CN208288197U - A kind of preparation of matte powder and conveying equipment and workshop unified collocation system - Google Patents
A kind of preparation of matte powder and conveying equipment and workshop unified collocation system Download PDFInfo
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- CN208288197U CN208288197U CN201820017419.1U CN201820017419U CN208288197U CN 208288197 U CN208288197 U CN 208288197U CN 201820017419 U CN201820017419 U CN 201820017419U CN 208288197 U CN208288197 U CN 208288197U
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- 239000000843 powder Substances 0.000 title claims abstract description 42
- 238000002360 preparation method Methods 0.000 title claims abstract description 27
- 239000000428 dust Substances 0.000 claims abstract description 118
- 238000000227 grinding Methods 0.000 claims abstract description 7
- 230000010354 integration Effects 0.000 claims description 3
- 238000001035 drying Methods 0.000 abstract description 4
- 230000009466 transformation Effects 0.000 abstract description 2
- 239000012716 precipitator Substances 0.000 abstract 1
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 description 8
- 229910052802 copper Inorganic materials 0.000 description 8
- 239000010949 copper Substances 0.000 description 8
- UGFAIRIUMAVXCW-UHFFFAOYSA-N Carbon monoxide Chemical compound [O+]#[C-] UGFAIRIUMAVXCW-UHFFFAOYSA-N 0.000 description 5
- 238000003723 Smelting Methods 0.000 description 5
- 239000003546 flue gas Substances 0.000 description 5
- 230000008901 benefit Effects 0.000 description 3
- 239000007789 gas Substances 0.000 description 3
- 239000000463 material Substances 0.000 description 3
- 238000005034 decoration Methods 0.000 description 2
- 238000005265 energy consumption Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 239000002994 raw material Substances 0.000 description 2
- 238000011144 upstream manufacturing Methods 0.000 description 2
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000003139 buffering effect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000009826 distribution Methods 0.000 description 1
- 238000004134 energy conservation Methods 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 238000012827 research and development Methods 0.000 description 1
- 238000003860 storage Methods 0.000 description 1
- 239000002918 waste heat Substances 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
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- Manufacture And Refinement Of Metals (AREA)
Abstract
The utility model provides a kind of preparation of matte powder and conveying equipment and workshop unified collocation system, including grinding machine, dust pre-cleaner, dust-precipitator, exhaust blower, hot-blast stove, exhaust tube, top feed bin, the first conveyer, second conveyor, dosing device, metallurgical furnace, distributor, controller, the first crane and the second crane;The equipment is set in the workshop, the workshop by main span workshop and it is attached formed across workshop, the main span workshop includes five layers, and wherein first layer is located at minimum, and roof is equipped with above layer 5;It is described it is attached include two layers across workshop and be located at the side of main span workshop transverse direction, wherein first layer is located at minimum, equipped with roof above the second layer.The utility model continuously can carry out grinding, drying and conveying to matte powder by the way that equipment to be reasonably laid out to the suitable position in workshop;Occupied area is small, investment is small, energy saving, operating cost is low simultaneously, is particularly suitable for the technological transformation of the smeltery and existing smeltery of land resource scarcity.
Description
Technical Field
The utility model relates to a metallurgical field especially relates to a preparation of copper matte powder and conveying equipment and factory building integration configuration system.
Background
In the metallurgical production process, particularly in the copper smelting industry, the metallurgical furnace has requirements on the granularity and the water content of the copper matte powder entering the furnace, so the copper matte powder usually needs to be ground and dried. The conventional preparation and conveying of the matte powder usually adopts a mode that a grinding machine is used for firstly preparing the matte powder, then a dust collector is used for collecting the matte powder, and then positive pressure pneumatic conveying equipment is used for conveying the matte powder to a storage bin at the top of a metallurgical furnace. The configuration structure has the advantages of more equipment, complicated material conveying, large occupied area and large investment, and is not beneficial to the overall arrangement of a smelting plant with scarce land.
Therefore, research and development of an integrated configuration system of a matte powder preparation and conveying device and a factory building are needed.
