CN205797444U - A kind of deep cooling crush micropowder preparation system - Google Patents
A kind of deep cooling crush micropowder preparation system Download PDFInfo
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- CN205797444U CN205797444U CN201620616338.4U CN201620616338U CN205797444U CN 205797444 U CN205797444 U CN 205797444U CN 201620616338 U CN201620616338 U CN 201620616338U CN 205797444 U CN205797444 U CN 205797444U
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- liquid nitrogen
- stir storehouse
- cooling
- outlet
- heat exchanger
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Abstract
This utility model provides a kind of deep cooling crush micropowder preparation system; it is closed cycle structure; superfines can be produced, and guarantee that reclaiming the gas obtained enters cleanliness factor when subsequent work circulates and enough low temperature, it is ensured that the working environment of whole system is stable.It includes liquid nitrogen storage tank, mechanical activation comminution unit, comminution by gas stream unit, liquid nitrogen storage tank heat exchanger, heat exchanger, liquid nitrogen storage tank is respectively communicated with the first pre-cooling stir storehouse of mechanical activation comminution unit by the most independent liquid nitrogen pipes, second pre-cooling stir storehouse of comminution by gas stream unit, the pulverizing warehouse of mechanical activation comminution unit, liquid nitrogen storage tank is connected to the liquid nitrogen entrance of liquid nitrogen storage tank heat exchanger by liquid nitrogen pipes, the nitrogen outlet of the liquid nitrogen side of described liquid nitrogen storage tank heat exchanger is connected to the first pre-cooling stir storehouse by nitrogen inlet duct road respectively, second pre-cooling stir storehouse, described first pre-cooling stir storehouse, the gas outlet of the second pre-cooling stir storehouse respectively by being communicated to the entrance of described heat exchanger by outlet pipe after filter.
Description
Technical field
This utility model relates to the technical field of crushing material, is specially a kind of deep cooling crush micropowder preparation system.
Background technology
The crushing mechanism that jet mill is primarily adapted for use in determines its applied widely, finish fineness high, existing
Some deep cooling crush systems its lowered the temperature supercharging by turbine, turbocharging and lower the temperature relatively costly, and low temperature can not reach-
160 DEG C, for materials such as strong fiber, viscosity, toughness in crushing process, its use cost is high, and existing deep cooling crush system
The gas flow of system is Open architecture so that in actual use, and cryogenic gas needs constantly to produce so that minimum cold
But the bad control of temperature, and then make the cost height of whole use.
Existing deep cooling crush system, refers to ZL200410014235.2 " inert gas shielded super micro airflow disintegrator group "
And number of patent application is 201510482460.7 " a kind of deep cooling crush systems ", it is provided with the closed circuit circulatory system of gas circuit,
But in actual mechanical process, owing to being provided only with jet mill, by material merely through once pulverizing, its powder obtained
Granularity relatively large, the finished product of superfines can not be reached, and in said system, the most straight through the source of the gas of crushing system
Connecing the core component being flowed into crushing system, the impurity existed in this part source of the gas can be brought into next production cycle and temperature
Degree can not reach enough low temperature, and it makes the working environment instability of crushing system, and then is easily caused the situation generations such as fault.
Summary of the invention
For the problems referred to above, this utility model provides a kind of deep cooling crush micropowder preparation system, and it is closed cycle
Structure, can produce superfines, and guarantees to reclaim the cleanliness factor when gas obtained enters subsequent work circulation and of a sufficiently low
Temperature, it is ensured that the working environment of whole system is stable.
