dust hood reduction action process, guarantor's position action process and raising action process;
The dust hood reduce action process the following steps are included:
Lifting knob is rotated from " sky " position to " drop " position, A interface stream of the compressed air from 3-position-3-way solenoid valve (22)
Enter, enter in cylinder by the C interface of 3-position-3-way solenoid valve (22) and the E interface of double-acting cylinder, cylinder rod stretches out, and pushes
Pivot pin centre swinging of the 25# oscillating rod around third end (25a);
The swing of 25# oscillating rod has pushed the pivot pin of the 26# oscillating rod that connect with 25# oscillating rod around the 6th end (261b)
It swings;
The swing of 26# oscillating rod has pushed the Forward of 28# cage frame;
The Forward of 28# cage frame has pulled synchronous around the 6th end with the two 26# oscillating rods 261 connected of 24# oscillating rod 24
The pivot pin of (261b) is swung, the swing for two 26# oscillating rods being connect with 24# oscillating rod pulled two 24# oscillating rods around
The pivot pin of first end (24a) is swung;
Pivot pin of three 26# oscillating rods around the 6th end (261b) is swung, so that gear synchronous on 26# oscillating rod is around the
The pivot pin of six ends (261b) rotates;
The gear of 26# oscillating rod is engaged with the gear of 27# oscillating rod, so that the gear of 27# oscillating rod is around the 7th end
The pivot pin of (271a) rotates;
The gear of 27# oscillating rod rotates so that pivot pin of the 27# oscillating rod around the 7th end (271a) is swung;
Pivot pin of the 27# oscillating rod around the 7th end (271a) is swung, so that the 26# oscillating rod of next stage is around the 6th end
The pivot pin of (261b) is swung, and .., such level-one level-one is transmitted down, until being transmitted to 29# cage frame, thus cage is stretched
Frame group (2) is stretched out;
High temperature resistant flexible pipe (3) is fixed together with cage telescopic frame group (2) both ends, and when telescopic frame group (2) is stretched out, high temperature resistant is stretched
The draw (3) is synchronous to be stretched out;
Dust hood (1) and the 29# cage frame of cage telescopic frame group (2) are fixed together, the stretching of cage telescopic frame group (2), inhale
Dust hood (1) is synchronous to reduce height;
Guarantor's position action process the following steps are included:
When lifting knob on operation panel (6) is rotated to " protect position " position, 3-position-3-way solenoid valve blocks A mouthfuls, so that three
Three mouths of A interface, B interface, C interface of position-3-way solenoid valve are mutually obstructed, and the cylinder rod extension elongation of double-acting cylinder is fixed
In state instantly, so as to be maintained at position instantly motionless for the collapsing length of telescoping mechanism;
The raising action process the following steps are included:
When lifting knob on operation panel (6) is rotated to " liter " position, compressed air connects from the A of 3-position-3-way solenoid valve (22)
Mouth flows into, and the D interface by B interface and double-acting cylinder enters in double-acting cylinder, and cylinder rod retracts, and pulls 25# oscillating rod
Around the pivot pin centre swinging of third end (25a);
It carries out reducing the reverse motion process of action process with dust hood, telescopic frame group (2) is shunk;
The contraction of cage telescopic frame group (2) drives high temperature resistant flexible pipe (3) synchronous;
The contraction of cage telescopic frame group (2) drives dust hood (1) is synchronous to increase;
Shift action in dust hood level be by the manual, automatic knob on operation panel (6) from " sky " position rotate to
" manual " position, including be moved to the left action process, protect position action process, the action process that moves right, emergency stop action process, return
Multiple action process, the process that stops working and power cut-off process;
It is described be moved to the left action process the following steps are included:
Left and right knob on operation panel (6) is rotated from " sky " position to " left side " position, the motor of pivoting support (5) rotates, electricity
Machine rotation is engaged by gear so that the standpipe that dust sucting pipeline (4) is located at turn around bearing (5) above position is rotated around its center of circle;
The standpipe that dust sucting pipeline (4) is located at turn around bearing (5) above position is rotated around its center of circle drives its transverse tube around its same circle
Heart rotation, the rotation of dust sucting pipeline (4) upper section transverse tube drive cage telescopic frame group (2)+dust hood (1)+high temperature resistant flexible pipe again
(3) mobile toward left-hand relative to operation panel;
Guarantor's position action process the following steps are included:
By the left and right knob on operation panel (6) to " sky " position, motor power-off is stopped rotating, cage telescopic frame group (2)+dust hood
(1)+high temperature resistant flexible pipe (3) stops movement in the horizontal plane, protects position to realize;
It is described move right action process the following steps are included:
Left and right knob on operation panel (6) is rotated from " sky " position to " right side " position, pivoting support (5) motor reversely rotates,
Motor rotation is engaged by gear so that dust sucting pipeline (4) is located at turn around the standpipe of bearing (5) above position around the rotation of its center of circle,
The standpipe that dust sucting pipeline (4) is located at turn around bearing (5) above position is rotated around its center of circle drives its transverse tube to revolve around its same center of circle
Turn, the rotation of dust sucting pipeline (4) upper section transverse tube drives cage telescopic frame group (2)+dust hood (1)+high temperature resistant flexible pipe (3) phase again
It is mobile toward dextrad for operation panel;
The emergency stop action process the following steps are included:
If meeting emergency, need to stop working, take " emergency stop " button, just the electricity went off;
The reply action process the following steps are included:
After taking " emergency stop " button, when needing to reply work, rotates " emergency stop " button and be just powered;
It is described stop working process the following steps are included:
" switch " knob of operation panel (6) is rotated to off-position, four knobs are turned off the light, and are stopped working;
The power cut-off process the following steps are included:
Work finishes, and dust hood (1) is risen to highest in facade, is rotated in the horizontal plane to 3. position, disconnected to operation panel (6)
Electricity, the switching knob lamp on operation panel (6) go out, and indicate power supply to cut off, the power cut-off that can be trusted.
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CN201810514826.8A CN108759490B (en) | 2018-05-25 | 2018-05-25 | A kind of whole-process automatic dust removal tracking system of smelting furnace and its implementation |
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CN201810514826.8A CN108759490B (en) | 2018-05-25 | 2018-05-25 | A kind of whole-process automatic dust removal tracking system of smelting furnace and its implementation |
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CN105112603B (en) * | 2015-09-30 | 2017-06-09 | 中冶京诚工程技术有限公司 | Rotary dust removal device |
CN205463524U (en) * | 2016-01-12 | 2016-08-17 | 上海梅山钢铁股份有限公司 | Whole plane drive dust collector |
CN206996178U (en) * | 2017-07-21 | 2018-02-13 | 湖南盛华源材料科技有限公司 | A kind of mid-frequency melting furnace Environmental-protection dust removal device |
CN207326753U (en) * | 2017-10-31 | 2018-05-08 | 惠州市瑞丰研磨材料有限公司 | A kind of dust exhaust apparatus of sand paper production and processing |
CN107824589A (en) * | 2017-11-27 | 2018-03-23 | 诸城市永昌木器有限公司 | The adjustable dust exhaust apparatus in workshop |
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