Disclosure of Invention
In order to solve the technical problem, the utility model provides a matte powder preparation and conveying device and a factory building integrated configuration system, wherein the device comprises a mill, a pre-dust collector, a dust collector, an exhaust fan, a hot blast stove, an exhaust funnel, a top stock bin, a first conveyor and a second conveyor;
A) the pre-dust collector is connected with the mill and arranged at the outlet end of the mill;
B) the dust collector is connected with the pre-dust collector and arranged at the outlet end of the pre-dust collector;
C) the exhaust fan is connected with the dust collector and arranged at the outlet end of the dust collector;
D) the hot blast stove is connected with the mill and is arranged at the inlet end of the mill;
E) the exhaust funnel is connected with the exhaust fan and arranged at the outlet end of the exhaust fan;
F) the top bin is connected with the first conveyor and the second conveyor and arranged below the first conveyor and the second conveyor;
G) the first conveyor is connected with the pre-dust collector and arranged below the pre-dust collector;
H) and the second conveyor is connected with the dust collector and arranged below the dust collector.
The device also comprises a power distributor and a controller, wherein the power distributor is connected with the mill, the dust collector, the exhaust fan, the first conveyor, the second conveyor and the hot blast stove and is arranged below the dust collector; the controller with the distributor, the mill, the dust collector, the exhaust fan, first conveyer, the second conveyer with the hot-blast furnace links to each other, and sets up dust collector below.
Wherein, the exhaust fan is connected with the hot blast stove.
The equipment is arranged in the plant, the plant consists of a main span plant and an auxiliary span plant, and the auxiliary span plant is positioned on one side of the main span plant in the transverse direction.
The main span plant comprises five layers, wherein the first layer is located at the lowest level; the additional span plant comprises two layers, wherein the first layer is positioned at the lowest layer.
Wherein,
A) the mill is arranged on the first floor of the additional span plant;
B) the pre-dust collector is arranged on the fifth layer of the main span plant;
C) the dust collector is arranged on the fifth layer of the main span plant;
D) the exhaust fan is arranged on the ground outside the main span plant;
E) the hot blast stove is arranged on the first floor of the additional span plant;
F) the exhaust funnel is hung on the outer side wall surface of the main span workshop;
G) the top bin is arranged on the fourth layer of the main span workshop and spans into the fifth layer.
H) The first conveyor is arranged at the fifth layer of the main span workshop;
I) the second conveyor is arranged at the fifth layer of the main span workshop.
The equipment further comprises a quantitative feeding device, wherein the quantitative feeding device is connected with the top stock bin, is arranged below the top stock bin and is positioned on the third layer of the main span workshop.
The equipment further comprises a metallurgical furnace, wherein the metallurgical furnace is connected with the quantitative charging device, is arranged below the quantitative charging device and is positioned on the first floor of the main bay workshop.
And a roof is arranged above the fifth layer of the main span plant, and a roof is arranged above the second layer of the auxiliary span plant.
The equipment further comprises a first crane and a second crane, wherein the first crane is arranged on the top wall of the second floor of the additional bay factory building, and the second crane is arranged on the top wall of the fifth floor of the main bay factory building.
The utility model has the advantages that:
the utility model provides a matte powder preparation and conveying equipment and factory building integrated configuration system, through rationally arranging the equipment in the appropriate position of factory building, can carry out grinding, drying and conveying to matte powder continuously; this configuration system not only makes the material carry unobstructed, area is little, the investment is little, energy-conservation, running cost are low, but also can optimize mill's arrangement, is particularly useful for the smelting plant of land resource scarcity and the technological transformation of current smelting plant, and specific advantage shows in following several aspects:
(1) a dust collector for treating mill tail gas is arranged at the fifth layer of the top of the main span workshop, and the principle that dry tail gas with a certain temperature flows upwards and dry matte powder flows downwards is utilized, so that the energy consumption of a system is reduced, and the occupied area is saved;
(2) the exhaust fan is connected with the hot blast stove, so that the waste heat in the tail gas is fully utilized;
(3) the top bin is connected with the quantitative feeding device and arranged above the quantitative feeding device, so that the space between the pre-dust collector and the dust collector is effectively utilized; meanwhile, the top bin is arranged, so that the separated dry matte powder can be temporarily stored in the top bin, when upstream or subsequent equipment breaks down, the upstream or subsequent working procedures can be ensured not to stop running, the stability of the whole process is enhanced, and in addition, the conveying amount of the dry matte powder can be adjusted according to the requirements of a subsequent metallurgical furnace feeding device;
(4) the roofs are arranged above the fifth layer of the main span plant and the second layer of the auxiliary span plant, so that equipment such as a pre-dust collector, a mill, a hot blast stove and the like can be protected from wind, rain and snow, and equipment maintenance can be conveniently carried out under various weather conditions;
(5) the first crane is arranged on the top wall of the second layer of the auxiliary span plant, and the second crane is arranged on the top wall of the fifth layer of the main span plant, so that equipment such as a grinding machine, a hot blast stove, a dust collector and the like can be quickly and conveniently overhauled and maintained;
(6) the distributor and the controller are arranged below the dust collector, so that the distance between the distributor and the controller and the matte powder preparation and conveying equipment is shortened, the distribution cables and the control cables are saved, and the waste of land resources caused by extra land occupation is avoided.
