CN204545422U - Hydronic metal-powder evaporation device for making - Google Patents
Hydronic metal-powder evaporation device for making Download PDFInfo
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- CN204545422U CN204545422U CN201520138454.5U CN201520138454U CN204545422U CN 204545422 U CN204545422 U CN 204545422U CN 201520138454 U CN201520138454 U CN 201520138454U CN 204545422 U CN204545422 U CN 204545422U
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- crucible
- metal
- collector
- hydronic
- heater
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Abstract
The utility model belongs to metal-powder device for making technical field, relate to hydronic metal-powder evaporation device for making, comprise body of heater, crucible, plasma torch, collector, heat exchanger, opening on the upside of described crucible is provided with crucible lid, the shower nozzle of plasma torch extend into crucible interior through crucible lid, the outer surface of the shower nozzle in crucible lid and crucible is coated with the sheath that exotic material is made, heat preserving and insulating material is provided with between body of heater and crucible, gas outlet on the upside of collector is provided with gas-solid separator, the cooling tube of drawing from the gas outlet of gas-solid separator connects air exhauster successively, through body of heater after heat exchanger, the inlet channel that heat preserving and insulating material is covered by mouth of pot is communicated with crucible interior, the discharge nozzle of storage vat is communicated with crucible interior through body of heater and crucible lid with the feed pipe of collector, advantage is: refrigerating gas recycles, energy consumption is little, purity is high, be applicable to make highly purified submicron metal.
Description
Technical field
The utility model belongs to metal-powder device for making technical field, refers in particular to a kind of hydronic metal-powder evaporation device for making.
Background technology
Superfine powder generates after solid-state superfine powder particle through vapor phase method particle maker, because its temperature is higher, will cool before entering collector to it.Prior art adopts refrigerating gas cooling superfine powder, spray into by refrigerating gas the Coated powder surface that chien shih refrigerating gas in vapor phase method particle maker and collector formed to cool, its weak point is: one is that refrigerating gas use amount is large, and material consumption is high with energy consumption; Two is that the distance of metallic particles in the crucible in the shower nozzle of plasma torch and body of heater is comparatively large, and energy consumption is large.Not enough for it, Chinese patent CN 102357655 B discloses " a kind of superfine powder cooling method ", that liquid phase protective medium to be atomized into particle diameter be after 50 ~ 300 μm, spray into the cooler in the middle of vapor phase method particle maker and collector, make liquid phase protective medium be coated on superfine powder surface to cool superfine powder, cooled superfine powder enters in collector and deposits, although its cooling effect improves to some extent, but it is obvious not, and the distance of metallic particles in the crucible still existing in the shower nozzle of plasma torch and body of heater is larger, the deficiency that energy consumption is large, simultaneously, due to the purity problem of liquid phase protective medium, also the purity of superfine powder can be caused to decline.
Summary of the invention
The purpose of this utility model is to provide the hydronic metal-powder evaporation device for making that a kind of good cooling results, energy consumption are little, purity is high.
The purpose of this utility model is achieved in that
Hydronic metal-powder evaporation device for making, comprise body of heater, crucible in body of heater, the plasma torch of the metal in heating evaporation crucible, collect the collector of the metal dust produced in crucible, it is characterized in that: the opening on the upside of described crucible is provided with crucible lid, the shower nozzle of plasma torch extend into crucible interior through crucible lid, the outer surface of the shower nozzle in crucible lid and crucible is coated with the sheath that exotic material is made, heat preserving and insulating material is provided with between body of heater and crucible, the gas outlet of collector is provided with vavuum pump and gas-solid separator, the cooling tube of drawing from the gas outlet of gas-solid separator connects air exhauster successively, heat exchanger, through body of heater after gas purification filter, the inlet channel that heat preserving and insulating material is covered by mouth of pot is communicated with crucible interior, the discharge nozzle of storage vat is communicated with crucible interior through body of heater and crucible lid with the feed pipe of collector.
The bronchus that cooling tube between above-mentioned heat exchanger and crucible lid is coconnected more than one respectively with the feed pipe of collector and the inner space of collector.
Above-mentioned crucible lid is that heat insulation exotic material is made, the lower surface of crucible lid is the arcwall face of middle part to fovea superior, mouth of pot covers and is evenly equipped with plural inlet channel, the upper opening of inlet channel is in described arcwall face lower surface, lower openings in the lower surface of crucible lid, and the described cooling tube through body of heater, heat preserving and insulating material is connected with the inlet channel opening on described crucible lid lower surface.
The feed pipe of above-mentioned collector is disposed with cooling water jacket layer, adiabator layer, exotic material layer, the inner space of described bronchus and exotic material layer from outside to inside.