A kind of deep cooling crush micropowder preparation system, it is characterised in that: it includes liquid nitrogen storage tank, mechanical activation comminution unit, gas
Stream pulverizes unit, liquid nitrogen storage tank heat exchanger, heat exchanger, and described liquid nitrogen storage tank is respectively communicated with machine by the most independent liquid nitrogen pipes
Tool pulverizes the first pre-cooling stir storehouse of unit, the second pre-cooling stir storehouse of comminution by gas stream unit, the crushing bin of mechanical activation comminution unit
Body, described liquid nitrogen storage tank is connected to the liquid nitrogen entrance of liquid nitrogen storage tank heat exchanger, described liquid nitrogen storage tank heat exchanger by liquid nitrogen pipes
The nitrogen outlet of liquid nitrogen side be connected to the first pre-cooling stir storehouse, the second pre-cooling stir storehouse, institute by nitrogen inlet duct road respectively
State the first pre-cooling stir storehouse, the second pre-cooling stir storehouse gas outlet respectively by being communicated to institute by outlet pipe after filter
Stating the entrance of heat exchanger, liquid nitrogen can gasify when entering the first pre-cooling stir storehouse, the second pre-cooling stir storehouse cooling, and the gas of gasification returns
Receive to heat exchanger to carry out pulverizing at the beginning of source of the gas and cool down, reach discarded recycling, the end gas end warp of described comminution by gas stream unit
Cross after the first filter effluent air sequentially connects compressor, grease trap, cold dry device, filter group by the first pipeline and pass through
Pipeline is connected to the entrance of described heat exchanger, and the outlet of described heat exchanger is connected to described liquid nitrogen storage tank heat exchanger by pipeline
The nitrogen inlet of nitrogen side, the nitrogen outlet of the nitrogen side of described liquid nitrogen storage tank heat exchanger passes through pipeline connection comminution by gas stream unit
Comminution by gas stream chamber, the port of export of described mechanical activation comminution unit is connected to the second pre-cooling stir storehouse by powder delivering pipe.
It is further characterized by
The end gas end of comminution by gas stream unit is directly connected to by the second pipeline through the first filter effluent air
The entrance of described heat exchanger, described second pipeline is provided with pneumatic circuit valve, when the end gas of comminution by gas stream unit passes through
Without can directly open pneumatic circuit valve after undesired impurities after first filter, gas is allowed to be passed through heat exchanger entrance;
Mechanical activation comminution unit includes mechanical crusher, conveying worm, material temporary storing bin, the first pre-cooling stir storehouse, first
The outlet at bottom of pre-cooling stir storehouse is communicated to the pulverizing warehouse of mechanical crusher, and the outlet of described pulverizing warehouse is positioned at described spiral
The surface of the input of conveyer, the outfan of described conveying worm is passed through the entrance of described material temporary storing bin, described thing
The outlet of material temporary storing bin is connected to the entrance of the second pre-cooling stir storehouse by powder delivering pipe;
Described comminution by gas stream unit includes jet mill, cyclone separator, cleaner unit, the second pre-cooling stir storehouse, the
The feeding mouth of the outlet of two pre-cooling stir storehouses extremely described jet mill, the outlet of described jet mill is connected to whirlwind
Segregation apparatus, the material outlet of described cyclone separator is communicated to the first discharge tank, the clean gas of described cyclone separator
Body outlet connection has cleaner unit, and the bottom discharge mouth of described cleaner unit is communicated to the second discharge tank, and the gas of described cleaner unit goes out
Mouthful connect and to have the entrance of the first filter, the gas outlet of described first filter to be respectively communicated with the first pipeline, the second pipeline
Entrance, the nitrogen outlet of the described liquid nitrogen storage tank heat exchanger comminution by gas stream chamber by pipeline connection jet mill;
The gasifying gas outlet of described liquid nitrogen storage tank heat exchanger is connected to the entrance of described heat exchanger, liquid by branch line
Nitrogen storage tank heat exchanger can gasify to when pulverizing the cooling of the source of the gas degree of depth, and the high-temperature gas of partial gasification is recycled to heat exchanger and pulverizes
Cool down at the beginning of source of the gas, reach discarded recycling;
It is respectively arranged with pneumatic control in liquid nitrogen pipes corresponding to described first pre-cooling stir storehouse, the second pre-cooling stir storehouse
Valve, the nitrogen inlet duct road corresponding to described first pre-cooling stir storehouse, the second pre-cooling stir storehouse is respectively arranged with pneumatic control
Valve, the outlet pipe corresponding to described first pre-cooling stir storehouse, the second pre-cooling stir storehouse is respectively arranged with pneumatic air bleeding valve, the