Drawings
In order to more clearly illustrate the technical solution of the present invention, the drawings used in the embodiments will be briefly described below, and obviously, the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained according to the drawings without creative efforts for those skilled in the art.
Fig. 1 is a schematic structural diagram of an integrated configuration system of matte powder preparation and conveying equipment and a factory building, which is provided by the embodiment 5 of the invention;
the names corresponding to the reference numbers in the drawings are as follows: 1-mill, 2-pre-dust collector, 3-dust collector, 4-exhaust fan, 5-hot blast stove, 6-exhaust funnel, 7-top bunker, 8-first conveyor, 9-second conveyor, 10-quantitative feeding device, 11-metallurgical furnace, 12-distributor, 13-controller, 14-first crane, 15-second crane, 16-main span plant and 17-auxiliary span plant.
Detailed Description
The following is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.
Example 1
The utility model provides a matte powder preparation and conveying equipment and a factory building integrated configuration system, wherein the equipment comprises a mill 1, a pre-dust collector 2, a dust collector 3, an exhaust fan 4, a hot blast stove 5, an exhaust funnel 6, a top stock bin 7, a first conveyor 8 and a second conveyor 9; the equipment is arranged in the plant which consists of a main span plant 16 and an auxiliary span plant 17, wherein the main span plant 16 comprises five layers, and the first layer is positioned at the lowest level; the additional bay building 17 comprises two levels and is located on one lateral side of the main bay building 16, with the first level being the lowest.
The mill 1 is arranged at the first floor of the additional span workshop 17; the pre-dust collector 2 is connected with the mill 1, arranged at the outlet end of the mill 1 and positioned at the fifth layer of the main span plant 16; the dust collector 3 is connected with the pre-dust collector 2, is arranged at the outlet end of the pre-dust collector 2 and is positioned at the fifth layer of the main span plant 16; the exhaust fan 4 is connected with the dust collector 3, is arranged at the outlet end of the dust collector 3 and is positioned on the ground outside the main span plant 16; the hot blast stove 5 is connected with the mill 1, is arranged at the inlet end of the mill 1 and is positioned at the first floor of the attached span plant 17; the exhaust funnel 6 is connected with the exhaust fan 4, arranged at the outlet end of the exhaust fan 4 and hung on the outer wall surface of the main span plant 16; the top bin 7 is connected with the first conveyor 8 and the second conveyor 9, is arranged below the first conveyor 8 and the second conveyor 9, is positioned on the fourth layer of the main span plant 16 and spans into the fifth layer; the first conveyor 8 is connected with the pre-dust collector 2, is arranged below the pre-dust collector 2 and is positioned at the fifth layer of the main span plant 16; and the second conveyor 9 is connected with the dust collector 3, is arranged below the dust collector 3 and is positioned at the fifth layer of the main span workshop 16.