The discharge nozzle of above-mentioned storage vat is arranged at intervals with two or more for not shutting down the valve of charging.
The discharge nozzle of the bottom of above-mentioned storage vat is arranged at intervals with two or more for not shutting down the valve of blowing.
The furnace wall of above-mentioned body of heater and bell are double-layer stainless steel jacket structure for water, and furnace wall and bell are provided with the Inlet and outlet water joint be communicated with double-layer stainless steel water jacket.
The side of above-mentioned plasma torch arranges promising its and provides the plasma-arc cabinet of power supply.
The sheath zirconia that above-mentioned exotic material is made or graphite or High-temperature resistant alloy material or high temperature resistant quartz material manufacture.
The metallic particles of 0.1-50mm size is contained with in above-mentioned storage vat.
The concrete structure of above-mentioned collector is: collector lumen segmentation is become epicoele and cavity of resorption by the dividing plate with the transverse direction arranged in the collector inner chamber of cooling jacket, metal filtration pipe has been spaced in cavity of resorption, the lower end closed of metal filtration pipe, dividing plate after-opening is passed in epicoele by tube connector in upper end, each tube connector in epicoele is provided with the magnetic valve of circulation, tube connector between magnetic valve with dividing plate is connected with the air supply pipe be communicated with air accumulator by Y-pipe, air supply pipe is provided with the magnetic valve of air feed, described feed pipe is communicated with the cavity of resorption of collector, the gas outlet of described collector is arranged on the epicoele of collector, the magnetic valve of described circulation and the magnetic valve of air feed are controlled by controller.
The external diameter of above-mentioned metal filtration pipe is 8-85mm, the wall thickness of metal filtration pipe is 1-5mm, described metal filtration pipe has 8-80, in cavity of resorption, the length of metal filtration pipe is 20-3000mm, distance between adjacent two metal filtration pipe outer walls is 1-500mm, and the distance between the metal filtration pipe outer wall of ragged edge and inner collector wall is 1-500mm.
The utility model gives prominence to compared to existing technology and useful technique effect is:
1, the shower nozzle of plasma torch of the present utility model stretches in crucible, and the distance of shower nozzle and metallic particles is little, the direct heating metal particles of high temperature plasma gas that shower nozzle is launched, and energy consumption is little.
2, the heat major part that plasma torch produces by the utility model concentrates in crucible, crucible is interior, the feed pipe of collector, collector repeatedly cools to use the inert gas of cooling to send into, good cooling results, and inert gas (such as nitrogen or helium) is recycled by heat exchanger, save inert gas.
3, the outer surface passing the shower nozzle that crucible lid stretches in crucible of the present utility model is coated with the sheath that exotic material is made, and can not burnt by high temperature by available protecting shower nozzle, and this adds a cover on crucible, shower nozzle stretches in crucible and provides technical guarantee.
The feed pipe of 4, crucible lid of the present utility model and collector is communicated with respectively the bronchus of many cooling tubes, good cooling results.
5, the feed pipe of the utility model collector has cooling water jacket layer, adiabator layer, exotic material layer from outside to inside successively, and is connected with the refrigerating gas of inertia by bronchus in exotic material layer, heat radiation and good heat-insulation effect.
6, the utility model is owing to recycling inert gas as cooling medium, and its purity is high, and the purity of the submicron metal of production is high too, and the added value of submicron metal is high.
7, the utility model is applicable to make submicron metal.
Accompanying drawing explanation
Fig. 1 is structural principle schematic diagram of the present utility model.
Fig. 2 is the enlarged diagram of structure near the collector in Fig. 1.
Detailed description of the invention
The utility model is further described with specific embodiment below in conjunction with accompanying drawing, see Fig. 1-Fig. 2:
Hydronic metal-powder evaporation device for making, comprise body of heater 10, crucible 11 in body of heater 10, the plasma torch 12 of the metal in heating evaporation crucible 11, collect the collector 13 of the metal dust produced in crucible 11, opening on the upside of described crucible 11 is provided with crucible lid 14, the shower nozzle 15 of plasma torch 12 extend into crucible interior through crucible lid 14, the outer surface of the shower nozzle 15 in crucible lid 14 and crucible 11 is coated with the sheath 16 that exotic material is made, heat preserving and insulating material 17 is provided with between body of heater 10 and crucible 11, the gas outlet of collector 13 is provided with vavuum pump 20 and gas-solid separator 18, the cooling tube 19 of drawing from the gas outlet of gas-solid separator 18 connects air exhauster 21 successively, heat exchanger 22, through body of heater 10 after gas purification filter 54, heat preserving and insulating material 17 is communicated with crucible interior 24 by the inlet channel 23 in crucible lid 14, the discharge nozzle 31 of storage vat 30 is communicated with crucible interior 24 through body of heater 10 and crucible lid 14 with the feed pipe 32 of collector 13, the upside of body of heater 10 is provided with the visor 42 observing body of heater 10 inner case.