One pre-cooling stir storehouse, the second pre-cooling stir storehouse are respectively arranged with pressure monitoring point and temperature monitoring point, and pneumatic control valve is according to pressure
Power monitoring point and temperature monitoring point feedback data, for regulate entrance the first pre-cooling stir storehouse, the liquid of the second pre-cooling stir storehouse
Nitrogen and nitrogen, it is ensured that suitably pressure and temperature, pneumatic air bleeding valve is used for controlling to discharge the first pre-cooling stir storehouse, the second pre-cooling is stirred
Mix the nitrogen amount in storehouse;
Described liquid nitrogen storage tank is communicated in the liquid nitrogen pipes pulverizing warehouse of described mechanical crusher be provided with pneumatic ball valve,
For controlling liquid nitrogen inlet;
It is provided with pneumatic control valve, for regulating the inventory of input the second pre-cooling stir storehouse in described powder delivering pipe;
Described cleaner unit is provided with the venting of dust explosion mouth leading to outdoor, is provided with pressure between the exhaust gas entrance of described cleaner unit, outlet
Difference monitoring point, when pressure drop exceedes the upper limit of stable pressure reduction, venting of dust explosion mouth open, discharge many balance gas, described cleaner unit
Be provided with temperature monitoring point, when monitoring temperature and being too high, venting of dust explosion mouth is opened, discharge high-temperature gas;
The main air outlet section of the gas outlet of described first filter is provided with electrical control exhaust-valve and mechanical emptying valve, position
It is respectively communicated with the first pipeline, the entrance of the second pipeline, it is ensured that after pulverizing source of the gas can not continue in the main outlet side of exhaust-valve rear end
Timely discharge during continuous use;
The outlet of described heat exchanger is provided with electrically to the pipeline of the nitrogen inlet of described liquid nitrogen storage tank heat exchanger
Control exhaust-valve and pneumatic evacuation valve, it is ensured that empty in time.
After using this utility model, the leading portion at comminution by gas stream unit arranges mechanical activation comminution unit, through mechanical crusher
Material is tentatively pulverized by group, carries out superfines by being passed into comminution by gas stream unit through the preliminary material pulverized the most again
Preparation, is passed through low temperature nitrogen, so that the pulverizing of material is more in the first pre-cooling stir storehouse, crushing bin of mechanical activation comminution unit
Thoroughly, and from the first pre-cooling stir storehouse, the second pre-cooling stir storehouse it is the coldest that the nitrogen being recovered to carries out pulverizing source of the gas through heat exchanger
But, the purpose of discarded recycling is reached, additionally, the gas that the end gas end of comminution by gas stream unit flows out through the first filter
Body is connected to entering of heat exchanger by pipeline after sequentially connecting compressor, grease trap, cold dry device, filter group by the first pipeline
Mouthful, it makes the nitrogen being recovered to enter back into closed cycle after the removal of impurity and cooling, and guarantees that reclaiming the gas obtained enters
Enter cleanliness factor when subsequent work circulates and enough low temperature;To sum up, this system can produce superfines, and guarantees that recovery obtains
Gas cleanliness factor when entering subsequent work circulation and enough low temperature, it is ensured that the working environment of whole system is stable.
Accompanying drawing explanation
Fig. 1 is front view structural representation of the present utility model;
Fig. 2 is the front view schematic enlarged-scale view of mechanical activation comminution unit of the present utility model;
Fig. 3 is the front view schematic enlarged-scale view of comminution by gas stream unit of the present utility model;
In figure, the reference name corresponding to each sequence number is as follows:
Liquid nitrogen storage tank 1, mechanical activation comminution unit 2, comminution by gas stream unit 3, liquid nitrogen storage tank heat exchanger 4, heat exchanger 5, liquid nitrogen pipe
Road the 6, first pre-cooling stir storehouse the 7, second pre-cooling stir storehouse 8, pulverizing warehouse 9, nitrogen inlet duct road 10, outlet pipe 11, first
Filter the 12, first pipeline 13, compressor 14, grease trap 15, cold dry device 16, filter group 17, powder delivering pipe 18, second are managed
Road 19, pneumatic circuit valve 20, mechanical crusher 21, conveying worm 22, material temporary storing bin 23, jet mill 24, whirlwind divide
From device 25, cleaner unit the 26, first discharge tank the 27, second discharge tank the 28, first pressure monitoring point 29, branch line 30, first
Pneumatic control valve 31, pneumatic air bleeding valve the 32, second pressure monitoring point the 33, first temperature monitoring point 34, pneumatic ball valve the 35, second gas
Brake control valve 36, venting of dust explosion mouth 37, pressure reduction monitoring point 38, main air outlet section the 39, first electrical control exhaust-valve 40, mechanical emptying valve
41, the second electrical control exhaust-valve 42, pneumatic evacuation valve the 43, second temperature monitoring point 44.