Example 2
The utility model provides a matte powder preparation and conveying equipment and a factory building integrated configuration system, wherein the equipment comprises a mill 1, a pre-dust collector 2, a dust collector 3, an exhaust fan 4, a hot blast stove 5, an exhaust funnel 6, a top stock bin 7, a first conveyor 8, a second conveyor 9 and a quantitative feeding device 10; the equipment is arranged in the plant which consists of a main span plant 16 and an auxiliary span plant 17, wherein the main span plant 16 comprises five layers, and the first layer is positioned at the lowest level; the additional bay building 17 comprises two levels and is located on one lateral side of the main bay building 16, with the first level being the lowest.
The mill 1 is arranged at the first floor of the additional span workshop 17; the pre-dust collector 2 is connected with the mill 1, arranged at the outlet end of the mill 1 and positioned at the fifth layer of the main span plant 16; the dust collector 3 is connected with the pre-dust collector 2, is arranged at the outlet end of the pre-dust collector 2 and is positioned at the fifth layer of the main span plant 16; the exhaust fan 4 is connected with the dust collector 3, is arranged at the outlet end of the dust collector 3 and is positioned on the ground outside the main span plant 16; the hot blast stove 5 is connected with the mill 1, is arranged at the inlet end of the mill 1 and is positioned at the first floor of the attached span plant 17; the exhaust funnel 6 is connected with the exhaust fan 4, arranged at the outlet end of the exhaust fan 4 and hung on the outer wall surface of the main span plant 16; the top bin 7 is connected with the first conveyor 8 and the second conveyor 9, is arranged below the first conveyor 8 and the second conveyor 9, is positioned on the fourth layer of the main span plant 16 and spans into the fifth layer; the first conveyor 8 is connected with the pre-dust collector 2, is arranged below the pre-dust collector 2 and is positioned at the fifth layer of the main span plant 16; the second conveyor 9 is connected with the dust collector 3, is arranged below the dust collector 3 and is positioned at the fifth layer of the main span plant 16; the quantitative feeding device 10 is connected with the top bin 7, is arranged below the top bin 7 and is positioned on the third floor of the main span workshop 16.
Example 3
The utility model provides a matte powder preparation and conveying equipment and factory building integrated configuration system, the equipment comprises a mill 1, a pre-dust collector 2, a dust collector 3, an exhaust fan 4, a hot blast stove 5, an exhaust funnel 6, a top stock bin 7, a first conveyor 8, a second conveyor 9, a quantitative feeding device 10 and a metallurgical furnace 11; the equipment is arranged in the plant which consists of a main span plant 16 and an auxiliary span plant 17, wherein the main span plant 16 comprises five layers, and the first layer is positioned at the lowest level; the additional bay building 17 comprises two levels and is located on one lateral side of the main bay building 16, with the first level being the lowest.
The mill 1 is arranged at the first floor of the additional span workshop 17; the pre-dust collector 2 is connected with the mill 1, arranged at the outlet end of the mill 1 and positioned at the fifth layer of the main span plant 16; the dust collector 3 is connected with the pre-dust collector 2, is arranged at the outlet end of the pre-dust collector 2 and is positioned at the fifth layer of the main span plant 16; the exhaust fan 4 is connected with the dust collector 3, is arranged at the outlet end of the dust collector 3 and is positioned on the ground outside the main span plant 16; the hot blast stove 5 is connected with the mill 1, is arranged at the inlet end of the mill 1 and is positioned at the first floor of the attached span plant 17; the exhaust funnel 6 is connected with the exhaust fan 4, arranged at the outlet end of the exhaust fan 4 and hung on the outer wall surface of the main span plant 16; the top bin 7 is connected with the first conveyor 8 and the second conveyor 9, is arranged below the first conveyor 8 and the second conveyor 9, is positioned on the fourth layer of the main span plant 16 and spans into the fifth layer; the first conveyor 8 is connected with the pre-dust collector 2, is arranged below the pre-dust collector 2 and is positioned at the fifth layer of the main span plant 16; the second conveyor 9 is connected with the dust collector 3, is arranged below the dust collector 3 and is positioned at the fifth layer of the main span plant 16; the quantitative feeding device 10 is connected with the top bin 7, is arranged below the top bin 7 and is positioned on the third layer of the main span plant 16; the metallurgical furnace 11 is connected with the quantitative charging device 10, is arranged below the quantitative charging device 10 and is positioned at the first floor of the main span workshop 16.