Above-mentioned heat exchanger 22 is communicated with the feed pipe 32 of collector 13 and the cavity of resorption 34 of collector respectively with the bronchus 33 of coconnected more than one of cooling tube 19 between crucible lid 14, and the cooling tube 19 of heat exchanger 22 both sides is provided with valve.
Above-mentioned crucible lid 14 is made for heat insulation exotic material, the lower surface of crucible lid 14 is the arcwall face of middle part to fovea superior, crucible lid 14 is evenly equipped with plural inlet channel 23, the upper opening of inlet channel 23 is in described arcwall face lower surface, lower openings in the lower surface of crucible lid 14, and the described cooling tube 19 through body of heater 10, heat preserving and insulating material 17 is connected with the inlet channel opening 36 on described crucible lid 14 lower surface.
The feed pipe 32 of above-mentioned collector 13 is disposed with cooling water jacket layer, adiabator layer, exotic material layer from outside to inside, and described bronchus 33 and the inner space of exotic material layer, cooling water jacket layer is double-layer stainless steel structure.
The discharge nozzle 31 of above-mentioned storage vat 30 is arranged at intervals with two or more for not shutting down the valve 37 of charging.
The discharge nozzle 37 of the bottom of above-mentioned storage vat 30 is arranged at intervals with two or more for not shutting down the valve 38 of blowing.
The furnace wall of above-mentioned body of heater 10 and bell are double-layer stainless steel jacket structure for water, and furnace wall and bell are provided with the Inlet and outlet water joint 40 be communicated with double-layer stainless steel water jacket.
The side of above-mentioned plasma torch 12 arranges promising its and provides the plasma-arc cabinet 41 of power supply.
Sheath 16 zirconia that above-mentioned exotic material is made or graphite or High-temperature resistant alloy material or high temperature resistant quartz material manufacture.
The metallic particles of 0.1-50mm size is contained with in above-mentioned storage vat 30.
The concrete structure of above-mentioned collector 13 is: collector 13 lumen segmentation is become epicoele 57 and cavity of resorption 58 by the dividing plate 59 with the transverse direction arranged in collector 13 inner chamber of cooling jacket, metal filtration pipe 53 has been spaced in cavity of resorption 58, the lower end closed of metal filtration pipe 53, dividing plate 59 after-opening is passed in epicoele 57 by tube connector 52 in upper end, each tube connector 52 in epicoele 57 is provided with the magnetic valve 56 of circulation, tube connector 52 between magnetic valve 56 with dividing plate 59 is connected with the air supply pipe 51 be communicated with air accumulator 50 by Y-pipe, air supply pipe 51 is provided with the magnetic valve 55 of air feed, described feed pipe 32 is communicated with the cavity of resorption 58 of collector 13, the gas outlet of described collector 13 is arranged on the epicoele 57 of collector 13, the magnetic valve 56 of described circulation and the magnetic valve 55 of air feed are controlled by controller.
The external diameter L2 of above-mentioned metal filtration pipe 53 is 8-85mm, the wall thickness of metal filtration pipe 53 is 1-5mm, described metal filtration pipe 53 has 8-80, in cavity of resorption, the length L4 of metal filtration pipe 53 is 20-3000mm, distance L1 between adjacent two metal filtration pipe 53 outer walls is 1-500mm, and the distance L3 between metal filtration pipe 53 outer wall of ragged edge and collector 13 inwall is 1-500mm.