Detailed description of the invention
A kind of deep cooling crush micropowder preparation system, is shown in Fig. 1~Fig. 3: it include liquid nitrogen storage tank 1, mechanical activation comminution unit 2,
Comminution by gas stream unit 3, liquid nitrogen storage tank heat exchanger 4, heat exchanger 5, liquid nitrogen storage tank 1 is connected respectively by the most independent liquid nitrogen pipes 6
Logical first pre-cooling stir storehouse 7 of mechanical activation comminution unit 2, the second pre-cooling stir storehouse 8 of comminution by gas stream unit 3, mechanical activation comminution unit 2
Pulverizing warehouse 9, liquid nitrogen storage tank 1 is connected to the liquid nitrogen entrance of the liquid nitrogen side of liquid nitrogen storage tank heat exchanger 4, liquid by liquid nitrogen pipes 6
The nitrogen outlet of the liquid nitrogen side of nitrogen storage tank heat exchanger 4 respectively by nitrogen inlet duct road 10 be connected to the first pre-cooling stir storehouse 7, the
Two pre-cooling stir storehouses 8, the gas outlet of first pre-cooling stir storehouse the 7, second pre-cooling stir storehouse 8 passes through by after filter respectively
Air pipe 11 is communicated to the entrance of heat exchanger 5, and liquid nitrogen enters can gas when first pre-cooling stir storehouse the 7, second pre-cooling stir storehouse 8 cools down
Changing, the gas of gasification is recycled to heat exchanger 5 and carries out pulverizing cooling at the beginning of source of the gas, reaches discarded recycling, comminution by gas stream unit 3
End gas end through the first filter 12 effluent air by the first pipeline 13 sequentially connect compressor 14, grease trap 15,
Be connected to the entrance of heat exchanger 5 after cold dry device 16, filter group 17 by pipeline, the outlet of heat exchanger 5 is connected to by pipeline
The nitrogen inlet of the nitrogen side of liquid nitrogen storage tank heat exchanger 4, the nitrogen outlet of the nitrogen side of liquid nitrogen storage tank heat exchanger 4 is by pipeline even
Vent flow pulverizes the comminution by gas stream chamber of unit 3, and it is pre-that the port of export of mechanical activation comminution unit 2 is connected to second by powder delivering pipe 18
Cold stir storehouse 8.
The end gas end of comminution by gas stream unit 3 is direct by the second pipeline 19 through the first filter 12 effluent air
Connect the entrance of heat exchanger 5, the second pipeline 19 is provided with pneumatic circuit valve 20, when the end gas warp of comminution by gas stream unit 3
Without can directly open pneumatic circuit valve 20 after undesired impurities after crossing the first filter 12, gas is allowed to be passed through heat exchanger 5 entrance;
Mechanical activation comminution unit 2 includes mechanical crusher 21, conveying worm 22, material temporary storing bin the 23, first pre-cooling stirring
Storehouse 7, the outlet at bottom of the first pre-cooling stir storehouse 7 is communicated to the pulverizing warehouse 9 of mechanical crusher 21, pulverizes the outlet position of warehouse 9
In the surface of the input of conveying worm 22, the outfan of conveying worm 22 is passed through the entrance of material temporary storing bin 23, thing
The outlet of material temporary storing bin 23 is connected to the entrance of the second pre-cooling stir storehouse 8 by powder delivering pipe 18;
Comminution by gas stream unit 3 includes jet mill 24, cyclone separator 25, cleaner unit the 26, second pre-cooling stir storehouse
8, the feeding mouth of the outlet of the second pre-cooling stir storehouse 8 to jet mill 24, the outlet of jet mill 24 is connected to rotation
Wind segregation apparatus 25, the material outlet of cyclone separator 25 is communicated to the first discharge tank 27, the cleaning of cyclone separator 25