Example 4
The utility model provides a matte powder preparation and conveying equipment and factory building integrated configuration system, the equipment includes mill 1, dust collector 2 in advance, dust collector 3, exhaust fan 4, hot-blast furnace 5, aiutage 6, top feed bin 7, first conveyer 8, second conveyer 9, ration feeding device 10, metallurgical stove 11, distributor 12 and controller 13; the equipment is arranged in the plant which consists of a main span plant 16 and an auxiliary span plant 17, wherein the main span plant 16 comprises five layers, and the first layer is positioned at the lowest level; the additional bay building 17 comprises two levels and is located on one lateral side of the main bay building 16, with the first level being the lowest.
The mill 1 is arranged at the first floor of the additional span workshop 17; the pre-dust collector 2 is connected with the mill 1, arranged at the outlet end of the mill 1 and positioned at the fifth layer of the main span plant 16; the dust collector 3 is connected with the pre-dust collector 2, is arranged at the outlet end of the pre-dust collector 2 and is positioned at the fifth layer of the main span plant 16; the exhaust fan 4 is connected with the dust collector 3, is arranged at the outlet end of the dust collector 3 and is positioned on the ground outside the main span plant 16; the hot blast stove 5 is connected with the mill 1, is arranged at the inlet end of the mill 1 and is positioned at the first floor of the attached span plant 17; the exhaust funnel 6 is connected with the exhaust fan 4, arranged at the outlet end of the exhaust fan 4 and hung on the outer wall surface of the main span plant 16; the exhaust fan 4 is connected with the hot blast stove 5; the top bin 7 is connected with the first conveyor 8 and the second conveyor 9, is arranged below the first conveyor 8 and the second conveyor 9, is positioned on the fourth layer of the main span plant 16 and spans into the fifth layer; the first conveyor 8 is connected with the pre-dust collector 2, is arranged below the pre-dust collector 2 and is positioned at the fifth layer of the main span plant 16; the second conveyor 9 is connected with the dust collector 3, is arranged below the dust collector 3 and is positioned at the fifth layer of the main span plant 16; the quantitative feeding device 10 is connected with the top bin 7, is arranged below the top bin 7 and is positioned on the third layer of the main span plant 16; the metallurgical furnace 11 is connected with the quantitative charging device 10, is arranged below the quantitative charging device 10 and is positioned at the first layer of the main span workshop 16; the distributor 12 is connected with the mill 1, the dust collector 3, the exhaust fan 4, the first conveyor 8, the second conveyor 9 and the hot blast stove 5 and is arranged below the dust collector 3; the controller 13 is connected with the distributor 12, the mill 1, the dust collector 3, the exhaust fan 4, the first conveyor 8, the second conveyor 9 and the hot blast stove 5 and is arranged below the dust collector 3.
Example 5
The utility model provides a matte powder preparation and conveying equipment and factory building integrated configuration system, as shown in figure 1, the equipment includes mill 1, dust catcher 2, dust catcher 3, exhaust fan 4, hot-blast furnace 5, aiutage 6, top feed bin 7, first conveyer 8, second conveyer 9, quantitative feeding device 10, metallurgical furnace 11, distributor 12, controller 13, first crane 14 and second crane 15; the equipment is arranged in the plant, the plant consists of a main span plant 16 and an auxiliary span plant 17, the main span plant 16 comprises five layers, wherein the first layer is positioned at the lowest level, and a roof is arranged above the fifth layer; the auxiliary span plant 17 comprises two layers and is positioned on one side of the main span plant 16 in the transverse direction, wherein the first layer is positioned at the lowest level, and a roof is arranged above the second layer.