Use of the present utility model: the metallic particles placing 0.1-15mm size in storage vat 30, and open two valves 37 and throw in crucible 11 after metallic particles and close two valves 37, start vavuum pump 20, by crucible interior, vavuum pump 20 is closed after being evacuated to certain vacuum in the pipeline of collector 13 and circulation, start heat exchanger 22, body of heater 10, crucible lid 14, cooling water circulating device on feed pipe 32, be body of heater 10 at any time, crucible lid 14, feed pipe 32 is lowered the temperature, control to work for plasma torch 12 by plasma-arc cabinet 41, plasma torch 12 sprays high temperature plasma gas by shower nozzle 15 in crucible interior 24, metallic particles vaporization in crucible 11 is become metal gas, simultaneously, start air exhauster 21 and heat exchanger 22, the cryogenic inert gas cooled in cooling tube 19 sends into crucible interior 24 metal gas of top to shower nozzle 15 and crucible interior 24 top by the inlet channel 23 of crucible lid 14 cools, open the magnetic valve 56 of circulation, metal gas is extracted out from crucible interior 24 simultaneously and is entered in collector cavity of resorption 34 through feed pipe 32 by air exhauster 21, nano level metal dust is attached on metal filtration pipe 53 and collector cavity of resorption 34 inwall be cooled to 100-300 DEG C in collector 13 after, inert gas enters collector epicoele 57 via metal filtration pipe 53, the circulation of cooler is entered again through cooling tube 19 and heat exchanger 22, further separating metal powder and inert gas in gas-solid separator 18, in gas purification filter 54, further inert gas carries out filtration, purification, the inertia refrigerating gas of purification participates in circulating cooling, according to the time of setting, controller controls the magnetic valve closing closed loop, open the magnetic valve of air feed, the inert gas stored in air accumulator 50 enters metal filtration pipe 53 inner chamber, by the filtering micropore on metal filtration pipe 53, the metal dust be attached on metal filtration pipe 53 and collector cavity of resorption 34 inwall is blown off to the bottom of collector 13, controller controls the magnetic valve of cutting out air feed, open the magnetic valve of circulation, enter normal circulating cooling, the valve 38 on the upside of the discharge nozzle 39 of collector 13 is opened in timing, in discharge nozzle 39 on valve 38 on the downside of metal dust falls into, close the valve 38 on the upside of discharge nozzle 39, open the valve 38 on the downside of discharge nozzle 39, metal dust can not be shut down and be got rid of outside collector 13, valve 37 on the upside of the discharge nozzle 31 opening storage vat 30, in the discharge nozzle 31 on the valve 37 that metallic particles falls into downside, close the valve 37 of upside, open the valve 37 of downside, metal dust can not be shut down in feeding crucible interior 24.
Above-described embodiment is only preferred embodiment of the present utility model, not limits protection domain of the present utility model according to this, therefore: all equivalence changes done according to structure of the present utility model, shape, principle, all should be covered by within protection domain of the present utility model.
Claims (12)
1. hydronic metal-powder evaporation device for making, comprise body of heater, crucible in body of heater, the plasma torch of the metal in heating evaporation crucible, collect the collector of the metal dust produced in crucible, it is characterized in that: the opening on the upside of described crucible is provided with crucible lid, the shower nozzle of plasma torch extend into crucible interior through crucible lid, the outer surface of the shower nozzle in crucible lid and crucible is coated with the sheath that exotic material is made, heat preserving and insulating material is provided with between body of heater and crucible, the gas outlet of collector is provided with vavuum pump and gas-solid separator, the cooling tube of drawing from the gas outlet of gas-solid separator connects air exhauster successively, heat exchanger, through body of heater after gas purification filter, the inlet channel that heat preserving and insulating material is covered by mouth of pot is communicated with crucible interior, the discharge nozzle of storage vat is communicated with crucible interior through body of heater and crucible lid with the feed pipe of collector.
2. hydronic metal-powder evaporation device for making according to claim 1, is characterized in that: the bronchus that the cooling tube between described heat exchanger and crucible lid is coconnected more than respectively with the feed pipe of collector and the inner space of collector.
3. hydronic metal-powder evaporation device for making according to claim 1, it is characterized in that: described crucible lid is that heat insulation exotic material is made, the lower surface of crucible lid is the arcwall face of middle part to fovea superior, mouth of pot covers and is evenly equipped with plural inlet channel, the upper opening of inlet channel is in described arcwall face lower surface, lower openings in the lower surface of crucible lid, and the described cooling tube through body of heater, heat preserving and insulating material is connected with the inlet channel opening on described crucible lid lower surface.
4. hydronic metal-powder evaporation device for making according to claim 2, it is characterized in that: the feed pipe of described collector is disposed with cooling water jacket layer, adiabator layer, exotic material layer, the inner space of described bronchus and exotic material layer from outside to inside.
5. the hydronic metal-powder evaporation device for making according to any one of claim 1-3, is characterized in that: the discharge nozzle of described storage vat is arranged at intervals with two or more for not shutting down the valve of charging.
6. the hydronic metal-powder evaporation device for making according to any one of claim 1-3, is characterized in that: the discharge nozzle of the bottom of described storage vat is arranged at intervals with two or more for not shutting down the valve of blowing.
7. the hydronic metal-powder evaporation device for making according to any one of claim 1-3, it is characterized in that: the furnace wall of described body of heater and bell are double-layer stainless steel jacket structure for water, furnace wall and bell are provided with the Inlet and outlet water joint be communicated with double-layer stainless steel water jacket.