Gas outlet connects cleaner unit 26, and the bottom discharge mouth of cleaner unit 26 is communicated to the second discharge tank 28, the gas of cleaner unit 26
Outlet connects the entrance having the first filter 12, and the gas outlet of the first filter 12 is respectively communicated with the first pipeline 13, second and manages
The entrance on road 19, the nitrogen outlet of the liquid nitrogen storage tank heat exchanger 4 comminution by gas stream chamber by pipeline connection jet mill 24;
The gasifying gas outlet of liquid nitrogen storage tank heat exchanger 4 is connected to entering of heat exchanger 5 by branch line 30
Mouthful, liquid nitrogen storage tank heat exchanger 4 can gasify to when pulverizing the cooling of the source of the gas degree of depth, and the high-temperature gas of gasification is recycled to heat exchange
Device 5 carries out pulverizing cooling at the beginning of source of the gas, reaches discarded recycling;
It is respectively arranged with first pneumatic in liquid nitrogen pipes 6 corresponding to first pre-cooling stir storehouse the 7, second pre-cooling stir storehouse 8
Control valve 31, the nitrogen inlet duct road 10 corresponding to first pre-cooling stir storehouse the 7, second pre-cooling stir storehouse 8 is respectively arranged with
One pneumatic control valve 31, the outlet pipe 11 corresponding to first pre-cooling stir storehouse the 7, second pre-cooling stir storehouse 8 is respectively arranged with
Pneumatic air bleeding valve 32, first pre-cooling stir storehouse the 7, second pre-cooling stir storehouse 8 is respectively arranged with the second pressure monitoring point 33 and first
Temperature monitoring point 34, the number that the first pneumatic control valve 31 feeds back according to the second pressure monitoring point 33 and the first temperature monitoring point 34
According to, enter the liquid nitrogen of first pre-cooling stir storehouse the 7, second pre-cooling stir storehouse 8 and nitrogen for regulating, it is ensured that suitably pressure and temperature
Degree, pneumatic air bleeding valve 32 is for controlling the nitrogen amount discharging first pre-cooling stir storehouse the 7, second pre-cooling stir storehouse 8;
Liquid nitrogen storage tank 1 is communicated in the liquid nitrogen pipes 6 pulverizing warehouse 9 of mechanical crusher 21 be provided with pneumatic ball valve 35,
For controlling liquid nitrogen inlet;
The second pneumatic control valve 36 it is provided with, for regulating the thing of input the second pre-cooling stir storehouse 8 in powder delivering pipe 18
Doses;
Cleaner unit 26 is provided with the venting of dust explosion mouth 37 leading to outdoor, is provided with pressure reduction between the exhaust gas entrance of cleaner unit 26, outlet
Monitoring point 38, when pressure drop exceedes the upper limit of stable pressure reduction, venting of dust explosion mouth 37 open, discharge many balance gas, cleaner unit 26
Being provided with the second temperature monitoring point 44, when monitoring temperature and being too high, venting of dust explosion mouth 37 is opened, and discharges high-temperature gas;
The main air outlet section 39 of the gas outlet of the first filter 12 is provided with the first electrical control exhaust-valve 40 and machinery row
Empty valve 41, the main outlet side 39 being positioned at exhaust-valve rear end is respectively communicated with the entrance of first pipeline the 13, second pipeline 19, it is ensured that pulverize
Timely discharge when source of the gas can not follow-up use;
The outlet of heat exchanger 5 is provided with the second electric-controlled to the pipeline of the nitrogen inlet of liquid nitrogen storage tank heat exchanger 4
Exhaust-valve 42 processed and pneumatic evacuation valve 43, it is ensured that empty in time;
Jet mill 24 be internally provided with the first pressure monitoring point 29, it is ensured that grasp pressure condition in real time.