The mill 1 is arranged at the first floor of the additional span workshop 17; the pre-dust collector 2 is connected with the mill 1, arranged at the outlet end of the mill 1 and positioned at the fifth layer of the main span plant 16; the dust collector 3 is connected with the pre-dust collector 2, is arranged at the outlet end of the pre-dust collector 2 and is positioned at the fifth layer of the main span plant 16; the exhaust fan 4 is connected with the dust collector 3, is arranged at the outlet end of the dust collector 3 and is positioned on the ground outside the main span plant 16; the hot blast stove 5 is connected with the mill 1, is arranged at the inlet end of the mill 1 and is positioned at the first floor of the attached span plant 17; the exhaust funnel 6 is connected with the exhaust fan 4, arranged at the outlet end of the exhaust fan 4 and hung on the outer wall surface of the main span plant 16; the exhaust fan 4 is connected with the hot blast stove 5; the top bin 7 is connected with the first conveyor 8 and the second conveyor 9, is arranged below the first conveyor 8 and the second conveyor 9, is positioned on the fourth layer of the main span plant 16 and spans into the fifth layer; the first conveyor 8 is connected with the pre-dust collector 2, is arranged below the pre-dust collector 2 and is positioned at the fifth layer of the main span plant 16; the second conveyor 9 is connected with the dust collector 3, is arranged below the dust collector 3 and is positioned at the fifth layer of the main span plant 16; the quantitative feeding device 10 is connected with the top bin 7, is arranged below the top bin 7 and is positioned on the third layer of the main span plant 16; the metallurgical furnace 11 is connected with the quantitative charging device 10, is arranged below the quantitative charging device 10 and is positioned at the first layer of the main span workshop 16; the distributor 12 is connected with the mill 1, the dust collector 3, the exhaust fan 4, the first conveyor 8, the second conveyor 9 and the hot blast stove 5 and is arranged below the dust collector 3; the controller 13 is connected with the distributor 12, the mill 1, the dust collector 3, the exhaust fan 4, the first conveyor 8, the second conveyor 9 and the hot blast stove 5 and is arranged below the dust collector 3; the first crane 14 is arranged on the top wall of the second floor of the additional bay factory 17, and the second crane is arranged on the top wall of the fifth floor of the main bay factory 16.
The utility model provides a preparation of copper matte powder and conveying equipment and factory building integration configuration system, the preparation method of copper matte powder is: and adding the matte material with higher water content into the mill 1 for continuous drying and grinding, and conveying hot flue gas generated by the hot blast stove 5 to a classifier at the top of the mill 1 so as to meet the furnace charging requirement of the metallurgical furnace 11 on the matte powder.
The conveying steps of the matte powder are as follows: the matte powder dried and ground by the mill 1 is conveyed to the top of the metallurgical furnace 11 by the exhaust fan 4 through negative pressure, and is purified twice by the pre-dust collector 2 and the dust collector 3. The purified conveying flue gas is divided into two parts, a small part of the flue gas is discharged into the atmosphere after reaching the standard through the exhaust funnel 6, and most of the flue gas returns to the mill 1 through the hot blast stove 5, so that the hot flue gas can be recycled, and the energy consumption in the drying process of the mill 1 is reduced. The copper matte powder collected by the pre-dust collector 2 and the dust collector 3 is transferred to the top bunker 7 for buffering through the first conveyor 8 and the second conveyor 9 to be used as a raw material of the metallurgical furnace 11. Copper matte powder as a raw material is added into the metallurgical furnace 11 through the quantitative feeding device 10 for smelting.
The above embodiments are further described in detail with reference to specific preferred embodiments, which are described in more detail and in more detail, but are not to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several changes and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.
Claims (10)
1. The utility model provides a matte powder preparation and conveying equipment and factory building integration configuration system which characterized in that: the equipment comprises a grinding machine, a pre-dust collector, a dust collector, an exhaust fan, a hot blast stove, an exhaust funnel, a top bin, a first conveyor and a second conveyor;
A) the pre-dust collector is connected with the mill and arranged at the outlet end of the mill;
B) the dust collector is connected with the pre-dust collector and arranged at the outlet end of the pre-dust collector;
C) the exhaust fan is connected with the dust collector and arranged at the outlet end of the dust collector;
D) the hot blast stove is connected with the mill and is arranged at the inlet end of the mill;
E) the exhaust funnel is connected with the exhaust fan and arranged at the outlet end of the exhaust fan;
F) the top bin is connected with the first conveyor and the second conveyor and arranged below the first conveyor and the second conveyor;
G) the first conveyor is connected with the pre-dust collector and arranged below the pre-dust collector;
H) and the second conveyor is connected with the dust collector and arranged below the dust collector.