8. the hydronic metal-powder evaporation device for making according to any one of claim 1-3, is characterized in that: the side of described plasma torch arranges promising its and provides the plasma-arc cabinet of power supply.
9. the hydronic metal-powder evaporation device for making according to any one of claim 1-3, is characterized in that: the sheath zirconia that described exotic material is made or graphite or High-temperature resistant alloy material or high temperature resistant quartz material manufacture.
10. the hydronic metal-powder evaporation device for making according to any one of claim 1-3, is characterized in that: the metallic particles being contained with 0.1-50mm size in described storage vat.
11. hydronic metal-powder evaporation device for making according to any one of claim 1-3, it is characterized in that: the concrete structure of described collector is: collector lumen segmentation is become epicoele and cavity of resorption by the dividing plate with the transverse direction arranged in the collector inner chamber of cooling jacket, metal filtration pipe has been spaced in cavity of resorption, the lower end closed of metal filtration pipe, dividing plate after-opening is passed in epicoele by tube connector in upper end, each tube connector in epicoele is provided with the magnetic valve of circulation, tube connector between magnetic valve with dividing plate is connected with the air supply pipe be communicated with air accumulator by Y-pipe, air supply pipe is provided with the magnetic valve of air feed, described feed pipe is communicated with the cavity of resorption of collector, the gas outlet of described collector is arranged on the epicoele of collector, the magnetic valve of described circulation and the magnetic valve of air feed are controlled by controller.
12. hydronic metal-powder evaporation device for making according to claim 11, it is characterized in that: the external diameter of described metal filtration pipe is 8-85mm, the wall thickness of metal filtration pipe is 1-5mm, described metal filtration pipe has 8-80, in cavity of resorption, the length of metal filtration pipe is 20-3000mm, distance between adjacent two metal filtration pipe outer walls is 1-500mm, and the distance between the metal filtration pipe outer wall of ragged edge and inner collector wall is 1-500mm.
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520138454.5U CN204545422U (en) | 2015-03-11 | 2015-03-11 | Hydronic metal-powder evaporation device for making |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201520138454.5U CN204545422U (en) | 2015-03-11 | 2015-03-11 | Hydronic metal-powder evaporation device for making |
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| CN204545422U true CN204545422U (en) | 2015-08-12 |
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| CN201520138454.5U Expired - Fee Related CN204545422U (en) | 2015-03-11 | 2015-03-11 | Hydronic metal-powder evaporation device for making |
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Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104722764A (en) * | 2015-03-11 | 2015-06-24 | 江永斌 | Cyclically-cooled metal powder evaporation preparation device |
| CN104923800A (en) * | 2015-06-01 | 2015-09-23 | 长沙市宇顺显示技术有限公司 | Crucible for preparing metal nanometer powder by using evaporation condensation method |
| CN110834090A (en) * | 2019-12-13 | 2020-02-25 | 黑龙江省科学院高技术研究院 | Metal powder shaping, refining and purifying device and method |
| WO2023082494A1 (en) * | 2021-11-12 | 2023-05-19 | 江苏博迁新材料股份有限公司 | Conductive material ultrafine powder preparation device |
| TWI820578B (en) * | 2021-01-25 | 2023-11-01 | 鐘筆 | Ultrafine powder particle aggregation cooling tube structure and method for forming ulterfine powder particle |
-
2015
- 2015-03-11 CN CN201520138454.5U patent/CN204545422U/en not_active Expired - Fee Related
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104722764A (en) * | 2015-03-11 | 2015-06-24 | 江永斌 | Cyclically-cooled metal powder evaporation preparation device |
| CN104923800A (en) * | 2015-06-01 | 2015-09-23 | 长沙市宇顺显示技术有限公司 | Crucible for preparing metal nanometer powder by using evaporation condensation method |
| CN110834090A (en) * | 2019-12-13 | 2020-02-25 | 黑龙江省科学院高技术研究院 | Metal powder shaping, refining and purifying device and method |
| TWI820578B (en) * | 2021-01-25 | 2023-11-01 | 鐘筆 | Ultrafine powder particle aggregation cooling tube structure and method for forming ulterfine powder particle |
| WO2023082494A1 (en) * | 2021-11-12 | 2023-05-19 | 江苏博迁新材料股份有限公司 | Conductive material ultrafine powder preparation device |
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| C14 | Grant of patent or utility model | ||
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| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150812 Termination date: 20170311 |
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| CF01 | Termination of patent right due to non-payment of annual fee |