Its operation principle is as follows: the leading portion at comminution by gas stream unit 3 arranges mechanical activation comminution unit 2, through mechanical crusher
Material is tentatively pulverized by group 2, carries out micropowder by being passed into comminution by gas stream unit 3 through the preliminary material pulverized the most again
End preparation, is passed through low temperature nitrogen in the first pre-cooling stir storehouse 7, crushing bin 9 of mechanical activation comminution unit, so that the powder of material
Broken more thorough, and the nitrogen being recovered to from first pre-cooling stir storehouse the 7, second pre-cooling stir storehouse 8 carries out pulverizing gas through heat exchanger
Cool down at the beginning of source, reach the purpose of discarded recycling, additionally, the end gas end of comminution by gas stream unit 3 is through the first filter
12 effluent airs pass through after sequentially connecting compressor 14, grease trap 15, cold dry device 16, filter group 17 by the first pipeline 13
Pipeline is connected to the entrance of heat exchanger 5, or the gas of cleaning is directly flowed into the entrance of heat exchanger 5 by the second pipeline 19,
It makes the nitrogen being recovered to enter back into closed cycle after the removal of impurity and cooling, and guarantees to reclaim under the gas entrance obtained
Cleanliness factor during one cycle of operation and enough low temperature.
Above specific embodiment of the utility model is described in detail, but content has been only what this utility model was created
Preferred embodiment, it is impossible to be considered for limiting the practical range that this utility model is created.All creation according to this utility model is applied for
Equalization change and the improvement etc. that scope is made, within all should still belonging to patent covering scope of the present utility model.
Claims (10)
1. a deep cooling crush micropowder preparation system, it is characterised in that: it includes liquid nitrogen storage tank, mechanical activation comminution unit, air-flow
Pulverizing unit, liquid nitrogen storage tank heat exchanger, heat exchanger, described liquid nitrogen storage tank is respectively communicated with machinery by the most independent liquid nitrogen pipes
Pulverize the first pre-cooling stir storehouse of unit, the second pre-cooling stir storehouse of comminution by gas stream unit, the pulverizing warehouse of mechanical activation comminution unit,
Described liquid nitrogen storage tank is connected to the liquid nitrogen entrance of liquid nitrogen storage tank heat exchanger, the liquid of described liquid nitrogen storage tank heat exchanger by liquid nitrogen pipes
The nitrogen outlet of nitrogen side is connected to the first pre-cooling stir storehouse, the second pre-cooling stir storehouse by nitrogen inlet duct road respectively, and described
One pre-cooling stir storehouse, the second pre-cooling stir storehouse gas outlet respectively by after filter by outlet pipe be communicated to described in change
The entrance of hot device, the end gas end of described comminution by gas stream unit is suitable by the first pipeline through the first filter effluent air
It is connected to the entrance of described heat exchanger, described heat exchange by pipeline after secondary connection compressor, grease trap, cold dry device, filter group
The outlet of device is connected to the nitrogen inlet of the nitrogen side of described liquid nitrogen storage tank heat exchanger, described liquid nitrogen storage tank heat exchanger by pipeline
The nitrogen outlet of nitrogen side by the comminution by gas stream chamber of pipeline connection comminution by gas stream unit, the outlet of described mechanical activation comminution unit
End is connected to the second pre-cooling stir storehouse by powder delivering pipe.
2. a kind of deep cooling crush micropowder preparation system as claimed in claim 1, it is characterised in that: the end of comminution by gas stream unit
End gas end is directly connected to the entrance of described heat exchanger through the first filter effluent air by the second pipeline, and described second
Pneumatic circuit valve it is provided with on pipeline.
3. a kind of deep cooling crush micropowder preparation system as claimed in claim 1 or 2, it is characterised in that: mechanical activation comminution unit
Including mechanical crusher, conveying worm, material temporary storing bin, the first pre-cooling stir storehouse, the outlet at bottom of the first pre-cooling stir storehouse
Being communicated to the pulverizing warehouse of mechanical crusher, the outlet of described pulverizing warehouse is positioned at just going up of the input of described conveying worm
Side, the outfan of described conveying worm is passed through the entrance of described material temporary storing bin, and powder is passed through in the outlet of described material temporary storing bin
Material conveying tube is connected to the entrance of the second pre-cooling stir storehouse.