2. The integrated configuration system for the matte powder preparation and conveying equipment and the workshop as claimed in claim 1, wherein the integrated configuration system comprises: the equipment also comprises a power distributor and a controller, wherein the power distributor is connected with the mill, the dust collector, the exhaust fan, the first conveyor, the second conveyor and the hot blast stove and is arranged below the dust collector; the controller with the distributor, the mill, the dust collector, the exhaust fan, first conveyer, the second conveyer with the hot-blast furnace links to each other, and sets up dust collector below.
3. The integrated configuration system for the matte powder preparation and conveying equipment and the workshop as claimed in claim 1, wherein the integrated configuration system comprises: the exhaust fan is connected with the hot blast stove.
4. The integrated configuration system for the matte powder preparation and conveying equipment and the workshop as claimed in claim 1, wherein the integrated configuration system comprises: the equipment is arranged in the plant, the plant consists of a main span plant and an auxiliary span plant, and the auxiliary span plant is positioned on one lateral side of the main span plant.
5. The integrated configuration system for the matte powder preparation and conveying equipment and the workshop as claimed in claim 4, wherein the integrated configuration system comprises: the main span plant comprises five layers, wherein the first layer is positioned at the lowest level; the additional span plant comprises two layers, wherein the first layer is positioned at the lowest layer.
6. The integrated configuration system for matte powder preparation and conveying equipment and workshops according to claim 5, wherein:
A) the mill is arranged on the first floor of the additional span plant;
B) the pre-dust collector is arranged on the fifth layer of the main span plant;
C) the dust collector is arranged on the fifth layer of the main span plant;
D) the exhaust fan is arranged on the ground outside the main span plant;
E) the hot blast stove is arranged on the first floor of the additional span plant;
F) the exhaust funnel is hung on the outer side wall surface of the main span workshop;
G) the top bin is arranged on the fourth layer of the main span plant and spans into the fifth layer;
H) the first conveyor is arranged at the fifth layer of the main span workshop;
I) the second conveyor is arranged at the fifth layer of the main span workshop.
7. The integrated configuration system for the matte powder preparation and conveying equipment and the factory building as claimed in claim 6, wherein the integrated configuration system comprises: the equipment further comprises a quantitative feeding device, wherein the quantitative feeding device is connected with the top stock bin, is arranged below the top stock bin and is positioned on the third layer of the main span workshop.
8. The integrated configuration system for matte powder preparation and conveying equipment and workshops according to claim 7, wherein: the equipment further comprises a metallurgical furnace, wherein the metallurgical furnace is connected with the quantitative charging device, is arranged below the quantitative charging device and is positioned on the first floor of the main span workshop.
9. The integrated configuration system for matte powder preparation and conveying equipment and workshops according to claim 5, wherein: the roof is arranged above the fifth layer of the main span plant, and the roof is arranged above the second layer of the auxiliary span plant.
10. The integrated configuration system for the matte powder preparation and conveying equipment and the factory building according to claim 9, wherein the integrated configuration system comprises: the equipment further comprises a first crane and a second crane, wherein the first crane is arranged on the top wall of the second floor of the additional bay factory building, and the second crane is arranged on the top wall of the fifth floor of the main bay factory building.
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CN201820017419.1U CN208288197U (en) | 2018-01-05 | 2018-01-05 | A kind of preparation of matte powder and conveying equipment and workshop unified collocation system |
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CN201820017419.1U Withdrawn - After Issue CN208288197U (en) | 2018-01-05 | 2018-01-05 | A kind of preparation of matte powder and conveying equipment and workshop unified collocation system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108176489A (en) * | 2018-01-05 | 2018-06-19 | 中国瑞林工程技术有限公司 | A kind of matte powder preparation and conveying equipment and workshop unified collocation system |
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2018
- 2018-01-05 CN CN201820017419.1U patent/CN208288197U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108176489A (en) * | 2018-01-05 | 2018-06-19 | 中国瑞林工程技术有限公司 | A kind of matte powder preparation and conveying equipment and workshop unified collocation system |
CN108176489B (en) * | 2018-01-05 | 2023-12-26 | 中国瑞林工程技术股份有限公司 | Matte powder preparation and conveying equipment and factory building integrated configuration system |
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