4. a kind of deep cooling crush micropowder preparation system as claimed in claim 1 or 2, it is characterised in that: described comminution by gas stream
Unit includes jet mill, cyclone separator, cleaner unit, the second pre-cooling stir storehouse, and the outlet of the second pre-cooling stir storehouse is even
Passing to the feeding mouth of described jet mill, the outlet of described jet mill is connected to cyclone separator, and described whirlwind divides
Material outlet from device is communicated to the first discharge tank, and the clean gas outlet connection of described cyclone separator has cleaner unit,
The bottom discharge mouth of described cleaner unit is communicated to the second discharge tank, and the gas outlet of described cleaner unit connects the first filter
Entrance, the gas outlet of described first filter is respectively communicated with the first pipeline, the entrance of the second pipeline, described liquid nitrogen storage tank heat exchange
The nitrogen outlet of the device comminution by gas stream chamber by pipeline connection jet mill.
5. a kind of deep cooling crush micropowder preparation system as claimed in claim 1, it is characterised in that: described liquid nitrogen storage tank heat exchange
The gasifying gas outlet of device is connected to the entrance of described heat exchanger by branch line.
6. a kind of deep cooling crush micropowder preparation system as claimed in claim 1, it is characterised in that: described first pre-cooling is stirred
Mix and in the liquid nitrogen pipes corresponding to storehouse, the second pre-cooling stir storehouse, be respectively arranged with pneumatic control valve, described first pre-cooling stir storehouse,
Pneumatic control valve it is respectively arranged with on nitrogen inlet duct road corresponding to second pre-cooling stir storehouse, described first pre-cooling stir storehouse,
Pneumatic air bleeding valve, the first pre-cooling stir storehouse, the second pre-cooling it is respectively arranged with on outlet pipe corresponding to second pre-cooling stir storehouse
Stir storehouse is respectively arranged with pressure monitoring point and temperature monitoring point, and pneumatic control valve is anti-according to pressure monitoring point and temperature monitoring point
The data of feedback, for regulating entrance the first pre-cooling stir storehouse, the liquid nitrogen of the second pre-cooling stir storehouse and nitrogen, it is ensured that suitably pressure
And temperature, pneumatic air bleeding valve is for controlling to discharge the first pre-cooling stir storehouse, the nitrogen amount of the second pre-cooling stir storehouse.
7. a kind of deep cooling crush micropowder preparation system as claimed in claim 3, it is characterised in that: described liquid nitrogen storage tank connects
To the liquid nitrogen pipes pulverizing warehouse of described mechanical crusher, it is provided with pneumatic ball valve, is used for controlling liquid nitrogen inlet.
8. a kind of deep cooling crush micropowder preparation system as claimed in claim 1, it is characterised in that: in described powder delivering pipe
It is provided with pneumatic control valve, for regulating the inventory of input the second pre-cooling stir storehouse.
9. a kind of deep cooling crush micropowder preparation system as claimed in claim 4, it is characterised in that: described cleaner unit is provided with
Lead to the venting of dust explosion mouth of outdoor, between the exhaust gas entrance of described cleaner unit, outlet, be provided with pressure reduction monitoring point, the setting of described cleaner unit
There is temperature monitoring point.
10. a kind of deep cooling crush micropowder preparation system as claimed in claim 1, it is characterised in that: described first filter
The main air outlet section of gas outlet be provided with electrical control exhaust-valve and mechanical emptying valve, be positioned at the main outlet side of exhaust-valve rear end
It is respectively communicated with the first pipeline, the entrance of the second pipeline, the nitrogen of the outlet of described heat exchanger to described liquid nitrogen storage tank heat exchanger
Electrical control exhaust-valve and pneumatic evacuation valve it is provided with on the pipeline of gas entrance.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106076571A (en) * | 2016-06-21 | 2016-11-09 | 江苏密友粉体新装备制造有限公司 | A kind of deep cooling crush micropowder preparation system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106076571A (en) * | 2016-06-21 | 2016-11-09 | 江苏密友粉体新装备制造有限公司 | A kind of deep cooling crush micropowder preparation system |
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GR01 | Patent grant | ||
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AV01 | Patent right actively abandoned |
Granted publication date: 20161214 Effective date of abandoning: 20181106 |